The disclosed technology relates generally to reduced friction massage surfaces and exercise equipment, and, more specifically to massage surfaces and exercise equipment formed utilizing multiple ball transfer units, to and methods of use thereof.
As known, a healthy spine is formed of bony vertebrae, which are interconnected by intervertebral joints and are held together by intervertebral ligaments. Between the vertebrae are disposed intervertebral discs formed of a fibrous tissue, which perform a damping function. The spine is retained in a normal state by a muscular framework supporting the vertebrae, joints, ligaments, and discs.
With age, for natural reasons as well as due to increased loads and a variety of other reasons, the muscular framework supporting the spine weakens. Consequently, the load on the intervertebral joints increases, and the mobility of the intervertebral joints and of the spine in general is impaired. Additionally, the intervertebral discs often become thinner and their damping function may deteriorate or be lost. As a result, the load on the vertebrae increases, causing the spine to compress and shorten. The damage to the spine and spinal cord and impaired movement of the spine and body, may result in various types of muscular dysfunction and/or dysfunction of the internal organs.
Decompression or stretching of the spine, as achieved, for example, by use of massage and massage surfaces, removes some of the load from the spine and helps improve or restore the function of the spinal cord. Consequently, stretching of the spine may also improve or restore muscular mobility and may strengthen the muscular framework supporting the spine. As such, decompression of the spine may be the start of a process of normalizing the function of the spine and restoring disturbed functions of the human body.
Stretching of the spine over a massage surface, requires motion of the body over the surface. As is well known in the laws of physics, a frictional force exists between a moving object and a surface on which the object is moving. As such, in order to move an object lying on a surface, one must overcome the frictional force by making an effort, or apply a force, greater than the frictional force. As the frictional force decreases, the force required to move the object also decreases.
Many different methods and devices have been proposed for reducing the frictional force between a moving object and a surface on which the object is moving. Some such methods and devices make use of balls to reduce the friction.
U.S. Pat. No. 5,096,308 to Sundseth is directed to ball units including a load-bearing ball seated in an essentially radially symmetric bearing units having ball bearings in a bearing shell. The load-bearing ball is held in the bearing unit by a securing apparatus. The bearing unit has a supporting structure that enables the bearing unit to be fixed in an opening of a carrier plate in such a way that it can support a load. Detents are provided to lock the unit in the opening against the load direction.
U.S. Pat. No. 3,466,697 relates to a spring-loaded ball transfer or caster unit, which includes means for releasably securing the ball unit to structures with which the ball unit is associated, and/or means serving to limit movement of the ball responsive to a load applied to the ball. Such ball transfer units are usable in a pallet or platform for moving a container or box, as on a conveyer belt.
Additionally, many people try to restore normal function of the muscles and skeleton by exercise and increasing physical activity. However, most sport equipment available for use, for example in gyms and parks, is designed in such a way that the development of the muscles is associated with active compression of the joints and spine. As such, use of these types of exercise machines does not provide the desired decompression of the spine and joints, and may in fact cause injuries or exacerbate the existing problems.
However, there is a need in the art for massage surfaces and exercise equipment which reduce the friction between the surface and the body of the user, to allow for easy and effective stretching of the person's spine during the massage and/or exercise.
The disclosed technology relates generally to massage surfaces and exercise equipment, and, more specifically to massage surfaces and exercise equipment formed utilizing multiple ball transfer units.
In accordance with an aspect of one embodiment of the present invention, there is provided a reduced friction massage and exercise device, the device including:
a base frame;
at least one anchoring arrangement for anchoring a first body part of a user;
a reduced friction surface mounted onto the base frame, the reduced friction surface including a plurality of ball transfer units each including a housing element housing a motion transfer ball, the plurality of ball transfers units arranged such that adjacent ones of the plurality of ball transfer units engage one another; and
at least one cable column including a weight stack;
wherein each of the motion transfer balls is adapted for omnidirectional rotation relative to a corresponding housing element and independently of other the motion transfer balls,
wherein the reduced friction surface is adapted to have a second body part of the user placed thereon during performing of a physical activity applying force to the second body part, while reducing friction between the second body part and the surface.
