The invention relates to a wheelchair and, more specifically, to a wheelchair leg and, even more specifically, to a spring-loaded interchangeable wheelchair leg used to convert a wheelchair for use in physical therapy or exercise.
The wheelchair has continued to be an ever evolving mode of transportation for the elderly, injured and disabled. The wheelchair traces its roots back to the 5th century, where a Greek vase displays an image of a wheeled bed. In the late 16th century, King Phillip II of Spain was provided a chair with wheels in his later years. However, the introduction of what has come to be known as the “modern” wheelchair arguably evolved from the invention of the bicycle.
Today, the “modern” wheelchair continues to be modified as a means for the development of rehabilitation and re-education programs for the injured, elderly and disabled. The need for modified rehabilitative wheelchairs stems from several problems faced by individuals bound to a wheelchair. A major concern for individuals who are permanently confined to a wheelchair is the potential for stiffened joints and tendons, as well as atrophy of the leg muscles. Furthermore, individuals who are temporarily confined to a wheelchair due to, for example, injury, stroke, arthritis, chronic pain, and knee or hip replacement surgery, must undergo exercise and therapeutic treatment to rehabilitate a person's unused or underused leg muscles. To alleviate this problem, those individuals confined permanently or temporarily to a wheelchair often undergo physical therapy. A typical rehabilitation patient undergoes one to two hours of rehab three days a week. However, rehab alone is insufficient and almost every patient needs to supplement their treatment on a daily basis with exercises performed outside of rehab.
Another problem faced by individuals bound to a wheelchair is the finite number of physical therapists and exercise machines present in a physical therapy or hospital facility. Even during the course of a physical therapy appointment, at any one time, a single physical therapist is assigned to a multitude of patients. As a result of the large ratio of patients to therapists, individuals who are wheelchair bound must periodically wait for personal one on one instruction by a physical therapist. Ideally, during these waiting periods, a patient will individually perform various exercises as prescribed by the therapist. However, similar to the limited number of physical therapists, a physical therapy facility or hospital also contains a limited number of exercise machines. As a result of the limited number of exercise machines compared to the number of patients at any given time, an individual often must wait until a machine becomes available. Between waiting for instruction by a physical therapist and the use of an exercise machine, the productivity and thus recovery of an individual is greatly diminished.
Although there currently exists a plurality of manually operated and motorized leg exercising devices that have been adapted as removable attachments to a wheelchair, the devices are often stationary, non-interchangeable with standard wheelchairs, structurally significant, and costly. Current leg exercising devices, in addition to having been adapted as removable attachments on a wheelchair, do not perform the basic function of a wheelchair leg rest. For example, U.S. Pat. No. 6,334,624 (Giglio) discloses a leg exerciser for the wheelchair bound including a frame which is placed on the floor. However, because the leg exerciser is structurally cumbersome and must be placed on the floor, the device is not portable.
In another example, U.S. Pat. No. 7,569,002 (Nativ) discloses a wheelchair provided with an exercise mechanism which allows a user to exercise his or her torso. In addition, the exercise mechanism also allows the user to exercise his or her legs either separately from or simultaneously with his or her torso muscle groups. However, the exercise mechanism as disclosed by Nativ is structurally integrated with the wheelchair and is thus non-interchangeable with a standard wheelchair.
In a further example, U.S. Pat. No. 8,469,866 (Hochberg et al.) discloses a wheelchair gym having a support bar releasably connected to the frame of the wheelchair, whereby leg supports for the patient's legs are attached to the opposite ends of the support bar. The leg supports may be moved up and down or may be splayed laterally. The leg supports each include an exteriorly housed hydraulic cylinder connected to the footrest. Within the hydraulic cylinder is a hydraulic piston that enables an individual to exercise his or her legs by moving each foot independently or simultaneously up and down on the leg supports in a walking or rowing manner. However, the wheelchair gym requires a support bar connected to the wheelchair of which the leg supports are subsequently connected to the wheelchair. Furthermore, because the resistance means including the hydraulic cylinder is housed on the outside of the leg supports, it can be damaged.
Lastly, U.S. Pat. No. 7,008,357 (Winkler), while not relating to a wheelchair, discloses a seat exercise device secured to a mobile platform (e.g., commercial aircraft, bus, train, automobile) for use by any passenger sitting onboard to reduce the risk of deep vein thrombosis during extended periods of travel. Although the seat exercising device includes a spring arranged between the leg support and the foot support such that a passenger may push down on the foot support to exercise his legs, the seat exercising device is not interchangeable or mountable on a wheelchair.
Therefore, there has been a long-felt need for a spring-loaded interchangeable wheelchair leg which allows a user to exercise lower extremities but still perform the same function as a typical wheelchair leg.
The present invention broadly comprises a wheelchair leg arranged to be attached to a frame of a wheelchair comprising a first member, a bracket secured to the first member and operatively arranged to attach the first member to the frame, a second member pivotably attached to the first member, a third member arranged in telescoping engagement with the second member, and a spring located within the second member and the third member and operatively arranged to provide tension between the second and third members when the third member is moved relative to the second member.
The present invention also comprises a wheelchair leg arranged to be attached to a frame of a wheelchair comprising a first member, a bracket secured to the first member and operatively arranged to attach the first member to the frame, a second tubular member pivotably attached to the first member, a third tubular member arranged in telescoping engagement with the second tubular member, a foot rest secured at a distal end of the third tubular member, a spring located within the second and third tubular members and secured to each, the spring arranged to provide tension between the second and third tubular members when the third tubular member is moved relative to the second tubular member.
