Adaptive attachment wheel for wheelchairs

Abstract

The invention relates to an adaptive attachment wheel for wheelchairs, formed as a unit consisting of: a wheel (5); frame segments (1); adaptation shells (7, 8) for lateral guidance on the wheelchair front tubes; and at least one holding element (6) that can be fastened to the wheelchair; such that, when the adaptive attachment wheel is attached to the wheel-chair, the adaptation shells (7, 8) are brought together with the wheelchair front tubes, the front casters of which are lifted off of the ground, and a three-wheeled wheelchair is produced, the front wheel (5) of which can be steered and braked by means of an one-hand steering system (13).

Claims

1. An adaptive attachment wheel for fastening to a wheelchair, wherein the attachment wheel, in a fixed state on the wheelchair, is configured to lift off front wheels of the wheelchair such that a three-wheeled wheelchair is produced, the attachment wheel comprising: a wheel attached to a wheel fork; at least one tensioning element configured to tension the adaptive attachment wheel to a front tube of the wheelchair and to effect lifting of the front wheels of the wheelchair; at least one frame segment; and a steering tube connected to the frame segment, wherein a fork shaft of the wheel fork is guided within the steering tube, the fork shaft being rotatably supported in the steering tube, wherein the wheel can be steered by a one-hand handlebar being in operative connection with the wheel fork, wherein a rotary resistance of the one-hand handlebar relative to the steering tube is adjustable by a friction device.

2. The adaptive attachment wheel of claim 1, wherein the friction device comprises a clamping device with a friction element, and wherein the friction element is configured to be pressed against the steering tube.

3. The adaptive attachment wheel of claim 2, wherein the friction element further comprises a friction ring, and wherein the friction ring is configured to be pressed against an outer surface of the steering tube by the clamping device.

4. The adaptive attachment wheel of claim 1, wherein the one-hand handlebar is adjustable in height and/or adjustable in length.

5. The adaptive attachment wheel of claim 1, wherein the one-hand handlebar comprises a telescope tube connected to a handlebar stem by a first joint, and wherein an end-sided grip is fastened to the telescope tube by a second joint.

6. The adaptive attachment wheel of claim 5, wherein the first joint and the second joint are lockable in respective angle positions.

7. The adaptive attachment wheel of claim 1, wherein a spring element is fastened to a handlebar stem and the steering tube, and wherein the spring element is configured to move the wheel in a mid-position in which a straight running of the wheel is enabled.

8. The adaptive attachment wheel of claim 7, wherein the friction device is configured to be set such that the wheel is locked in the mid-position.

9. The adaptive attachment wheel of claim 1, wherein the handlebar stem comprises a steering stop.

10. The adaptive attachment wheel of claim 1, wherein the adaptive attachment wheel is configured, in a state mounted to the wheelchair, to form a positive trail of the wheel between a wheel contact point of the wheel and a track point set by an angle of the steering tube such that the wheel trails a steering rotational axis in a driving direction.

11. The adaptive attachment wheel of claim 1, wherein the fork shaft is rotatably supported in the steering tube by a handlebar stem configured to be clamped or by a threaded steering set.

12. The adaptive attachment wheel of claim 1, wherein the wheel is configured to be braked by the one-hand handlebar.

13. A three-wheeled wheelchair formed by a wheelchair and the adaptive attachment wheel of claim 1 fastened to the wheelchair.

14. Three-wheeled wheelchair of claim 13, wherein a positive trail of the wheel is formed between a wheel contact point of the wheel and a track point set by an angle of the steering tube such that the wheel trails a steering rotational axis in a driving direction.

15. An apparatus, comprising: an adaptive attachment wheel configured to be fastened to a wheelchair; and holding elements for fastening to different wheelchair frames, wherein the adaptive attachment wheel, in a fixed state on the wheelchair, is configured to lift off front wheels of the wheelchair such that a three-wheeled wheelchair is produced, wherein the adaptive attachment wheel comprises: a wheel attached to a wheel fork; at least one of frame segment; and a steering tube connected to the frame segment, wherein a fork shaft of the wheel fork is guided within the steering tube, the fork shaft being rotatably supported in the steering tube, wherein the wheel is configured to be steered by a one-hand handlebar being in operative connection with the wheel fork, wherein a rotary resistance of the one-hand handlebar relative to the steering tube is adjustable by a friction device.

16. The apparatus of claim 15, wherein the adaptive attachment wheel comprises two frame segments which are fastened to the steering tube by respective first ends and to at least three adaption shells by respective second ends, wherein an opening of each adaptation shell is directed away from the second end of the frame segment, wherein at least one adaption ring configured for attachment to the wheelchair front tube is provided which includes a groove configured to the shape of one of the adaption shells for inserting the adaption shell, wherein at least one of the further adaption shells is configured to be tensioned to the wheelchair front tube by at least one tensioning element attached to one of the two frame segments, and wherein a lateral guidance is created at the wheelchair front tube by a shape of a further adaption shell.

