The present invention relates to the manipulation of manual wheelchair flip-up footrests. Specifically, the invention relates to a footrest retraction mechanism used to manually raise the wheelchair footrests and support users as they rise from the wheelchair.
Before exiting or entering a manual wheelchair, a user typically has to lean down and either swing away the footrest hangers to the side or lift the footrests to the vertical retracted position. Either motion can be difficult for some manual wheelchair users, particularly those with limited upper extremity mobility. Consequently, these users will constantly require help from caregivers to retract the footrest before they get in and out of wheelchairs. Retracting the footrests is also an awkward task for caregivers, who will have to bend over or crouch to raise the footrests.
After retracting the footrests the user must rise from a seated to a standing position to exit the wheelchair. Sit-to-stand is known to be a biomechanically challenging task in the older adult population. Research in sit-to-stand among older adults reveals that knee extensor strength can be a limiting factor in successfully rising from a chair. Research has also shown that functionally impaired seniors attempt to increase postural stability during sit-to-stand by flexing the trunk forward prior to rising, thus decreasing the center of mass/base of support (COM/BOS) separation at the instant of liftoff. Accordingly a method to guide an older user into a more functionally appropriate forward position before standing would be beneficial.
Previous attempts have been developed to address footrest retraction, including: U.S. Pat. Nos. 6,422,653; 7,347,497; 6,880,845. However, none of these devices possess mechanisms that additionally assist or support users with the sit-to-stand motion after the footrests have been retracted.
According to one aspect of the invention there is provided a wheelchair footrest retraction device for use on a wheelchair having a footrest frame portion and a footrest pivotally supported on the footrest frame portion for upward movement from a downward use position to an upper retracted position, the device comprising:
an upper bracket arranged to be mounted on the footrest frame portion;
a handle pivotally coupled to the upper bracket so as to be readily manipulated by a user of the wheelchair, the handle being movable in a forward direction of the wheelchair from a first position to a second position;
a footrest coupling arranged to be mounted on the footrest;
a linkage assembly operatively connected between the handle and the footrest coupling such that footrest is arranged to be displaced from the downward use position to the upper retracted position in response to forward movement of the handle from the first position to the second position.
The wheelchair footrest retraction mechanism is intended to be used on wheelchairs with individual pivoting footrests that retract to a vertical position. The device is designed such that the motion required to retract the footrests actually guides the seated user into a biomechanically functional position for standing and additionally provides a handle to push on to support and assist sit-to-stand from the wheelchair.
The retraction device is an accessory designed for simple attachment to existing wheelchairs with swing away, flip-up footrests. It is attached to the wheelchair via a clamping bracket mounted to the footrest hanger and a ball joint mounted to the footrest. A handled-lever pivoting about the bracket can be manipulated by the user such that motion of the handle retracts the footrest via two intermediate linkages that transmit force from the handle to the ball joint attached to the footrest.
Once the footrest is in the retracted position, the handle is well positioned for further use to support users with sit-to stand. The handle configuration encourages users to flex their trunks forward (increasing stability) and lean on the handle (reducing required knee strength) during the rise, thus promoting a safe and successful chair rise manoeuvre from the wheelchair.
When the user leans on the handles to assist with rising from the wheelchair, the vertical force on the handles will be transmitted to the footrest hangers. Since the hangers are located substantially forward of the front wheels in these conventional wheelchairs, a large vertical force will cause the wheelchair to tip forward during the assisted sit-to-stand motion.
According to a second aspect of the present invention there is provided a wheelchair anti-tipping mechanism for use on a wheelchair having a footrest frame portion and a footrest pivotally supported on the footrest frame portion for upward movement from a downward use position to an upper retracted position, the mechanism comprising:
a support member arranged to be pivotally supported on the footrest frame portion so as to be movable from a raised position in proximity to the footrest to a support position extending downwardly from a bottom end of the footrest frame portion in proximity to the ground responsive to movement of the footrest from the downward use position to the upper retracted position.
