(1) Fields of the Invention
The present invention relates to a wheel chair, and more particularly, to a wheel chair with two leg exercising devices providing exercising feature to the patient's legs.
(2) Descriptions of Related Art
The conventional wheel chair is designed for those who do not have strength of their legs and cannot walk by themselves. There are different types of wheel chairs available in the market and some are foldable and/or powered by batteries so as to provide convenient features to the patients or the assistants. However, the patient sitting in the wheel chair most feel boring, especially for those who cannot walk or lost their muscle strength of their legs. These patients need assistants to help them to put their feet on the footrests of the wheel chair, or to remove their feet from the footrests of the wheel chair many times daily. Some patients need to exerciser their legs regularly, and the exercises or rehabilitation are proceeded in hospitals or rehabilitation centers which may not be located close to the patients' houses. The rehabilitation equipment can also be purchased and do the rehabilitation actions at home, however, the rehabilitation equipment usually hulky and expensive. Besides, when the patients have assistants to help them to go outside, the patients cannot exercise their legs when sitting in the wheel chairs.
The present invention intends to provide a wheel chair which provides the patient to exercise their legs as to tread pedals of a bicycle such that the shortcomings mentioned above are eliminated.
The present invention relates to a wheel chair and comprises two front wheel frames and two rear wheel frames, two front wheels are connected to the two front wheel frames. Each front wheel frame has a front extension extending therefrom. Two rear wheels are connected to the two rear wheel frames. Two side frames are connected between the two front wheel frames and the two rear wheel frames. Two handles are connected to the two rear wheel frames.
Two pedals each have a connection unit on one side thereof. Two cranks each have a first end and a second end, the first end of each crank is connected to the connection unit corresponding thereto, and the second end of each crank is connected to the front extension corresponding thereto.
Two transmission devices are respectively connected to the two side frames and each transmission device has a driving unit, a clutch unit and a rear wheel driving unit. Each of the side frames is connected to the front wheel frame and connected to the second end of the crank. Each of the clutch units is located on outside of the front wheel frame and has an intermediate disk and a driving disk which is co-rotatably connected with the intermediate disk. Each of the rear wheel driving units are connected between the rear wheel and the intermediate disk.
Two clutch devices are respectively connected to the two front frames and each clutch device has a shifter which has a plate on the first end thereof, and the second end of the shifter is a fixed end. A middle portion of each of the shifters is pivotably connected to the front frame corresponding thereto.
Two control units are respectively connected to the handles and each control unit has a box in which a slide, a passive member and a hooked member are located. A button 55 is located on the surface of the box, and a push member 54 is connected to the box. The passive member is connected between the first end of the slide and a spring which is connected to the plate of the shifter. A second end of the slide is pivotably connected to the hooked member. The box has a restriction slot and the hooked member has an end removably located in the restriction slot. The button is pushed to pivot the hooked member to be removed from the restriction slot. The push member 54 has an end pivotably connected to the box and connected with the slide. The slide, the hooked member and the passive member are operated by pivoting the push member. The passive member is moved to activate the shifter to shift the clutch disk a distance to be engaged with the intermediate disk to connect the clutch unit and the driving unit. When the wheel chair moves, the rear wheels drive the rear wheel driving units such that patient's legs on the pedals are pivoted about the cranks counter clockwise.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
The wheel chair 10 has two pedals 20 connected thereto and each pedal 20 has a connection unit 22 on one side thereof. Two cranks 23 each have a first end 231 and a second end 232, the first end 231 of each crank 23 is connected to the connection unit 22 corresponding thereto by way of threading, and the second end 232 of each crank 23 is connected to the front extension 24 corresponding thereto. As shown in
Two transmission devices 30 are respectively connected to the two side frames 13 and each transmission device 30 has a driving unit 31, a clutch unit 32 and a rear wheel driving unit 36. Each of the side frames 13 is connected to the front wheel frame 11 and connected to the second end 232 of the crank 23. Each of the driving units 31 has a driving disk 311 and a driving chain 312. The driving disk 311 is fixed to the second end 232 of the crank 23, and the driving chain 312 is connected between the driving disk 311 and the clutch disk 34. The driving disk 311 and a driving chain 312 can also be a gear and a belt. The driving disk 311 is cooperated with a shaft 313 which extends through a bearing (not shown) in the front extension 24. A nut is used to connect the second end 232 of the crank 23 to the shaft 313 on the other end of the driving disk 311 so that when the pedals 20 operated, the driving disks 311 are rotated.
As shown in
Each of the rear wheel driving units 36 are connected between the rear wheel 121 and the intermediate disk 33. Each of the rear wheel driving units 36 has a rear wheel disk 37 which is co-axially connected to the rear wheel 121. A rear wheel chain 38 is connected between the rear wheel disk 37 and the intermediate disk 33 so as to connect the rear wheel disk 37 and the driving unit 31.
