Bidirectional ratchet structure
阅读说明:本技术 双向棘轮结构 (Bidirectional ratchet structure ) 是由 李明 于 2020-04-28 设计创作,主要内容包括:本发明公开了双向棘轮结构,属于棘轮技术领域,其包括机架、棘轮和导向盘;棘轮与所述导向盘可活动相连;机架伸入所述棘轮中并与所述棘轮配合;所述机架的结构可调节,通过调节所述机架,可切换所述机架带动所述进棘轮的转动方向。本发明公开的双向棘轮结构,机架中的棘齿两端可交替的伸入棘轮中相邻突齿的间隙中,可双向传递力矩;另外,机架可相对棘轮转动且相对转动的周数不受限制,在传递力矩时,棘齿的端面与棘轮中的侧壁面接触,能传递的力矩大。(The invention discloses a bidirectional ratchet structure, which belongs to the technical field of ratchets and comprises a rack, a ratchet and a guide disc; the ratchet wheel is movably connected with the guide disc; the frame extends into the ratchet wheel and is matched with the ratchet wheel; the structure of the rack is adjustable, and the rack can be switched to drive the rotation direction of the ratchet wheel through adjusting the rack. The invention discloses a bidirectional ratchet structure.A ratchet in a rack has two ends which can alternately extend into gaps of adjacent protruded teeth in a ratchet and can bidirectionally transmit torque; in addition, the frame can rotate relative to the ratchet wheel, the number of relative rotation cycles is not limited, when torque is transmitted, the end face of the ratchet is in contact with the side wall face in the ratchet wheel, and the transmittable torque is large.)
1. Bidirectional ratchet structure, its characterized in that includes:
a frame; comprises a body, a plurality of brackets arranged on the body and a plurality of ratchets; the plurality of ratchets are circumferentially distributed on the outer wall of the body and are rotatably connected with the bracket; a first guide rod and a second guide rod are respectively arranged at two ends of the ratchet;
a ratchet wheel; the tooth-shaped structure is provided with a groove, and the inner wall of the groove is provided with a plurality of circumferentially arranged protruding teeth; the rack is arranged in the groove, and one end of each ratchet extends into a gap between adjacent protruding teeth;
a guide plate; the guide disc is provided with a first guide groove and a second guide groove, the first guide rod and the second guide rod respectively penetrate through the first guide groove and the second guide groove, and the first guide rod and the second guide rod can respectively slide in the first guide groove and the second guide groove so as to switch the state that two ends of the ratchet teeth respectively extend into gaps between adjacent protruding teeth;
the first guide groove and the second guide groove respectively comprise a first section and a second section, and the first section is an arc-shaped groove taking the position point where the rotating shaft of the ratchet is projected onto the outer disc as the circle center; the second section is a chute; one end of the inclined groove close to the periphery of the outer disc is communicated with one end of the arc-shaped groove close to the periphery of the outer disc;
the ratchet teeth comprise a clockwise ratchet tooth and a counterclockwise ratchet tooth, the clockwise ratchet tooth is hinged and elastically connected with the counterclockwise ratchet tooth, the clockwise ratchet tooth is connected with the first guide rod, and the counterclockwise ratchet tooth is connected with the second guide rod.
2. The bidirectional ratchet structure of claim 1, wherein a plurality of the brackets are disposed in pairs and circumferentially distributed on the body.
3. The bidirectional ratchet structure of claim 1, wherein the ratchet further comprises a pin, the pin passes through the clockwise ratchet and the counterclockwise ratchet, and both ends of the pin are fixed on a pair of brackets.
4. The bidirectional ratchet structure of claim 3, wherein the clockwise ratchet teeth and the counterclockwise ratchet teeth are rotatably connected to the pin.
5. The bidirectional ratchet structure of claim 4, wherein the ratchet further comprises a spring plate, the spring plate clamps the pin, and two ends of the spring plate are respectively connected with the clockwise ratchet and the counterclockwise ratchet.
6. The bidirectional ratchet structure according to claim 1, wherein the first guide bar has a first stopper at a distal end thereof for preventing the first guide bar from protruding from the first guide groove.
