Embodiments of the invention described in this specification relate generally to physical therapy machines and systems, and more particularly, to a multi-therapeutic patient lift and parallel bars system.
Therapy gyms utilize a variety of conventional therapy equipment, machines, and/or systems (hereinafter referred to as “conventional therapy equipment”) to treat patients. Examples of conventional therapy equipment include, without limitation, standing frames, parallel bars, ramps, and steps. A standing frame assists patients to stand upright for those patients who are unable to stand on their own. However, conventional standing frames are bulky, difficult to store, and difficult to maneuver around in the therapy gym. Parallel bars are typically large—ranging from six feet to over fifteen feet—and therefore have large spatial requirements for use and storage. Bariatric-sized standing frames and parallel bars are especially large, bulky, and difficult to move. Additional floor space is required for a ramp and steps, thereby further decreasing space in a therapy gym setting.
In addition to the spatial and usability issues that exist with conventional therapy equipment, the costs of such therapy devices are high, with quality conventional therapy equipment costing several thousand dollars.
Therefore, what is needed is a way to increase space in therapy gyms, which tend to be crowded with multiple therapy systems, without limiting the quality or reducing the quantity of therapy equipment and devices available to assist patients.
A novel multi-therapeutic patient lift and parallel bars system is disclosed. The multi-therapeutic patient lift and parallel bars system of some embodiments increases usable space in a crowded therapy gym by combining several therapy systems into one combination system. The combination of several therapy systems increases the available space in the gym for other conventional equipment, specialty equipment (machines), and patients, and allows for increased productivity, increased quantities of patients seen, attended to, and treated.
In some embodiments, the multi-therapeutic patient lift and parallel bars system combines a plurality of therapy devices into a single machine. In some embodiments, the plurality of therapy devices comprises a patient lift/walker assembly and a parallel bars apparatus. In some embodiments, the plurality of therapy devices further includes a step system. In some embodiments, the plurality of therapy devices further includes a ramp. In some embodiments, the ramp is a collapsible ramp that is built into a platform of the parallel bars apparatus. In this way, the multi-therapeutic patient lift and parallel bars system maximizes room in the therapy gym, increases convenience of using the therapy equipment, decreases clutter in the therapy gym, and provides more available storage with increased ease of moving patients around in an area that could already be crowded.
The preceding Summary is intended to serve as a brief introduction to some embodiments of the invention. It is not meant to be an introduction or overview of all inventive subject matter disclosed in this specification. The Detailed Description that follows and the Drawings that are referred to in the Detailed Description will further describe the embodiments described in the Summary as well as other embodiments. Accordingly, to understand all the embodiments described by this document, a full review of the Summary, Detailed Description, and Drawings is needed. Moreover, the claimed subject matters are not to be limited by the illustrative details in the Summary, Detailed Description, and Drawings, but rather are to be defined by the appended claims, because the claimed subject matter can be embodied in other specific forms without departing from the spirit of the subject matter.
Having described the invention in general terms, reference is now made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
In the following detailed description of the invention, numerous details, examples, and embodiments of the invention are described. However, it will be clear and apparent to one skilled in the art that the invention is not limited to the embodiments set forth and that the invention can be adapted for any of several applications.
Some embodiments of the invention include a novel multi-therapeutic patient lift and parallel bars system is disclosed. The multi-therapeutic patient lift and parallel bars system of some embodiments increases usable space in a crowded therapy gym by combining several therapy systems into one combination system. The combination of several therapy systems increases the available space in the gym for other conventional equipment, specialty equipment (machines), and patients, and allows for increased productivity, increased quantities of patients seen, attended to, and treated.
In some embodiments, the multi-therapeutic patient lift and parallel bars system combines a plurality of therapy devices into a single machine. In some embodiments, the plurality of therapy devices comprises a patient lift/walker assembly and a parallel bars apparatus. In some embodiments, the plurality of therapy devices further includes a step system. In some embodiments, the plurality of therapy devices further includes a ramp. In some embodiments, the ramp is a collapsible ramp that is built into a platform of the parallel bars apparatus. In this way, the multi-therapeutic patient lift and parallel bars system maximizes room in the therapy gym, increases convenience of using the therapy equipment, decreases clutter in the therapy gym, and provides more available storage with increased ease of moving patients around in an area that could already be crowded.