Two clutch devices 40 are respectively connected to the two front frames 11 and each clutch device 40 has a shifter 41 which has a plate 42 on the first end thereof, and the second end of the shifter 41 is a fixed end 43. A middle portion of each of the shifters 41 is pivotably connected to the front frame corresponding thereto. Each of the shifters 41 has two lugs 45 between which an insertion space 451 is defined. A hole 44 is defined between the fixed end 43 of the shifter 41 and the plate 42. The axis of the hole 44 is different from the direction that the plate 42 extends. The shifter 41 is inserted into the insertion space 451 and a bolt 452 extends through the lugs 45 and the hole 44, so that the plate 42 is located above the lugs 45 and the shifter 41 is pivotable about the bolt 452. The fixed end 43 is clamped between the two clips 431 and is fixed to the distal end of the shaft 342 that extends beyond the front wheel frame 11. The clutch device 40 is connected to the clutch disk 34 by the shifter 41 so that the clutch disk 34 is controlled to be connected to or disconnected from the intermediate disk 33.
As shown in
Each of the control units 50 has a cover 56 which covers the box 51. Each of the box 51 and the cover 56 has a notch 511 defined in one end thereof, the box 51 has the restriction slot 512 which is located close to the notch 511. Two semi-circular pivotal holes 513 are respectively formed on two insides of the box 51. The slide 52 has an inner slot 521 defined in the first end thereof, and two elongate slots 522 are respectively defined in two insides of the inner slot 521. An enlarged slot 523 is defined in the second end of the slide 52. The hooked member 53 is pivotably located in the inner slot 521. The hooked member 53 has a pivot 532 extending from each of two sides thereof, and the two pivots 532 are engaged with the elongate slots 522 to restrict an upward angle that the hooked member 53 is pivoted. The hooked member 53 has an end removably located in the restriction slot 512 by a pin 531.
A push member 54 has an end pivotably connected to the box 51 and connected with the slide 52. The slide 52, the hooked member 53 and the passive member 60 are operated by pivoting the push member 54. The push member 54 has two pivotal ends 541 on two sides of one end thereof, the pivotal ends 541 are pivotably engaged with the pivotal holes 513. Two pull rods 542 extend from the two sides of the push member 54 respectively and located above the two pivotal ends 541. Two links 543 are pivotably connected between the pull rods 542 and two insides of the enlarged slot 523 of the slide 52, the push member 54 is pivoted to pull the slide 52 and the hooked member 53 by the links 543.
A button 55 is engaged with a hole 561 in the cover 56 on the box 51. The button 55 has a spring 551 connected thereto which pushes the button 55 back to its initial position after the button 55 is pushed. A contact leg 552 extends from the underside of the button 55 so as to contact the hooked member 53 when the button 55 is pushed. The button 55 is pushed to pivot the hooked member 53 to be removed from the restriction slot 512.
The passive member 60 is connected between the first end of the slide 52 and a spring 63, wherein the passive member 60 is connected to the plate 42 of the shifter 41. The second end of the slide 52 is pivotably connected to the hooked member 53. In this embodiment, the passive member 60 is a cable which has a first end 61 and a second end 62, the first end 61 of the cable is connected to the slide 52, and the second end 62 of the cable extends through the spring 63 and is connected to the plate 42 of the shifter 41. As shown in
As shown in
As shown in
When the patient wants to stop the exercise, as shown in
Each transmission device 30 is driven by the rear wheel 121 and connected with the clutch disk 34 and the driving disk 311 by the clutch device 40. The clutch unit 32 and the rear wheel driving unit 36 drive the driving unit 31. The patient's legs are rotated counter clockwise about the pedals 20 and the cranks 23.
The smaller rear wheel disk 37 drives the larger intermediate disk 33, and the smaller clutch disk 34 drives the larger driving disk 311, the arrangement provides a large torque and slow speed, so that the assistant only apply limited force to easily move the wheel chair 10 in which the patient sits, the patient's legs are exercised. The rear wheels 121 rotate multiple revolutions and the cranks 23 are rotated only one revolution, so that the patient's legs are slowly rotated and exercised.
The control units 50 are operated to easily stop the rotation of the cranks 23, while the rear wheels 121 and the intermediate disks 33 of the clutch device 40 can rotate as usual.
It is noted that there are two control units 50 which respectively control the operation of the cranks 23 of the two pedals 20. In other words, the patient can choose the pedal 20 on either side of the wheel chair 10 if only one leg needs to be exercised.
All of the disks are located between the inside of the rear wheels 121 and the front wheel frames 11, by the specific arrangement, these disks do not interfere the folding action of the wheel chair 10.
The effective length of each of the cranks 23 can be adjusted to meet the requirements of different patients.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
Number | Date | Country | Kind |
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102221551 | Nov 2013 | TW | national |