7. The bidirectional ratchet structure of claim 6, wherein the second guide bar has a second stopper at a distal end thereof for preventing the second guide bar from protruding from the second guide groove.
8. The bidirectional ratchet structure according to claim 1, wherein the guide plate includes an inner plate, an outer plate, and a plurality of connecting rods, the first guide groove and the second guide groove are located on the outer plate, the plurality of connecting rods are arranged circumferentially, and both ends of the connecting rods are connected to the inner plate and the outer plate, respectively.
9. The bidirectional ratchet structure of claim 8, wherein the guide plate extends into the recess, and a lower surface of the guide plate protrudes from a lower surface of the ratchet.
10. The bidirectional ratchet structure of claim 1, further comprising a drive shaft passing through the guide disk and the frame in sequence and keyed to the frame.
Technical Field
The invention relates to the technical field of ratchets, in particular to a bidirectional ratchet structure.
Background
Ratchets are common elements used in industry and function as mechanical mechanisms to maintain a single direction of power output for linear reciprocating or rotary motion to prevent the transmission from reversing. The pawl is matched with the ratchet wheel to prevent the ratchet wheel from reversing. The ratchet structure is mostly one-way transmission.
At present, a bidirectional ratchet wheel disclosed in chinese patent No. CN103775538B is provided, in which a ratchet wheel outer ring, a ratchet wheel inner ring and a cam mechanism are coaxially mounted, the ratchet wheel outer ring and the ratchet wheel inner ring share a common axis and are rotationally connected through balls, n ratchet mechanisms are uniformly connected to an outer edge of the ratchet wheel inner ring, n is 2 to 20, the cam mechanism is rotationally connected to the ratchet wheel inner ring, and circular-arc ratchets in each ratchet mechanism are retractable relative to ratchet tooth grooves of the ratchet wheel outer ring. When the bidirectional ratchet wheel transmits clockwise torque or anticlockwise torque, the arc-shaped ratchet extends into the ratchet tooth groove, and if the hub of the inner ring of the ratchet wheel and the outer ring of the ratchet wheel need to rotate relatively, the cam mechanism needs to be manually adjusted; manually extending the circular arc ratchet teeth from the ratchet tooth grooves; in addition, when the torque is transmitted through the ratchet wheel, at most, only two circular ratchets can extend into the ratchet tooth groove; the transmitted torque is limited.
Disclosure of Invention
In order to overcome the defects in the prior art, a bidirectional ratchet structure is provided, wherein the rack can rotate relative to the ratchet wheel, the number of relative rotation cycles is not limited, when torque is transmitted, the end surfaces of the ratchet teeth are in contact with the side wall surface in the ratchet wheel, and the transmittable torque is large.
The technical scheme adopted by the invention for solving the technical problems is as follows:
bidirectional ratchet structure, its characterized in that includes:
a frame; comprises a body, a plurality of brackets arranged on the body and a plurality of ratchets; the plurality of ratchets are circumferentially distributed on the outer wall of the body and are rotatably connected with the bracket; a first guide rod and a second guide rod are respectively arranged at two ends of the ratchet;
a ratchet wheel; the tooth-shaped structure is provided with a groove, and the inner wall of the groove is provided with a plurality of circumferentially arranged protruding teeth; the rack is arranged in the groove, and one end of each ratchet extends into a gap between adjacent protruding teeth;
a guide plate; the guide disc is provided with a first guide groove and a second guide groove, the first guide rod and the second guide rod respectively penetrate through the first guide groove and the second guide groove, and the first guide rod and the second guide rod can respectively slide in the first guide groove and the second guide groove so as to switch the state that two ends of the ratchet respectively extend into gaps between adjacent protruding teeth.
Preferably, a plurality of said stents are arranged in pairs and circumferentially distributed on the body.
Preferably, the ratchet teeth include a clockwise ratchet tooth and a counterclockwise ratchet tooth, the clockwise ratchet tooth is hinged and elastically connected to the counterclockwise ratchet tooth, the clockwise ratchet tooth is connected to the first guide bar, and the counterclockwise ratchet tooth is connected to the second guide bar.
Preferably, the ratchet further comprises a pin shaft, the pin shaft penetrates through the clockwise ratchet and the anticlockwise ratchet, and two ends of the pin shaft are fixed on the pair of supports.
