The present invention, in some embodiments thereof, relates to a pelvis and to core muscles training device and methods, and more particularly, but not exclusively, to a pelvis exercise device and method which engage a continuous disruption of a user's stability being mounted on a movable seat.
Background art includes CN Patent No. 202761985 (U) that describes a “utility model discloses a swing bodybuilding chair.
The swing bodybuilding chair comprises a seat body and chair legs, wherein the upper ends of the chair legs are fixedly connected into a whole, an elastic device is connected between the lower end of the seat body and the upper ends of the chair legs, and grab handles are respectively arranged at two sides of the upper ends of the chair legs. Compared with the prior art, the swing bodybuilding chair is simple in structure, convenient to use, and low in cost. When the swing bodybuilding chair is used, a user sits on the seat body and holds the grab handles at two sides by hand, by means of the elasticity of a compression spring, the seat is enabled to swing between the left side and the right side through the applied force by the waist and the buttocks, and therefore the effects of effectively exercising the waist and the buttocks are achieved.”
DE Patent No. 4325109 (A1) that describes a “sporting appliance, which can be rolled autodynamically by a person from the inside, is used for sporting activity, rehabilitation and popular entertainment.
The external meridians 3, reinforced by latitudinal meridians 4, form the spheroidal exterior 1 and, at the same time, gaps 5 for sight and entry. The outside meridians 3 are connected to caps at the head part 6 and bottom 7. A standing platform 8 accepts rotatable foot supports 14. An annular hand-grip 10, a spring 11 and a telescope 12 constitute the force elements 2 in the sporting appliance, by means of which the person executes some of the shifts of central gravity.
The standing platform 8 is connected via a pedestal 9 to the bottom 7, via the telescope 12 and spring 11 with spring travel and telescopic travel, and via their axes of rotation 15, which is also the axis of the spring, in a longitudinally adjustable and rotatable manner.
The bottom gripping ring 16 can be connected to the exterior 1, for example at the bottom 7, to a number of exterior meridians 3 or to the lower latitudinal meridian 4 and can be used for propulsion and, in combination with the safety belt 13, for braking.”
U.S. Pat. No. 5,570,929 (A) that describes “an active dynamic seat has a base, a stiff intermediate piece linked to the base and a seating part linked to the intermediate piece.
The seating part is rigidly secured to the intermediate piece and the intermediate piece is mounted in such a way on the base that its central area can tilt in all directions and slide vertically. In addition, one or several restoring devices are arranged on the intermediate piece, in the area below the mounting point on the base, for restoring the tilting movement and at the same time the vertical displacement of the intermediate piece and the seating part.”
U.S. Pat. No. 4,099,697 (A) that describes “a stool-like seat for limited mobility of the user with a high action radius comprises a base formed with a ball socket and a post carrying the seating surface and provided with a ball receivable in the socket.
The post has a downwardly extending member engaging, within the base, a star-like array of tension springs which resist angular displacement of the post and bias the latter into a normal upright position.”
U.S. Pat. No. 5,524,967 (A) that describes “an active dynamic seat has a base, an intermediate piece linked to the base and a seating part linked to the intermediate piece.
The seating part is fixed to the intermediate piece and the intermediate piece is linked to the base by a single bearing in a substantially fixed manner in the vertical direction and in a tilting manner in all lateral directions. The tilting movement is limited in all directions by a stop and one or several restoring devices are provided to restore the unloaded intermediate piece to the vertical.”
Patent No. 101382413 (B) that describes “a horse riding device without power.
The horse riding device without power according to one embodiment of the present invention includes a support (1), an auxiliary tube (44), a vertical tube with a power plate (22), a connection unit (20), a hollow pipe (8), a hollow cylinder (9), a pair of grinding rods (11) facing each other, rollers (10), a connecting plate (18), a shaft (14), a saddle (36) having a pad (41), a spring (25), a pair of hangers (38), a string (39), a footrest (48), and a screw bolt (52).”
NL Patent No. 1017456 that describes a “chair or stool comprises at least one support column (2) which at its lower end is fitted on all sides to a support foot (1) and at its upper end is connected to a seat (3).
The connection between the support foot and the support column on the one hand and that between the seat and the support column on the other hand are each formed by a combination of a ball hinge (4a, 4b), around which is formed a ring-shaped spring body.”
U.S. Patent No. 2013045812 (A) that describes “a platform is provided, which platform is adapted to engage a base through a multiplicity of pulley engaging cables.
A first end of each cable is attached to a cam follower assembly located on the base and a second portion of the cable is attached to the platform. A motor driving the multiplicity of cams, cam followers, and cables will move the platform, the platform typically being suspended above the base on the cables or the cables and compression springs.”
KR Patent No. 100952310 (B) that describes “an exercising machine for strengthening waist is provided to strengthen leg muscular and the waist and to supply elastic force to a rotary upper plate in up and down motion and twist motion, and to prevent the dispersion of the center of gravity.
CONSTITUTION: An exercising machine for strengthening waist comprises: a fixing lower plate(100) which includes a plurality of non-slip stages and in which a cylinder is installed on the upper center of the fixing lower plate; a rotary upper plate(200) which is slid in the cylinder and is installed on the upper side of the fixing lower plate to buffer a load in contacting with the ground; a compressive elastic member(300) which is located on the cylinder upper part of the fixing lower plate and the outer circumference of the load of the rotary upper plate; and a tension elastic member(400) which is transformed when the rotary upper plate is twisted.”
U.S. Patent No. 2009318274 (A) that describes “a balance training device is provided having a body mounted on a flexible pedestal connected to a stable base. The pedestal includes a spring or other similar flexible connection. A user sitting on the body will use muscles of their legs and abdomen to maintain balance on the device.”
GB 190914900 (A) patent application that describes an “exercising-apparatus; rocking horses. In an amusement device which may also be used for instructing a person how to ride a horse, the seat has a motion similar to that of a restless horse and is put out of action when the person leaves the seat. A spindle b slides in a sleeve f, and the seat which is secured to the upper end of the rod is supported by a spring c. The sleeve is provided near its center with a ball shaped part i, which moves on ball bearings attached to the framework h. When the sleeve is tilted, it is restored to the vertical, by weights j and springs k.
A person taking a seat depresses the spindle b until its lower end engages projections e on a track d. When the spindle b and the track d are moved relatively to one another, the spindle seat is tilted to various angles.
According to the Provisional Specification, a light weight may be placed on the device to cause it to rock. By this means, a person will be able to learn to mount a horse while in motion.”
Additional background art includes DE Patent No. 10000247 (A1); FR Patent No. 2775193 (A1); U.S. Patent No. 2017/319892 (A1); U.S. Patent No. 2006/052222 (A1); U.S. Pat. No. 4,183,579 (A); WO 08034529A2 patent application; U.S. Pat. No. 6,644,742 (B); U.S. Patent No. 2008280741(A); and KR Patent No. 100786976 (B).
The present invention, in some embodiments thereof, relates to a pelvis and to core muscles training device and methods, and more particularly, but not exclusively, to a pelvis exercise device and method which engage a continuous disruption of a user's stability being mounted on a movable seat.
The following describe some examples of embodiments of the invention. Other embodiments are within the scope of the description, including embodiments in which only some of the features from one example are used.
Other embodiments are within the scope of the description, including examples in which some of the features are selected from two or more examples.
Following are some examples of some embodiments of the invention:
A pelvis exercising system comprising:
A pelvis exercising system according to example 1, wherein said vertical supporter is configured to support said seat above the ground at a height which is at least higher than 60 cm.
A pelvis exercising system according to examples 1 or 2, wherein said flexible connector is configured to bend to an angle of between 10 to 120 degrees in relation to a longitudinal axis of said vertical supporter in response to a certain force applied to said seat, wherein said certain force is selected from between 300 to 1200 (N).
A pelvis exercising system according to example 1, wherein said flexible connector comprises one or more springs located underneath said seat.
A pelvis exercising system according to example 1, wherein the length of said vertical supporter is longer than 60 cm.
A pelvis exercising system according to any one of examples 1-5, wherein said front portion comprises a length which is at most 25 cm.
A pelvis exercising system according to any one of examples 1-6, wherein said rear portion comprises a length which is at most 25 cm.
A pelvis exercising system according to any one of examples 1-7, wherein said front and rear portions are movable in relation to each other
A pelvis exercising system according to any one of examples 1-8, wherein said movable seat comprises at least two lateral portions, positioned on both sides of said central arch, wherein each of said lateral portions extends downwardly away from said arch.
A pelvis exercising system according to example 9, wherein each of said lateral portions is long enough to support a user's thigh.
A pelvis exercising system according to example 10, wherein said lateral portions are movable in relation to each other.
A pelvis exercising system according to any one of examples 1-11, wherein said system comprises a peripheral frame positioned around said movable seat, said frame supports one or more anchors.
A pelvis exercising system according to example 12, wherein said user is supported, at least in part, by said frame by one or more tensile elements which are connectable to the body of the user, said one or more tensile elements are further connected to said peripheral frame.
A pelvis exercising system according to example 13, wherein said one or more tensile elements comprises a rough surface.
A pelvis exercising system according to example 13, wherein said tensile element is connected to said peripheral frame by a connector assembly, wherein said connector assembly is operable to modify a length of at least one edge of said tensile element.
A pelvis exercising system according to any one of examples 1-15, wherein said movable seat is operable to incline in relation to the ground along bending of said flexible connector.
A pelvis exercising system according to claim 16, wherein said inclination is between 0° to 180°.
A pelvis exercising system according to example 17, wherein said inclination of said movable seat is actuated by at least one actuator associated with said seat and with said vertical supporter.
A pelvis exercising system according to any one of examples 1-15, wherein said movable seat is operable to rotate about said seat's longitudinal axis, wherein said rotation is clockwise and/or counterclockwise.
A pelvis exercising system according to example 19, wherein said rotation of said movable seat is actuated by at least one actuator associated with said vertical supporter.
A pelvis exercising system according to any one of examples 1-20, wherein said system includes one or more inertial sensors associated with said movable seat, said sensors are in data communication with a processing unit for analyzing user's usage data.
A pelvis exercising system according to example 21, wherein said usage data includes inclination and/or rotation of said movable seat.
A pelvis exercising system according to example 21, wherein said inertial sensors comprises an accelerometer, a gyroscope, and/or a combination thereof.
A pelvis exercising system according to any one of examples 1-20, wherein said system includes one or more pressure sensors associated with said movable seat, said sensors are in data communication with a processing unit for analyzing values which are indicative to deviation of weight which is applied on at least a portion of said seat.
A pelvis exercising system according to any one of examples 1-20, wherein said system includes one or more body sensors attached to the body and/or to a garment of the user, said sensors are in data communication with a processing unit for analyzing values of at least one physiological parameter.
A pelvis exercising system according to example 25, wherein said physiological parameter includes blood pressure, body temperature, neural activity level and/or a combination thereof.
A pelvis exercising system according to examples 1-20, wherein said system includes an image sensor which is in data communication with said processing unit, said image sensor detects the position and/or inclination of the body said user, said image sensor reconstructs an image of the selected part of the body of the user and/or seat by a computerized algorithm.
A pelvis exercising system according to any one of examples 21-27, wherein said processing unit controls activation of at least one actuator according to a computerized algorithm embedded therein, said actuator is associated with said seat and/or with said vertical supporter, said actuator is in data communication with said processing unit.
A pelvis exercising system according to example 28, wherein said system comprising one or more external devices, said external devices are in data communication with said one or more actuators and control activation thereof.
A pelvis exercising system according to any one of examples 1-29, wherein said system comprising a displaying unit for displaying user's usage parameters, said displaying unit includes a GUI.
A pelvis exercising system according to any one of examples 1-29, wherein said system comprising displaying inclination of said seat by a ball, wherein the movement of said ball is coupled to the movement of said seat by a peripheral channel which connects said ball with said seat.
A pelvis exercising system according to any one of examples 1-31, wherein said vertical support is interconnected to one or more retrieval springs, said springs rotates said vertical supporter back to a vertical supporter's resting position, by contracting back to a spring's resting length, wherein said one or more springs are configured so that there exists a force within the range of 10 to 350 N which, when applied to said seat, causes rotation of vertical said supporter of between 10 to 210 degrees in relation to said vertical supporter resting position.
A pelvis exercising method comprising:
mounting a user above the ground on a movable seat which is positioned in relation to the ground in a starting position;
A pelvis exercising method according to example 33, wherein said method comprises restricting movement of the pelvis of said user to a location between a front and a rear portions of said seat and allowing bending of said user's lower abdomen and/or back in relation to a sagittal plane of said user's body.
A pelvis exercising method according to any one of examples 33 to 34 comprising, supporting the body of the user by a peripheral frame, which surrounds said movable seat by one or more tensile element connectable to said frame and to a selected portion of the user's body.
A pelvis exercising method according to any one of examples 33 to 35 comprising, inclining and/or rotating said movable seat to a desired direction, said inclination and/or rotation is by the movements of the user's pelvis and/or core muscles.
A pelvis exercising method according to example 36 comprising inclining and/or rotating said seat by pulling an edge of one or more of said tensile element at a desired pulling direction.
A pelvis exercising method according to example 33 comprising collecting one or more usage parameters of said user's by one or more sensors and transmitting said collected data to one or more processing units.
A pelvis exercising method according to example 33 comprising:
A pelvis exercising method according to any one of examples 38-39 comprising analyzing said received data by said processing unit and displaying said analyzed data to the user.
A pelvis exercising method according to any one of examples 38-39 comprising analyzing said received data by said processing unit and moving said seat in relation to the ground by controlling activation of one or more actuators which are controlled by said processing unit.
A pelvis exercising method according to example 33, wherein said instructing includes exposing the user to one or more audible and/or visual signals.
A pelvis exercising method according to example 33, wherein said instructing includes at least one of:
instructing said user to move a portion of his body forward;
instructing said user to move a portion of his body backwards;
instructing said user to move a portion of his body laterally; and
instructing the user to rotate a portion of his body clockwise and/or counterclockwise.
A pelvis exercising method according to example 43, wherein said movement includes applying pressure on at least a portion of said seat by activating the user's pelvis and/or core muscles.
A method of traction of one or more joints within a user's body comprising:
A method according to example 45 comprising supporting at least one side of a selected joint by at least one tensile element and/or by said seat above the ground and applying forces on two sides of said joint, said forces being in different amounts and/or directions.
A method according to example 46 comprising pulling said at least one tensile element at a direction away from the user's body.
A pelvis exercising system including a seat, a vertical supporter which supports the seat above the ground, a flexible connector mounted between the vertical supporter and the seat, wherein: the flexible connector enables a swaying movement of the seat, and further including a locking prong configured to optionally lock front-to-back movement of the seat.