As stated above, therapy gyms utilize a variety of conventional therapy equipment, including standing frames, parallel bars, ramps, and steps. However, most of the conventional therapy equipment items and devices are bulky, difficult to store, and/or difficult to maneuver around in the therapy gym. This has the effect of decreasing the available floor space in a therapy gym setting, which tends to make usage of some equipment difficult (for lack of sufficiently wide space). The problem is not solved by storage, since the conventional therapy equipment items and devices use vast storage space, and thus, limit the available storage or requirement greater storage space. Besides the usage and storage problems noted for the conventional therapy equipment, the costs of such therapy devices are high, with quality conventional therapy equipment costing several thousand dollars.
Embodiments of the multi-therapeutic patient lift and parallel bars system solve these problems by combining the therapy devices into a single combined system, thereby increasing the space in a therapy gym and increasing the room for more equipment, more patients. Given that many therapy gyms have limited space to begin with, the multi-therapeutic patient lift and parallel bars system also provides a safer environment which allows greater room for patients and staff to move about freely.
Embodiments of the multi-therapeutic patient lift and parallel bars system differ from the conventional therapy equipment items and devices. Specifically, the multi-therapeutic patient lift and parallel bars system combines multiple therapy devices that already exist as separate therapy devices or apparatuses. By combining multiple therapy devices into a single system, gym floor space and money are saved, without reducing effective therapy usage. In addition, the multi-therapeutic patient lift and parallel bars system decreases the need for extra storage and room for other machines. In addition to its space-saving design, some embodiments of the multi-therapeutic patient lift and parallel bars system improve upon the conventional therapy equipment items and devices by enabling combined usage by patients. Specifically, part of the parallel bars, the patient lift/walker assembly (including a “standing frame”), the step system, or the ramp can be used at the same time.
The multi-therapeutic patient lift and parallel bars system of the present disclosure may be comprised of the following elements. This list of possible constituent elements is intended to be exemplary only and it is not intended that this list be used to limit the multi-therapeutic patient lift and parallel bars system of the present application to just these elements. Persons having ordinary skill in the art relevant to the present disclosure may understand there to be equivalent elements that may be substituted within the present disclosure without changing the essential function or operation of the multi-therapeutic patient lift and parallel bars system.
The various elements of the multi-therapeutic patient lift and parallel bars system of the present disclosure may include additional elements not listed above, but which are provided in one or more embodiments of the multi-therapeutic patient lift and parallel bars system. The various elements listed above and other, additional elements which are not listed above may related in the following exemplary ways, as shown and described by reference to
By way of example,
Specifically, as shown from the front perspective view of the multi-therapeutic patient lift and parallel bars system in
Now as shown from the rear perspective view of a multi-therapeutic patient lift and parallel bars system in
In some embodiments, the platform 10 provides a standing area for a patient to stand once inside the parallel bars. In some embodiments, the platform 10 is used as a foundation for the lift/walker assembly 30 standing frame 32 and at least part of the parallel bars 16. In some embodiments, the platform 10 is made of plywood. In some embodiments, the platform 10 is made of another hard surface material similar to plywood.
In some embodiments, the storage hatch 12 provides space to store at least one of a collapsible step system and a collapsible ramp. In some embodiments, the storage hatch 12 is used to store other equipment.
In some embodiments, the parallel bar uprights 14 connect the platform 10 to the parallel bars 16. In some embodiments, the parallel bar uprights 14 are made of metal. In some embodiments, the parallel bar uprights 14 are secured to the platform 10. In some embodiments, the parallel bar uprights 14 are bolted into the platform 10. In some embodiments, the parallel bar uprights 14 are able to slide the parallel bars 16 up and down and side to side to adjust for different sizes of different patients. In some embodiments, an increased quantity of parallel bar uprights 14 are included in a multi-therapeutic patient lift and parallel bars system that utilizes a step system. In some embodiments, additional supports for the hands are integrated into the parallel bar uprights 14.