The anti-tipping mechanism prevents a potentially dangerous forward tip of the wheelchair during the hand supported sit-to-stand movement. It consists of a torsion spring-loaded post mounted to the bottom of the footrest hanger. When the footrest is in the horizontal position, the post also remains in a horizontal position directly underneath the footrest, thus remaining in a position that will not interfere with the normal rolling operation of the wheelchair. When the footrest is raised to the retracted vertical position, the torsion spring causes the post to rotate in the opposition direction such that the post moves into a vertical position directly under the line of vertical applied force, and serves to stop forward tipping of the wheelchair. When the footrest is lowered back to the horizontal position it applies a force onto the post that causes the post to rotate back into the horizontal position.
In summary, the invention provides the following: an easy to attach accessory to conventional wheelchairs; a levered device, simple to use, that requires little upper-extremity strength; a method for retracting wheelchair footrests using a motion that encourages proper biomechanics of sit-to-stand; and a handle with built-in anti-tippers that can be used to assist with standing.
One embodiment of the invention will now be described in conjunction with the accompanying drawings in which:
a and 1b are perspective views of a wheelchair with the retraction device mounted to the footrest and footrest hanger.
a and 2b are perspective views of the hanger and footrest with the retraction device attached.
a and 5b is a perspective view of the anti-tipper mechanism mounted to the hanger.
a, 6b, 6c, and 6d are frame-by-frame views of the anti-tipping mechanism being retracted into the horizontal use position.
In the drawings like characters of reference indicate corresponding parts in the different figures.
Overall System
a is a perspective view of a wheelchair with the footrest retraction device installed and with the footrests in the vertical retracted position. The footrest system of a typical wheelchair consists of a footrest hanger 1 and a footrest 2 mounted to the hanger at a pivot point 3. This type of wheelchair swing-away footrest system is well known in the industry and not further described here. The retraction device consists of a retraction mechanism 4 mounted to the hanger 1 and the footrest 2, and an anti-tip mechanism 5 mounted to the base of the hanger.
Footrest Retraction Mechanism
a and 2b are perspective views of the hanger and footrest showing the retraction device and footrests in the horizontal use and vertical retracted positions respectively. The footrest retraction mechanism is mounted onto the footrest using a support bracket 6 (a wheelchair brake clamp) clamped to the hanger and a ball joint shaft 7 mounted into a clearance hole in the footrest 2. Force applied by the user to the handled-lever 8 is transmitted through a shaft 12 that pivots about a hole in interface piece 13 clamped to bracket 6. Shaft 12 connects to an intermediate linkage 9. Linkage 9 is attached to the footrest linkage 10 by a ball joint 11, resulting in a vertical force at the ball joint 7. This vertical force at the ball joint 7 provides a torque about the footrest pivot 3 that rotates the footrest 2 to the vertical retracted position,
As the user pushes the handle to retract the footrest, the handle moves forward, thus encouraging the user to flex his trunk forward as desired according to proper sit-to-stand biomechanics [6] and as normal in functionally impaired elderly adults [5]. When the footrest is fully retracted, the handle is approximately parallel to the ground and provides a hand support that serves to both stabilize the user and reduce the knee torque required to rise from the wheelchair. The end result is safe and successful sit-to-stand raising maneuvers from the wheelchair.
Referring back to
A further benefit of this design is that mounting the linkage components on the inside of the wheelchair hanger protects the retraction mechanism from incidental contact since the outside of the hanger will be the first contact point with the environment. Furthermore this configuration also minimizes width increase of the wheelchair footrest and hanger system, so that the user can maneuver the wheelchair in the same manner as prior to mounting the footrest retraction device. Once the footrest is in the vertical retracted position, the hanger can be removed and remounted to the wheelchair, also in the same manner as prior to the addition of the retraction device to the footrest.
Anti-Tip Mechanism
a shows the footrest platform in the vertical position. A stud 20 prevents motion of the support post beyond 90°. A diagonal cut in the interface piece 15 prevents this stud 20 from interfering with the interface piece 15 as the support post 17 rotates to the horizontal position,
a, 6b, 6c, and 6d are frame-by-frame views of the anti-tipping mechanism being rotated into the horizontal position through a force applied by the footrest as the footrest is lowered into the horizontal use position. As shown in the figures, when the footrest 2 is being reset to the horizontal use position, the motion of the rear edge of the footrest platform pushes the top edge of the support post 17. This causes the support post to rotate about the shoulder bolt 16 from the vertical position to the horizontal position. This motion simultaneously winds up the torque spring so that when the footrest platform is raised, the support post springs back to the vertical position.