In some embodiments, the anchoring arrangement is movable relative to the reduced friction surface, so as to adjust a distance between the anchoring arrangement and the reduced friction surface to be suited to dimensions of the user.
In some embodiments, the at least one cable column includes at least one guiding cable functionally associated with the weight stack, the at least one guiding cable being adapted to be connected to a body part of the user when the user performs the physical activity so as to apply additional load to the second body part during the physical activity.
In some embodiments, the base frame, the at least one anchoring arrangement, and the reduced friction surface are moveable relative to the cable column.
In some embodiments, the at least one anchoring arrangement and the reduced friction surface are movable relative to the base frame, so as to change the angular inclination of the reduced friction surface relative to the horizon.
In some embodiments, the at least one anchoring arrangement includes an anchoring arrangement for anchoring hands of the user, and wherein the reduced friction surface is adapted to be inclined relative to the base frame, such that a head of the user is disposed higher than legs of the user during the physical activity. In some such embodiments, the reduced friction surface is convex along a longitudinal direction thereof.
In some embodiments, the at least one anchoring arrangement includes an anchoring arrangement for anchoring legs of the user, and wherein the reduced friction surface is adapted to be inclined relative to the base frame, such that a head of the user is disposed lower than legs of the user during the physical activity. In some such embodiments, the reduced friction surface is planar.
In some embodiments, the reduced friction surface is barrel shaped and is in a fixed position relative to the base frame. In some embodiments, the at least one cable column includes a first cable column and a second cable column, the first and second cable columns having guiding cables enabling the user to manipulate the weight stacks of the first and second cable columns, the guiding cables being arranged at an angle relative to each other when the user is not engaging the guiding cables.
In such some embodiments, the at least one anchoring element includes an anchoring rack including a plurality of crossbeams, the anchoring rack having a curved profile, wherein a curvature of the curved profile corresponds to a curvature of the barrel shaped reduced friction surface.
In accordance with another aspect of one embodiment of the present invention, there is provided a method of exercising using the reduced friction device described herein, the method including:
disposing the second body part of the user on the reduced friction surface;
engaging the at least one anchoring element at least with the first body part of the user; and
carrying out a physical activity while the second body part of the user is disposed on the reduced friction surface.
Regardless of the relative locations of frame and massage surface assembly, the angle of inclination of massage surface, and the load applied or not applied by cable column, the ball transfer units of massage surface provide acupressure to parts of the user's body leaning on or in contact with massage surface during the exercise and contribute to more complete stretching of the muscles, and correspondingly to more significant decompression of the user's spine and joints.
In some embodiments, the carrying out of a physical activity includes allowing the second body part of the user to be pulled along the reduced friction surface under gravitational pull, so as to stretch muscles of the second body part of the user and to decompress bones and joints associated with the muscles.
In some embodiments, the carrying out a physical activity includes carrying out the physical activity using the second body part of the user or a third body part of the user adjacent to the second body part of the user, and the user's own body weight.
In some embodiments, the method further includes:
setting the weight stack of the at least one cable column to a weight suitable for exercise by the user; and
attaching a guiding cable of the at least one cable column to the second body part of user or to a third body part of the user adjacent the second body part of the user, and wherein the carrying out a physical activity includes carrying out the physical activity using the second body part of the user or the third body part of the user using load applied by the weight stack.
In some embodiments, the attaching a guiding cable includes attaching a first guiding cable of a first of the at least one cable column to the second body part of the user and attaching a second guiding cable of a second of the at least one cable column to the third body part of the user, wherein the carrying out physical activity includes carrying out physical activity using the third body part of the user using the load applied by the weight stack of the second cable column, and wherein the weight stack of the first cable column is used to anchor the second body portion of the user.
In some embodiments, the method further includes prior to disposing the second body part on the reduced friction surface, adjusting a position of the base frame and the reduced friction surface relative to the weight stack.
In some embodiments, the method further includes, adjusting an angular inclination of the reduced friction surface relative to the base frame.
In some embodiments, the method further includes, prior to the anchoring, adjusting a distance between the at least one anchoring element and the reduced friction surface to be suited to dimensions of the user.
