FIELD OF THE INVENTION
The present invention relates to a tractor assembly, and more particularly, to a manual tractor assembly connected with a wheel chair which is moved by operation of the tractor assembly.
BACKGROUND OF THE INVENTION
The conventional tractor assembly is designed to be operated and to move the wheel chair by the disable person sitting in the wheel chair. The tractor assembly is compact and easily connected to the wheel chair. However, the conventional tractor assemblies usually are heavy and take a lot of steps to be connected to or dis-connected from the wheel chair. Some of the conventional tractor assemblies are not stable.
The conventional tractor assemblies usually require a special designed device to be connected to the wheel chair before the tractor assembly is able to be connected to the wheel chair, and the special designed device increases the weight of the whole assembly and involves extra assembling steps. Besides, the special designed device cannot be automatically connected to the wheel chair, so that the disable person has to ask for assistance when connecting or dis-connecting the tractor assembly. In addition, the conventional tractor assemblies are expensive so that most of the disable persons cannot afford the tractor assembly. Although the conventional tractor assemblies have support legs so that the tractor assembly can be installed and assembled in the upright position, however, the hanger brackets of the wheel chair have to be removed before installing the tractor assembly to the wheel chair.
SUMMARY OF THE INVENTION
The present invention relates to a tractor assembly for a wheel chair and comprises a connection unit which is connected between the tractor and the wheel chair, and the connection unit includes a fixing member, a top link unit, a bottom link unit and a swing rod so as to form a four-link mechanism. The connection unit further includes an engaging unit and a position unit, the engaging unit has an engaging section. The top link unit has a reception hole and the positioning unit has a push rod. When the push rod is located at the first position, the reception hole is closed. When the push rod is located at the second position, the push rod is retracted and the reception hole is exposed. When the bottom link unit is pivoted about one end of the swing rod to move the other end of the swing rod to the reception hole, the engaging section is inserted into the reception hole. By the four-link mechanism, the wheel chair is lifted to a pre-set angle so that the user can assemble or dis-assemble the tractor relative to the wheel chair.
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.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an exploded view to show the tractor assembly of the present invention;
FIG. 2 is a perspective view to show the connection unit of the tractor assembly of the present invention;
FIG. 3 is a perspective view to show that the tractor assembly is not yet connected to the wheel chair;
FIG. 4 is a perspective view to show that the tractor assembly is connected to the wheel chair;
FIG. 5 is a side view to show that the front wheels of the wheel chair are lifted and located above the ground;
FIG. 6 is a side view to show that the front wheels of the wheel chair are in contact with the ground;
FIG. 7 shows that the reception hole is exposed and the engaging unit is positioned;
FIG. 8 shows that the reception hole is sealed;
FIG. 9 shows the first status of the adjustment unit of the tractor assembly of the present invention;
FIG. 10 shows the second status of the adjustment unit of the tractor assembly of the present invention, and
FIG. 11 shows the cross sectional view of the adjustment unit of the tractor assembly of the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring to FIGS. 1 to 4, the tractor assembly of the present invention comprises a tractor 10, a rear part 20, and a connection unit 30 connected between the tractor 10 and the rear part 20. The connection unit 30 comprises a fixing member 31, a top link unit 32, a bottom link unit 33, a swing rod 34, an engaging unit 36 and a positioning unit 37. The fixing member 31 has a securing portion 310 on one side of the middle section thereof so as to be connected to the front end of the rear part 20. The fixing member 31 has a first pivotal portion 311 and a second pivotal portion 312 on the other side thereof, wherein the second pivotal portion 312 is located below the first pivotal portion 311. The top link unit 32 has a first end pivotably connected to the first pivotal portion 311 by a first pivot 38, and a second end of the top link unit 32 is connected to the tractor 10. The top link unit 32 comprises a top link 320 and a connection plate 321 which is integrally formed with the top link 320. The top link 320 has the first end thereof pivotably connected to the first pivotal portion 311 by the first pivot 38, and the second end of the top link 320 is connected to the tractor 10, the top link 320 cannot be pivoted relative to the tractor 10 along the vertical surface. The connection plate 321 has a reception hole 322.
The bottom link unit 33 has a first pivotably connected to the second pivotal portion 312 by a second pivot 380 extending therethrough. The swing rod 34 has a first end pivotably connected to the connection plate 321 of the top link unit 32 by a third pivot 381, and a second end of the swing rod 34 is pivotably connected to a second end of the bottom link unit 33 by a fourth pivot 382, so that the swing rod 34, the fixing member 31, the top link unit 32 and the bottom link unit 33 form a four-link mechanism.