A pelvis exercising system according to claim 48 wherein said swaying movement of said seat is against resistance to movement from a rest position.
A pelvis exercising system according to any one of examples 48-49 wherein the swaying movement of the seat is atop the vertical supporter.
A pelvis exercising system according to any one of examples 48-50 wherein the swaying movement of the seat occurs above a halfway height between a floor and the seat.
A pelvis exercising system according to any one of examples 48-51 wherein a stiffness of the swaying is adjusted by adjusting a length which the flexible connector surrounds the vertical supporter.
A pelvis exercising system according to any one of examples 48-51 wherein a stiffness of the swaying is adjusted by adjusting a length which the vertical supporter surrounds the flexible connector.
A pelvis exercising system according to any one of examples 48-53 wherein the flexible connector enables side-to-side swaying of the seat, and the locking prong is configured to optionally lock side-to-side swaying of the seat.
A pelvis exercising system according to any one of examples 48-51 wherein the flexible connector enables forward and backward swaying of the seat, and the locking prong is configured to optionally lock forward and backward swaying of the seat.
A pelvis exercising system according to any one of examples 48-55 wherein the vertical supporter enables up-and-down movement of the seat.
A pelvis exercising system according to any one of examples 48-56 wherein the flexible connector enables up-and-down movement of the seat.
A pelvis exercising system according to any one of examples 48-57 wherein the vertical supporter enables clockwise and counter-clockwise rotation of the seat.
A pelvis exercising system according to example 58 wherein the clockwise and counter-clockwise rotation of the seat is performed against resistance by at least one spring.
A pelvis exercising system according to any one of examples 48-57 and further including a strut for manipulating the locking prong to optionally lock movement of the seat.
A pelvis exercising system according to example 60 and further including a back cushion connected to the strut for manipulating the locking prong to optionally lock movement of the seat.
A pelvis exercising system according to any one of examples 48-61 wherein the seat is saddle-shaped.
A pelvis exercising system according to any one of examples 48-62 wherein, the seat includes a front portion and a rear portion extending upwardly away from a central arch, each of the rear and front portions includes a length which is long enough to support a front portion and rear portion of the user's pelvis, while not significantly restricting the abdomen and lower back from bending in relation to a sagittal plane of the seat.
A method of pausing exercise on a pelvis exercising system, the method including exercising on a pelvis exercising system, and locking degrees of freedom of the system.
A method according to example 64 wherein the locking includes locking by a user leaning back, pushing back on a back strut.
A method of enabling a user to become accustomed to using a pelvis exercising system, the method including providing a pelvis exercising system, and providing a locking mechanism for a user to lock degrees of freedom of the system.
A method according to example 66 wherein the enabling the user to lock degrees of freedom includes enabling the user to lean back, pushing back on a back strut, thereby locking degrees of freedom of the system.
A method of locking a wobbly seat, the method including providing a wobbly seat, and providing a locking mechanism for a user to lock degrees of freedom of the wobbly seat.
A method according to example 68 wherein the locking includes locking by a user leaning back, thereby locking degrees of freedom of the wobbly seat.
A pelvis exercising system including a seat, a base, a flexible connector mounted between the base and the seat, and a sensor positioned to measure movement of the seat relative to the base, wherein the sensor provides measured values of the seat relative to the base to a processor, and the processor controls a device based on the measured values.
A pelvis exercising system according to example 70 wherein the device includes a plurality of sensors, positioned to measure each degree of freedom in the movement of the seat relative to the base.
A pelvis exercising system according to any one of examples 70-71 wherein the device includes a display, and the controlling the device includes displaying the movement on the display.
A pelvis exercising system according to any one of examples 70-72 wherein the device includes a display, and the controlling the device includes controlling position of a cursor on the display.
A pelvis exercising system according to any one of examples 70-72 wherein the device includes a display, and the controlling the device includes controlling game play in a game displayed on the display.
A pelvis exercising system according to any one of examples 70-72 wherein the device includes a display, and the controlling the device includes performing exercises in an exercise program displayed on the display.
Unless otherwise defined, all technical and/or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the invention pertains.
Although methods and materials similar or equivalent to those described herein can be used in the practice or testing of embodiments of the invention, exemplary methods and/or materials are described below. In case of conflict, the patent specification, including definitions, will control. In addition, the materials, methods, and examples are illustrative only and are not intended to be necessarily limiting.
As will be appreciated by one skilled in the art, some embodiments of the present invention may be embodied as a system, method or computer program product. Accordingly, some embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment (including firmware, resident software, micro-code, etc.) or an embodiment combining software and hardware aspects that may all generally be referred to herein as a “circuit,” “module” or “system.” Furthermore, some embodiments of the present invention may take the form of a computer program product embodied in one or more computer readable medium(s) having computer readable program code embodied thereon. Implementation of the method and/or system of some embodiments of the invention can involve performing and/or completing selected tasks manually, automatically, or a combination thereof. Moreover, according to actual instrumentation and equipment of some embodiments of the method and/or system of the invention, several selected tasks could be implemented by hardware, by software or by firmware and/or by a combination thereof, e.g., using an operating system.
For example, hardware for performing selected tasks according to some embodiments of the invention could be implemented as a chip or a circuit. As software, selected tasks according to some embodiments of the invention could be implemented as a plurality of software instructions being executed by a computer using any suitable operating system. In an exemplary embodiment of the invention, one or more tasks according to some exemplary embodiments of method and/or system as described herein are performed by a data processor, such as a computing platform for executing a plurality of instructions. Optionally, the data processor includes a volatile memory for storing instructions and/or data and/or a non-volatile storage, for example, a magnetic hard-disk and/or removable media, for storing instructions and/or data. Optionally, a network connection is provided as well. A display and/or a user input device such as a keyboard or mouse are optionally provided as well.
Any combination of one or more computer readable medium(s) may be utilized for some embodiments of the invention. The computer readable medium may be a computer readable signal medium or a computer readable storage medium. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any suitable combination of the foregoing. More specific examples (a non-exhaustive list) of the computer readable storage medium would include the following: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a random access memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or Flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.
A computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A computer readable signal medium may be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.
Program code embodied on a computer readable medium and/or data used thereby may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.
Computer program code for carrying out operations for some embodiments of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, Smalltalk, C++ or the like and conventional procedural programming languages, such as the “C” programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the latter scenario, the remote computer may be connected to the user's computer through any type of network, including a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider).
Some embodiments of the present invention may be described below with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer readable medium that can direct a computer, other programmable data processing apparatus, or other devices to function in a particular manner, such that the instructions stored in the computer readable medium produce an article of manufacture including instructions which implement the function/act specified in the flowchart and/or block diagram block or blocks.
The computer program instructions may also be loaded onto a computer, other programmable data processing apparatus, or other devices to cause a series of operational steps to be performed on the computer, other programmable apparatus or other devices to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide processes for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
Some of the methods described herein are generally designed only for use by a computer, and may not be feasible or practical for performing purely manually, by a human expert. A human expert who wanted to manually perform similar tasks, such as modifying a user's body postures, might be expected to use completely different methods, e.g., making use of expert knowledge and/or the pattern recognition capabilities of the human brain, which would be vastly more efficient than manually going through the steps of the methods described herein.
Some embodiments of the invention are herein described, by way of example only, with reference to the accompanying drawings and images. With specific reference now to the drawings and images in detail, it is stressed that the particulars shown are by way of example and for purposes of illustrative discussion of embodiments of the invention. In this regard, the description taken with the drawings makes apparent to those skilled in the art how embodiments of the invention may be practiced.
In the drawings:
The present invention, in some embodiments thereof, relates to a pelvis and to core muscles training device and methods, and more particularly, but not exclusively, to a pelvis exercise device and method which engage a continuous disruption of a user's stability being mounted on a movable seat.
Overview
An aspect of some embodiments of the invention relates to causing a user to use his pelvis and/or his core muscles for balancing his body while being supported by a movable seat. Optionally, the seat has a saddle shape. Optionally, the seat is sized and shaped to support the user's pelvis region while the user straddling the seat.
In some embodiments, the movable seat may be adjusted, for example with regard to size and its shape to change the engagement of the seat with the user. Optionally, such change is used to change the location and/or force of contact between the seat and the user's body, for example according to the size of the user's body and/or according to a therapeutic or a training program.
In some embodiments, the movement of the seat includes inclination and/or rotation. Optionally, the movement is caused by the user which applies force using his pelvis, thighs and/or core muscles on a selected portion of the seat. Optionally or alternatively, the movement is caused or otherwise meditated by one or more actuators positioned externally or integral with portions of the pelvic training device (PTD).
In some embodiments of the invention, the seat inclines and/or rotates without significant translational movement. For example, the saddle point of the seat moves less than 30 cm, less than 20 cm or intermediate amounts during an inclination of 60 degrees and/or during a rotation of 90 degrees. Optionally, a hinge point for the seat is located within 30 cm, 20 cm, 10 cm or intermediate distances of the saddle point of the seat.
Optionally or alternatively, the seat inclines and/or rotates along with an additional translational movement component. For example, the saddle point of the seat may move laterally to a distance between 0 and 30 cm, optionally, to a distance between 0 and 20 cm, optionally, to a distance between 0 and 10 cm or intermediate distances in relation to a resting position thereof.
In some embodiments, the movable seat has a low profile, which is defined by a low frontal and rear walls and optionally selected to avoid interfering with flexing of the user's trunk. Optionally, the highest edge of the seat (in relation to the ground) does not exceed the height of the pelvis bones, such that the abdomen and lower back of the mounted user are free to be bend in relation to a sagittal and/or in relation to a frontal plane of the user's body.
In some embodiments, the user is supported by the seat and his feet are not supported by or rested on any surface. In some embodiments, the user is supported above the ground at a height which is between 60 cm to 140 cm.
In some embodiments, the user is supported at a height which is between, for example, 60 to 80 cm, 80 to 90 cm, 90 to 100 cm, 100 to 110 cm, 110 to 120 cm, 120 to 130 cm, 130 to 140 cm, and/or 100 to 150 cm and/or intermediate or greater heights above the ground.
In some embodiments of the invention, restriction of contact between feet and the ground is by supporting the seat on a vertical supporter, which extends from a base or from the floor and having a length which is longer than the length of the user's legs.
In some embodiments, the vertical supporter supports the seat above the ground at a height which is at least higher than 60 cm.
A potential advantage of restricting the user's feet from touching the ground is preventing user posture control by applying force to the ground (e.g., as in regular, standing, posture). Such preventing may force the user to use mainly his thighs, pelvis and/or other core muscles to stabilize himself while being seated on the seat.
In some embodiments, the user is supported at various body inclinations in relation to the ground, which are followed by inclination of the movable seat. Optionally, the inclinations include a lateral tilt (e.g., to the left or to the right) and/or a frontal/rear tilt.
In some embodiments, the seat is supported at an inclined position using a flexible connector, for example a spring, optionally positioned underneath the movable seat and which interconnects the seat and the vertical support. Optionally, the spring is configured to bend in any direction in relation to the ground.
In some embodiments, rotation of the movable seat includes a clockwise and/or a counterclockwise rotation. Optionally, the rotation is by rotation of the vertical supporter, which optionally may rotate about its longitudinal axis. Optionally, rotation of the seat is by rotation of the flexible connector (e.g., a spring and/or a joint) and/or by a combined rotation of the flexible connector and the vertical supporter.
In some embodiments, the movements are preformed according to a training and/or according to a therapeutic protocol.
An aspect of some embodiments of the invention relates to exercising a user's skeletal and/or core muscles, by supporting his body above the ground by one or more support means. In some embodiments, the support means are positioned at one or more locations around the user's body. In some embodiments, the support means include a movable seat which is positioned underneath the user and additional one or more tensile elements (e.g., straps).
In some embodiments, one or more straps are mounted on (e.g., tied around) one or more portions of the user's body and are further connected to one or more peripheral anchoring point(s). Optionally, the anchoring points are located at different locations on a peripheral frame which surrounds the mounted user. In some embodiments of the invention, one or more straps are held by the user.
In some embodiments, the user may voluntary incline his body to a desired inclination angle by pulling a desired strap in a desired pulling direction. Optionally or alternatively, the body of the user may be inclined involuntary, e.g., following movements of components in the pelvic training device (PTD). In some embodiments of the invention, movement is due to seat movement. Optionally or additionally, movement is due to a change in length or elasticity of a tensile element (e.g., shortened by a motorized actuator or allowed to extend by releasing a blocking actuator). In some embodiments, inclination of the user's body may be beneficial for training the user and/or strengthening at least some muscles of his body.
In some embodiments, the mounted user may be rotated following rotation of a vertical supporter and may be pulled to one or more directions, following pulling of a selected strap, such that the user is enforced to stabilize himself on the movable seat at various movement patterns.
In some embodiments, supporting a user by the additional tensile elements may be advantageous in allowing a large inclination angles and/or along fast rotational movement which may enable training different muscles at different training difficulties. Optionally or alternatively, supporting a user by the additional tensile elements may be advantageous in allowing inclining at precise inclination angles and/or along slow rotational movement which may enable training different muscles at different training difficulties.
An aspect of some embodiments of the invention relates to exercising a user's skeletal and/or core muscles using real-time guidance. Optionally, the real time guidance includes directing the user to perform selected movements, for example by inclining his body while sitting on a movable seat. In some embodiments, the real-time guidance comprises acquiring body motion data by one or more sensors. Optionally, the sensors detect usage data from the user's body. Optionally, usage data includes movement patterns such as inclinations and/or rotations of the movable seat. Optionally or alternatively, usage data includes pressure applied by portions of the user's body on the seat. Optionally, usage data is detected by sensing motions of components of the pelvic training device (PTD). In some embodiments, the detected data is analyzed. Optionally, the data is displayed.
In some embodiments, the acquired data includes movement parameters (applied by the mounted user) such as directions and/or distances (such as centimeters or millimeters) and/or velocities (e.g. centimeters per second) and/or inclination angles (e.g. from 0 to 180 degrees) detected by motion sensors. Optionally, the acquired data includes pressure parameters (applied by the mounted user) such as pressure intensity, frequency by one or more pressure sensors. Optionally, the acquired data includes physiological parameters such as blood pressure, body temperature, and/or neural activity level.
Optionally, the acquired data is detected by an image sensor (e.g., a camera), which monitors the motions of the user.
In some embodiments, the acquired data is transmitted to a processing unit, which processes the acquired data and transmits signals to a displaying unit, such analysis may be performed by an embedded control software.
In some embodiments, the data (e.g., acquired, processed and/or guidance) is displayed by a graphical user interface (GUI) on a screen. Optionally or alternatively, data is transmitted to the user by a visual and/or by an audial and/or by a vibrational signaling, and/or by combination thereof.