17. A three-wheeled wheelchair formed by a wheelchair and the apparatus of claim 16, wherein the adaptive attachment wheel is fastened to the wheelchair.

18. The three-wheeled wheelchair of claim 17, wherein a positive trail of the wheel is formed between a wheel contact point of the wheel and a track point set by an angle of the steering tube such that the wheel trails a steering rotational axis in a driving direction.

Description

(1) In the following, the invention is described in more details on the basis of the embodiment shown in the drawings. However, it should here be clarified that it is an exemplary embodiment variations of which are possible within the scope of the claims.

(2) FIG. 1 shows a general view of an exemplary embodiment of the attachment wheel adaptation according to the invention;

(3) FIG. 2 shows a plan view of the attachment wheel adaptation shown in FIG. 1 in packing size;

(4) FIG. 3 shows a plan view of the unit without a handlebar;

(5) FIG. 4 shows a cross-sectional view of a steering tube and a handlebar stem;

(6) FIG. 5 shows an exploded view of the steering tube and the handlebar stem;

(7) FIG. 6 shows a cross-sectional view of an adaptation ring;

(8) FIG. 7 shows a perspective view of the upper adaptation shells with joints;

(9) FIG. 8 shows a perspective view of the lower adaptation shells with joints;

(10) FIG. 9 shows side views of the one-hand handlebar; and

(11) FIG. 10 shows the initial and end/functional position during fastening the attachment wheel adaptation to the wheelchair in a side view.

(12) The embodiment (FIG. 1) consists of one left and one right frame segment (1) fastened to the steering tube (2) by means of joints (3). In connection with the lockable shearing mechanism (17, 18, 19; FIG. 3) a symmetric triangle frame continuously adjustable in width for different widths of wheelchair seats results. In order to guarantee a maximum adaptability each of the upper adaptation shells (7) is connected with the respective frame segment (1) by a horizontal joint (33; FIG. 7), a vertical joint (34) and a rotating joint (35). The adaptation rings (6) are clamped to the wheelchair front tubes (26; FIG. 10) in the upper section at the same height. Further modifications of the wheelchair are not required. The upper adaptation shell (7) comprises a hook (28; FIG. 7) engaging the adaptation ring (6; FIG. 1 and FIG. 6) during inserting the adaptation shell into it such that the attachment wheel is fixed at the wheelchair and hereby facilitating the further adaptation procedure.

(13) The lower adaptation shells (8; FIG. 8) are rotatably connected with the offset tubes (9) which are guided in the lower tube of the frame segment (1) as an inner tube in a telescopically adjustable and rotatable manner and can be locked by a clamping (10). This adjustability enables an adaptation of the attachment frame to wheelchairs with different front tube angles as well as to special variants as, for example, adduction frames.

(14) At each frame segment (1) a tensioning mechanism (11) is located having a tensioning element of textile belt with a loop (12) at the end which is hung up at the frame segment (1). To achieve the functional position (FIG. 10, below), the upper adaptation shells (7) are inserted into the grooves of the adaptation rings (31; FIG. 6), the tensioning elements (12) fastened to the tensioning mechanisms (11) are led around the wheelchair front tubes (26; FIG. 3, 10), hung up at the frame segments (1) and tensioned by means of the tensioning mechanism (11). During this procedure the lower adaptation shells (8) are approaching the wheelchair front tubes (26; FIG. 10) up to form-fit whereby the casters of the wheelchair are lifted off of the ground (d; FIG. 10).

(15) The attachment wheel (FIG. 1) has a brakeable and steerable wheel (5) equipped with an one-handed operable steering system (13, FIG. 9) with a brake (44, FIG. 9). This steering system is characterized by two lockable joints (39, 42; FIG. 9) for an angle adjustment and a telescopic mechanism. (40, 41; FIG. 9) for length adjustment. By this features a maximum adaptability of the steering and braking operation to the user is achieved. At its lower half the handlebar stem (14, FIG. 4) is provided with a friction ring (21; FIG. 4) which can be pressed against the outer surface of the steering tube (2) by means of an adjustment clamp (20) thereby forming an adjustable steering resistance. A spring (32) fixed between the handlebar stem (14) and the steering tube (2) provides for a spring-centred straight running of the front wheel. Furthermore, a limitation of the steering angle is obtained by two stops (24) at the steering tube and one at the handlebar stem (14). In addition the front wheel has a straight wheel fork (4) and a steering angle (a; FIG. 10) causing that the wheel contact point (29; FIG. 10) is positioned in driving direction behind the intersection point (30; FIG. 10) of the extended steering axis and the ground.