In an embodiment of the disclosed technology, a plurality of ball transfer units are used together to form a reduced friction surface. The reduced friction surface lies on a base and is particularly useful for carrying out a physical activity on, or applying force to, a body part on the surface. For example, the body part may be massaged while on the reduced friction surface or may be stretched so as to decompress the spine. Carrying out the physical activity on the reduced friction surface is particularly advantageous in that little friction is present thereby allowing for movement while applying less force, and the mass of the body part is distributed on the ball transfer units, and is spread out thereby, which is advantageous when stretching muscles or decompressing the spine.
Embodiments of the disclosed technology will become clearer in view of the following description of the drawings.
Reference is now made to
As seen, a ball transfer unit 10 is arranged about a longitudinal axis 12, and, in some embodiments, is symmetrical with respect to the longitudinal axis. Ball transfer unit 10 includes a housing element 100 formed with an elongate stem 102 arranged along the longitudinal axis 12. The stem 102 is terminated at an upper end thereof, in a base portion 104. In some embodiments, such as the illustrated embodiments, the stem 102 is generally cylindrical. It should be noted, however that the ball transfer units formed without elongate stems also form a part of the invention.
The base portion 104 extends from stem 102 to a concave upper surface 106, which, in some embodiments, may have a circular cross section. Typically, a diameter of the base portion 104 is significantly greater than a diameter of stem 102, such that an annular shoulder 108 forms where stem 102 is connected to the lower surface of base portion 104. This is particularly important in order to arrange, or pack, the ball transfer units very close to one another, as described in further detail hereinbelow. For example, a ratio between the diameter of stem 102 and the diameter of base portion 104 may be at most 1:2, at most 1:3, or at most 1:4. The specific ration between the diameter of stem 102 and the diameter of base portion 104 affects the overall weight of the housing element 100. Extending upwardly from base portion 104, about concave upper surface 106, is a cylindrical portion 110, having a diameter equal to, or slightly greater than the diameter of base portion 104, such that an annular shoulder 112 forms where base portion 104 is connected to the cylindrical portion 110. In some embodiments, such as the illustrated embodiment, the shoulder 112 may be slanted relative to the longitudinal axis 12. Cylindrical portion 110 includes an outer wall 113, which terminates, at an upper end thereof, in a lip 114, which may be inwardly curved or slanted relative to the longitudinal axis 12. Concave upper surface 106, together with inner wall 116 of cylindrical portion 110, form a hollow cup.
A coating 120 is disposed within the hollow cup on concave upper surface 106, and, in some embodiments, on a lower portion of inner wall 116. The coating 120 must be smooth so as to allow ball bearing engaged therewith to roll on the coating 120. In some embodiments, the coating 120 may be formed of a material having a low friction coefficient, such as metal, plastic, wood, glass, bone, or a combination thereof. In some embodiments, the hardness of the coating should be equal to or greater than the hardness of the material from which the ball bearings are formed, to avoid deformation of the coating during use.
A plurality of ball bearings 130 are disposed within the hollow cup and engage the coating 120 at concave upper surface 106. A motion transfer ball 140 is placed within the hollow cup above ball bearings 130 and rests thereon, without engaging inner wall 116 of cylindrical portion 110. At least a portion of the motion transfer ball 140 extends out of the housing element 100, above lip 114. Motion transfer ball 140 is free to rotate in any direction (omnidirectional rotation) relative to the hollow cup, with substantially no friction, due to its rolling on ball bearings 130 which engage and roll over coating 120.
In some embodiments, concavity of inner wall 116 also ensures that motion transfer ball 140 cannot “pop out” of the housing element 100. In some embodiments, the motion transfer ball 140 is formed of at least one of metal, plastic, wood, glass, bone, or a combination thereof.
In some embodiments, a diameter of the motion transfer ball 140 is commensurable with the size of the vertebral discs and intervertebral distances. In some embodiments, the diameter of the motion transfer ball 140 is within the range of 15 mm to 40 mm. In some embodiments, a diameter of each ball bearing 130 is within the range of 2 mm to 6 mm. In some embodiments, a ratio between the diameter of each ball bearing 130 and the diameter of motion transfer ball 140 is in the range of 1:5 to 1:20.