An aspect of some embodiments of the invention relates to traction of one or more joints within the user's body. Optionally, traction is provided by modifying the posture of the mounted user when sitting on a movable seat. In some embodiments of the invention, the traction includes modifying the relative orientation and/or the gap between corresponding bones within one or more joints of the user's body in relation to each other. Optionally, such modification includes coupling one or more straps to one or more portions of the user's body. Optionally, the body of the user is pulled to one or more directions.
In some embodiments of the invention, traction is provided by the forces on two sides of a joint being in different amounts and or directions, for example, gravity acting in one direction and a strap in another. Optionally, the method of support of the user (not by his feet) allows part of the weight of the user to apply such a force.
Optionally, pulling is initiated and/or controlled by the user which pulls a strap to a desired direction, and move his body towards the pulling direction. Optionally or alternatively, pulling is by one or more actuators (such actuators may be motorized), which are connected to the straps that may pull the user by the straps to a desired directions.
Potential benefits of joint traction includes promoting blood circulation within the joints, rehabilitation of defective joints and/or improving neural activity within the joints and/or in tissues near the joint (e.g., within 10 cm of the joint).
In some embodiments, the pelvic training device (PTD) and/or system described herein is used for therapeutic applications such as physiotherapy and/or rehabilitation and/or bone fractures and/or joints injuries and/or ligaments/tendon injuries.
In some embodiments, the pelvic training device (PTD) and/or system described herein is used for non-therapeutic applications such sport and/or fitness exercises.
In some embodiments, the pelvic training device (PTD) and/or system described herein is used for cosmetic applications which involve re-shaping of one or more areas of the user's body.
An aspect of some embodiments of the invention relates to a seat which is configured to move side-to-side and/or front-to-back and/or rotate, relative to a base of the seat.
Such movement potentially causes a user to exercise abdominal muscles and/or core muscles to find a stable seating position.
In some embodiments degrees of freedom of movement of the seat relative to the base of the seat include one or more of:
Side-to-side swaying;
Forward-and-backward swaying;
Side-to-side or clockwise-and-counterclockwise rotation; and
Up-and-down-bouncing.
In some embodiments, the movement in any one or more of the degrees of movement is optionally against resistance, for example movement against resistance of a spring.
Such movement potentially causes a user to balance on the potentially shifting seat, and find a healthy seating position.
In some embodiments, the seat can optionally bounce up-and-down, potentially adding to the exercise aspect.
In some embodiments, the seat can be locked from movement relative to the base of the seat, providing stability when needed.
In some embodiments, the seat can be locked by the user leaning back against a back cushion.
In some embodiments, controls are provided to enable each one of the degrees of freedom of movement described above.
In some embodiments, a separate control is provided to enable locking and unlocking each one of the degrees of freedom of movement described above separately.
In some embodiments, a control is provided to optionally enable locking and unlocking more than one of the degrees of freedom of movement described above together.
In some embodiments, one or more sensors are provided to enable measuring movement at one or more of the degrees of freedom of movement described above.
In some embodiments the seat enables a user to sit with the pelvic joints straight, or bent at an angle.
An aspect of some embodiments of the invention relates to a seat which is configured to move side-to-side and/or front-to-back relative to a base of the seat.
In some embodiments, the seat performs a swaying or wobbling movement atop a stiff support. The swaying movement optionally occurs nearer the seat bottom than the floor. In some embodiments the movement is a movement of a seat swaying atop a post, rather than a seat rigidly connected to a post which sways at its bottom, near the floor.
In some embodiments, a flexible connector or spring is attached to a seat, extending down, and connected to a vertical support or post. In some embodiments, the flexible connector surrounds a top portion of the vertical support. The portion of the flexible connector surrounding the top portion of the vertical support cannot sway much, if at all. A portion of the flexible connector extending above the top portion of the vertical support can sway flexibly.
In some embodiments, an amount by which the flexible connector extends above the top portion of the vertical support can be adjusted. The adjustment potentially adjust a stiffness of the swaying, and/or potentially adjusts a range of motion of the swaying, as expressed in degrees from a central position, or as expressed in centimeters from the central position.
An aspect of some embodiments of the invention relates to using sensors to measure movement of the seat along one or more of the degrees of freedom which the seat can move, and using values thus measured in a computer application.
Re-enumerating the degrees of freedom listed above, the degrees of freedom of movement of a seat according to some embodiments include one or more of:
Side-to-side;
Forward-and-backward;
Side-to-side or clockwise-and-counterclockwise rotation; and
Up-and-down.
It is noted that 4 degrees of freedom are listed above.
In some embodiments, the sensors send values measured for movement along one or more of the degrees of freedom to a processor, and the processor optionally uses one or more of the values.
Some uses for the sensor values include:
a) Controlling movement of a cursor on a display.
b) Controlling movement of a game control on a display, potentially enabling playing a game.
It is noted that the above-mentioned four degrees of freedom potentially enable controlling a display in one, two, three or four dimensions (by way of a non-limiting example including time as a dimension).
By way of a non-limiting example, playing Pong, which requires controlling movement of a paddle along one dimension, can be done by associating side-to-side movement, or forward and backward movement, to movement of a paddle used in the game.
By way of a non-limiting example, controlling a kayak simulation game, for example by rotating the seat to control the direction of the simulated kayak, and leaning sideways to control a weight of a simulated paddler in the simulated kayak
By way of another non-limiting example, controlling a snow ski simulation game, for example by rotating the seat to control the direction of the simulated skis; leaning sideways to control a sideways leaning of a simulated skier on the simulated skis; leaning forward or backward to control forward and backward lean, and moving, or bouncing, up and down on the seat to simulate jumping or skiing over moguls.
c) Controlling movement of a device movement in at least one, two, three or four degrees of freedom.
d) Tracking a user's movement on the seat. Such tracking can sense changes in a user's posture. In some embodiments, a display displays one or more measures of the user's posture to the user. In some embodiments, the user is additionally displayed desired values, and asked to perform exercise on the seat so as to reach the desired values.
Before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not necessarily limited in its application to the details of construction and the arrangement of the components and/or methods set forth in the following description and/or illustrated in the drawings and/or the Examples. The invention is capable of other embodiments or of being practiced or carried out in various ways.
The following exemplary embodiments describe, inter alia, a pelvic training device (PTD) comprising a movable seat which is sized and shaped to house a pelvis region of a mounted user. In some embodiments, the seat is elevated above the ground to a height which is at least longer than the length of the mounted user's leg.
In some embodiments, the device defines a sagittal plane and a frontal plane. Optionally, the seat can incline in a sagittal and/or in a frontal direction. Optionally, the seat may rotate about its longitudinal axis, for example by rotation of a vertical supporter which supports the seat and which is further operable to rotate clockwise and counterclockwise in relation to the seat's longitudinal axis. In some embodiments, the seat is connected to the vertical supporter by a spring. Optionally, the spring is bendable at any direction. Optionally, the spring may twist about its longitudinal axis (which is parallel to the seat's longitudinal axis).
In some embodiments, movements are transmitted from the mounted user's body, through the seat to the vertical supporter and to the bendable spring. For example, when the user voluntary and/or involuntary applies pressure or moves his body towards a certain direction.
Optionally, movements are transmitted through the vertical supporter and through the spring to the seat, for example following rotation of the vertical supporter and/or following bending/twirling of the spring.
In some embodiments, because a contact between the mounted user's feet and the ground is restricted, the user is forced to stabilize himself on the seat by his pelvis and/or by his core/skeletal muscles. In addition, and while said seat moves, said self-stabilization is required at various inclinations of the user's body in relation to the ground which further leads to pelvis and core/skeletal muscles training.
In some embodiments, the user may use one or more tensile elements, e.g., supporting straps, which are connectable to his body, which are further connected to external anchoring locations around his body, to stabilize himself on the seat. Such supporting straps may enable inclinations of the user at a wide range of angles while not slipping off the seat (comparing to an inclinations without such additional straps), which may help to train the user at a wide range of movements as part of a training/therapeutic protocol.
Referring to the drawings,
Optionally, seat 101 is mounted by a flexible connector 102, for example a spring (or by more than one spring) on a vertical supporter 103. Optionally, spring 102 supports movement of seat 101 relative to other parts of system or relative to the ground. Optionally, spring 102 connects seat 101 to a vertical supporter 103.
In some embodiments, pelvic training device (PTD) 100 includes one or more anchoring locations 112 (e.g., barbs and/or hooks), optionally surrounding seat 101. In some embodiments, anchors 112 are mounted to or integral with a peripheral ring 114. In some embodiments, device (PTD) 100 includes one or more straps 113 connectable to anchoring locations 112 which are further connectable to the user's body.
In some embodiments, pelvic training device (PTD) is made for adult users. Optionally, each part of the device can bear a weight of, for example, 0-350 kg, 0-150 kg, 150-200 kg, 200-300 kg and 300-350 kg static or dynamic, without breaking and/or plastically deforming.
In some embodiments, each part of pelvic training device (PTD) 100 can bear loads for example of between 0 to 3500 N, 0-1500 N, 1500-2000 N, 2000-3000 N and 3000-3500 N without breaking and/or plastically deforming.
In some embodiments, seat 101 is saddle shaped. Optionally the seat comprises one or more convex portions (e.g., portions 440 and 450 at
In some embodiments, seat 101 includes a central arch (e.g., portion 410 at
In some embodiments, the distance between the front and rear convex portions is long enough to house the pelvis of the user. Optionally, the distance is at most 40 cm. optionally or alternatively, the distance is at most 35 cm, 30 cm.
Optionally, the distance is between 20 cm to 40 cm. optionally, the distance is between 20 cm to 35 cm. optionally, the distance is between 20 cm to 30 cm.
In some embodiments, user 111 is mounted on a top portion of the seat (which faces upwards) with his legs spread apart from each other.
In some embodiments, the height of seat 101 above the ground is defined by the length of vertical supporter 103, said seat 101 is mounted on a distal end (in relation to the ground) of the vertical supporter 103.
In some embodiments of the invention, user 111 (shown for example, at
In some embodiments, seat 101 has a fixed size and/or shape. Optionally or alternatively, as shown for example at
In some embodiments, flexible connector (e.g., spring) 102 may be bent in relation to the ground and/or in relation to vertical supporter 103 following force which is applied on seat 101. In some embodiments, the inclination of spring 102 may be at any positive or negative inclination angle in relation to a sagittal/frontal plane of pelvic training device (PTD) 100 and/or in relation to a sagittal/frontal plane of the user's body. In some embodiments, inclination is between 0 to 180 degrees. In some embodiments, inclination to about 180 degrees may be advantageous in forcing the user to activate additional muscles as part of the wide range movement. In some embodiments, such a wide range of movement is by supporting portions of his body (e.g., legs and/or hands) to additional straps.
Optionally, said inclination is between 0 to 150 degrees. Optionally or alternatively, said inclination is between 0 to 90 degrees. In some embodiments, inclination between 0 to 90 degrees may be advantageous in training the user to perform small range movements (e.g., movements that requires pelvis movements within 10, 15, 20 degrees while being inclined) to increase precise and control of his muscle. Optionally or alternatively, the inclination is between 0 to 75 degrees. Optionally or alternatively, the inclination is between 0 to 50 degrees. In some embodiments, inclination is between 0 to 25 degrees, or at any angle between 0 to 180 degrees.
Here are definitions of coordinate systems, which may be used to explain some embodiments of the invention:
In some embodiments, pelvic training device (PTD) 100 is divided into a frontal part (which supports the front portion of the user's pelvis), lateral parts (which supports the pelvis and thighs of the user) and a rear part (which supports the rear portion of the user's pelvis).
Optionally, pelvic training device (PTD) 100 is divided by a frontal plane, which divides pelvic training device (PTD) 100 to the frontal and the rear parts. Optionally, pelvic training device (PTD) 100 is divided by a sagittal plane that divides pelvic training device (PTD) 100 to the lateral (left and right) parts.
In some embodiments, the frontal and the sagittal planes are perpendicular in relation to each other.
In some embodiments, said frontal and sagittal plans divide the user's body at the same manner, namely the sagittal plane divides the user's body to a left and right parts and the frontal plane divides the user's body to a frontal part and to a rear part.
In some embodiments, movements of seat 101 include inclination and/or rotation or combination of such movements. Optionally, movements are initiated by user 111, or by activation of one or more actuators 117 (for example by an electric motor). In some embodiments, the actuators may be mounted to or integral with one or more parts of pelvic training device (PTD) 100, for example, with vertical supporter 103, peripheral frame 114, spring 102 and/or with seat 101. In some embodiments, the actuators are operable to cause movements of one or more parts of pelvic training device (PTD) 100 in relation to the rest of device 100. In some embodiments, actuators 117 are powered by one or more of electricity and/or pneumatic and/or hydraulic pressure.
In some embodiments, seat 101 may rotate following rotation of vertical supporter 103 which may rotate about a bearing, for example bearing 104. Optionally, vertical supporter 103 may rotate following activation of actuator 117.
Optionally, bearing 104 is positioned at a lower portion of vertical supporter 103, and is further connected to base 115 of pelvic training device (PTD). Optionally, bearing 104 is positioned at an upper portion of vertical supporter 103, and is further coupled to spring 102 or directly to seat 101 itself (as illustrated for example at
In some embodiments, actuator 117 is controlled by a control signal, provided, for example, by a controller (e.g., control unit) 118.
In some embodiments, the control signal is a wireless signal, which is optionally transmitted from a remote control unit (e.g., units 121, and/or 122, and/or 123, shown for example, at
In some embodiments of the invention, control software may be used to control one or more movement of seat 101, rotation of vertical supporter 103, elongation and/or shortening of straps 113 and/or bending of spring 102.
In some embodiments, the control software is optionally software which runs on a user's personal computer and/or on a user's mobile device, such as a smart phone or tablet.
In some embodiments, connector 102 comprises two or more segments having a degree of movement freedom in relation to each other. In some embodiments, the joint is positioned underneath seat 101, wherein at least one end of the joint is connected to seat 101 and at least a second side of the joint is connected to vertical supporter 103. In some embodiments, connector 102 couples seat 101 with vertical supporter 103. In some embodiments, joint 102 is a multidirectional joint, operable to allow movement at multiple axial (e.g., X, Y and Z) directions and in relation to the sagittal and/or to the frontal planes of pelvic training device (PTD) 100.
In some embodiments, connector 102 is configured to bear a weight of an adult user without undergo a plastic deformation.
Vertical Supporter:
In some embodiments, vertical supporter 103 is mounted perpendicular to a base 115. In some embodiments, seat 101 is mounted directly on vertical supporter 103.