In some embodiments, the parallel bars 16 run parallel for support when a patient puts hands on the parallel bars 16 for support while walking or moving on the platform 10 along the parallel bars 16. In some embodiments, the additional supports for the hands that are integrated into the parallel bar uprights 14 are at a height of the parallel bars 16. In some embodiments, sliding bars are included in the parallel bar uprights 14 and additional supports of the lift/walker assembly 30 to allow the parallel bars 16 to move up and down or side to side. In some embodiments, a hinge is included in the lift/walker assembly 30 such that as the lift/walker assembly 30 moves forward a little, the hinge allows the lift/walker assembly 30 to swing ninety degrees to connect to the support for the parallel bars 16 on the opposing side.
In some embodiments, the bar adjustment motor 18 is an electric motor to move the parallel bar uprights 14 up and down and side to side, and thereby move the parallel bars 16 up and down and side to side. In some embodiments, manually adjustable parallel bar uprights connect the platform 10 to the parallel bars 16 and are included in alternative embodiments of the multi-therapeutic patient lift and parallel bars system instead of the bar adjustment motor 18. In some embodiments, the parallel bar uprights 14 and the parallel bars 16 are both manually adjustable and electronically adjustable by way of the bar adjustment motor 18 to give an option between motorized and manual adjustment of the parallel bar uprights 14 and the parallel bars 16.
In some embodiments, the bar adjustment controller 20 is an electronic logic control device that directs the bar adjustment motor 18 to move the parallel bar uprights 14 up and down and side to side. In some embodiments, the bar adjustment controller 20 receives input commands from a remote control device operated by a user. In some embodiments, the bar adjustment controller 20 directs the bar adjustment motor 18 to move the parallel bar uprights 14 in a particular manner according to the input command received from the remote control device.
By way of example,
Now turning back to the front and rear perspective views of the multi-therapeutic patient lift and parallel bars system shown in
In some embodiments, the handrail 26 latches onto the handrail hook 28 to provide additional hand support to a patient using any of the standing frame, the step system, and the ramp within the parallel bars 16.
In some embodiments, the lift/walker assembly 30 houses all of the standing frame equipment to assist a patient to stand. In some embodiments, the lift/walker assembly 30 includes the frame 32, the locking casters 34, the adjustable height tray 36, the back pad 38, the chest pad 40, the knee pad 42, the lift arms 44, the lift strap 46, the lift adjustment motor 48, the tray height adjustment motor 50, the lift adjustment motor controller box 52, the tray height adjustment motor controller 54, and the kick plate with abduction board slot 56.
By way of example,
Now turning back to the front and rear perspective views of the multi-therapeutic patient lift and parallel bars system shown in
In some embodiments, the locking casters 34 include wheels that can be locked in place (locked configuration) to ensure the lift/walker assembly 30 stays secure (locked) or is permitted to move (unlocked configuration). In some embodiments, the locking casters 34 lock wheels in the locked configuration to prevent movement of the lift/walker assembly 30 when not in use or when a patient is standing upright without forward or backward foot movement. Similarly, when the locking casters 34 are in an unlocked configuration, the wheels are free to move so that a patient standing in the standing frame can move the lift/walker assembly 30 along the platform 10 within the parallel bars 16.
In some embodiments, the adjustable height tray 36 is where a patient places elbows and performs projects. In some embodiments, the adjustable height tray 36 is motorized to go up and down. In some embodiments, the adjustable height tray 36 folds in two pieces for storage. In some embodiments, the adjustable height tray 36 collapses to allow reduced assistance for stronger patients standing in the standing frame. In some embodiments, the adjustable height tray 36 is removable to allow patients to stand without the tray 36 in the standing frame. In some embodiments, the adjustable height tray 36 includes a pair of parallel projection supports, one each to the left and the right of the patient in the standing frame with arms/elbows on the adjustable height tray 36.