Reference is now made to
As seen in
In some embodiments, such as the embodiment illustrated in
In the embodiment illustrated in
Reference is now made to
As seen in the Figures, ball transfer unit block 300 includes a plurality of ball transfer units 10 disposed in bracket 200 such that stems 102 are received within receiving bores 204. In some embodiments, annular shoulders 108 of ball transfer units 10 engage surface 202 of receiving portion 201, as seen in
It is a particular feature of the present invention that the receiving bores 204 are spaced such that the outer walls 113 of adjacent ball transfer units 10 engage one another, as seen clearly in
In some embodiments, all the motion transfer balls 140 in the block 300 are formed of the same material. In some embodiments, all the motion transfer balls 140 in the block 300 have the same diameter.
Reference is now made to
As seen in
In some embodiments, the ball transfer unit blocks 300 are arranged such that empty space between ball transfer units 10 will be minimized. In one such embodiment, illustrated in
Reference is now made to
In the embodiment of
In all the illustrated embodiments, the ball transfer unit block 300 is placed at the center of the frame walls. However, it is appreciated that the ball transfer unit block 300 may be disposed anywhere along the edge of the frame wall, regardless of the curvature, or lack thereof, of the edge of the frame wall.
The ball transfer unit block 300 may be connected to the frame walls by any suitable means. In some embodiments, the frame walls included dedicated tracks, and the bracket 200 of the ball transfer unit 300 may be seated in, or snap fit into, the dedicated tracks. In other embodiments, the bracket 200 of the ball transfer unit 300 may be disposed upon the edge of the frame wall, and may be secured thereto by any suitable means, such as adhesive, soldering, nuts and bolts, nails, and the like.
Reference is now made to
As seen in
In the embodiment of
In the embodiment of
As discussed hereinabove, the brackets 200 may be secured to their resting surface, be it the channel 608 or the upper surface 606b, using any suitable means, such as adhesive, soldering, nuts and bolts, nails, and the like.
Reference is now made to
As seen, the convex massage surface 700 includes two frame walls 702, each terminating, at an upper end thereof, in a convex surface 704. A plurality of ball transfer unit blocks 300, arranged similarly to the arrangement shown in
Specifically, the ball transfer unit blocks 300 are arranged such that the brackets 200 thereof are disposed in parallel to one another, and the ball transfer units 10 of adjacent blocks 300 engage each other in a honeycomb structure.
Turning now to
As seen in
The massage table 800 is usable to promote relaxation of muscles, and consequently, straightening and decompression of the spine. In the illustrated embodiment, a user 810 is lying on table plate 804 such that at least a torso thereof is disposed above massage surface 806. In some embodiments, the massage surface 806 is constructed such that the user's body only engages the motion transfer balls 140 and does not touch the housing elements 110 of the ball transfer units 10.
Placement of the user's body on the flat massage surface, which has reduced friction as described hereinabove, allows the body and the spine to straighten due to the impact of gravity on the body. Specifically, as explained hereinabove, the massage surface 806 is constructed such that the ball transfer units 10 are attached to the brackets 200 without limiting the movement of ball bearings 130 or of motion transfer ball 140, and each motion transfer ball 140 is capable of omnidirectional movement irrespective of movement of other ball transfer units. When the torso of user 810 is placed on the massage surface 806, relative motion of the ball transfer units 10 results in spreading out of the mass of the user's torso on the massage surface 806, or stretching the user's torso, in a similar manner to that of rolling out dough on a surface dusted with flour. When using massage table 800, simply turning the body of user 810 body on its side, on its stomach or on its back, you can achieve such a stretching effect for all areas of the spine and surrounding the spine.
Additionally, carrying a traditional massage, applied by a massage therapist or other person while user 810 lies on massage table 800, may enhance the stretching effect described above. This may be due to the fact that, as a result of the massage, the muscular framework surrounding and supporting the spine will relax, and slight pressure applied to the body during the massage promotes even greater spreading of the body and the spine along the table surface. Consequently, decompression of the spine will increase.