(16) The features of a spring-centred straight running and a steering resistance (32, 20; FIG. 5), together with the above mentioned positive trail (b; FIG. 10), bring about a stabilized straight running and a steering behaviour familiar to the wheelchair user during two-handed propelling of the unit through the gripping rings of the wheelchair. The front wheel (5; FIG. 1) can directly and comfortably be steered and braked through the one-hand operation (13; FIG. 1) in driving down-hill and along curves. These features enhance the driving safety, reduce the required effort and enable a more efficient movement. The triangle frame with lockable shearing mechanism (17, 18, 19; FIG. 3) and adjustable adaptation shells (FIG. 7, FIG. 8) results in an extremely adaptive frame structure still having a high stiffness. After an one-time setting (18a; FIG. 3; 33, 35, 34a; FIG. 7) there is the advantage of performing a fast change between transport mode and functional mode of the attachment wheel and thus of its fast and flexible handling

(17) This embodiment is of high benefit for wheelchair users as it solves essential handling problems and thus effects a mobility benefit not yet known.

REFERENCE LIST

(18) FIG. 1: Perspective General View Attachment Wheel Adaption with Adaption Ring

(19) 1 frame segment

(20) 2 steering tube

(21) 3 rotating joint of steering tube

(22) 4 wheel fork

(23) 5 wheel

(24) 6 adaptation ring

(25) 7 upper adaptation shell

(26) 8 lower adaptation shell

(27) 9 tube offset

(28) 10 clamping tube offset

(29) 11 tensioning mechanism

(30) 12 tensioning element with loop

(31) 13 one-hand handlebar

(32) 14 handlebar stem

(33) 15 V brake

(34) 17 shearing mechanism

(35) FIG. 2: Plan View Unit in Packing Size

(36) 1 frame segment

(37) 7 upper adaptation shell

(38) 13 one-hand handlebar

(39) 14 handlebar stem

(40) FIG. 3: Plan View Unit without Handlebar

(41) 1 frame segment

(42) 7 upper adaptation shell

(43) 11 tensioning mechanism

(44) 12 tensioning element with loop

(45) 14 handlebar stem

(46) 15 V brake

(47) 17 shearing mechanism

(48) 18 shearing mechanism guide rail

(49) 18a shearing mechanism fixable lock retainer

(50) 19 shearing mechanism arm

(51) 26 wheelchair front tube

(52) FIG. 4: Cross-sectional view Handlebar Stem and Steering Tube

(53) 2 steering tube

(54) 14 handlebar stem

(55) 16 fork shaft

(56) 18 shearing mechanism guide rail

(57) 20 adjustment clamp steering resistance

(58) 21 friction ring

(59) 22 fork shaft clamp

(60) 32 return spring

(61) FIG. 5: Exploded View Handlebar Stem and Steering Tube

(62) 2 steering tube

(63) 14 handlebar stem

(64) 20 adjustment clamp steering resistance

(65) 21 friction ring

(66) 22 fork shaft clamping

(67) 23 lower bearing shell

(68) 24 steering stop

(69) 25 slide bearing steering tube

(70) FIG. 6: Cross-sectional View Adaption Ring

(71) 6 adaptation ring

(72) 31 groove for adaptation shells

(73) FIG. 7: Perspective View Upper Adaption Shell with Jointsplus Adaption Ring

(74) 1 frame segment

(75) 6 adaptation ring

(76) 7 upper adaptation shell

(77) 28 hook

(78) 33 lockable horizontal joint

(79) 34 vertical joint

(80) 34a swivel range limitation vertical joint

(81) 35 lockable rotating joint

(82) 36 connector

(83) FIG. 8: Perspective View Lower Adaption Shell with Joints

(84) 1 frame segment

(85) 8 lower adaptation shell

(86) 9 tube offset

(87) 10 clamping tube offset

(88) 38 rotatable joint connector

(89) FIG. 9: Side View One-hand Handlebar

(90) 13 one-hand handlebar

(91) 14 handlebar stem

(92) 39 handlebar height adjustment

(93) 40 telescopic tube

(94) 41 telescopic tube clamping

(95) 42 lockable grip joint

(96) 43 grip

(97) 44 brake lever

(98) FIG. 10: Diagram Adaption Procedure

(99) 6 adaptation ring

(100) 11 tensioning mechanism

(101) 12 tensioning element

(102) 13 one-hand handlebar

(103) 26 wheelchair front tube

(104) 27 casters

(105) 29 wheel contact point

(106) 30 intersection point of extended steering axis with ground

(107) a steering tube angle

(108) b trail

(109) c tensioning angle

(110) d casters' lift off