A benefit of this retraction system is the minimal modifications made to the hanger. No additional drilling or clamping is required since the interface piece is held in place by the same bolt that constrains the footrest to the hanger. The interface piece can also be fabricated in different diameters to accommodate varying hanger tube internal diameters.
Another benefit of the system is that there is minimal space taken up underneath the footrest when the footrests are in the horizontal use position since the support post is directly underneath and parallel to the footrest. The spring energized system ensures that the support post defaults to the vertical position when the footrest is retracted to the vertical position.
As described above, the wheelchair footrest retraction device is generally intended for use on a wheelchair having a main frame upon which a pair of footrest frame portions, referred to as hangers 1 above, are supported. The footrest frame portions support respective footrests 2 thereon in which each footrest is pivotable about a respective pivot axis oriented generally in the forward direction of the wheelchair between a downward use position extending horizontally inward towards the opposing footrest and an upper retracting position extending generally upward parallel and alongside a respective main frame member of the footrest frame portion 1.
The upper bracket is arranged to be clamped onto one or more frame members of the footrest frame portion so as to be moveable together with the footrest frame portion relative to the main frame of the wheelchair. The upper bracket includes a clamping portion or support bracket 6 which clamps an intermediate body or an interface piece 13 in fixed relation to the frame member of the footrest assembly such that the body 13 and the clamp 6 collectively define the upper bracket upon which the handled lever 8 is supported.
A pivot shaft 12 is pivotally supported on the body 13 of the upper bracket assembly so as to be pivotal about a respective longitudinal axis which is oriented generally horizontally and perpendicularly to a forward direction of the wheelchair. The handled lever 8 is fixed to an outer end of the pivot shaft 12 at the outer side of the footrest frame portion while the linkage assembly which connects to the footrest is connected at the inner end of the pivot shaft on the opposing side of the footrest frame portion relative to the handled lever 8.
The handled lever 8 includes an arm portion 8a which is fixed at one end to the outer end of the pivot shaft to extend radially therefrom to an opposing end upon which a grip portion 8b is fixed. In this manner, the arm portion 8a and the grip portion 8b are pivotal together with the pivot shaft relative to the upper bracket assembly fixed onto the footrest frame portion.
The handle 8 is moveable from a first position corresponding to the downward use position of the footrest to a second position corresponding to the upper retracted position of the footrest. In the first position, the arm portion extends generally rearward and the grip portion extends generally upward from the outer end of the arm portion such that the grip portion does not substantially protrude forwardly beyond the sides of the main frame of the wheelchair.
The handle is pivoted upwardly and forwardly from the first position to the second position such that in the second position, the arm portion extends generally upward near vertical and the grip portion protrudes forwardly from the arm portion. In this manner, the grip portion of the handle is rotated over center from the first position to the second position such that downward force on the grip portion in the second position opposes movement of the handle from the second position back to the first position.
In some instances, a stop member can be provided on the upper bracket assembly against which the handle is positively engaged in the second position so as to prevent continued movement of the handle from the first position to the second position beyond the second position.
Also as described above, the linkage assembly includes a first linkage or crank 9 fixed to the inner end of the pivot shaft 12 to extend radially therefrom. Typically in the first position of the handle corresponding to the downward use position of the footrest, the crank 9 extends generally rearward from the pivot shaft to an opposing end which supports the ball joint 11 thereon. Once rotated to the second position, the crank 9 extends generally upward so that the ball joint 11 is raised as the handle is displaced from the first position to the second position.
The linkage assembly further includes the second ball joint 7 which defines a footrest coupling arranged to be mounted to the footrest along a rear edge thereof at a location spaced inward towards the opposing footrest relative to the pivot axis of the footrest on the footrest frame portion when in the downward use position. The link member or linkage 10 is coupled at opposing top and bottom ends on the ball joint 11 and ball joint 7 respectively. The link member 10 is a rigid, non-elastic member which causes the footrest coupling 7 to be raised together with the link member 10 and the ball joint 11 at the end of the crank 9 to raise the footrest from the downward use position to the upper retracted position when the handle is rotated from the first position to the second position.
