The invention relates to wheelchairs, and in particular, to a frame for a wheelchair.
Wheelchairs are used to provide mobility to disabled individuals. Conventional wheelchairs comprise a generally tubular frame with a seat. A backrest may also be attached to the rear of the frame. A pair of larger wheels is mounted to the rear of the frame, while smaller, castered wheels are attached to the front of the frame. Often, the castered wheels are welded or bolted to the frame such that replacement (either permanently or temporarily) with other castered wheels is difficult. For example, larger diameter castered wheels allow for easier rolling of the wheelchair over soft terrain. However, if the castered wheels are already welded or bolted to the frame, it becomes impractical to switch the castered wheels when travel over soft terrain is expected. A footrest is also commonly provided at the front of the wheelchair.
Several types of non-folding wheelchairs currently exist, and these can be considered to be rigid wheelchairs with frames designed generally to be light and stiff for easier wheeling and more efficient rolling. One typical element of conventional rigid wheelchair frames is a transverse (tubular) member that spans the width of the frame near or at the location where the rear wheels are mounted. This transverse member may serve to provide a frame element for attachment of the rear wheels. As well, the transverse member provides a strengthening and stiffening component to the wheelchair frame structure.
More recent developments in wheelchair design have provided for the easy adjustability of various aspects of the wheelchair to suit the size and needs of the users. For example, it is sometimes desirable for the user to sit lower in the wheelchair at an increased “dump” position (i.e. where the back of the seat is lowered with respect to the front of the seat). This is especially the case when wheeling, as the user is in a more stable position and able to wheel more efficiently. On other occasions, it may be desirable to be able to elevate the seat above the normal sitting position. This may be helpful when the user needs to access countertops or shelves. Similarly, the position and angle of the backrest may also be adjusted depending on the needs of the users.
However, the mechanisms that allow for the adjustability of the seat and the backrest may physically interfere with other components in the wheelchair frame. Of particular concern is the transverse member. As this member spans the width of the frame at the location of the rear wheels and is located directly beneath the seat, this member may limit the degree of movement and adjustability of the seat. For example, U.S. Pat. No. 7,845,665 to Borisoff also discloses a wheelchair with a seat assembly that is adjustable relative to the frame. The adjustment is made using a pair of gas springs that suspend the seat assembly from below. However, the frame in Borisoff also comprises a transverse tubular member connected near the rear end of the frame. This tubular member stiffens the frame but also limits the adjustability of the seat.
U.S. Patent Publication No. 2010/0038880 to Bagg discloses a wheelchair with an adjustable seat assembly to accommodate users of different sizes. For example, the seat width, the seat height, and the angle of the seat may be adjusted in accordance with the characteristics or the size of the users. However, the front castered wheels and the footrest are permanently connected together to form a unitary front assembly, which is then attached to the front of the frame. In the event that the user wishes to exchange the castered wheels with a different set of wheels, it is necessary to replace the entire front assembly.
The present invention addresses the need for a wheelchair frame that is sufficiently strong to accommodate the weight of a user while at the same time allowing for increased range of adjustments of the components. The present invention also addresses the need for a wheelchair frame that allows for the easy interchangeability of various components of the wheelchair.
According to one aspect of the invention, there is provided a wheelchair comprising a frame, a seat assembly attached to the frame, two rear wheels attached to the frame, and two front wheel assemblies attached to the frame. The frame has a front face and two side faces and comprises one or more structural members situated along a front of the frame, with the structural members defining a front face. The front face may be not substantially perpendicular to the ground. The frame further comprises two top side members, wherein one end of each of the top side members extends from the front towards a rear of the frame. There are two corresponding bottom side members, wherein one end of each of the bottom side members extends from the front, at a location below where the top side members extend from the front, towards the rear of the frame. Each of the two side faces are defined in part by one of the top side members, one of the corresponding bottom side members, and an edge of the front face, extending from where one of the top side members extend from the front to where the one of the bottom side members extend from the front. The front face is not substantially perpendicular to either of the side faces, the side faces are not substantially parallel to one another, and the side faces are not substantially perpendicular to the ground.
In another aspect, the one or more structural elements comprise a substantially horizontal cross-member, a substantially horizontal bottom cross-member situated below the top cross-member, and two side front members, wherein the side front members extend from one end of the top cross-member to a corresponding end of the bottom cross-member. The front face is defined by the top cross-member, the bottom cross-member, and the side front members.
In yet another aspect of the invention, the top cross-member is situated forward of the bottom cross-member.