Rigidness: In some embodiments, vertical supporter 103 is formed of a rigid material, such as a polymer and/or metal or combination thereof. Optionally, vertical supporter 103 is rigid enough to bear a weight of an adult user without bending or breaking. For example, vertical supporter 103 may bend up to 10 degrees without breaking at a static weight of up to 350 kg.
Length: In some embodiments, vertical supporter 103 has a length which is longer than the length of an average adult leg (e.g., between 60 to 140 cm).
In some embodiments, vertical supporter 103 supports seat 101 above the ground at a height which is at least higher than 60 cm. Optionally or alternatively, at a height which is at least higher than 70 cm. Optionally or alternatively, at a height which is at least higher than 80 cm. Optionally or alternatively, at a height which is at least higher than 90 cm. Optionally or alternatively, at a height which is at least higher than 100 cm.
In some embodiments, vertical supporter 103 may have a length between 30 cm to 140 cm, for example, between 30 cm and 100 cm and/or between 100 cm and 140 or at any intermediate length between them or a greater or smaller length.
Optionally or alternatively, the length of vertical supporter 103 is adjustable. For example, vertical supporter 103 may be segmented into one or more pieces assembled as a telescopic assembly (shown for example at
In some embodiments, one or more retrieval springs 105 extends between vertical supporter 103 and a portion of base 115. Optionally, by the retrieval springs 105 vertical supporter 103 is maintained at and/or returned to a resting position thereof following rotation thereof.
Optionally, two retrieval springs 105 are connected perpendicularly to vertical supporter 103 at opposite sides of vertical supporter 103 and pull vertical supporter 103 in an opposite directions, with a stable resting position defined thereby.
In some embodiments, base 115 affixes pelvic training device (PTD) 100 to a fixed location on the ground, for example by one or more anchors such as screws and/or barbs attached to a portion thereof which faces the ground.
In some embodiments, base 115 comprises one or more pairs of supporting frames 128 which are aligned horizontally to the ground. Optionally, each of supporting frames 128 has a rectangular shape. In some embodiments, each frame 128 comprises a pairs of long parallel shafts 122 which are positioned perpendicular to vertical supporter 103 and parallel to the ground. Optionally, shaft 122 which faces the ground comprises a friction enhancement means at the ground facing side thereof, for example a rubber and/or a sticky element and/or one or more anchoring barbs, by which stability of the base of the pelvic training device (PTD) on the ground is maintained.
Optionally, base 115 has a characterizing weight and a center of mass. Optionally or alternatively, the characterizing weight is heavier than the combined static or dynamic weights of the mounted user, vertical supporter 103 and seat 101, thereby supports the pelvic training device (PTD) perpendicular to the ground. In some embodiments, the characterizing weight is high enough for maintaining vertical supporter 103 perpendicular to the ground, or at most to be inclined ±5° in relation to the ground, for example during rocking of the device when being used.
In some embodiments, the characterizing weight restricts the position of a center of mass of the combination of mass of pelvic training device (PTD) 100 and the mass of the mounted user to a location closer to base 115 than to the mounted user. Such restriction may be advantageous in stabilizing the overall device and mounted user, as the user sits on movable seat 101 with his body inclined. In some embodiments, base 115 is designed for supporting a mass of pelvic training device (PTD) 100 and of mounted user 111 having a maximum weight of up to 350 kg static or dynamic.
Peripheral Frame:
In some embodiments, pelvic training device (PTD) 100 comprises frame 114 which surrounds seat 101.
In some embodiments, peripheral frame 114 supports one or more anchors 112, by which one or more straps 113 are connectable to frame 114.
In some embodiments, anchor 112 may comprises a groove and/or a peg and/or a ring and/or a hook through/by which strap 113 is connected.
In some embodiments, frame 114 is made of a single shaft. Optionally, the shaft is bendable to form a closed shape. Optionally, the user may incline his body freely to any direction within the perimeter of the frame without contacting the frame.
In some embodiments, frame 114 is comprised of more than one segments. In some embodiments, the segments are connected to each other. Optionally or alternatively, the segments are not connected to each other.
Optionally, frame 114 is positioned parallel to the frontal plane of pelvic training device (PTD). Optionally, the frame is perpendicular to the sagittal plane of the pelvic training device (PTD). Optionally, frame 114 is positioned perpendicular to the frontal plane of pelvic training device (PTD). Optionally, the frame is parallel to the sagittal plane of the pelvic training device (PTD). Optionally, frame 114 is positioned at an angle in relation to the frontal and/or sagittal plane of pelvic training device (PTD).
Optionally or alternatively, frame 114 is rotatable in relation to the frontal and/or sagittal plane of pelvic training device (PTD).
In some embodiments, frame 114 is rigid. Optionally, frame 114 comprises one or more rigid materials therein, for example metals, and/or metal alloys and/or polymeric materials and/or combination thereof.
Optionally, frame 114 is strong enough to bear the weight of an adult user. For example by one or more anchors by which the user is supported, without bending or breaking. Optionally, frame 114 may bear a weight of up to 350 Kg without breaking.
In some embodiments, frame 114 is bendable. For example, frame 114 may bend up to 10 degrees without breaking at a weight of up to 350 kg. In some embodiments, frame 114 may be attached to a wall, for example by one or more screws-type fasteners and/or may be welded to a wall.
In some embodiments, at least a portion of peripheral frame 114 is connected to a stable position, optionally to base 115 by a connector 116. Optionally, connector 116 comprises a screw-type fastener.
In some embodiments, pelvic training device (PTD) 100 includes one or more straps 113 connectable to frame 114. Optionally, straps 113 hung from one or more locations at frame 114. In some embodiments of the invention, straps 113 are connectable to one or more locations of the user's body.
In some embodiments, strap 113 is strong enough to bear the weight of an adult user without tear. In some embodiments, straps 113 has an adjustable length. Optionally or alternatively, straps 113 are non-elastic. Optionally or alternatively, straps 113 are pliable. In some embodiments, straps 113 are made of a soft material. In some embodiments, straps 113 may be coupled around a portion of user's 111 body. For example, strap 113 may be wrapped around the body of user 111. Optionally, straps 113 may be tied to the hands or to other parts of the user's body.
In some embodiments, connection of straps 113 to a selected portion of user's 111 body may be advantageous for assisting user 111 to stabilize himself when mounted of movable seat 101. For example, when user 111 is inclined at an angle in relation to vertical supporter 103, user 111 may hold a selected portion of strap 113 and lean his body while remain stable on seat 101. In some embodiments, user 111 may lean his body while being supported by one or more straps 113 to an angle which is larger than 90° in relation to its longitudinal axis (frontal and/or rear and/or lateral or at any inclination direction there between).
Optionally, the user may exercise at various inclinations by activating muscles at different inclinations at various strength levels.
In some embodiments, pelvic training device (PTD) 100 comprises one or more sensors. In some embodiments, the sensors collect data about a user's usage data of the device. In some embodiments, said usage data includes movement parameters of one or more elements of the pelvic training device (PTD). In some embodiments, usage data includes pressure parameters, for example amount of pressure which is applied by one or more portions of the user's body on one or more portions of pelvic training device (PTD) 100. In some embodiments, the usage data includes a combination of pressure parameters and user's movement parameters.
In some embodiments, the movement parameters are collected by inertial sensors such as a gyroscope and/or accelerometer or by a combination thereof.
In some embodiments, movement parameters includes rotational speed and/or rotation direction of elements of the pelvic training device (PTD).
Optionally, movement parameters includes inclinations of elements of the pelvic training device (PTD) in relation to each other or in relation to the ground. In some embodiments, movement parameters are collected by one or more magnetometers which are integral with the seat.
In some embodiments, said usage data includes movement of portions of the mounted user's body in space. In some embodiments, said usage data includes movement of portions of the mounted user's body in relation to portions of pelvic training device (PTD) 100 for example in relation to the seat 101 or to vertical supporter 103). In some embodiments, such movement includes rotational speed and/or rotation direction.
In some embodiments, said usage data includes pressure applied on one or more portions of seat 101 and/or on spring 102 and/or on vertical supporter 103.
In some embodiments, the sensor(s) are connectable to the body of the mounted user, for example to his head, and/or to his pelvis and/or to his truck or limbs.
Optionally, usage data is collected by sensors which are mounted on or integral with components of the pelvic training device (PTD). For example by sensors which are coupled to the vertical supporter 103, to seat 101 and/or to spring 102.
In some embodiments, each of said sensors comprises an ID, which is assigned for example for each sensor by a processing unit. In some embodiments, the acquired data is analyzed by a computerized algorithm which is stored in control/processing unit 118. Optionally, processing unit 118 is in data communication with each of the sensors. Optionally, the acquired data is analyzed. In some embodiments, said analysis includes translation of data which is collected by the sensors for identification of usage parameters. Optionally, the data is displayed.
In some embodiments, the processing unit 118 is optionally a user's personal computer and/or a user's mobile device, such as a smart phone or tablet.
Body Sensor:
In some embodiments, pelvic training device (PTD) 100 comprises one or more body sensors 124 configured to detect physiological parameters, such as body temperature, blood pressure and/or neural activity. Optionally, the body sensors are applied on the user's body (e.g., directly on the skin and/or garment). Optionally, a collected data of at least one physiological parameters may be transmitted to control unit, e.g. control unit 118. Optionally, a collected data of at least one physiological parameters may be transmitted through seat 101 (e.g., by sensors at the surface of the seat which are in contact with the user's body and/or garment).
In some embodiments, the collected physiological parameters may serve as an input for processing unit 118 for example for controlling movements of one or more parts of pelvic training device (PTD) 100. In some embodiments, the input (e.g., which may be transmitted to the processing unit in a characteristic form, such as signal pattern intensity) may use to control movement (e.g., by activating actuators) of one or more components of pelvic training device (PTD) 100. Optionally, movement (e.g., activation/deactivation) of at least a portion of pelvic training device (PTD) 100, e.g. seat 101 and/or vertical supporter 103 may be controlled by signals which are transmitted from control unit 118 according to a control algorithm which is stored in processing unit 118.
Optionally, the received signal may be converted by processing unit 118 to activation signal of one or more actuators
In some embodiments, body sensor 124 comprises an electroencephalography sensor 124. Optionally, the sensor is attached to the head of user 111.
Optionally, electroencephalography sensor 124 detects neural activity of the user's brain, and converts such activity to an electric signal which is transmitted to control unit 118.
In some embodiments, pelvic training device (PTD) 100 comprises one or more image sensors. In some embodiments, the user's usage parameters are detected by image sensor 126 which is configured to for obtaining one or more visual reference points, for example of one or more portions of the mounted user's body and of seat 101. Optionally, image sensor 126 is configured for obtaining visual reference points including of the location of the user's body and the location of peripheral frame 114 and/or the location of vertical supporter 103.
In some embodiments, seat 101 houses one type of sensors (e.g., inertial or pressure or magnetic sensors). Optionally or alternatively, seat 101 houses several types of sensors, e.g., a motion sensor and/or a pressure sensor which may be incorporated in different parts of seat 101.
Optionally, such sensors arranged at a surface of seat 101 at multiple points. Optionally, the sensors arranged as a “sensing surface”, for example sensing surface 125 as exemplified at
Optionally, the amount of detected pressure and/or movement velocity/direction is displayed to the user for example on a screen. For example, on a screen of a remote device such as a screen of a mobile phone (e.g., element 122 at
In some embodiments, a signal is transmitted from processing unit 118 which is in data communication with a speaker. Optionally, the speaker produces audio signals according to electric signals received from processing unit 118, said audio signals are detectable, by user 111.
In some embodiments, signals received from processing unit 118 by the speaker may include usage instructions to the user, for example according to movements of the seat and/or pressure which is applied on the seat and may be translated into a characterizing sound.
Displaying of usage parameters may be advantageous in providing a real time feedback and/or guidance to user 111 during the usage of pelvic training device (PTD) 100.
Another advantage of displaying the data is that the displayed data may be useful for diagnostics of the usage manner of the pelvic training device (PTD) by the user and deduction of the occurrence of certain physical condition(s) of user 111, for example by an embedded algorithm, by which usage patterns are translated to body malfunctions. Optionally or alternatively, the acquired data may be used to define a training program.
In some embodiments, usage data, such as inclination of seat 101 in relation to vertical supporter 103 is collected for example by magnetometer.
Optionally, the magnetometer includes a first piece and a second piece. In some embodiments, the first piece includes a magnetic sensor and the second piece includes a magnetic body. In some embodiments, the magnetic sensor and the magnetic body are magnetically coupled. In some embodiments, the magnetic sensor is positioned in proximity or integral with seat 101 (as shown for example at
In some embodiments, as the position of the magnetic sensor and the magnetic body in relation to each other alters, so as the signal which is transmitted by the magnetometer alters. Optionally, such signal alteration may be indicative to the movements of the user's body.
Data Analysis:
In some embodiments, signals received form the sensors (e.g., signals received by the accelerometer and/or by the gyroscope and/or by the magnetic sensor) are compared to each other and analyzed according to an embedded algorithm, which is stored in the processing unit, which translates the received signals and produces an output which represents the user's usage parameters.
In some embodiments, analysis of the usage parameters includes translation of the signals received from the inertial sensors into movement directions in all three axis (X, Y and Z).
In some embodiments, the signals from the inertial sensors are translated according to the detected movement velocities. In some embodiments, the analysis includes translation of the signals received from the pressure sensors according to the location of the pressure sensor, for example on the seat. In some embodiments, after being translated, the analysis includes generating a translation table or function mapping of movement and/acceleration and/or angular rotation measurements to seat 101, thereby to extrapolate information regarding the posture and/or inclination of the seat and the mounted users thereon.
In some embodiments, the signals which are received from sensors which are integral with the seat itself, e.g., pressure and/or inertial sensors are translated by a translation table for mapping pressure which is applied on portions of the seat itself or movements of portions thereof.
In some embodiments, the analysis includes sorting the signals received from sensors which are applied on the body of the user, to extrapolate information regarding some physical condition of the user (e.g., his body temperature and/or his neural activity).
In some embodiments, the analyzed data is used to define a therapeutic or a training protocol, for example by creating a digital file which may be stored at a memory of the processing unit. Optionally, the digital file is downloaded from processing unit 118 to an external memory unit. In some embodiments of the invention, the digital file may include a series of usage instructions (movements and/or pressures) of seat 101. In some embodiments of the invention, the digital file may include usage instructions such as pulling of straps 113 at a certain manner and or positioning of the body in a certain orientation. In some embodiments, the digital file may assist a caregiver and/or a trainer to set a training/therapeutic program.