Preferably, the clockwise ratchet and the anticlockwise ratchet are rotatably connected with the pin shaft.
Preferably, the ratchet further comprises a spring piece, the spring piece clamps the pin shaft, and two ends of the spring piece are connected with the clockwise ratchet and the anticlockwise ratchet respectively.
Preferably, the tail end of the first guide rod is provided with a first limiting block for preventing the first guide rod from extending out of the first guide groove; and a second limiting block for preventing the second guide rod from extending out of the second guide groove is arranged at the tail end of the second guide rod.
Preferably, the first guide groove and the second guide groove both comprise a first section and a second section, and the first section is an arc-shaped groove taking the position point where the pin shaft projects onto the outer disc as the center of a circle; the second section is a chute; one end of the inclined groove close to the periphery of the outer disc is communicated with one end of the arc-shaped groove close to the periphery of the outer disc. .
Preferably, the guide disc comprises an inner disc, an outer disc and a plurality of connecting rods, the first guide groove and the second guide groove are positioned on the outer disc, the plurality of connecting rods are circumferentially arranged, and two ends of each connecting rod are respectively connected with the inner disc and the outer disc; the guide disc extends into the groove, and the lower surface of the guide disc protrudes out of the lower surface of the ratchet wheel.
Preferably, the device further comprises a driving shaft which sequentially penetrates through the guide disc and the rack and is in key connection with the rack.
The present invention has at least the following advantageous effects.
1. Two ends of the ratchet in the frame can alternately extend into the gaps of the adjacent convex teeth in the ratchet wheel, and the bidirectional ratchet wheel structure can transmit torque in two directions.
2. The frame can rotate relative to the ratchet wheel, and the number of relative rotation cycles is not limited; can be infinitely convoluted.
3. The end surfaces of the ratchets are contacted with the side wall surfaces in the ratchet wheel, and the ratchets can all extend into gaps between the protruding teeth, so that the transmittable torque is large.
Drawings
Fig. 1 is a schematic perspective view of an embodiment of a bidirectional ratchet structure.
FIG. 2 is an exploded view of the bidirectional ratchet structure of the embodiment.
FIG. 3 is a schematic diagram of the bidirectional ratchet structure without the driving shaft in the embodiment.
Fig. 4 is a schematic structural diagram of the rack in the embodiment.
FIG. 5 is a schematic view showing the structure of the ratchet according to the embodiment.
FIG. 6 is a schematic structural view of a guide plate in the embodiment.
Fig. 7 is a schematic structural diagram of another view angle of fig. 5.
100, a frame; 110. a body; 120. a support; 130. a ratchet; 131. clockwise ratchets; 132. a counterclockwise ratchet; 140. a first guide bar; 141. a first stopper; 150. a second guide bar; 151. a second limiting block; 200. a ratchet wheel; 210. a groove; 220. a protruding tooth; 300. a guide plate; 310. a first guide groove; 311. a first stage; 312. a second stage; 320. a second guide groove; 330. an inner disc; 340. an outer disc; 350. a connecting rod; 400. a drive shaft; 10. a pin shaft; 20. a spring plate; 221. a side wall; a. an outer surface; b. an end face.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
Referring to fig. 1 to 7, the present invention discloses a bidirectional ratchet structure, which includes a frame 100, a
The driving shaft is connected with the frame 100 and can drive the
The rack 100 is located in the
The frame 100 is substantially hollow cylindrical; which includes a body 110, a plurality of brackets 120 provided on the body 110, and a plurality of ratchet teeth 130; a plurality of ratchet teeth 130 are circumferentially distributed on the outer wall of the body 110 and rotatably connected with the bracket 120; a first guide rod 140 and a second guide rod 150 are respectively arranged at two ends of the ratchet 130;
the
the guide disc is provided with a
When the guide disc is rotated, the
A plurality of brackets 120 are arranged in pairs and circumferentially distributed on the body 110; the pair of brackets 120 are vertically distributed on the outer wall of the body 110, and the ratchet 130 is connected to the pair of brackets 120 and can swing with the pair of racks 100.