In a further aspect of the invention, the top side members extend obliquely towards the rear of the frame. The bottom side members extend obliquely towards the rear of the frame, with the bottom side members extending obliquely at an angle with a horizontal component different from that of the top side members.
In a still further aspect of the invention, another end of the each of the top side members meets with another end of the corresponding bottom side members to form two rear corner portions. The frame comprises two horizontal slots, wherein one of the slots is situated at each of the two rear corners. The rear corner portions are bent such that the rear corner portions are substantially parallel to each other. The rear wheels are attached to the frame at the slots.
In another aspect of the invention, the seat assembly is pivotably attached to the front of the frame. One or more gas springs connect the front of the frame with the seat assembly. The back rest assembly is pivotably attached to the seat assembly. A parallel assembly connects the front of the frame with the backrest assembly.
In yet another aspect of the invention, the parallel assembly comprises one or more linkages.
In still another aspect of the invention, the parallel assembly comprises one or more secondary gas springs.
In another aspect of the invention, the parallel assembly further comprises a fork.
In another aspect of the invention, the frame is of a unitary construction. The frame may be made from carbon fibre monocoque construction.
In a further aspect of the invention, the frame is of a generally tubular construction.
In another aspect of the invention, there is provided a wheelchair comprising a frame, a seat assembly attached to the frame, two rear wheels attached to the frame, and one or two front wheel assemblies attached to the frame. The front wheel assemblies each comprise a front tube, wherein one end of the front tube is attached to the frame, and a castered wheel attached to another end of the front tube. The front tube may be removably attached to the frame.
In yet another aspect of the invention, the foot rest assembly comprises a foot rest tube, wherein one end of the foot rest tube is attached to the frame, and a foot rest attached to another end of the foot rest tube. The one end of the foot rest tube may be removably attached to the frame.
According to another aspect of the invention, there is provided a frame for a wheelchair with two rear wheels, a seat assembly, and two front wheel assemblies. The frame has a front face and two side faces and comprises one or more structural members situated along a front of the frame, with the structural members defining a front face. The front face is not substantially perpendicular to the ground. The frame further comprises two top side members, wherein one end of each of the top side members extends from the front towards a rear of the frame. There are two corresponding bottom side members, wherein one end of each of the bottom side members extends from the front, at a location below where the top side members extend from the front, towards the rear of the frame. Each of the two side faces are defined in part by one of the top side members, one of the corresponding bottom side members, and an edge of the front face, extending from where one of the top side members extend from the front to where the one of the bottom side members extend from the front. The front face is not substantially perpendicular to either of the side faces, the side faces are not substantially parallel to one another, and the side faces are not substantially perpendicular to the ground.
In a further aspect of the invention, the frame further comprises a transverse horizontal member extending from one of the bottom side members to another of the bottom side members.
The foregoing was intended as a broad summary only and of only some of the aspects of the invention. It was not intended to define the limits or requirements of the invention. Other aspects of the invention will be appreciated by reference to the detailed description of the embodiments and to the claims.
The embodiments of the invention will be described by reference to the drawings thereof in which:
Referring to
Rear wheels 26 extend off of the sides of the frame 12, while front tubes 28 extend from the front of the frame 12. The front tubes 28 are attached to castered wheels 30. One or more foot rest tubes 32 may also extend from the front of the frame 12, and a foot rest 34 may be attached to the foot rest tube 32.
The sides of the frame 12 define a plurality of planes, including at least one plane represented by a front face 46 of the frame and at least two planes represented by two side faces 48. The front face 46 and the side faces 48 are not necessarily solid faces but their general shapes may be defined by various structural members. The front face 46 is not substantially orthogonal to either of the two side faces 48, and the two side faces 48 are not parallel to one another. The front face 46 and the two side faces 48 form three different planes that are neither orthogonal nor parallel with respect to each other. These “three planes of non-orthogonality” formed along the sides of the frame 12 provide strength and stiffness to the structure of the frame 12.
The front face 46 may be defined by one or more structural members.
Although the embodiment of the frame 12 shown in
The side faces 48 are defined by a plurality of structural members extending from the front face 46. Two top side members 42 extend from near the top of the front face 46, while two bottom side members 44 extend from near the bottom of the front face 46. The horizontal component of the angle (relative to the front face 46) at which the top side members 42 extend from the front face 46 is different than that of the two bottom side members 44 extending from the front face 46. The shape of each of the side faces 48 is defined, at least in part, by one of the top side members 42, one of the bottom side members 44, and one side of the front face 46.