Image Sensor:
In some embodiments, the position and/or inclination of the body of a user and/or seat 101 and/or selected parts of the user's body are detected by an image sensor, for example by image sensor 126. Optionally, image sensor 126 is located at a location far enough from user 111to capture a selected body portion within its field of view. In some embodiments, the imager is in data communication with processing unit 118 to which the imager may send signals. Optionally, by an embedded algorithm, which is stored in the processing unit, the received signals are analyzed. Optionally, the analysis includes translation (reconstruction) of the signals to location of the user's body in space. Optionally, the location of the user's body in relation to pelvic training device (PTD) 100 (e.g., vertical supporter 103, frame 114) is defined. In some embodiments, the positions and/or inclinations and/or motions of the user's body are reconstructed by a computerized algorithm embedded in image sensor 126 or in a control unit which is in data communication with image sensor 126. In some embodiments, the processing unit 118 is optionally a user's personal computer and/or a user's mobile device, such as a smart phone or tablet.
In some embodiments, reconstruction is performed by analyzing the location of at least a portion of the user's body. Optionally or alternatively, reconstruction is based on analyzing the location of at least a portion of the pelvic training device (PTD).
Data Storage
In some embodiments, the data received from image sensor(s) and/or from inertial sensor(s) and/or from a pressure sensor(s) and/or from one or more sensors which are attached to the user's body, is stored at external database, e.g., external cloud 123 and/or at external processing unit 122. Optionally, the stored data is uploaded to a user's virtual “personal electronic directory”. In some embodiments, such data storage may serve a caregiver of the user or the user himself, to assess his progress and usage parameters such as usage duration and/or movement parameters and motion patterns.
Optionally, cloud 123 includes a processor with at least one table and/or with at least one algorithm. Optionally, the stored algorithm includes a computer readable instructions configured to modify at least one usage parameter. Optionally, the usage parameter may include inclination and/or rotation of seat 101. Optionally, the parameter may include seat rotation of vertical supporter 103.
Connectivity to External Devices:
In some embodiments, one or more parts of the system such as seat 101 and/or vertical supporter 103 includes a communication circuitry. Optionally, the communication circuitry may be in data communication with one or more actuators operable to control movement of pelvic training device (PTD) parts in a desired manner. In some embodiments of the invention, data and/or commands may be sent between one or more communication circuitries (by wires or wireless). Optionally, data and/or commands are transmitted/received from/to a remote processing unit(s). Optionally or alternatively, commands are transmitted/received from/to processing unit 118. Optionally or alternatively, signal are transmitted/received from a mobile phone 122 and/or from a cloud or form an external server 123.
In some embodiments, data is transmitted between actuation means, which move components of the pelvic training device (PTD) by wires extending between said components.
In some embodiments, user may press on a control button to transmit a control signal to activate a desired actuator. For example, a control button located at remote controller 121 or at mobile phone 122. Optionally or alternatively, the control signal is transmitted automatically, according to a control software embedded in remote controller 121 or mobile phone 122 or personal computer or tablet.
In another example, controller 118 transmits a control signal to actuate movement of strap 113. For example, to a motorized strap spindle actuator 119 which pulls strap 113 to wound or to un-wound the strap around the spindle.
In some embodiments, the location of the pelvis of the user is restricted for example due to the shape of seat 101 which comprises a rear and a front elevated protrusions which blocks slipping off of the user forward or backwards from the seat. In some embodiments, the pelvis is restricted for example to a desired height above the ground. Optionally, the height is defined by the height of seat 101. Optionally, the height is defined by the length of straps 113 by which the user 111 may hang/support himself from frame 114.
Starting/Native Position
In some embodiments, at the starting position, the longitudinal axis of seat 101 is aligned parallel with the longitudinal axis of the user's body and both are perpendicular to the ground.
Optionally, user 111 can incline his body to any desired direction, thereby to incline seat 101 as well. As user 111 inclines, the location of his center of gravity typically changes. In some embodiments, the displacement of the location of the user's center of gravity relative to its location at the starting position following different body inclinations and postures involves activation of different muscles groups. Optionally, such activation may be advantageous in training different muscles in the thighs and/or in the pelvis of the user.
In some embodiments, user 111 may incline a portion of his body either to the left side or to the right side. During lateral inclination, the user is typically required to apply pressure by his inner thighs and pelvis on the lateral portions of seat 101 by bringing his thighs towards the seat to grip the seat, in order to maintain his stability.
In some embodiments, seat 101 may be inclined both laterally and/or to the front/rear.
In some embodiments, user 111 may incline the seat in relation to the ground, for example by movements of his pelvis to a frontal and/or in to a rear inclinations.
In some embodiments, user 111 is secured by strap 113 to peripheral frame 114. Optionally, as the user tilts his body and/or as seat 101 inclines in relation to the starting position, the movement may be restricted according to the location and/or length of strap 113 in relation to the movement direction.
In some embodiments, strap 113 may be fastened to the body of the user firmly. Optionally, the strap may be fastened loosely, thereby restricting the movement at a lager inclination angles.
Optionally, strap 113 may be elastic and can be stretched when pulled. In some embodiments, a stretchable strap may be advantages by causing gradual pulling resistance, which may allow different training difficulties.
Straps' Connectivity with the User's Body
Referring now to
In some embodiments of the invention, user 111 holds strap 113 by his hands and pulls his body to a desired direction. Optionally, strap 113 is long enough to be wound around a selected portion of user's 111 body, for example around his waist. Optionally, around his wrist, optionally, around his ankle.
In some embodiments, strap 113 is anchored to a selected one or more points at peripheral frame 114.
Referring now to
Optionally, the strap may include both smooth and bumpy surface areas at the same side. A potential advantage of a bumpy surface may include increasing of the friction as the strap encounters the body of the user such that an enhanced grip of the body may be achieved.
Strap's Connection with the Peripheral Frame:
Referring now to
In some embodiments, strap 113 is connectable to (e.g., threaded through) hook 112 which is optionally affixed to peripheral frame 114. Optionally, one or more hooks 112 are connected and/or integral with frame 114. Optionally, said one or more hooks are positioned at different locations along frame 114. In some embodiments, as straps 113 being connected to different hooks 112, the user's body may be supported from various directions. In some embodiments, supporting the user from various directions may be advantageous in training his body muscles at various difficulty levels.
In some embodiments, assembly 1120 includes a shaft 1124 portion by which the assembly is connected to frame 114.
In some embodiments, spindle 1122 rotates freely about shaft 1124. In some embodiments, strap 113 is wrapped around spindle 1122. Optionally, by pulling a first edge 1135 of strap 113, optionally by the user, the length of a portion of strap 113 which is un-wrapped around spindle 1122 becomes longer and a second edge 1137 of strap 113 becomes shorter, and to the opposite, according to the straps pulling direction.
In some embodiments, spindle 1122 rotates upon activation of an actuator, such as an electric motor. In some embodiments, the actuator may be activated following a control signal(e.g., an electric signal, pneumatic signal and/or mechanical signal) received for example from control unit 118 as shown for example at
Referring now to
Movement Directions of the Movable Seat
In some embodiments, movable seat 101 is inclined in relation to the ground at an inclination angle which is between 0° to 180°, wherein 0° inclination is when the longitudinal axis of seat 101 is perpendicular to the ground and 90° inclination is when the longitudinal axis is parallel to the ground. Optionally or alternatively, the inclination angle is between 0° to 150°. Optionally or alternatively, the inclination angle is between 0° to 90°. Optionally or alternatively, the inclination angle is between 0° to 45°.
In some embodiments, inclination of seat 101 is determined, at least in part, by the amount of load (N) which is applied by the user on the seat. Optionally, the user may apply pressure on seat 101 towards a desired direction, for example by his pelvis. Optionally, the location of the user's center of gravity changes the inclination of the seat. In some embodiments, the location of the center of gravity is modified by the posture of the user while being mounted on the set, which causes inclination of the seat.
In some embodiments, flexible connector (e.g., spring) 102 which supports seat 101 may oppose the inclination of seat. In some embodiments, flexible connector 102 may resist inclination of seat 101. Optionally or alternatively, spring 102 may resist inclination of seat 101. In some embodiments, the flexible connector can be as flexible as the spring.
Optionally, flexible connector (e.g., spring) 102 is operable to bend in relation to the ground and/or in relation to the longitudinal axis of vertical supporter 103 following load (N) which is applied on the spring.
In some embodiments, flexible connector (e.g., spring) 102 is operable to bend to an angle between 10 to 120 degrees in relation to the longitudinal axis of the vertical supporter upon a load of between 300 to 1200 (N) which may be applied on said seat.
In some embodiments, flexible connector (e.g., spring) 102 bends to an angle between 10 to 120 degrees upon a load of between 300 to 400 (N), 400 to 500 (N), 500 to 600 (N), 600 to 700 (N), 700 to 800 (N), 800 to 900 (N), 900 to 1000 (N), 1000 to 1200 (N) and/or 1200 to 1300 (N) and/or 1300 to 1400 (N) and/or 1400 to 1500 (N) and/or 1500 to 1600 (N) and/or intermediate or greater loads.
In some embodiments of the invention, the user is required to apply an increasing amount of force (N) to a desired inclination direction in order to increase the bending angle of flexible connector (e.g., spring) 102.
Optionally, bending angle of spring 102 is proportional to the amount of force (N) which is applied on seat 101.
In some embodiments, resistance of flexible connector 102 may be advantageous in strengthening the user's core and/or pelvis muscles due to the force that the user needs to apply in order to overcome the resistance of the flexible connector to initiate movement (and/or to rotate) to a certain direction.
Optionally, the resistance of flexible connector 102 may be uniform in all directions (e.g., to the front/rear and laterally). Optionally or alternatively, the resistance of flexible connector 102 may be non-uniform, for example, the flexible connector may bent more easily in relation to the sagittal plane then in relation to the frontal plane of the device (or of the user's body). Optionally or alternatively, the flexible connector may bent more easily in relation to the frontal plane then in relation to the sagittal plane of the device (or of the user's body).
In some embodiments, the resistance of flexible connector is adjustable. Optionally, the adjustment may include increasing or reducing the resistance of the connector by installing a desired amount of springs. In some embodiments, adjustment may include increasing or reducing the number of springs included in flexible connector 102, for example flexible connector 102 may include any number of springs between 1 and 20, between 1 and 10, between 1 and 5, and between 1 and 3 springs.
Movement Directions of the Vertical Supporter
In some embodiments, vertical supporter 103 rotates about its longitudinal axis. In some embodiments, seat 101 rotates along rotation of vertical supporter 103.
In some embodiments, the rotation is clockwise or counterclockwise.
In some embodiments, vertical supporter 103 is mounted on base 115 by a pivotal bearing which is further connected to a first end of at least two retrieval springs 105. In some embodiments, each of retrieval spring 105 is connected by its second end to base 115. In some embodiments, each of the retrieval springs 105 may extend following rotation of vertical supporter 103. In some embodiments, each of the retrieval springs 105 may resist rotation of vertical supporter 103 according to a spring's constant, for example by contracting back to the spring's resting length (namely an un-stretched length).
In some embodiments, rotation of vertical supporter 103 is modified by the amount of force (N) which is applied by the user, (e.g., by his pelvis) on seat 101 towards a desired rotation direction. In some embodiments, as the user's pushes the seat to a desired direction, rotation of vertical supporter 103 in relation to a resting position which is connected to seat 101, for example by flexible connector 102 occurs.
In some embodiments, rotation of seat 101 and vertical supporter 103 is modified for example by the location the user's center of gravity, said location may move according to the posture of the user while being mounted on seat 101.
In some embodiments, rotation of seat 101 and vertical supporter 103 is modified both by the amount of force (N) which is applied by the user on the seat and by the user's center of gravity.
In some embodiments of the invention, force of 10 to 350 N causes rotation of vertical supporter 103 of between 10 to 210 degrees clockwise and/or counterclockwise in relation to the resting position. In some embodiments, force of 10 to 350 N causes rotation of vertical supporter 103 of between for example 10 to 40 degrees, 40 to 10 degrees, 100 to 140 degrees, 140 to 180 degrees, 180 to 210 degrees and/or intermediate or greater rotation angels.
In some embodiments, extension of retrieval spring 105 between 5 and 25 cm requires force which is between 10N to 350N. Optionally, extension of retrieval spring 105 between 5 to 25 cm requires force which is between 50N to 100N, 100 to 150N, 150 to 200N, 200 to 250N, 250 to 300N and/or 300 to 350N and/or intermediate or greater loads.
Optionally, the second end of retrieval spring 105 is connected for example via a carabiner 1051, as shown for example at
In some embodiments, pivoting of vertical supporter 103 about its longitudinal axis is by a retrieval spring 302, which is mounted at a top end of vertical supporter 103, as shown for example, at
Referring now to
In some embodiments, seat 101 comprises a front and rear portions having a low profile. In some embodiments, the front and rear portions supports the pelvis region and restricts its location to a region between the frontal and rear portions. Optionally, the frontal and rear portions do not block movement of the lower abdomen and movement of the lower back in relation to pelvic training device's (PTD) 100 sagittal plane.
Optionally, seat 101 comprises two lateral portions 460 (for example, left and right walls shown for example, at
In some embodiments, support is by restricting the movement of the pelvis (forward or backwards) to the location within a region between the frontal and rear portions of the seat. Optionally or alternatively, support is by restricting the location of a sagittal axis (e.g., shown as dashed line at
In some embodiments, the location of the pelvis within the region between the frontal and rear portions and within the region between left 404 and right 402 edges of seat 101 can be modified.
Optionally, by modifying the distance between the frontal and rear portions of seat 101.
Optionally or alternatively, by modifying the shape of seat 101, for example by inclining parts of seat 101 (e.g., front and/or rear portions) in relation to each other.
According to some exemplary embodiments, seat 101 comprises an upper face and a lower face. In some embodiments, a transversal length of seat 101 is defined as the distance between the internal edge of the front portion and the internal edge of the rear portion of the seat (shown in
In some embodiments, the upper face of seat 101 faces the body of the user, for example the pelvis region and/or thighs.
In some embodiments, the top portion of seat 101 comprises a curvature which is shaped and sized to conform to an anatomical curvature of a user's buttock and/or pelvis region.
According to some embodiments, seat 101 comprises a central arch 410 extending in the medial region of seat 101 between the front and rear portions. In some embodiments, central arch 410 connects lateral left wall and lateral right wall 460 of seat 101 (as shown for example, at
In some embodiments, as shown for example at
Each of the right wall 406 and the left wall 408 has an external surface which encounters the user's thigh. Optionally, the distance between the external surfaces can be modified, for example by inclining the right wall 406 and the left wall 408 in relation to each other.
Optionally, inclination between the walls is by an actuator 412 which is operable to move at least one of the walls in relation to the other.