Turning again to
Once again turning back to the front and rear perspective views of the multi-therapeutic patient lift and parallel bars system shown in
In some embodiments, the chest pad 40 attaches to the adjustable height tray 36 and keeps the torso of the patient in place. In some embodiments, the chest pad 40 is tucked under the adjustable height tray 36 when not in use.
In some embodiments, the knee pad 42 keeps the knees of the patient in place. In some embodiments, the knee pad 42 is used separately when the adjustable height tray 36 is removed or collapsed. In this way, patients who are able to tolerate it can attempt and/or engage in enhanced dynamic trunk activities.
In some embodiments, the lift arms 44 include a pair of parallel lift arms that are engaged when the lift adjustment motor 48 is activated, thereby raising or lowering the lift strap 46 that is in place to allow the patient to be moved into a standing position or lowered to a seated position. In some embodiments, the lift arms 44 include holes into which hooks for the lift strap 46 attach.
In some embodiments, the lift strap 46 includes a netting with opposite ends that each connect to a separate arm of the pairs of lift arms 44. In some embodiments, hooks are attached to the ends of the lift strap 46 netting. In some embodiments, the hooks are used to attach the lift strap 46 to the lift arms 44, hooking the ends of the lift strap 46 netting into the holes of the lift arms 44. In some embodiments, the netting of the lift strap 46 goes under the rear end of a patient to lift them up into a standing position as the lift arms 44 rise up by the power applied by the lift adjustment motor 48. In some embodiments, the lift strap 46 of the lift/walker assembly 30 locks into the parallel bars 16.
In some embodiments, the lift adjustment motor 48 moves the lift strap 46 up and down via the parallel lift arms 44. Accordingly, when a patient is secured by the lift strap 46 from under the patient's rear end, the patient can be lifted to a standing position, can be gently put down to a seated position after activities, or can be adjusted to rise or lower as needed during activities.
Returning to the example shown in
Again turning back to the front and rear perspective views of the multi-therapeutic patient lift and parallel bars system shown in
In some embodiments, the lift adjustment motor controller box 52 is an electronic logic control device that directs the lift adjustment motor 48 to move the lift arms 44 up and down, and thereby move the lift strap 46 up and down. In some embodiments, the lift adjustment motor controller box 52 receives input commands from a remote control device operated by a user.
In some embodiments, the tray height adjustment motor controller 54 is an electronic logic control device that directs the tray height adjustment motor 50 to move the adjustable height tray 36 up and down. In some embodiments, the tray height adjustment motor controller 54 receives input commands from a remote control device operated by a user. In some embodiments, the tray height adjustment motor controller 54 directs the tray height adjustment motor 50 to move the posterior parallel projection supports away from and closer to the adjustable height tray 36 according to the input command received from the remote control device.
Parallel bars and tray height adjustment is shown again in
Now turning back to the front and rear perspective views of the multi-therapeutic patient lift and parallel bars system shown in
In some embodiments, the multi-therapeutic patient lift and parallel bars system includes a remote control device to control movement of the parallel bars 16, the adjustable height tray 36, and the lift arms 44 and lift strap 46 for the patient lift of the lift/walker assembly 30. In some embodiments, the remote control device communicates wirelessly with logic controllers and controller boxes of the lift/walker assembly 30 to control motors. In some embodiments, the remote control device is attached to a long wound cord/cable that stays connected to the multi-therapeutic patient lift and parallel bars system and provides remote data communication between the remote control device and the logic controllers and controller boxes of the multi-therapeutic patient lift and parallel bars system. In some embodiments, the remote control device also controls automation of the collapsible ramp and the step system by way of the associated electronic motors.
In some embodiments, the multi-therapeutic patient lift and parallel bars system includes a relay box for the wired communication of the remote control device. In some embodiments, the relay box relays control commands, operation commands, and functions input by a user of the remote control device to the associated logic controllers and controller boxes and their corresponding electronic motors, with all possible wiring and transformers included.