Furthermore, each of the ball transfer units 10 may function as an individual massage point, in part due to the fact that the motion of motion transfer ball 140 of each ball transfer unit 10 is capable of omnidirectional rotation independent of the motion of any other ball or ball transfer unit. As such, when the torso of user 810 is placed on the massage surface 806, each ball transfer unit provides a separate massage point, such that a massage of multiple points, similar to a “shiatzu massage” occurs in parallel.
In some embodiments, the massage table 800, and specifically the massage surface 806, may further include one or more vibrational elements and a control mechanism for adjusting the amplitudes and periods of vibration of the vibrational elements. Vibration of the ball transfer units 10 during placement of the user's body thereon may further decompress the spine and enhance the muscle relaxation effects of the massage.
In some embodiments, the planar massage surface 806 may be replaced by a convex massage surface, similar to that shown in
In some embodiments, a physical activity may be performed on the massage table, the physical activity including at least one of massage, sports exercise, medical exercise, muscle rehabilitation exercise, joint rehabilitation exercise, spinal decompression, and post-traumatic rehabilitation. The reduced friction provided by the massage surface may enable the user to invest less force in such physical activity, thereby resulting in the user achieving a greater range of motion and/or conserving more energy while carrying out the physical activity.
As seen, convex massage barrel 900 is formed of a base frame 902 including frame walls, each including a quadrilateral portion 904, and a convex portion 906. Mounted onto the convex portion 906 of the base frame 902 is a massage surface 908, including a plurality of ball transfer unit blocks 300, substantially as described hereinabove with respect to
Turning specifically to
In
The reduced friction of massage surface 908, stemming from use of ball transfer units, is advantageous when using a massage barrel for similar reasons to those described hereinabove with respect to
As seen in
The elevation mechanism 1025 is adapted to elevate at least a portion of table 1022 relative to base portion 1024, and may be hydraulic, pneumatic, or any other suitable type of elevation element. In the illustrated embodiment, table 1022 is elevated such that first end 1030a engages the base portion 1024, and leg rest 1032 is elevated in the air above the base portion. As such, in the embodiment of
Exercise machine 1000 of
The devices of
Various physical exercises may be carried out on the devices of
More generally, at a time when the spine and joints are in a stretched state, any additional decompression action exerted or carried out helps to restore the mobility of the musculoskeletal system.
Reference is now made to
Reference is now made to
As seen in
A base-frame 1210 includes a first generally rectangular frame portion 1212 functionally associated with a plurality of wheels 1214, adapted to be movable along guides 1204. An additional transverse bar 1215 extends within frame portion 1212. Base-frame 1210 further includes a second, generally rectangular frame portion 1216, such that planes defined by frame portions 1212 and 1216 are generally parallel to one another. Two pairs of bars 1218 and 1220 connect frame portions 1212 and 1216 to one another.
In some embodiments, such as the illustrated embodiment, frame portion 1216 has a smaller foot print than frame portion 1212, such that bars 1218 extend generally perpendicularly between the two frame portions, and bars 1220 extend from one end of frame portion 1212 to the end of the second frame portion 1216 and are angled relative to the planes defined by frame portions 1212 and 1216.
A massage surface assembly 1230 is connected to base-frame 1210 and is movable relative thereto as explained in further detail herein. Massage surface assembly 1230 includes a generally rectangular massage table 1232, defining a massage surface 1234. Massage table 1232 includes first and second longitudinal ends 1236a and 1236b, and two lateral ends 1238. Massage surface 1234 preferably is a low friction surface, for example formed of a plurality of ball transfer units 10 as described hereinabove with reference to
Extending from longitudinal end 1236b of massage table 1232 is a footrest 1240, adapted for a user to place his or her feet thereon, as described hereinbelow. Extending from the opposing longitudinal end 1236a of massage table 1232 is a telescopically extending bar 1242, terminating in a hand grip 1244. In some embodiments, hand grip 1244 includes multiple hand-grip bars 1246.
Telescopically extending bar 1242 is movable relative to massage table 1232, such that the length of bar 1242 extending beyond longitudinal end 1236a may be adjusted based on the height of the user, as described in further detail herein. In some embodiments, bar 1242 includes a plurality of bores, adapted to have a pin extending therethrough, thereby to set the extent to which bar 1242 extends beyond end 1236a, as known in the art of exercise machines.