In some embodiments, modification of the inclination between the lateral walls may be advantageous in modifying the extent of traction for example of the user's hips joint.
In some embodiments, the front portion and rear portion of seat 101 protrude in a direction away from central arch 410.
Optionally, the distance between at least a portion of front portion 440 and at least a portion of rear portion 450 can be modified, for example by inclining front portion 440 and rear portion 450 in relation to each other.
Optionally, inclination between the front and rear portions is by an actuator 470 which is operable to move at least one of the portions in relation to the other.
In some embodiments, modification of the inclination between the front and rear portions may be advantageous in modifying the amount of pressure, which is applied, on the user's pelvis, for example according to a desired training and/or therapeutic program.
In some embodiments, the front portion has inward notch, for example, notch 420 which is shaped to fit the junctional area between the lower abdomen and the thighs. In some embodiments, the rear portion has an inward notch, for example notch 430 which is shaped to fit the junctional area between the lower back and the thighs.
In some embodiments, frontal and rear portions are made of a rigid composition which is strong enough to support the weight of the user, when mounted on seat 101. For example, the portions may bear a weight of up to 350 kg without break.
In some embodiments, each of the frontal/rear portions protrude to a characterizing height, defined by the length between central arch 410 and the highest edge each of the protrusions. Optionally, the maximal length is at most +5 cm above the mounted user's iliac crest. In some embodiments, the length between central arch 410 and the highest edge of each of the protrusions is at most 25 cm, optionally or alternatively, the length is at most 20 cm, optionally or alternatively, the length is at most 15 cm. Such characterizing height may be advantageous in preventing the user from slipping off seat 101, while avoiding applying pressure on the user's lower abdomen and back.
Surface Area:
Referring now to
In some embodiments, each protrusions has a surface area which is defined between the upper edge of each protrusion and an horizontal line 500 which is at a maximum height of central arch 410. Optionally, this surface area is in contact which the users pelvis and supports a portion of the user's body (e.g., the dark areas marked on the body of a user shown for example, at
In some embodiments, the body-contact surface area may include the entire upper surface of seat 101. Optionally, the body-contact surface area is divided into segments.
In some embodiments, the body-contact surface area includes both the surface areas of the seat's front and rear protrusions. Optionally, the body-contact surface area includes the seat's lateral slopes.
In some embodiments, the extent of the surface may vary, according to the size of seat 101 or portions thereof In some embodiments, the extent may vary according to the orientation of parts within seat 101 in relation to each other. For example, the inclination between the frontal and rear protrusions. In some embodiments, as the inclination between the frontal and rear protrusions vary, so as the shape of the seat alters and the extent of the surface area which is in contact with the body of the user alters as well. According to another example, the segments of the seat may move in relation to each other. Optionally, such movement is by one or more joints, positioned between the segments. Optionally, the movement is by actuators, which may move the segments.
In some embodiments, the extent of the surface may vary, according to the gap between segments of the seat in relation to each other. For example, the gap between the frontal and rear protrusions.
In some embodiments, the extent of the body-contact surface area of each frontal (right or left) protrusion and/or rear protrusion is at most 400 cm2. Optionally or alternatively, the surface area of each protrusion is between 5 cm2 to 400 cm2. In some embodiments of the invention, the surface area is between 5 cm2 to 225 cm2, optionally or alternatively, the surface area is between 5 cm2to 100 cm2. Optionally or alternatively, the surface area is between 5 cm2to 25 cm2.
Optionally or alternatively, the surface area of each protrusion is between 25 cm2 to 400 cm2. In some embodiments of the invention, the surface area is between 100 cm2 to 225 cm2, optionally or alternatively, the surface area is between 225 cm2 to 400 cm2.
Referring to
In some embodiments, seat 201 supports the user from falling off the seat during inclinations of the seat in relation to a frontal and sagittal planes of pelvic training device (PTD) 100.
Optionally, the support is by two lateral portions 105, that embrace the external sides of the left and right thighs of the user.
In some embodiments, lateral portions 105 restrict the pelvis of the user to a region between the two portions, optionally to a region between the inner walls of portions 105.
In some embodiments, lateral portions 105 extends from a rear portion 203 of seat 201 downwardly away from a central arch (205) which connects the two portions.
In some embodiments, seat 201 does not include any additional support engaging the inner side of the user's thighs excluding central arch 205, and the user may seat on seat 201 with his thighs adjacent to each other.
In some embodiments, a lack of support of the inner portions of the user's thighs and the location of lateral portions at a side that faces the external portions of the thighs forces the user to straddle his legs towards lateral portions 150 in order to maintain his stability on seat 201.
A potential advantage of supporting the user by lateral portions 105, which supports the thighs externally, may include training muscle groups which are required for maintaining stability by activating the thighs muscles.
(PTD) 100, according to some embodiments of the invention.
In some embodiments, as shown for example, at
According to some embodiments, user 111 is optionally fastened to a desired portion of pelvic training device (PTD) 100 at 722, for example by one or more straps connectable to seat 101. Optionally, the fastening of the user comprises a securing straps wrapped around a selected portion of the user's body to a selected portion of pelvic training device (PTD) 100. Optionally or alternatively, the fastening may include tying the legs of the user to a selected portion of pelvic training device (PTD) 100. Optionally or alternatively, the fastening may include fastening the thighs of the user 111 adjacently for example to lateral portions (right and left walls) seat 101 (shown for example, at
In some embodiments, the training method includes mounting a user 111 at a starting position as shown at 724 and as exemplified at
In some embodiments, at 726, the method includes moving seat 101 and moving of the body of the user by movements of the pelvis in relation to the starting position. Optionally, moving includes rotation and/or inclination of the body.
In some embodiments, as shown for example at 728, the user receives an audio and/or a visual signal which indicates a required/current position of one or more a portions of seat 101 in relation to the ground or in relation to other parts of the pelvic training device (PTD).
Optionally or alternatively, the signal is displayed on a screen for example a screen of a mobile device 122 and/or a screen as shown for example, at
In some embodiments, the visual signal includes movement of an object which is observable by the user in accordance with movement of seat 101. Optionally, such object may be a ball (as illustrated for example at
Optionally or alternatively, the user may wear a virtual realty glasses which are in data communication with one or more processing units of the pelvic training device (PTD) device. Optionally, user may receive audio and/or a visual signals through said glasses which may be indicative to a required/current movement/location of seat 101 and/or rotation of vertical supporter 103.
In some embodiments, the signal may include visual and/or audio instructions showing and/or indicating (by an electric and/or a vibration and/or a sound signaling) user 111 to which direction and/or in which movement pattern he should move, in order to improve his stability when mounted on the seat at 730.
Optionally or alternatively, the instructions may include tilting a portion of the user's body to the left or to the right. Optionally, user may be instructed to rotate a portion of his body either clockwise or counterclockwise.
Optionally, the instructions may include a combination of inclinations, for example in relation to a sagittal and/or to a frontal plane of his body.
In some embodiments of the invention, at 732, 734 and 736, the training method includes instructions to the user to incline seat 101 and/or rotate vertical supporter 103 at a certain inclination/rotation angle which may be either a large or a small angle.
In some embodiments, large angels may require applying greater amount of force compare to smaller angles. Optionally, small angler may require higher precision which may require higher control skill of the device rather than force.
In some embodiments, the training method includes a combination of the movements (e.g., inclination and rotation) as mentioned at 732-736.
In some embodiments, at 738, the method includes detection of movements, for example by sensors 125. Optionally, the sensors include motion sensor and/or a pressure sensor. Optionally, the movements are detected by an image sensor 126 which tracks the location of at least a portion of the user's body/location of one or more parts of pelvic training device (PTD) 100.
In some embodiments, the method includes transmitting one or more signals received by the sensors to processing unit 118. Optionally, processing unit 118 transmits an electric signal to a speaker and/or to a displaying unit, which is observable by the user. Optionally, the signal include usage instructions.
In some embodiments, at 740, the method optionally includes displaying the inclination of the seat by a movable object (e.g., a ball which shown for example at
In some embodiments, at 742, the training method includes a training protocol.
Optionally, the protocol includes one or more instruction regarding a desired seat inclination (frontal, rear and/or lateral) in a desired direction and/or rotation (clockwise and/or counterclockwise) that the user needs to perform while being mounted on the seat. Optionally, the protocol includes repetitions of certain movements.
In some embodiments, at 744 the training method includes terminating the training and getting off the seat.
According to some embodiments, user is optionally un-fastened from pelvic training device (PTD) 100.
In some embodiments, the step includes lowering the body of the user (either by an external assistance, such as by a caregiver/or a designated lever or independently) to the height of the ground.
Referring to
It is expected that the given postures are just an example of the different body orientations that are enabled by the pelvic training device (PTD) and the training method. In addition, it is expected that the training method include training exercises that require movement of the body in a certain direction (at X, Y, and Z axis), while using pelvic training device (PTD) 100 in order to reach the desired posture/s.
In some embodiments, the method include a native standing position. Optionally, the native pose includes stabilizing the body on seat 101 while the beck of the user is kept upright (perpendicular to the ground).
In some embodiments, the method include a sitting position. Optionally, the sitting position includes stabilizing the body on seat 101 during rear inclination of seat 101 by the user's pelvis, while the back of the user remains upright (perpendicular to the ground).
In some embodiments, the method includes swiveling position. Optionally, the swiveling position includes stabilizing the body on seat 101 during rotation of seat 101 about its longitudinal axis by the user's pelvis.
In some embodiments, the method includes lateral inclination position. Optionally, the lateral inclination position includes stabilizing the body on seat 101 during inclination of seat 101 laterally (left or right) in relation to a sagittal plane of the user's body or of the pelvic training device (PTD) 100.
In some embodiments, the method includes frontal/rear inclination position. Optionally, the frontal/rear inclination includes stabilizing the body on seat 101 during inclination of seat 101 to the front or to the rear in relation to a frontal plane of the user's body or of the pelvic training device (PTD) 100.
In some embodiments, the method includes a combination of poses, for example native, sitting, swiveling, lateral rear and frontal position or any combination thereof.
In some embodiments, the method includes transition between poses, for example user may stabilize himself of seat 101 at a native pose and change his position to a sitting position.
In some embodiments, the training method includes postures that engage holding straps, as shown for example at figures I-VI.
In some embodiments, the user may hold straps which are connected to the peripheral frame or to any other anchoring point around the seat, and tilt his body to a desired direction, for example backwards (I, IV), forwards (V, VI) laterally (II, III) and/or may rotate his body (II, III) or combination thereof. In some embodiments, the training method includes postures that engage tying straps to the leg, as shown for example at figures VII-VIII.
In some embodiments, the user may tie straps which are connected to the peripheral frame or to any other anchoring point around the seat to his legs and/or to other parts of his body, and tilt his body to a desired direction, for example backwards (VIII), forwards, laterally (VII) and/or may rotate his body (VI) or combination thereof.
In some embodiments, the training method includes postures that do not require connection of straps, as shown for example at figures IX-XII.
Referring to
In some embodiments, seat 101 includes two spheres or spheres sections. Optionally, the spheres are sized and shaped to fit the curvature of the user's body. Optionally, the spheres support the user's body. In some embodiments, the spheres are inflatable.
In some embodiments, seat 101 comprises a front portion 127 which is optionally shaped as a sphere. Optionally or alternatively, front portion 127 may comprise a curved shape. Optionally, portion 127 may be inflated to a curved shape. Optionally, seat 101 includes another shape which is also shaped as a sphere 128, attached to its rear portion, as shown for example at
In some embodiments of the invention, each of the spheres (frontal 127 and rear 128) may have an equal diameter in respect to the other. Optionally or alternatively, one sphere may have a larger diameter than the other.
Optionally, the diameter of at least one of the spheres is between 40 cm to 120 cm. Optionally, the diameter is between 40 cm to 80 cm. Optionally or alternatively, the diameter of the sphere is between 80 cm to 120 cm.
Optionally, when the seat is inclined forwards or backwards, the user may lean his body onto the surface of front sphere 127 or rear sphere 128 and grasp the sphere with his arms. Optionally, the sphere is pliable and may bend according to the curvature of the abdomen and chest or back of the user.
In some embodiments, a sphere-shaped frontal and/or rear portion attached to seat 101 may be advantageous for supporting the user's body when seat 101 is inclined in relation to the sagittal and/or frontal planes of the user's body.
Referring to
In some embodiments, ball 130 is free to roll inside channel 129, according to the inclination of seat 101. In some embodiments of the invention, the location and/or movement of ball 130 inside peripheral channel 29 is indicative to user 111 regarding his inclination in relation to the ground. For example, a right lateral inclination may result in movement of the ball to the right side of channel 129.
In some embodiments, ball 130 moves inside a peripheral (circumferential) channel 129, which is attached to seat 101. Optionally, peripheral channel 29 serves as a housing for movable ball 130 and moves in accordance with the inclination of seat 101. Optionally, the attachment of peripheral channel 29 to seat 101 is by one or more rods extending between seat 101 and peripheral channel 129. In some embodiments, as seat 101 inclines, so as the peripheral channel inclines at the same inclination angel and at the same direction.
In some embodiments, peripheral channel 129 comprises a characterizing width. Optionally, the diameter of ball 130 is smaller than the width of channel 129 thereby ball 130 may roll in channel 129 freely, according to the inclination of channel 129.
Referring to
In some embodiments, the location of the center of gravity is determined (calculated) by the usage parameters of the device and by physical parameters of the user.
In some embodiments, representation of the center of gravity is by a software embedded in a processing unit (e.g., processing unit 118 at
In some embodiments, the location center of the center of gravity is presented in relation to a desired pre-defined location which is presented as a center of a cross. Optionally, the location of center of gravity is presented to the user when the user is mounted on pelvic training device (PTD) 100 (shown for example at
In some embodiments of the invention, the GUI may be presented on a screen, for example a screen of a displaying unit such as smartphone. Optionally, the presentation is performed at real time.
Optionally, the location and/or to the movement of one or more portions of the mounted user may cause shifting of the presented location of the center of gravity (dot) in relation to the presented pre-determined presented starting point/location (center of the cross).
In some embodiments of the invention, the center of gravity (dot) may be presented as overlapping with the presented center of the cross, for example when the user is mounted at a starting position.
Optionally or alternatively, the location of the presented starting point may be calibrated according to any desired pre-determined location and/or inclination of the seat.
In some embodiments, the GUI may include a table. Optionally, the GUI may include a graph or combination thereof. In some embodiments, the table may be divided into one or more columns, each represents a portion of seat 101 (e.g., a left/right/frontal/rear side of the seat.)
In some embodiments, the table may include one or more rows, in which usage parameters, such as applied pressure and/or movement parameters per seat's portion may be presented.
