The present disclosure relates to a fastening device, and more particularly to a structure suitable for fastening a wheelchair in a vehicle and reducing the displacement of the wheelchair in the vehicle.
The wheel chair fastening device is mainly used to fix the wheelchair to the vehicle. A unidirectional ratchet is used to tightly hook the flexible belt on the wheelchair, so as to prevent the wheelchair from sliding in the traveling vehicle by the tightening force.
For example, the wheelchair fixing device of Taiwan Patent No. M513687 mainly includes a housing and a winder inside the housing. The housing is provided with an outlet. The winder has a reel and a flexible belt. The flexible belt is arranged on the outer periphery of the reel. The flexible belt has a wheelchair hooking end which is pulled out through the outlet to be stretched and shortened. One end of the reel is provided with a knob outside the housing. A unidirectional latch mechanism has a unidirectional ratchet, a blocking piece and a release button. The unidirectional ratchet is connected to the reel. The blocking piece is assembled by a spring such that the abutting edge normally elastically bears against the unidirectional ratchet. The release control part is connected to the blocking piece, and protrudes from the housing so as to control the release control part to disengage the abutting edge from the unidirectional ratchet.
When the user pre-rolls the flexible belt to retract the wheelchair hooking end, it is necessary to control the release control part with one hand, and rotate the knob with the other hand. Two hands must operate two places at the same time to perform the retracting action. Such method is quite inconvenient for the users. Since the knob is coaxial with the unidirectional ratchet, when the wheelchair hooking end is hooked on the wheelchair and the flexible belt needs to be tightened, the knob need to be rotated to force the unidirectional ratchet to rotate in the reverse direction. The unidirectional gear of the unidirectional ratchet against which the abutting edge abuts is displaced, so that the next unidirectional gear abuts against the abutting edge of the blocking piece, thereby causing the flexible belt to be tightened. However, in the state where the knob and the reel are coaxial, the operator is strenuous when turning. As such, how to save effort and facilitate one-handed operation when operating the fastening device is a problem to be improved.
In light of the foregoing problems, a main objective of the present disclosure is to solve the problems that the release button and the retractor knob of the fastening device are divided into two components, which must be operated with two hands, thereby causing inconvenience and labor.
A wheelchair fastening device of the present disclosure includes a housing, including a first enclosure and a second enclosure that are opposite to each other, wherein an accommodation space is provided inside the housing, a band outlet is provided on one side of the housing, and a positioning portion is provided on the other side of the housing; a mounting base, fixed in the accommodation space, wherein the mounting base at least includes two side frames opposite to each other; a winder, including at least one unidirectional ratchet, a reel, and a flexible band, wherein two sides of the reel are pivoted at the two side frames, the unidirectional ratchet is connected to the reel, a periphery of the unidirectional ratchet is provided with a plurality unidirectional teeth, the flexible band is rolled around an outer periphery of the reel, the flexible band is provided with a hook, and the hook is operatively pulled out or rolled up by the band outlet of the housing; and an actuating mechanism, including an actuating lever, a pushing piece, an elastic element, a gear set, and a stop piece, wherein the pushing piece and the elastic element are pivoted between the two side frames by the actuating lever, the pushing piece is provided with a tappet, the gear set has a small gear set on the actuating lever, a large gear set on the reel and meshing with the small gear, the stop piece is pivoted on the two side frames and is located between the winder and the pushing piece, the stop piece is provided with an abutment portion, the stop piece is provided with a limit hole surrounding the tappet, a peripheral edge of the limit hole has a guide bevel, a stretching element is arranged between one side of the stop piece and one of the side frames such that a hole wall of the limit hole is operatively separated against the tappet, and the abutment portion abuts on one of the unidirectional teeth in a relaxed state of the elastic element.
As such, the elastic element can be compressed by operating an axial displacement of the actuating lever, the pushing piece moves with the axial displacement of the actuating lever, so that one side of the tappet is pushed against the guide bevel of the limit hole, the change of the guide bevel pushed by the tappet causes the stop piece to be displaced radially with respect to the actuating lever, each abutment portion is disengaged from the unidirectional teeth, and simultaneously rotating the actuating lever cause the gear set to actuate the reel to retract or pull out the hook. Consequently, the purpose of one-handed operation is achieved. Since the present disclosure uses a small gear to drive a large gear, the operator can save effort when operating the actuating lever.
The detailed description of the present invention is provided in combination with the accompanying drawings.