A pair of removable arm supports 1250 are disposed along lateral ends 1238 of massage table 1232. In some embodiments, arm supports 1250 are adapted for placement of the user's forearms thereon, and each include a hand grip 1252 which may be gripped by the user's hand when the forearms are rested on supports 1250.
A connecting mechanism 1260 extends between transverse bar 1215 and a lower surface 1262 of massage table 1232 and facilitates changing of the angle of massage table 1232 relative to the horizon or to the base surface of machine 1200. The connecting mechanism 1260 can be formed based on any applicable conventional technology, including but not limited to a pneumatic, hydraulic, electromechanical, manual and other mechanisms. In some embodiments, the lower surface 1262 of massage table 1232 is further movably connected to one end of frame portion 1216, for example by an axle mechanism 1264, as illustrated in
Turning now to
Once the user lies on massage surface 1234 with his feet in footrest 1240, the user may place his forearms on arm supports 1250 as illustrated in
Once the user has positioned his hands in a comfortable position and is anchored to machine 1200 by gripping of his hands, the user may remove his feet from footrest 1240, as illustrated in
In some embodiments, when the user holds one of hand-grip bars 1246 and has removed his feet from footrest 1240, the user may carry out exercises without use of additional weight, such, as, for example, leg raisers and cycling motions in the air.
Reference is now made to
As seen in
In the embodiments illustrated in
In yet other embodiments, the cable 1208 and the weights on the weight stack 1206 may be arranged for a combined exercise aimed at simultaneously training both flexor muscles and extensor muscles. In such an arrangement, the cable 1208 is set such that the user exerts an effort both when lifting his legs and when lowering them.
It is a particular feature of machine 1200 that the gravitational pulling power granted by the reduced friction of massage surface 1234 serves to reduce the load on the trained muscle groups when performing physical exercises, to create the opportunity to train these muscles under loads that the person is able to overcome in accordance with his physical condition and exercise plan.
As discussed herein with respect to
As seen from comparison of
Regardless of the relative locations of frame 1202 and massage surface assembly 1230, the angle of inclination of massage surface 1234, and the load applied or not applied by cable column 1206, the ball transfer units of massage surface 1234 provide acupressure to parts of the user's body leaning on or in contact with massage surface 1234 during the exercise and contribute to more complete stretching of the muscles, and correspondingly to more significant decompression of the user's spine and joints.
Reference is now made to
As seen in
In some embodiments, such as the illustrated embodiment, frame portion 1316 has a smaller foot print than frame portion 1312, such that bars 1318 extend generally perpendicularly between the two frame portions, and bars 1320 extend from the end of frame portion 1312 to the end of the second frame portion 1316 and are angled relative to the planes defined by frame portions 1312 and 1316.
A massage surface assembly 1330 is connected to base-frame 1310 and is movable relative thereto as explained in further detail herein. Massage surface assembly 1330 includes a generally rectangular massage table 1332, defining a massage surface 1334. Massage table 1332 includes first and second longitudinal ends 1336a and 1336b, and two lateral ends 1338. Massage surface 1334 preferably is a flat low friction surface, for example formed of a plurality of ball transfer units 10 as described hereinabove with reference to
Extending from longitudinal end 1336b of massage table 1332 and moveable relative thereto is a telescopically extending bar 1340 terminating in a footrest 1342, adapted for a user to place his or her feet thereon, as described hereinbelow. Footrest 1342 includes a plurality of anchoring elements 1344, such as anchoring straps, for anchoring the user's feet to footrest 1342.
Telescopically extending bar 1340 is movable relative to massage table 1332, such that the length of bar 1340 extending beyond longitudinal end 1336b may be adjusted based on the height of the user, as described in further detail herein. In some embodiments, bar 1340 includes a plurality of bores, adapted to have a pin extending therethrough, thereby to set the extent to which bar 1340 extends beyond end 1336b, as known in the art of exercise machines.
A pair of hand rails 1350 are disposed along lateral ends 1338 of massage table 1332.