Optionally, the data may include pressure which is applied by portions of the user's pelvis on portions of the seat, for example on seat-body contact area (as shown for example, at
In some embodiments, the representation includes a color gradient. Optionally, the representation is represented by a graph that shows for example a measured pressure vs. time. In some embodiments, the representation includes a surface map.
In some embodiments, the GUI may include a planned usage vs. actual usage parameter's representation. For example, a planned pressure on a certain portion of the seat (for example on the front portion) may be presented as dashed surface map which is being filled by color as the deviation of pressure which is applied by the user on the selected seat portion becomes smaller or larger.
In some embodiments, representation may be advantageous in providing real time data, regarding the manner by which a certain posture of the user's body produces a pressure pattern on portions of the seat.
Optionally, the representation may be indicative for example for detection of some physiologic deformities (e.g., pelvis and/or core muscles inferior function) and/or muscles reduced/enhanced activation level.
The figures show exemplary configurations of a segmented seat, for example a folded or an un-folded configuration.
In some embodiments, the figures show means for altering the orientation (e.g., the inclination and/or the position) of portions of the segmented seat in relation to each other.
Referring now to
Referring now to
In some embodiments, lateral portions 1502 are connected to each other or to another portion of seat 1500 by a joint (not shown) disposed between lateral portions 1502 and a portion of seat 1500. Optionally, lateral portions 1502 may be folded downwards (e.g., folded configuration) and/or may be un-folded (e.g., un-folded configuration). In some embodiments, a folded configuration may force the user to spread his legs apart from each other to a smaller straddle.
Optionally, an un-folded configuration may force the user to widen his straddle which may affect traction of his hip joint.
Optionally, lateral portions 1502 may be partially folded. In some embodiments, movement of lateral portions 1502 may be modified by an actuator, for example actuator 1506, (e.g., an electric motor) which is connected to the lateral portions and to at least another portion of seat 1500, and inclines each lateral portion 1502 to a desired inclination. Optionally, actuator 1506 may be operable according to a control signals which may be transmitted from/to a control unit (e.g., control unit 118, shown at
In some embodiments, lateral portions 1502 may move in relation to each other for example by a ratchet assembly (illustrated as a dashed line 1506) which allows a linear movement which may result of inclination of lateral portion 1502 in only one direction. Optionally, ratchet assembly 1506 may prevent motion (e.g., inclination) in the opposite direction.
In some embodiments, inclination of lateral portions 1502 causes traction of the hip joint, for example in accordance with an inclination of lateral portions 1502 in relation to the longitudinal axis of pelvic training device (PTD) 100. In some embodiments of the invention, a modified inclination of lateral portions 1502 forces the user to apply a modified amount of pressure with his legs laterally, in a direction towards or away lateral portions 1502 of seat 1500 in order to maintain his stability.
In some embodiments, the frontal/rear portions 1501 are connected to each other or to another portion of seat 1500 by a joint (e.g., joint 1504). Optionally, frontal/rear portions 1501 may move in relation to each other. Optionally, frontal/rear portions 1501 may be inclined in relation to the longitudinal axis of pelvic training device (PTD) 100. Optionally, frontal/rear portions 1501 may be folded downwards (for example as shown at
Referring now to
In some embodiments, the gap between portions of seat 1600 as exemplified for example at
Referring now to
In some embodiments, the size and/or shape of joint/assembly 1703 is adjustable. For example, joint/assembly 1703 may be segmented into two or more pieces assembled as a telescopic assembly. In some embodiments, joint 1703 includes a nested configuration wherein at least one portion of the joint is nested in another portion. Optionally, assembly 1703 includes an un-nested configuration, wherein none of the portions are nested.
Optionally or alternatively, cross-hatched cross 1703 illustrates a ratchet assembly which may mechanically couple adjacent parts of seat 1700 to each other. Optionally, ratchet assembly may move two or more coupled pars of seat 1700 away and/or towards each other.
Referring now to
In some embodiments, modification of the shape of seat 1800 (e.g. inclination between parts of the seat and/or distance between two or more adjacent parts) is by joint/assembly as described for example, at
In some embodiments, an optional flexible connector 1803 connects a bottom of the seat 1800 to the vertical supporter 1806, potentially enabling the seat to “wobble” relative to the vertical supporter 1806.
In some embodiments, an optional spring 1805 serves to press against a bottom of the flexible connector 1803, potentially setting stiffen of the “wobbling”.
Referring now to
In some embodiments, rear portion 1922 and front portion 1902 may move away or towards each other, for example by sliding on frame 1908. Optionally, the portions are mechanical coupled to frame 1908 by rail 1914, on which the portions may slide. Optionally, the distance between front portions 1902 and rear portions 1922 is modified according to their location on frame 1908 and/or on rail 1914.
In some embodiments, the inclination of front portions 1902 and rear 1922 in relation to each other and/or in relation to the ground is modified, for example by joint 1910. In some embodiments, front portions 1902 and/or rear portions 1922 may incline at an inclination angle in relation to the ground and/or in relation to the longitudinal axis of pelvic training device (PTD) 100, for example at an inclination angle between 0° (parallel to the longitudinal axis) to 90° (perpendicular to the longitudinal axis).
In some embodiments, movement of rear portions 1922 and/or front portions 1902 is adjusted by a screw 1906. Optionally, screw 1906 is mechanically coupled with rail 1914. Optionally, by threading screw 1906 into frame 1908, rail 1914 is pushed or pulled away or towards frame 1908 and the gap between rear portions 1922 and front portions 1902 is modified.
In some embodiments, lateral portion 1904 moves along frame 1908. Optionally, lateral portions 1904 may move on frame 1908 by sliding on a rail 1914.
In some embodiments, the inclination of one or more lateral portions 1904 in relation to each other and/or in relation to the ground is modified, for example by a joint 19016 (shown as white cross). In some embodiments, lateral portions 1904 may incline at an inclination angle in relation to the ground and/or in relation to the longitudinal axis of pelvic training device (PTD) 100, for example at an inclination angle between 0° to 90°.
In some embodiments, movement of rear portions 1922 and/or front portions 1902 and/or lateral portions 1904 in relation to each other is by one or more actuators (such as joints 1910/1916). Optionally, the actuators are motorized and operable to receive and/or transmit data to/from one or more control units (e.g. control unit 118 and/or remoted control unit 121 and/or 122 and/or external server 123 (shown, for example, at
In some embodiments,
Referring now to
The PTD 2000 includes a seat 2001 on which a user may sit.
In some embodiments, the seat 2001 is mounted to a flexible connector 2002, for example a spring (or more than one spring) on a vertical supporter 2003. In some embodiments, the spring 2002 supports movement of the seat 2001 relative to other parts of the PTD 2000 or relative to the ground. Optionally, the spring 2002 connects the seat 2001 to the vertical supporter 2003.
In some embodiments, the seat 2001 is mounted to a vertical supporter 2003, and a flexible connector 2002, for example a spring (or more than one spring) on the vertical supporter 2003, provides movement along an axis of the vertical supporter 2003.
In some embodiments, the PTD 2000 includes an interface (e.g., a seat 2001) on which a user is mounted. Optionally, the interface supports a portion of the user's body such as the area between the lower abdomen and the bottom of the pelvis. Optionally, the interface supports the user also by his thighs.
In some embodiments the PTD 2000 optionally includes a back support 2010, connected to the seat 2001 or to the vertical supporter 2003, or to the spring(s) 2002, by a back strut 2012. In some embodiments, an optional control 2013 serves to set a distance between the back strut 2012 and the seat 2001.
In some embodiments the PTD 2000 optionally includes a locking prong 2016, optionally connected to a hinge 2014. The locking prong 2016 is optionally pushed into the spring(s) 2002, locking their movement, thereby optionally locking the seat 2001 at a fixed tilt or position.
In some embodiments the PTD 2000 the locking prong 2016 is optionally connected to the back strut 2012. In some embodiments, a user may optionally push the back strut backward, optionally causing the locking prong 2016 to lock the seat 2001. In some embodiments, the user may optionally lean back against the back cushion 2010, optionally causing the locking prong 2016 to lock the seat 2001.
In some embodiments, various controls as described herein may optionally be used to lock and unlock movement of the seat 2001 relative to the feet 2018.
In some embodiments, the locking/unlocking are optionally performed by a user leaning back, forcing the locking prong 2016 to lock the seat 2001.
In some embodiments, the locking/unlocking are optionally performed by a user operating a handle, forcing the locking prong 2016 to lock the seat 2001.
In some embodiments, the locking/unlocking are optionally performed by a user operating an under-seat handle, forcing the locking prong 2016 to lock the seat 2001.
In some embodiments, the locking/unlocking are optionally performed by a user operating a pedal, forcing the locking prong 2016 to lock the seat 2001.
In some embodiments the vertical supporter 2003 is optionally connected to one or more feet 2018.
In some embodiments the feet 2018 include wheels 2019.
In some embodiments the vertical supporter 2003 is optionally connected to one or more spring(s) 2022. The spring(s) 2022 optionally provide(s) a centering force returning the seat 2001 to a center-facing position when a user optionally rotates the seat 2001 clockwise or counterclockwise relative to the feet 2018. In some embodiments the spring(s) 2022 is/are connected to the vertical supporter 2003 and to the feet 2018, as shown in
In some embodiments the PTD 2000 optionally includes controls 20242026.
In some embodiments, one or more controls such as the 20242026 is/are configured for setting stiffness of the spring(s) 20022022.
In some embodiments, one or more of the controls, such as the 20242026 is configured for adjusting length of the vertical supporter 2003, which adjusts height of the seat 2001 off the floor.
In some embodiments, the various controls may tighten or release as screws, or by using other mechanical mechanisms such as inclines planes, rotating logs, rotating eccentric components, as are known in the art.
In some embodiments, the PTD 2000 is made for adult users. Optionally, each part of the device can bear a weight of, for example, 0-350 kg, 0-150 kg, 150-200 kg, 200-300 kg and 300-350 kg static or dynamic, without breaking and/or plastically deforming.
In some embodiments, each part of the PTD 2000 can bear loads for example of between 0 to 3500 N, 0-1500 N, 1500-2000 N, 2000-3000 N and 3000-3500 N without breaking and/or plastically deforming.
In some embodiments, the seat 2001 is saddle shaped. Optionally the seat comprises one or more convex portions (such as, e.g., portions 440 and 450 at
In some embodiments, the seat 2001 includes a central arch (such as, e.g., portion 410 at
In some embodiments, the distance between the front and rear convex portions is long enough to house the pelvis of the user. Optionally, the distance is at most 40 cm. optionally or alternatively, the distance is at most 35 cm, 30 cm.
Optionally, the distance is between 20 cm to 40 cm. optionally, the distance is between 20 cm to 35 cm. optionally, the distance is between 20 cm to 30 cm.
In some embodiments, the height of seat 2001 above the ground is defined by the length of the vertical supporter 2003, the seat 2001 is mounted on a distal end (in relation to the ground) of the vertical supporter 2003.
In some embodiments of the invention, a user (shown for example, at
In some embodiments, the seat 2001 has a fixed size and/or shape. Optionally or alternatively, as shown for example at
In some embodiments, the flexible connector (e.g., spring) 2002 may be bent in relation to the ground and/or in relation to the vertical supporter 2003 following force which is applied on the seat 2001. In some embodiments, the inclination of the spring 2002 may be at any positive or negative inclination angle in relation to a sagittal/frontal plane of the PTD 2000 and/or in relation to a sagittal/frontal plane of the user's body. In some embodiments, the inclination is between 0 to 180 degrees. In some embodiments, the inclination to about 180 degrees may be advantageous in forcing the user to activate additional muscles as part of the wide range movement. In some embodiments, such a wide range of movement is by supporting portions of his body (e.g., legs and/or hands) to additional straps.
Optionally, the inclination is between 0 to 150 degrees. Optionally or alternatively, the inclination is between 0 to 90 degrees. In some embodiments, inclination between 0 to 90 degrees may be advantageous in training the user to perform small range movements (e.g., movements that requires pelvis movements within 10, 15, 20 degrees while being inclined) to increase precise and control of his muscle. Optionally or alternatively, the inclination is between 0 to 75 degrees. Optionally or alternatively, the inclination is between 0 to 50 degrees. In some embodiments, inclination is between 0 to 25 degrees, or at any angle between 0 to 180 degrees.
In some embodiments, movements of the seat 2001 include inclination and/or rotation or combination of such movements. Optionally, movements are initiated by a user, or by activation of one or more actuators, for example such as actuators 117 shown in
In some embodiments, the seat 2001 may rotate following rotation of the vertical supporter 2003 which may rotate about a bearing. Optionally, the vertical supporter 2003 may rotate following activation of an actuator.
In some embodiments, the actuator is controlled by a control signal, provided, for example, by a controller (e.g., control unit) such as the controller 118 shown in
In some embodiments, the flexible connector 2002 includes two or more segments having a degree of movement freedom in relation to each other. In some embodiments, a joint is positioned underneath the seat 2001, wherein at least one end of the joint is connected to the seat 2001 and at least a second side of the joint is connected to the vertical supporter 2003. In some embodiments, the flexible connector 2002 couples the seat 2001 with the vertical supporter 2003. In some embodiments, the joint is a multidirectional joint, operable to allow movement at multiple axial (e.g., X, Y and Z) directions and in relation to the sagittal and/or to the frontal planes of the PTD 2000.
In some embodiments, the vertical supporter 2003 is mounted perpendicular to feet 2018. In some embodiments, the seat 2001 is mounted directly on the vertical supporter 2003.
Rigidness: In some embodiments, the vertical supporter 2003 is formed of a rigid material, such as a polymer and/or metal or combination thereof. Optionally, the vertical supporter 2003 is rigid enough to bear a weight of an adult user without bending or breaking. For example, the vertical supporter 2003 may bend up to 10 degrees without breaking at a static weight of up to 350 kg.
In some embodiments, the vertical supporter 2003 supports the seat 2001 above the ground at a height which is at least higher than 60 cm. Optionally or alternatively, at a height which is at least higher than 70 cm. Optionally or alternatively, at a height which is at least higher than 80 cm. Optionally or alternatively, at a height which is at least higher than 90 cm. Optionally or alternatively, at a height which is at least higher than 100 cm.
In some embodiments, the vertical supporter 2003 may have a length between 30 and 80 cm, or between 30 cm and 140 cm, for example, between 30 cm and 100 cm and/or between 100 cm and 140 cm or at any intermediate length between them or a greater or smaller length.
Optionally or alternatively, the length of vertical supporter 2003 is adjustable. For example, the vertical supporter 2003 may be segmented into one or more pieces assembled as a telescopic assembly. Optionally, the assembly includes a nested configuration wherein at least one segment is nested in another segment. Optionally, the assembly includes an un-nested configuration, wherein none of the segments are nested.