In the embodiment of the frame 12 shown in
In the embodiment of the frame 12 shown in
Horizontal slots 50 are formed at or about the intersections of the top side members 42 and the bottom side members 44. The slots 50 provide for the attachment of the rear wheels 26 to the frame 12 using various known connectors. As seen in
The resulting overall geometry of the frame 12 comprises three planes that are neither parallel nor orthogonal to one another. This provides overall strength and stiffness to the structure of the frame 12. Furthermore, the front face 46 and the side faces 48 of the frame 12 are each comprised of edges forming non-orthogonal angles to one another (i.e. the triangular shape of the side faces 48 and the trapezoidal shape of the front face 46). This non-orthogonality of the edges of the frame 12 provides further strength and stiffness to the structure of the frame 12. Because of the additional strength and stiffness provided by the geometry of the frame 12, it is not necessary to have a transverse member extending across the rear of the frame 12. The frame 12 has sufficient strength and stiffness without the need for such a spanning member.
In one embodiment, the frame 12 is made of a single, unitary piece of material, such as from carbon fibre moncoque construction. It is also possible that the frame 12 be made from tubular members joined together, such as by welding, to form a similar configuration of non-orthogonal faces and planes. In such a case, the tubular members may be made from aluminum 6061-T6 material, although other materials such as titanium or steel may also be used.
The front of the seat assembly 14 is pivotably attached to the top cross-member 36 of the frame 12 through the front seat joint 18. One end of the gas spring 22 is attached to the bottom cross-member 36, with the other end attached to the rear of the seat assembly 14. The gas spring 22 is adjustable to allow for adjustment of the height of the rear of the seat assembly 14 relative to the frame 12. The gas spring 22 also serves as a shock absorber to cushion the user during wheelchair travel. The seat assembly is substantially flat and provides a surface for the placement of a cushion for the user to sit in the wheelchair 10 comfortably.
The gas spring 22 may be lockable or adjustable, and such springs are known in the art (such as the Varilock EL2 from Suspa Inc.). The gas spring 22 may be positioned so that cushioning occurs on the compression stroke of the gas spring 22. The gas spring 22 can be locked at any position between a fully extended position and a fully retracted position. This enables the angle of the seat assembly 14 to be adjusted.
The parallel assembly 24 may comprise a linkage, such as a spring (e.g. a rigidly or elastically-locking gas spring) having a front end hingedly coupled to a front parallel hinge 52 and a rear end hingedly coupled to a rear parallel hinge 54. The front parallel hinge 52 is mounted near the top cross-member 36, and the rear parallel hinge 54 is mounted near the bottom rear of the backrest assembly 16. The parallel assembly 24 maintains the backseat assembly 16 at substantially the same angle to the frame 12 regardless of the angle of the seat assembly 14. As shown in
The geometry of the frame 12 allows for greater adjustability of the seat assembly 14 and the backrest assembly 16 than normally allowed. Because of the plurality of the non-orthogonal planes in the frame 12 and their resulting strength and stiffness, there is no need for a transverse member. Referring to
The frame 12 also allows for a great deal of modularity. For example, different front tubes 28 (perhaps with different geometry or different castered wheels 30) can be used, depending on the needs of the user. Similarly, the rear wheels 26 may be replaced easily. For the embodiment depicted in
Because of the modularity provided by the present invention, it is possible to quickly and easily replace one or both of the castered wheels 30. This replacement can be done independently of any replacement of the foot rest 34. Since the foot rest 34 is attached (through the foot rest tube 32) to the frame 12 separately from the castered wheels 30, any vibration or other motion experienced by the castered wheels 30 as they travel over ground is not transferred to the foot rest 34.
The addition of the dorsal cross-member 56 provides some additional design possibilities in the overall shape and configuration of the frame 12. For instance, the trapezoidal front face 46 could instead be substantially rectangular, with the resultant side faces 48, while still being non-orthogonal to the front face 46, they would now be substantially orthogonal to an imaginary horizontal plane. This results in one less plane of non-orthogonality, and the dorsal cross-member 56 provides the stiffness normally afforded by conventional transverse members located at the rear of a wheelchair frame near the rear wheel attachment location. However, the dorsal cross-member 56 is located forward of the frame 12 such that no interference with the adjustment of the seat assembly 14 occurs.
The embodiments of the invention have been described in some detail. However, those skilled in the art will appreciate that the scope of the claims should not be limited by the embodiments set forth, but should be given the broadest interpretation consistent with the description as a whole, and that modifications to the constructional details of the embodiments may be practiced within the scope of the claims. The following claims are further to be considered part of the disclosure herein.
Number | Date | Country | Kind |
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2776658 | May 2012 | CA | national |
This application claims the benefit of U.S. Provisional Application No. 61/645,468 filed May 10, 2012.
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