The present invention also comprises a wheelchair leg arranged to be attached to a frame of a wheelchair comprising a first tubular member, a second tubular member pivotably attached to the first member, a third tubular member arranged in telescoping engagement with the second tubular member, a bracket secured to the first tubular member and operatively arranged to attach the wheelchair leg to the frame, a footrest secured at a distal end of the third tubular member, an adjuster bar located between the first tubular member and the second tubular member, the adjuster bar operatively arranged to adjust an angle between the first and second tubular members, and a spring concentrically arranged within the second tubular member and the third tubular member to provide tension between the second and third tubular members.
A general object of the invention is to provide an individual in a wheelchair with a wheelchair leg to exercise his or her leg.
Another object of the invention is to provide an individual in a wheelchair with an interchangeable wheel chair leg to exercise his or her leg.
A further object of the invention is to provide an individual in a wheelchair with a spring-loaded interchangeable wheelchair to exercise his or her leg.
Yet another object of the invention is to manufacture a spring-loaded interchangeable wheelchair leg that is neither structurally significant nor costly.
Yet still another object of the invention is to manufacture a spring-loaded interchangeable wheelchair leg for exercising a leg that also performs the basic function of a wheelchair leg.
These and other objects, features and advantages of the present invention will become readily apparent upon a reading and review of the following detailed description of the invention, in view of the appended drawings and claims.
The nature and mode of operation of the present invention will now be more fully described in the following detailed description of the invention in view of the accompanying figures, in which:
At the outset, it should be appreciated that like drawing numbers on different drawing views identify identical, or functionally similar, structural elements of the invention. It is to be understood that the invention as claimed is not limited to the disclosed aspects.
Furthermore, it is understood that this patent is not limited to the particular methodology, materials and modifications described and, as such, may, of course, vary. It is also understood that the terminology used herein is for the purpose of describing particular aspects only, and is not intended to limit the scope of the present invention as claimed.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention pertains. It should be understood that any methods, devices or materials similar or equivalent to those described herein can be used in the practice or testing of the invention.
Adverting to the figures,
In
As shown in the figures, first tubular member 400 and second tubular member 500 of wheel chair leg 200 can be seen. First tubular member 400 includes first tubular portion 401 and second tubular portion 402. First and second tubular portions 401 and 402 are connected by arcuate member 403, respectively. First end 404 of first tubular portion 401 is connected to bracket 300 such that first end 404 of first tubular portion 401 is co-linear with bracket 300. The second end 405 of first tubular portion 401 further includes two apertures (not shown) in registered alignment.
Second tubular member 500 includes first tubular portion 501 and second tubular portion 502. First and second tubular portions 501 and 502 are fixedly connected by arcuate member 503, respectively. First end 504 of first tubular portion 501 includes first arm 505 and second arm 506 and each further includes an aperture (not shown) in registered alignment. First and second arms 505 and 506 are fixedly connected to second end 405 of second tubular portion 402 by bolt 508 which passes through apertures (not shown) of second end 405 of first tubular member 400 and apertures (not shown) of first end 504 of second tubular member 500, respectively. Second end 509 of second tubular portion 502 of second tubular member 500 includes clamp 510 having first end 511 and second end 512. First and second ends 511 and 512 of clamp 510 each further includes an aperture (not shown) in registered alignment with bolt 513 passing through the apertures. It should be appreciated that clamp 510 secures third tubular member 600 (shown in
In
In
In
As third tubular member 600 extends telescopingly with respect to second tubular member 500, the tension in spring 650 correspondingly increases such that spring 650 becomes spring biased vertically. Conversely, as third tubular member 600 retracts telescopingly with respect to second tubular member 500, the tension in spring 650 correspondingly decreases. It should be appreciated that when footrest 700 is in an engaged or disengaged state between the first and second positions, the tension of spring 650 increases and decreases, respectively. It should be further appreciated that when footrest 700 is in an engaged or disengaged state between the first and second portions, the position of threaded pin 655 changes vertically and thereby prevents third tubular member 600 from rotating about an axis of rotation when telescopingly engaged with second tubular member 500.
For second tubular member 500 to pivot about and axis of rotation relative to first tubular member 400, a user pushes first rod 801 toward first tubular portion 401 of first tubular member 400. As first rod 801 is engaged toward first tubular portion 401, first rod 801 pivots on first tubular portion 401 of first tubular member 400. As first rod 801 pivots, second bracket 804, which is secured to first rod 801, is engaged such that the angle of second bracket 804 is decreased relative to second rod 802. As the angle of second bracket 804 is decreased relative to second rod 802, the tension in spring 805 is increased. As second tubular member 500 pivots about an axis of rotation relative to first tubular member 400, second rod 802 is slidingly engaged between first and second brackets 803 and 804, respectively. In the second position, second tubular member 500 is retracted at its closest position from a wheelchair frame. It should be appreciated that second tubular member 500 can be operably arranged at any position with respect to the first position and second position. Once second tubular member 500 is at a desired position, first rod 801 is disengaged causing spring 805 to apply a force to first bracket 803 and second bracket 804 and to return first rod 801 back to its original position. The force applied by spring 805 to first bracket 803 and second bracket 804 causes the angle of second bracket 804 to increase with respect to first rod 801. The increase in the angle of second bracket 804 with respect to second rod 802 thus locks second tubular member 500 at a fixed position. It should be appreciated that second tubular portion 502 of second tubular member 500 is operably arranged to pivot about an axis of rotation relative to first tubular portion 401 of first tubular member 400.
It will be appreciated that various features of the above-disclosed invention and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the following claims.
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Number | Date | Country |
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2089204 | Jun 1982 | GB |