When the ratchet 130 swings, two ends of the switchable ratchet 130 extend into the gaps between the protruding
The ratchet 130 includes a clockwise ratchet 131 and a counterclockwise ratchet 132, the clockwise ratchet 131 is hinged and elastically connected to the counterclockwise ratchet 132, the clockwise ratchet 131 is connected to the first guide bar 140, and the counterclockwise ratchet 132 is connected to the second guide bar 150.
In the present embodiment, the clockwise ratchet 131 is at the left end of the ratchet teeth 130, and the counterclockwise ratchet 132 is at the right end of the ratchet teeth 130; when the clockwise ratchet 131 is in the gap between the protruding
In the present embodiment, the protruding
The ratchet 130 further includes a pin 10, the pin 10 passes through the clockwise ratchet 131 and the counterclockwise ratchet 132, and both ends of the pin 10 are fixed to the pair of brackets 120.
The clockwise ratchet 131 and the counterclockwise ratchet 132 are rotatably connected to the pin 10.
In this embodiment, both the clockwise ratchet 131 and the counterclockwise ratchet 132 can rotate relative to the pin 10.
The ratchet 130 further includes a spring plate, the spring plate clamps the pin 10, and two ends of the spring plate are respectively connected to the clockwise ratchet 131 and the counterclockwise ratchet 132.
The clockwise ratchet 131 and the counterclockwise ratchet 132 are connected by a spring plate, and when the clockwise ratchet 131 and the counterclockwise ratchet 132 are relatively rotated, the spring force of the spring plate can make the clockwise ratchet 131 and the counterclockwise ratchet 132 generate reset rotation, so that the shape of the whole ratchet 130 is restored to the original shape.
Specifically, when the clockwise ratchet teeth 131 are in the gaps between the
Similarly, the counterclockwise ratchet 132 extends into the gap between
the driving shaft can drive the rack 100 to drive the ratchet wheel 200 to rotate anticlockwise; if the driving shaft rotates clockwise, the frame 100 can rotate clockwise along with the driving shaft relative to the ratchet 200; because the counterclockwise ratchet 132 extends into the gap between the adjacent teeth 220 of the ratchet 200, the teeth 220 will contact the outer surface a of the counterclockwise ratchet 132 during the clockwise rotation of the rack 100; and the counterclockwise ratchet 132 is pushed out of the gap between the adjacent protruding teeth 220, so that the relative movement between the machine frame 100 and the ratchet 130 is realized, when the counterclockwise ratchet teeth 132 are pushed out of the gaps between the adjacent inter-teeth 220, the spring plate is deformed, when the counterclockwise ratchet 132 is rotated to the vicinity of the gap between the next lobe 220 and the lobe 220, the spring force of the spring leaf can reset the counterclockwise ratchet 132 to extend into the gap between the adjacent protruding teeth 220, and thus, the relative rotation between the rack 100 and the ratchet 200 is realized, when the teeth 220 force the counterclockwise ratchet teeth 132 out of the gaps between adjacent teeth 220, the counterclockwise ratchet 132 slides along the first section 311 in the second guide groove 320, and the clockwise ratchet 131 is restricted in its displacement by the second section 312 of the first guide groove 310, therefore, the clockwise ratchet 131 does not erroneously extend into the gap between the adjacent teeth 220 to stop the relative rotation of the rack 100 and the ratchet 200.
The outer surfaces a of the clockwise ratchet teeth 131 and the counterclockwise ratchet teeth 132 in the ratchet teeth 130 are smooth arc surfaces, and when the protruding
In this embodiment, the overall length of the ratchet 130 is greater than the gap distance between the protruding
A first limit block 141 for preventing the first guide rod 140 from protruding from the
The first stopper 141 and the second stopper 151 are sized not to protrude from the
The
The guide disc comprises an inner disc 330, an outer disc 340 and a plurality of connecting rods, the
The driving shaft sequentially passes through the guide disc and the rack 100 and is connected with the rack 100 in a key mode.
The bidirectional ratchet structure disclosed by the invention can be applied to devices with infinite rotation requirements, such as bicycles, and the rear wheel of the bicycle has infinite rotation requirements.
The invention discloses a bidirectional ratchet structure, two ends of a ratchet 130 in a frame 100 can alternately extend into a gap between adjacent
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
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