In some embodiments, the multi-therapeutic patient lift and parallel bars system includes a step system. In some embodiments, the step system is a collapsible step system that is built into the storage hatch of the platform. The collapsible step system of some embodiments is capable of making a single step for aerobic use or practice going up with a walker. In some embodiments, the collapsible step system includes a series of steps with a platform at the end. In this way, the collapsible step system can simulate practice in the home and community environment. In some embodiments, the step system is a movable set of steps that fits with the span between the parallel bars.
By way of example,
In some embodiments, the multi-therapeutic patient lift and parallel bars system includes a ramp system. In some embodiments, the ramp system raises the entire parallel bars apparatus at one end by an electric motor or by a manual crank system. Raising one end of the parallel bars apparatus simulates patient ambulation, climbing up and down ramps, and simulates the community setting. In some embodiments, there are two ramps. There is the standard ramp and another ramp, which is more or less a smaller, starter ramp for someone to walk up and down, with parallel bars at their side. The smaller ramp is built into the floor, with the steps and platform. This is a ramp with a height of about one-two steps. In some embodiments of a remote motorized system, the smaller ramp works by popping out of the floor. In some embodiments, a user simply presses a button and the ramp would come together, instead of the steps or platform.
By way of example,
In some embodiments, additional handrails are deployed in the multi-therapeutic patient lift and parallel bars system to support the hands of a patient 58 going up and down the steps of the step system 60 (either or both of the movable step system and the collapsible step system) or the incline of the ramp system 61.
In some embodiments, the abduction board 62 is a board that runs down the middle of the parallel bars 16 to prevent the feet of the patient 58 from crossing over during ambulation. In some embodiments, the abduction board 62 runs through a slot in the kick plate 56. In some embodiments, the abduction board 62 helps prevent a scissoring gait pattern by the patient 58. In some other embodiments of the multi-therapeutic patient lift and parallel bars system, described below by reference to
By way of example,
The examples described above by reference to
By way of example,
While there are many similar components (or same components) between the first and second embodiments of the multi-therapeutic patient lift and parallel bars system, there are some notable differences between the first and second embodiments of the multi-therapeutic patient lift and parallel bars system. Similar (or same) components between the first and second embodiments of the multi-therapeutic patient lift and parallel bars system include, without limitation, the platform 64 (the platform 10), the storage hatch 66 (the storage hatch 12), the several parallel bar uprights 68 (parallel bar uprights 14), the pair of parallel bars 70 (parallel bars 16), the bar adjustment motor 72 (bar adjustment motor 18), the bar adjustment controller 74 (bar adjustment controller 20), the end bar 76 (end bar 22), the end bar hook 78 (end bar hook 24), the handrail 80 (handrail 26), the handrail hook 82 (handrail hook 28), the removable tray 84 (similar to the adjustable height tray 36), and the chest pad 88 (chest pad 40).
However, unlike the first embodiment of the multi-therapeutic patient lift and parallel bars system described above by reference to
The component differences are further illustrated in
By way of example,
When the standing frame components are removed from the second embodiment of the multi-therapeutic patient lift and parallel bars system, it is possible for a patient to use the second embodiment of the multi-therapeutic patient lift and parallel bars system in other therapeutic ways. For instance, the second embodiment of the multi-therapeutic patient lift and parallel bars system can be used in a ramp configuration by raising the platform to allow the patient to engage in walking activities up or down the ramp. Like the step system 60 of the first embodiment of the multi-therapeutic patient lift and parallel bars system described above by reference to
By way of example,
Now turning to another example,
As noted above, both the first and second embodiments of the multi-therapeutic patient lift and parallel bars system support a single step platform in which a patient can engage in single step therapy exercises or activities. By way of example,
The multi-therapeutic patient lift and parallel bars system of the present disclosure generally works similar to how typical conventional parallel bars would work in a therapy environment. For instance, a patient goes into the parallel bars and performs activities, such as walking, standing, balancing, and/or other exercises. The parallel bars move up and down, closer or farther, to fit a variety of patient sizes.