The engaging unit 36 is located in the fourth pivot 382 and comprises an engaging section 360 and a second resilient member 361 which provides a resilient force to the engaging section 360. The positioning unit 37 is located on an outside of the connection plate 321 of the top link unit 32 and has a push rod 370 and a third resilient member 372 which provides a force to return the push rod 370. When the push rod 370 returns by the force from the third resilient member 372, the distal end of the push rod 370 are removed from the reception hole 322 so that the reception hole 322 is exposed. When the four-link mechanism is activated to lift the rear part 20 an angle, the swing rod 34 swings about the third pivot 381 by a first angle relative to the connection plate 321, the push rod 370 is located to be aligned with the reception hole 322. The engaging section 360 is pushed by the resilient force from the second resilient member 361 and inserted into the reception hole 322 to secure the four-link mechanism.
As shown in FIGS. 1 to 3, the preferable embodiment of the tractor 10 has a steerer tube 11, a head tube 12, a headset 13, a front fork 14, a wheel 15 and a driving unit 16. The driving unit 16 is connected to the top of the steerer tube 11, the lower end of the steerer tube 11 is rotatably connected to the top of the head tube 12 by the headset 13. The lower end of the head tube 12 is rotatably connected to the front fork 14 by the headset 13. The lower end of the front fork 14 is pivotably connected to the axle of the wheel 15. The driving unit 16 has a crank unit 160 and a transmission unit 161, wherein the crank unit 160 has a crank 160a and a handle 160b connected to the crank 160a. The user holds the handle 160b to rotate the crank 160a to generate a force which is transmitted by the transmission unit 161 to drive the wheel 15.
The rear part 20 is a wheel chair in this embodiment, and which has a frame 21, two rear wheels 22 connected to the rear end of the frame 21, and two front wheels 23 connected to the front end of the frame 21. Two hanger brackets 24 are respectively connected to two sides of the front end of the frame 21, and each hanger bracket 24 has a footplate 25 connected to the lower end thereof. The two respective middle sections of the two hanger brackets 24 are secured by the securing portion 310 of the fixing member 31.
As shown in FIGS. 7 and 8, the fourth pivot 382 is a tubular member and has one closed end, and a through hole 382a is defined in the other end of the fourth pivot 382. The engaging unit 36 has a second resilient member 361. The engaging section 360 has a first flange 360a extending outward and radially from the middle portion thereof. The second resilient member 361 is biased between the first flange 360a and the inside of the closed end of the fourth pivot 382. The engaging section 360 extends through the first through hole 382a and is engaged with the reception hole 322 by the force from the second resilient member 361 overcoming the resilient force of the third resilient member 372 as shown in FIG. 7.
The positioning unit 37 has a tube 371 in which the push rod 370 is movably located, and a third resilient member 372. The tube 371 has a second through hole 373 defined axially therethrough and the second through hole 373 communicates with the reception hole 322. The second through hole 373 comprises a first hole 373a, a second hole 373b and a third hole 373c, the second hole 373b has the maximum diameter. The push rod 370 has a second flange 370a on one end thereof and the second flange 370a is engaged with the first hole 373a. The push rod 370 has a second flange 370a extending from the middle portion thereof and the second flange 370a is engaged with the second hole 373b. The third resilient member 372 is located between the second hole 373b and the third flange 370b. When the push rod 370 is located at the first position, the second flange 370a extends through the first hole 373a, the push rod 370 is pushed by the third resilient member 372 and inserted into the third hole 373c so as to seal the reception hole 322 as shown in FIG. 7. When the push rod 370 is located at the second position, the second flange 370a contacts an outside of the first hole 373a and the push rod 370 is retracted and the reception hole 322 is exposed as shown in FIG. 7.