A connecting mechanism 1360 extends between transverse bar 1315 and a lower surface 1362 of massage table 1332 and facilitates changing of the angle of massage table 1332 relative to the horizon or to the base surface of machine 1300. In some embodiments, the connecting mechanism 1360 comprises a pneumatic mechanism. In some embodiments, the lower surface 1362 of massage table 1332 is further movably connected to one end of frame portion 1316, for example by an axle mechanism 1364. The connecting mechanism 1360 and axle mechanism 1364 facilitate tilting of massage surface assembly 1330 from a user-mounting operative orientation to an exercise and spinal decompression operative orientation. In the user-mounting operative orientation, illustrated in
A head exercise cable column 1370, and a pair of arm exercise cable columns 1372, as known in the art of exercise machines, are connected to base frame 1310 by a base arrangement 1374 and are at a fixed distance from massage surface assembly 1330. A first roller guiding cable 1378 extends from head exercise cable column 1370 to a bar 1380 extending from end 1336 of massage table 1332 via a plurality of rollers, as is known in the art. A pair of second roller guiding cables 1382 extend from arm exercise cable columns 1372 to the sides of massage table 1332 via a plurality of rollers, as is known in the art. Guiding cable 1378 enables a load to be provided to the user's head, and guiding cables 1382 enable the user to exercise his arms using weights and loads, when disposed on massage surface 1334, as described hereinbelow with reference to
Reference is now made to
Subsequently, the user may use an actuator (not shown), such as a suitable lever associated with connecting assembly 1360 or an electromechanical remote controller, to change the angle of massage surface assembly 1330 such that machine 1300 transitions from the user-mounting operative orientation of
Reference is now made to
Once the user lies on massage surface 1334 with his feet in footrest 1342 when the massage surface is in the exercise and spinal decompression operative orientation, the user's body attempts to slip downward, toward the cable columns 1370 and 1372 under gravitational pull. Due to the anchoring of the user's feet to the footrest, and due to the reduced friction of massage surface 1334, the user's body can slide along massage surface 1334 thereby stretching the user's spine and joints.
In some embodiments, the user's head is connected to cable column 1370 via a dedicated helmet 1390 fastened onto the user's head and via cable 1378. The weights in the weight stack of cable column 1370 increase the pulling force on the user's body towards cable column 1370, which pulling force is aligned strictly along the center of the user's body and the spinal line, thus contributing to targeted decompression of all parts of the spine.
In some embodiments, the user may hold one or both of cables 1382 extending from cable columns 1372 to sides of massage table 1332 and carry out exercises using his hands when disposed on massage surface 1334, without compressive loads being applied to the joints and the spinal discs. The manipulation of the weight stacks of cable column 1372 may exercise flexor muscles and/or extensor muscles, depending on the initial position in which the user holds cables 1382. The loads applied by the weight stack of cable columns 1370 and 1372 are typically preset, but the user or by a helper thereof, in accordance with the user's physical ability and exercise plan.
It is a particular feature of machine 1300 that the gravitational pulling power granted by the reduced friction of massage surface 1334 serves to reduce the load on the trained muscle groups when performing physical exercises, to create the opportunity to train these muscles under loads that the person is able to overcome in accordance with his physical condition and exercise plan.
As discussed herein with respect to
Regardless of the angle of inclination of massage surface 1334, and the loads applied or not applied by cable columns 1370 and 1372, the ball transfer units of massage surface 1334 provide acupressure to parts of the user's body leaning on or in contact with massage surface 1334 during the exercise and contribute to more complete stretching of the muscles, and correspondingly to more significant decompression of the user's spine and joints.
Reference is now made to
As seen in
A base-frame 1410 includes a first generally rectangular frame portion 1412 functionally associated with a plurality of wheels 1414, adapted to be movable along guides 1404. Specifically, frame portion 1412 includes a first end 1415a and a second end 1415b, the first end 1415a being closer to cable column 1406. An additional transverse bar 1416 extends within frame portion 1412, between first end 1415a and second end 1415b. Base-frame 1410 further includes a first pair of vertical bars 1418 extending upward from edges of end 1415a, and a second pair of vertical bars 1420 extending upward from edges of transverse bar 1416, vertical bars 1420. In some embodiments, vertical bars 1420 are longer than vertical bars 1418.