With respect to at least the first and second embodiments of the multi-therapeutic patient lift and parallel bars system described in this specification, when a standing frame is required, the standing frame components can be easily assembled and put into place. When not needed, the standing frame components can be disassembled, removed, and put into places that are available in the therapy gym or stored in the standing frame component storage at the side. By storing away or collapsing at the side, the standing frame and the lift/walker assembly do not obstruct the parallel bars system when not in use. This frees up the parallel bars apparatus to be used separately or in conjunction with other therapy equipment, such as a step system, a single step platform, or a ramp system.
removable tray 84 and tray attachment bar 86
In some embodiments, the standing frame portion can be collapsed to the side of the parallel bars apparatus when not in use. In some embodiments, when needed, the collapsed standing frame (lift/walk assembly) moves forward on the outside of the parallel bars, then swings over to the other side of the parallel bars and latches onto a support pillar or parallel bar upright (or otherwise secures into place) on the other side to fully lock into place. The kick plate is already in place, along with the knee pad, which can be used solely/separately from the adjustable height tray. The adjustable height tray of the first embodiment and the removable tray/tray attachment bar of the second embodiment is folded down in the back and has the chest pad underneath it that is stored away (or tucked underneath), when in a non-deployed configuration of the multi-therapeutic patient lift and parallel bars system or when using the knee pad in the standing frame by a patient without the elbow support provided by the adjustable height tray and/or removable tray. When deployed, however, the adjustable height tray or removable tray of some embodiments of the multi-therapeutic patient lift and parallel bars system unfolds from behind the knee pad, and slides and locks in place via slide rails. Once the adjustable height tray or removable tray is locked into place, the chest pad (which is stored underneath the adjustable height tray or removable tray) flips up and locks into place. After these set up actions, the standing frame portion of the multi-therapeutic patient lift and parallel bars system is in place and is ready for use.
Additionally, in the second embodiment of the multi-therapeutic patient lift and parallel bars system, the lift strap apparatus is in place with parallel supports that are attached to the entire locked-in multi-therapeutic patient lift and parallel bars system, and is ready to be lowered to allow the netting that attaches to the lateral supports (of the parallel bar uprights) to be put in place. In the first embodiments of the multi-therapeutic patient lift and parallel bars system, a remote control with buttons can be used to lift the adjustable height tray, once in place, to go up and down and thereby accommodate patients of different heights. The remote control, in both the first and second embodiments of the multi-therapeutic patient lift and parallel bars system, includes buttons that lift up and lower down the patient in the lift strap by way of the lift bars 44 and lift adjustment motor in the first embodiment and by way of the sling motors 104 in the second embodiment of the multi-therapeutic patient lift and parallel bars system.
Further aspects of the multi-therapeutic patient lift and parallel bars system include the following. In some embodiments, one end of the parallel bars is available for another patient to use to assist with standing and other therapy activities. In some embodiments, there is a safety feature that limits how close the parallel bars move inward when a patient is using the lift/walker assembly (in the first embodiment) and the standing frame (in the second embodiment). This constraint on the minimum width of the span between the parallel bars is set to ensure that the patient is not compressed while within the standing frame portion or the lift/walker assembly. When the standing frame is not in place, it is neatly folded into the outer-side of the parallel bars or the standing frame components are disassembled and put away into the standing frame component storage. Nevertheless, patients are able to continue to utilize the parallel bars system without the lift/walker assembly and/or standing frame portion. Thus, when the standing frame is collapsed to the side or the lift/walker assembly is removed from the platform, the parallel bars are able to move closer together to meet the patient's physical therapy needs, and steps or ramps can be utilized as needed or desired.
In some embodiments, the parallel bars move up and down and side to side (left and right) to accommodate patients of different size, and provide optimum hand placement for gait and standing activities inside the parallel bars. The lift/walker assembly ensures that the adjustable height tray can move up and down via electric motor to accommodate patients of different sizes and heights. Similarly, the standing frame portion, when properly attached, ensures that the removable tray, which is attached to the supports of the parallel bar uprights by the removable tray bar, moves up and down in connection with upward and downward movement of the parallel bars via bar adjustment motor to accommodate patients of different sizes and heights. There is also the lift strap in both the standing frame and lift/walker assembly that lifts the patient from a chair or wheelchair to standing position. The lift strap is a mechanism of the multi-therapeutic patient lift and parallel bars system that is also powered by an electric motor(s), specifically, the sling motors in the second embodiment of the multi-therapeutic patient lift and parallel bars system and the lift adjustment motor in the first embodiment of the multi-therapeutic patient lift and parallel bars system. The patient would therefore use the parallel bars, in the usual way or in typical fashion to ambulate inside, or use one end of the parallel bars for the standing frame.