The anti-tipping mechanism as described above is arranged so that the support post or support member 17 is pivotally supported on the footrest frame portion so as to be moveable from a raised position in proximity to the footrest in the downward use position of the footrest to a support position in which the support member extends downwardly beyond the bottom end of the footrest frame portion. The bottom end of the support member is in proximity to the ground in the support position so as to be much lower in the support position than in the raised position.
The support member is moveable from the raised position to the support position responsive to movement of the footrest from the downward use position to the upper retracted position automatically without any additional actuation required on the part of the user.
The support member 17 is supported on the bottom end of the main frame member of the footrest frame portion by a mounting body or an interface piece 15. The body 15 is inserted upwardly into the hollow tube forming the main frame member of the footrest frame portion and is retained fixed in relation thereto using the main bolt 21 that retains the footrest on the footrest frame portion and which further defines the pivot axis of the footrest relative to the frame portion between the downward use position and the upper retracted position. The bottom end of the body 15 protrudes downwardly beyond the bottom end of the main frame member of the footrest frame portion so as to protrude below the bottom end of the footrest in the downward use position.
The shoulder bolt 16 pivotally couples the support member 17 to the bottom end of the body 15 at a location spaced below the bottom end of the footrest. The support member includes a leg portion 17a which extends downwardly from the pivot axis of the support member defined by the shoulder bolt 16 when in the support position of the support member. A remaining portion of the support member which extends upwardly from the pivot axis in the support position defines a footrest engaging portion 17b which is diametrically opposite from the leg portion 17a.
The leg portion and footrest engaging portion effectively comprise opposing ends of a continuous elongate body that defines the support member and which locates the pivot axis at an intermediate location thereon. The elongate body of the support member is arranged to be substantially parallel to the main frame member of the footrest frame portion in the support position.
The leg portion 17a of the support member locates the extension piece 19 threaded therein such that adjustment of the extension piece permits the length of the support member extending downwardly from the frame portion in the support position to be adjustable.
When the footrest assembly is raised into the upper retracted position, it no longer engages the footrest engaging portion 17b such that the torsion spring 18 is the only force acting on the support member to bias the support member from the raised position to the support position.
The stud 20 mounted on the support member 17 is arranged to contact the bottom end of the body 15 in the support position such that the bottom of the body 15 acts as a stop member arranged to be fixed relative to the footrest frame portion against which the stud 20 of the support members 17 is arranged to positively engage in the support position. The stop member thus prevents continued movement of the support member 17 from the raised position towards the support position beyond the support position.
As the footrest assembly is lowered into the downward use position, the bottom end of the footrest assembly engages the footrest engaging portion 17b at a location spaced above the pivot axis defined by the shoulder bolt 16 to urge rotation of the support member 17 from the support position to the raised position with continued movement of the footrest assembly into the downward use position. Once in the downward use position, the support member is fully pivoted into the raised position thereof so as to be oriented generally horizontally and parallel alongside the bottom of the footrest.
Since various modifications can be made in my invention as herein above described, and many apparently widely different embodiments of same made within the spirit and scope of the claims without department from such spirit and scope, it is intended that all matter contained in the accompanying specification shall be interpreted as illustrative only and not in a limiting sense.
This application claims the benefit under 35 U.S.C. 119(e) of U.S. provisional application Ser. No. 61/643,223, filed May 4, 2013.
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1591529 | Guerber | Jul 1926 | A |
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4141094 | Ferguson et al. | Feb 1979 | A |
6338493 | Wohlgemuth et al. | Jan 2002 | B1 |
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6880845 | Broyles et al. | Apr 2005 | B1 |
7347497 | Fujihara et al. | Mar 2008 | B2 |
Number | Date | Country | |
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20130292988 A1 | Nov 2013 | US |
Number | Date | Country | |
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61643223 | May 2012 | US |