Please refer to
The housing 2 includes a first enclosure 21 and a second enclosure 22 that are opposite to each other. The first enclosure 21 and the second enclosure 22 together define an accommodation space 23. One side of the first enclosure 21 and one side of the second enclosure 22 are respectively provided with a pair of positioning portion 24. The positioning portion 24 can be used for assembling a clip mount 6 (see
The mounting base 3 is fixed in the accommodation space 23, and at least includes two side frames opposite to each other. The mounting base 3 is further provided with a platform 32 connected to the bottom between the two side frames 31. The mounting base 3 is provided with a positioning ear 33. The positioning ear 33 corresponds to the positioning portions 24 of the first enclosure 21 and the second enclosure 22. A fixing element Si fixes the positioning portions 24 and the positioning ear 33 together. In the embodiment of the present disclosure, the positioning ear 33 extends integrally from one side of the platform 32. Further, each of side frames 31 is provided with a first pivot hole 311, a second pivot hole 312, a third pivot hole 313 and a fourth pivot hole 314. In the embodiment of the present disclosure, the first pivot hole 311 and the third pivot hole 313 are respectively adjacent to the second pivot 312, and the fourth pivot hole 314 is spaced under the second pivot hole 312. As shown in
The winder 4 includes at least one unidirectional ratchet 41, a reel 42, a flexible band 43 and a roll 44. The unidirectional ratchet 41 is provided on one side of the reel 44 in the axial direction. In the embodiment of the present disclosure, two unidirectional ratchets 41 are provided on both sides of the reel 44. A plurality of unidirectional teeth 411 are provided on the peripheral of the unidirectional ratchet 41. The flexible band 43 is wound around the outer periphery of the reel 44, and is also provided with a hook 45. The hook 45 is operably pulled out or retracted from the band outlet 25 of the housing 2. The reel 42 passes through the roll 44, and both ends of the roll 44 are pivotally mounted on the first pivot holes 311 of the two side frames 31 such that the roll 44 can be pivoted with the reel 42. In addition, one end of the reel 42 further passes through one of the side frames 31.
The actuating mechanism 5 includes an actuating lever 51, a pushing piece 52, an elastic element 53, a direction lever 54, a gear set 55 and a stop piece 56. The pushing piece 52 and the elastic element 53 are pivotally mounted on the second pivot holes 312 of the two side frames 31 with the actuating lever 51. The actuating lever 51 penetrates one of the side frames 31, and a handle 511 is provided at the protruding end. The handle 511 is located outside the housing 2. In the embodiment of the present disclosure, two ends of the elastic element 53 are respectively placed between the pushing piece and one of the side frames 31. In the present disclosure, in a normal state, the elastic element 53 is in a relaxed state, and a distance is formed between the handle 511 and the housing 2.
The pushing piece 52 has at least one at least one pivot ear 521 and at least one directional ear 522 opposite to each other. The pushing piece 52 extends upwards to a tappet 523. In
The stop piece 56 is pivotally arranged in the fourth pivot holes 314 of the two side frames 31, and is located between the winder 4 and the pushing piece 52. The stop piece 56 is provided with an abutment portion 561. In
Furthermore, both ends of the bottom side of the stop piece 56 pass through the fourth pivot holes 314. A first perforation 564 is provided at one end of the stop piece 56. The one side frame 31 is correspondingly provided with a second perforation 316, and a stretching element 7 is provided between the first perforation 564 and the second perforation 316. Thus, the bottom side of the stop piece 56 is elastically stretched against the projection 315 provided in the fourth pivot hole 314 such that the hole wall of the limit hole 562 at the top of the stop piece 56 elastically abuts the tappet 523. When the elastic element 53 is in a relaxed state, the abutment portion 561 abuts one of the unidirectional teeth 411 of the unidirectional ratchet 41, thereby restricting the rotation of the reel 42.
As describe above, in order to limit the positions of the actuating lever 51 and the elastic element 53, the actuating lever 51 is provided with a pin hole 512 in the radial direction, and a positioning pin C2 is inserted in the pin hole 512. Two ends of the positioning pin C2 are exposed outside the pin hole 512 such that two sides of the pushing piece 52 are respectively placed between the positioning pin C2 and the elastic element 53.
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In summary, the present disclosure allows the stop piece 56 to be separated from the unidirectional ratchet 41 by one-handed operation, and at the same time, the hook 45 can be retracted or pulled out to achieve convenient operation. Moreover, since the winder 4 and the actuating mechanism 5 are respectively pivotally connected to the mounting base 3, the detent operation of the gear set 55 can be sued to achieve the purpose of labor-saving operation.
Although the present disclosure has been described with reference to the preferred exemplary embodiments thereof, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the present disclosure which is intended to be defined by the appended claims.
Number | Date | Country | Kind |
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109102022 | Jan 2020 | TW | national |