In some embodiments, the multi-therapeutic patient lift and parallel bars system has a default setting to ensure that the parallel bars will not get too close (so as to compress) to the patient in the standing frame when in use. In some embodiments, the multi-therapeutic patient lift and parallel bars system includes a “break” in the bar that allows full utilization of the bars. The standing frame will be in place, but the available parallel bars across from the standing frame may be used for another patient's rehab exercises; although, this would be more expensive to produce as more motors and adjustments would have to be made. In some embodiments of the multi-therapeutic patient lift and parallel bars system, all of the various sub-systems are able to be controlled via remote control.
In some embodiments, the step system is built into the floor of the parallel bars (or storage hatch). In some embodiments, there is a sliding system, like a garage door, that slides to produce one step/platform or a series of steps. In some embodiments, underneath this floor (storage hatch) is a sub-floor similar to, if not the same as the step or top portion of the therapy gym floor. In some embodiments, there is a series of tracks and hinges to make this possible and a motor system that is computer controlled (logic motor controllers) will stop first at a single aerobic step/platform, such as the single step platform described above by reference to
In some embodiments, the ramp system includes an electric motor/hydraulic system, or manual crank system that attaches to the bottom of one end of the parallel bars that will raise one end of the parallel bars system, to different heights, to simulate going up and down a ramp in the community. In some embodiments, there is a grade system, and/or level of height in inches, to determine the height. Some embodiments of the multi-therapeutic patient lift and parallel bars system include a safety stop with a limit that constrains how high the parallel bar system can go on one end. Examples of the ramp system are described above by reference to
To make the multi-therapeutic patient lift and parallel bars system of the present disclosure, a person may use a strong parallel bars system, like any conventional parallel bars system available today, and then modify it. The person may strengthen all the support pillars and attachments, and then modify two of the support pillars at one end even further so it would be able to accommodate the lift/walker assembly and/or a standing frame. The standing frame has all the necessary parts neatly folded away to the side of the parallel bar system or stowed away in the standing frame component storage that includes all of the standing frame components and folded pads. The parts for the standing frame and/or the lift/walker assembly are all commercially available, like any standing frame has today, except they will be put into a collapsible system and folded away with a series of hinges and tracks that will collapse all of the parts. A company may create a series of tracks and hinges to accommodate all of the parts to collapse it out of the way.
In some embodiments, additional attachments for both parallel bars and the standing frame are able to use with the multi-therapeutic patient lift and parallel bars system. Options for the parallel bars, which already exist are: step ladder, electrically driven vs. manual bars adjustment of the parallel bars, balance beam, parallel bar glides, digital display with memory, abduction board (which is standard with a number of parallel bars), foot placement ladder, two pairs of hand rails with one for the pediatric patient. There could also be a bariatric equipped parallel bars or wall mount equipment. Options for the standing frame portion include: height and multiple foot adjustable system(s), multiple knee adjustment system(s), and/or hook and loop fastener foot adjustment system(s). Materials to make the multi-therapeutic patient lift and parallel bars system can include metal, wood, or plastic type materials, for the parts of the track system for the steps. The track system may also have small wheels, and locks, to “save” the position. This may be computer controlled, and built into the sub-floor, when not in use.
In some embodiments, the manual crank ramp system attaches to the bottom of one end of the parallel bars that will raise one end of the parallel bars system to different height to simulate going up and down a ramp in the community. In some embodiments, the ramp system includes a grade system that provides a level of height in inches to determine the height. In some embodiments, the safety stop constrains the height to which the parallel bars rise. Again, metal parts, motors and/or manual crank gearing system will typically be used.