As shown in FIGS. 1 to 6, the connection unit 30 is connected between the tractor 10 and the rear part 20, two transverse bars 19 are connected to two sides of the tractor 10 and each transverse bar 19 has an adjustment unit 17 so as to support the rods 18 which are used as support legs. The connection unit 30 comprises the four-link mechanism formed by the fixing member 31, the top link unit 32, the bottom link unit 33 and the swing rod 34. The connection unit 30 further comprises the engaging unit 37 and the positioning unit 37. The engaging unit 36 has the engaging section 360 and the top link unit 32 has the reception hole 322. The positioning unit 37 has the push rod 370. When the four-link mechanism is activated to lift the front end of the rear part 20, the front wheels 23 are lifted from the ground as shown in FIG. 5. When the swing rod 34 swings about the third pivot 381 by a first angle relative to the top link unit 32, the engaging section 360 is located to be aligned with the reception hole 322. The engaging section 360 is pushed by the resilient force from the second resilient member 361 and inserted into the reception hole, so that the tractor 10, the rear part 20 and the connection unit 30 are integrally connected with each other. Each rod 18 has a straight section 180 and a bent section 181. The adjustment units 17 control the two rods 18 to be pivoted to a first angular position and a second angular position. When the two rods 18 are pivoted to the first angular position, two distal ends of the two bent sections 181 of the two rods 18 are folded and located above a ground as shown in FIG. 3. When the two rods 18 are pivoted to the second angular position, the two distal ends of the two bent sections 181 of the two rods 18 contact the ground as shown in FIG. 5.
As shown in FIGS. 9 to 11, the adjustment units 17 each have a sleeve 170, a first slide pin 171, a second slide pin 171a and at least one resilient member 172. The sleeve 170 has an opening 170a defined in at least one end thereof. Two sidewalls of the opening 170a each have a first slot 173. A second slot 174 is defined axially in each of the sidewalls and located beneath the first slot 173. An extension space 174a is angularly formed at the distal end of the second slot 174. The first and second slide pins 171, 171a are respectively fixed to the top of the rods 18. The sleeve 170 is connected to the top of the rod 18. The first and second slide pins 171, 171a extend through the first and second slots 173, 174 respectively. The at least one resilient member 172 is biased between an inner end of the sleeve 170 and the second slide pin 171a so as to provide a pull force to the rod 18 relative to the sleeve 170. When the first and second slide pins 171, 171a are located at two respective top ends of the first and second slots 173, 174, the two rods 18 are located at the first angular position. When the first slide pin 171 is located at the middle portion of the first slot 173 and the second slide pin 171 a is located the distal end of the extension space 174a of the second slot 174, the two rods 18 are located at the second angular position by the force from the at least one resilient member 172. As shown in FIG. 11, each of the first and second slide pins 171, 171a has an enlarged section 171b/171c, the two enlarged sections 171b, 171c respectively contact the outside of the first slot 173 or the second slot 174.
When the user wants to assemble the tractor 10 and the rear part 20, the rear part 20 is moved toward the tractor 10 as shown in FIG. 3, and the lever 313 is operated to secure the securing portion 310 to the rear part 20. The user then pushes the top of the tractor 10 to lift the front wheels 23 upward to the first angular position by the use of the four-link mechanism, the engaging section 360 is engaged with the reception hole 322 by the second resilient member 361. The rod 18 is pulled downward relative to the sleeve 170 to move the second slide pin 171a to the bottom end of the second slot 174, the rod 18 is then bent relative to the sleeve 170 to allow the second slide pin 171a to be engaged with the extension space 174a to be positioned. By the force from the resilient member 172, the rod 18 is secured at the angular position as shown in FIG. 6.
When the user wants to separate the tractor 10 and the rear part 20, the two rods 18 are adjusted to upright status by rotating the two rods 18 clockwise as shown in FIGS. 9-11. The two ends of the resilient member 172 are connected to the sleeve 170 and the second slide pin 171a, so that when the second slide pin 171a removes from the extension space 174a of the second slot 174, by using the force of the resilient member 172, the first and second slide pins 171, 171a quickly move to the top ends of the first and second slots 173, 174. Therefore, the two rods 18 are located at the first angular position (upright) as shown in FIG. 3. The push rod 370 is then pushed to remove the engaging section 360 from the reception hole 322. The user uses the weight of the frame and his/her body weight to drive the four-link mechanism reversely to move the front end of the rear part 20 downward to let the front wheels 23 contact the ground. The lever 313 is then operated to release the securing portion 310 from the rear part 20, so that the tractor 10 is separated from the rear part 20.
The present invention allows the user to connect the tractor 10 to the wheel chair or to separate the tractor 10 from the wheel chair easily, without adding any extra connection device.
The tractor 10 has angle adjustable support legs to adjust the tractor 10 upright so that the tractor 10 is easily connected to or separated from the wheel chair. The support legs can be folded when the user operates the tractor 10 to move the wheel chair.
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.