In some embodiments, one or more retrieval springs extend between the vertical supporter 2003 and a portion of the feet 2018. Optionally, the vertical supporter 2003 is maintained at and/or returned to a resting position by the retrieval springs, following rotation thereof.
Optionally, two retrieval springs 2022 are connected perpendicularly to the vertical supporter 2003 at opposite sides of the vertical supporter 2003 and pull the vertical supporter 2003 in opposite directions, potentially defining a stable resting position.
In some embodiments, sensor(s) such as described with reference to the embodiments described herein may be included in the embodiments shown in
In some embodiments, body sensor(s) such as described with reference to the embodiments described herein may be included in the embodiments shown in
In some embodiments, image sensor(s) such as described with reference to the embodiments described herein may be included in the embodiments shown in
In some embodiments, connectivity to external devices such as described with reference to the embodiments described herein may be included in the embodiments shown in
Additionally referring now to
Referring now to
The PTD 2000 includes a seat 2201 on which a user may sit.
The seat 2201 is mounted on a vertical supporter 2003, which can provide movement side-to-side and up and down (along an axis of the vertical supporter 2203).
In some embodiments, the vertical supporter is attached to a base 2218.
Optionally, the vertical supporter 2203 includes one or more spring(s) 2202 which enable compressing under a weight of a user and expanding when the user raises himself. In some embodiments, the spring(s) 2202 may be replaced by a gas strut (not shown).
Optionally, a bottom portion 2220 of the vertical supporter 2203 enables the vertical supporter 2203 to change angle, relative to the floor or to the base 2218, so the seat 2201 can move side-to-side and/or forward and back. In some embodiments a range of movement of the vertical supporter 2203 is optionally in a range from +10 degrees to −10 degrees. In some embodiments a range of movement of the vertical supporter 2203 is optionally in a range from +30 degrees to −30 degrees. In some embodiments a range of movement of the vertical supporter 2203 is optionally in a range from +45 degrees to −45 degrees. In some embodiments a range of movement of the vertical supporter 2203 is optionally in a range from +60 degrees to −60 degrees.
In some embodiments, the range of movement of the vertical supporter 2203 is not the same side-to-side as forward to back.
In some embodiments, the range of sideways movement of the vertical supporter 2203 is from 10 degree right to 10 degrees left.
In some embodiments, the range of front-to-back movement of the vertical supporter 2203 is from 10 degree front to approximately 0 degrees back (that is, approximately vertical).
In some embodiments, the range of front-to-back movement of the vertical supporter 2203 is from 10 degree front to approximately 2 degrees front, that is, the vertical supporter 2203 does not lean back from vertical.
In some embodiments the PTD 2200 optionally includes a locking prong 2222, which can be moved to lock the vertical supporter 2203 from moving side-to-side and/or front-to-back.
In some embodiments, the locking prong 2222 is mounted on a hinge 2214, and connected to a strut 2212 which serves to move the locking prong 2222 into and out of locking the vertical supporter 2203.
In some embodiments, the strut 2212 is optionally long, and attaches to a back cushion 2210. A user can optionally lock the vertical supporter from side-to-side and/or front-and-back movement by leaning back upon the back cushion 2210.
Referring now to
The PTD 2300 includes a seat 2301 on which a user may sit.
In some embodiments, the seat 2301 is mounted to a flexible connector 2304, for example a spring (or more than one spring) on a vertical supporter 2303. In some embodiments, the spring supports movement of the seat 2301 relative to other parts of the PTD 2300 or relative to the ground. Optionally, the spring connects the seat 2301 to the vertical supporter 2303.
In some embodiments, the seat 2301 is mounted to a vertical supporter 2303, and a flexible connector 2304, for example a spring (or more than one spring) on the vertical supporter 2303, provides movement along an axis of the vertical supporter 2303.
In some embodiments, the PTD 2300 includes an interface (e.g., a seat 2301) on which a user is mounted. Optionally, the interface supports a portion of the user's body such as the area between the lower abdomen and the bottom of the pelvis. Optionally, the interface supports the user also by his thighs.
In some embodiments the PTD 2300 optionally includes a back support 2310, connected to the seat 2301 or to the vertical supporter 2303, or to the spring(s) 2304, by a back strut 2312.
In some embodiments the PTD 2300 optionally includes a locking prong, such as shows in
In some embodiments of the PTD 2300 the locking prong is optionally connected to a back strut 2312. In some embodiments, a user may optionally push the back strut 2312 backward, optionally causing the locking prong to lock the seat 2301. In some embodiments, the user may optionally lean back against the back cushion 2310, optionally causing the locking prong to lock the seat 2301.
In some embodiments the vertical supporter 2303 is optionally connected to one or more feet 2318.
In some embodiments the feet 2318 include wheels 2319.
In some embodiments the vertical supporter 2303 is optionally connected to one or more spring(s) 2320. The spring(s) 2320 potentially exert a centering force returning the seat 2301 to a center position if a user chooses to rotate the seat 2301 clockwise or counter-clockwise relative to the feet 2318.
In some embodiments the PTD 2300 optionally includes one or more controls 2305.
In some embodiments, one or more of the controls 2305 is configured for setting stiffness of the spring(s) 2304.
In some embodiments, one or more of the controls 2305 is configured for adjusting length of the vertical supporter 2303, which adjusts height of the seat 2301 off the floor.
In some embodiments, the seat 2301 is saddle shaped. Optionally the seat comprises one or more convex portions optionally positioned at a front portion of the seat 2301 (in front of the mounted user) and at a rear portion of the seat 2301 (behind the mounted user). In some embodiments, the seat 2301 includes one or more concave portions (such as, e.g., portions 460 at
In some embodiments, the seat 2301 includes a central arch (such as, e.g., portion 410 at
Referring now to
In some embodiments, the vertical supporter 24162420 is adjustable in height, with a top portion 2416 of the vertical supporter 24162420 extending from a bottom portion 2420 of the vertical supporter.
In some embodiments, the height that the top portion 2416 of the vertical supporter 24162420 extends from a bottom portion 2420 of the vertical supporter into the flexible connector 2414, or spring 2414, enables setting a stiffness of the side-to-side and/or the forward-backward swaying of the seat 2401. The more the top portion 2416 of the vertical supporter 24162420 extends into the flexible connector 2414, the less length of the flexible connector 2414 is available for bending, the stiffer the resistance to swaying and/or the smaller the angular range available for the seat 2401 to bend from a central position.
In some embodiments, movement of the seat relative to a rest position is against resistance, optionally as provided by the flexible connector described herein, and the springs described herein.
In some embodiments, movement of the seat relative to a base of the seat is against resistance, as provided by the flexible connector described herein, and the springs described herein.
In some embodiments, the resistance is provided by an elastic component, such as a spring. Additional components which are optionally used for resistance to movement optionally include rubber bands, rubber bushings, flat springs, coil springs, and additional elastic components.
In some embodiments, the vertical supporter 24162420 comprises several components, such as a top portion 2416 movable up and down relative to a bottom portion 2420, and an optional control, such as the control 2305 shown in
In some embodiments, a control such as the control 2305 shown, for example, in
Optionally, the flexible connector 2414, or spring 2414, enables the seat 2401 to change angle, relative to the floor or to the device base, so the seat 2401 can move side-to-side and/or forward and back. In some embodiments a range of movement of the seat 2401 is optionally in a range from +10 degrees to −10 degrees. In some embodiments a range of movement of the seat 2401 is optionally in a range from +30 degrees to −30 degrees. In some embodiments a range of movement of the seat 2401 is optionally in a range from +45 degrees to −45 degrees. In some embodiments a range of movement of the seat 2401 is optionally in a range from +60 degrees to −60 degrees.
In some embodiments, not shown here but which can be understood based on the example described here, the vertical supporter 2416, or at least the top portion of the vertical supporter 2416, is a tube which surrounds the flexible connector 2414. An amount by which the flexible connector 2414 extends from the surrounding vertical supporter 2416 optionally serves to adjust stiffness and/or the range of angular motion of the seat 2401.
The above explanation referring to setting stiffness and/or angular range of swaying is provided here, with reference to
In some embodiments, the back strut 2408 is connected to an optional back support 242, which optionally include a back cushion 2423. In some embodiments, a height of the back cushion 2423 can be set by an optional control 2422.
In some embodiments, the back strut 2408 is optionally connected to a bottom 2404 of the seat 2401 by a connecting strut 2406. In some embodiments, the back strut 2408 may rotate relative to the seat 2401 base 2404. In some embodiments, the rotation is optionally by a hinge such as the hinge 2014 shown, for example, in
In some embodiments, a length by which the locking prong 2412 extends from the back strut 2408 is optionally adjustable, by using an optional control such as control 2410.
In some embodiments, a user (not shown in
In some embodiments, a user (not shown in
Referring now to
The method of
exercising on a pelvis exercising system (2502); and
locking degrees of freedom of the system (2504).
Referring now to
The method of
providing a pelvis exercising system (2602); and
providing a locking mechanism for a user to lock degrees of freedom of the system (2604).
Referring now to
The method of
providing a wobbly seat (2702); and
providing a locking mechanism for a user to lock degrees of freedom of the wobbly seat (2704).
Referring now to
In some embodiments, pushing the back strut 2805 against the vertical support 2803 potentially closes a closed shape formed by the seat (not shown), the back strut 2805 and the vertical support 2803.
In some embodiments, the closed shape is a triangle.
In some embodiments, the closed shape is formed by the flexible support shown in
It is noted that the vertical support 2803 does not necessarily have to have a circular cross-section. The vertical support 2803 may have a rectangular, square, triangular or other cross-sectional shape.
Referring now to
In some embodiments the display 2902 optionally includes on-screen controls 906 for recording or playing back an exercise session.
It is noted that
Some uses for the sensor data values include:
a) controlling movement of a cursor on a display.
b) controlling movement of a game control on a display, potentially enabling playing a game.
It is noted that the above-mentioned four degrees of freedom potentially enable controlling a display in one, two, three or four dimensions (by way of a non-limiting example including time as a dimension).
By way of a non-limiting example, playing Pong, which requires controlling movement of a paddle along one dimension, can be done by associating side-to-side movement, or forward and backward movement, to movement of a paddle used in the game.
By way of a non-limiting example, controlling a kayak simulation game, for example by rotating the seat to control the direction of the simulated kayak, and leaning sideways to control a weight of a simulated paddler in the simulated kayak.
By way of another non-limiting example, controlling a snow ski simulation game, for example by rotating the seat to control the direction of the simulated skis; leaning sideways to control a sideways leaning of a simulated skier on the simulated skis; leaning forward or backward to control forward and backward lean, and moving, or bouncing, up and down on the seat to simulate jumping or skiing over moguls.
c) controlling movement of a device movement in at least one, two, three or four degrees of freedom.
d) tracking a user's movement on the seat. Such tracking can sense changes in a user's posture. In some embodiments, a display displays one or more measures of the user's posture to the user. In some embodiments, the user is additionally displayed desired values, and asked to perform exercise on the seat so as to reach the desired values. By way of a non-limiting example, a user may be present with lines on the first portion 2904 of the display 2902, and instructed to move the seat to have the path 2908 reach those lines, or reach those lines N times in a period of time, as an exercise.
In some embodiments, an office manager or a store manager can initiate an exercise routine for workers sitting down, such as office workers, cashiers, and so on, and provide appropriate seat pelvis exercising systems and exercise programs for the workers.
In some embodiments, a physiotherapist can provide an exercise routine for a patient on a seat pelvis exercising systems, and optionally track results using the data values from the sensor(s).
General:
The terms “comprises”, “comprising”, “includes”, “including”, “has”, “having” and their conjugates mean “including but not limited to”.
The term “consisting of” means “including and limited to”.
The term “consisting essentially of” means that the composition, method or structure may include additional ingredients, steps and/or parts, but only if the additional ingredients, steps and/or parts do not materially alter the basic and novel characteristics of the claimed composition, method or structure.
As used herein, the singular forms “a”, “an” and “the” include plural references unless the context clearly dictates otherwise. For example, the term “a compound” or “at least one compound” may include a plurality of compounds, including mixtures thereof.
Throughout this application, embodiments of this invention may be presented with reference to a range format. It should be understood that the description in range format is merely for convenience and brevity and should not be construed as an inflexible limitation on the scope of the invention. Accordingly, the description of a range should be considered to have specifically disclosed all the possible subranges as well as individual numerical values within that range. For example, description of a range such as “from 1 to 6” should be considered to have specifically disclosed subranges such as “from 1 to 3”, “from 1 to 4”, “from 1 to 5”, “from 2 to 4”, “from 2 to 6”, “from 3 to 6”, etc.; as well as individual numbers within that range, for example, 1, 2, 3, 4, 5, and 6. This applies regardless of the breadth of the range.
Whenever a numerical range is indicated herein (for example “10-15”, “10 to 15”, or any pair of numbers linked by these another such range indication), it is meant to include any number (fractional or integral) within the indicated range limits, including the range limits, unless the context clearly dictates otherwise. The phrases “range/ranging/ranges between” a first indicate number and a second indicate number and “range/ranging/ranges from” a first indicate number “to”, “up to”, “until” or “through” (or another such range-indicating term) a second indicate number are used herein interchangeably and are meant to include the first and second indicated numbers and all the fractional and integral numbers there between.
Unless otherwise indicated, numbers used herein and any number ranges based thereon are approximations within the accuracy of reasonable measurement and rounding errors as understood by persons skilled in the art.
It is appreciated that certain features of the invention, which are, for clarity, described in the context of separate embodiments, may also be provided in combination in a single embodiment. Conversely, various features of the invention, which are, for brevity, described in the context of a single embodiment, may also be provided separately or in any suitable subcombination or as suitable in any other described embodiment of the invention. Certain features described in the context of various embodiments are not to be considered essential features of those embodiments, unless the embodiment is inoperative without those elements.
Although the invention has been described in conjunction with specific embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.
All publications, patents and patent applications mentioned in this specification are herein incorporated in their entirety by reference into the specification, to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated herein by reference. In addition, citation or identification of any reference in this application shall not be construed as an admission that such reference is available as prior art to the present invention. To the extent that section headings are used, they should not be construed as necessarily limiting.
In addition, any priority document(s) of this application is/are hereby incorporated herein by reference in its/their entirety.
This application is a PCT application claiming priority from U.S. Provisional Patent Application No. 62/854,359, filed on 30 May 2019. The contents of all of the above applications are incorporated by reference as if fully set forth herein.
Filing Document | Filing Date | Country | Kind |
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PCT/IL2020/050595 | 5/27/2020 | WO | 00 |
Number | Date | Country | |
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62854359 | May 2019 | US |