As a single, encompassing machine or apparatus, this entire multi-therapeutic patient lift and parallel bars system could be built by man and computer. Parts of the machine or apparatus will most likely be built separately and attached later. Possible development of an assembly line could be feasible. Metal would be used for all the hand rails of the parallel bar system.
The lift/walker assembly (and collapsed standing frame portion) could be collapsed in different arrangements. The lift/walker assembly could be put on either end, or either side, of the parallel bars. The options listed above are options on several available standing frames and parallel bars systems today.
To use the multi-therapeutic patient lift and parallel bars system of the present disclosure, a person would simply use the parallel bars as any other parallel bar system. The patient would walk in and ambulate, perform balance, or exercise as any person would in any other parallel bar system. The only difference is if the standing frame is needed to help stand a patient, who is unable to on his own, will be put into place. The entire standing frame section is neatly folded to the outer-side of the parallel bars. This standing frame, will slide forward, and unfold into a complete standing frame at one end of the parallel bars leaving the opposite end of the parallel bars open for regular use of the parallel bars.
To use the ramp section of the parallel bars, the therapist will need to put the bar in place that will safely close the end of the parallel bars system that is elevated. This would help keep the patient from falling off the elevated end-for safety when they go to the top. The patient would use their hands for stability to hold onto as they ascend and descent the ramp. To use the system the therapist will simply press a button to activate an electric motor. This will raise one end of the parallel bar platform to the desired height. You could possibly use a manual crank system, with gears; although, this would be more cumbersome and less desirable as this is a premium device.
To use the step system, you press a button to the step/platform. The top layer of the floor, with track system, will automatically fold the floor (like a garage door) to produce one step, and also a platform. This will allow patients to perform stepping up on one step and down. This will be the same platform that will be at the top of the three steps when the system is put into a step series. The platform/step will be big enough for a patient to step up on and turn around to use a walker, cane, etc. You raise the parallel bars to the appropriate height for the patient for the transition to the platform. To reverse or collapse this one simply presses a button that will collapse the step/platform into the floor. The step is now out of the way and the floor of the parallel bars is now flat and the parallel bars are able to be used in a regular manor.
To use the step series the therapist will press a button that enables the motors to turn this contraption into three steps with the top being the platform. You will need to use the safety front cross bar which is located at the top. The safety bar can be locked into place to help keep the patient from falling off the end of the platform once they are at the top. There will be a set of sub parallel bars that will come from the supports and will create a set of hand rails for the patient to use as they ascend and descent the steps. The support pillars of the parallel bars will be collapsible. They will collapse into the support pillars when not in use for the step system. Press a button again to have the step system fold into the floor and disappear. Fold the collapsible top cross bar back into place into the pillars where it will disappear and is now out of the way when not in use.
In this specification, the terms “controller”, “logic control”, or “software” are meant to include applications, programs, embedded programs, and/or logic control instructions stored in magnetic storage, which can be read into memory for processing by a processor. In some embodiments, the controller, logic control, or software, when installed to operate on one or more electronic systems or automated control devices, define one or more specific machine implementations that execute and perform the operations of the controller, the logic control, or the software. In particular, the electric motor operations described above may be implemented as controlled logic routines, logic control programs, or software processes that are specified as a set of instructions recorded on a computer readable storage medium (also referred to as a non-transitory computer readable medium). When these instructions are executed by one or more processing unit(s) or main control unit(s), they cause the processing unit(s) or main control unit(s) to perform the actions indicated in the instructions. Examples of computer readable media include, but are not limited to, CD-ROMs, flash drives, RAM chips, hard drives, EPROMs, EEPROMs, etc. The computer readable media does not include carrier waves and electronic signals passing wirelessly or over wired connections.
The above-described embodiments of the invention are presented for purposes of illustration and not of limitation. While these embodiments of the invention have been described with reference to numerous specific details, one of ordinary skill in the art will recognize that the invention can be embodied in other specific forms without departing from the spirit of the invention. Thus, one of ordinary skill in the art would understand that the invention is not to be limited by the foregoing illustrative details, but rather is to be defined by the appended claims.
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