A barrel shaped massage table 1432, defining a curved massage surface 1434 extends between vertical bars 1418 and 1420. Massage surface 1434 preferably is a low friction surface, for example formed of a plurality of ball transfer units 10 as described hereinabove with reference to
A pair of shoulder rests 1440 and a head rest 1442 are removably attached to an end of massage table adjacent vertical bars 1420. In some embodiments, the user may hold shoulder rests 1440 and/or rest his head on head rest 1442 when exercising using machine 1400, as described hereinbelow with respect to
A rack 1450 having curved sidebars 1452 and a plurality of crossbeams 1454 extending along the curve thereof is connected to frame portion 1412 at a fixed position between second end 1415b and transverse bar 1416. In some embodiments, a curvature of rack 1450 is substantially parallel to the curvature of massage table 1432.
A connecting mechanism 1460 extends between second end 1415b of frame portion 1412 and rack 1450 and facilitates changing of the angle of rack 1450 relative to massage table 1432. In some embodiments, the connecting mechanism 1460 comprises a pneumatic mechanism. In some embodiments, a lower end of rack 1450 is movable relative to frame portion 1412 also by an axle mechanism 1464. Adjustment of the angular arrangement of rack 1450 enables a user to customize the machine 1400 for their dimensions, for example based on the length of the user's arms.
Reference is now made to
When the user wishes to use machine 1400, the user may lie on his stomach, as illustrated in
In some embodiments, the user may use machine 1400 for spinal decompression based on the weight of the user and on gravitational pull. In this mode, the user lies on massage surface 1434 and can flex the body in any desired direction, by raising his legs and/or arms to the maximal point possible based on the user's physical condition and/or to the minimal point possible based on the structure of machine 1400. In this mode, the load on the musculoskeletal apparatus is maximal, and most of the muscle groups of the trunk are involved, while the hip area is involved in an insignificant degree. Decompression of the spine is gravitational and is based on the body weight and the low friction of the massage surface.
In a second mode of operation, illustrated for example in
As discussed hereinabove with respect to
In some embodiments, such as that illustrated in
In other embodiments, such as that illustrated in
It is a particular feature of machine 1400, when used as illustrated in
In a third mode of operation, illustrated in
In this mode of operation, emphasis is placed on the development of the hip and lumbar muscles, and the body bend is fixed due to the position of the hands that grip the crossbeams and because of the horizontal pulling force applied by cable column 1406. Additionally, in this mode, a hardware method of decompression (i.e. using tools and weights other than the user's body weight) of the spine and joints is used, and gravitational pull on the user's body weight is neutralized, due to the horizontal and lower horizontal pulling forces.
As discussed hereinabove, and as seen from comparison of
Regardless of the relative locations of frame 1402 and massage table 1432, and the load applied or not applied by cable column 1405 and/or 1406, the ball transfer units of massage surface 1434 provide acupressure to parts of the user's body leaning on or in contact with massage surface 1434 during the exercise and contribute to more complete stretching of the muscles, and correspondingly to more significant decompression of the user's spine and joints.
It will be appreciated by those skilled in the art that exercise machines 1200, 1300, and 1400 described herein are suitable for use in centers for therapeutic exercise, fitness centers, rehabilitation centers, medical offices, sports centers, and army training centers, among others.
It will further be appreciated by those skilled in the art that exercise machines 1200, 1300, and 1400 may provide multiple benefits to a user thereof, including, but not limited to:
While the disclosed technology has been taught with specific reference to the above embodiments, a person having ordinary skill in the art will recognize that changes can be made in form and detail without departing from the spirit and the scope of the disclosed technology. The described embodiments are to be considered in all respects only as illustrative and not restrictive. All changes that come within the meaning and range of equivalency of the claims are to be embraced within their scope. Combinations of any of the methods and apparatuses described hereinabove are also contemplated and within the scope of the invention.
This Application is a continuation-in-part Application of application Ser. No. 15/601,010 filed May 22, 2017, the entire disclosure of which is hereby incorporated by reference.
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Number | Date | Country | |
---|---|---|---|
Parent | 15601010 | May 2017 | US |
Child | 15979929 | US |