CN107244374A - Bicycle mechanical clamp - Google Patents

Abstract

The present invention provides a kind of bicycle mechanical clamp, including：One caliper body, it includes the two group apertured for being arranged at opposite sides；Two axle motivation structures, two axle motivation structures are movably mounted on two groups of apertured respectively；One interlinked mechanism, it includes the arm of two two axle motivation structures of connection and provided with a fixed structure for being available for holding a brake cable, the interlinked mechanism is rotated two axle motivation structures and moved with axle shifting two lining groups of actuating towards a disc, two arm section are not rotated around one first center of rotation portion and one second center of rotation portion, and the torque that the active force that the brake cable acts on the fixed structure is produced to the first center of rotation portion is identical with the torque produced to the second center of rotation portion.The bicycle mechanical clamp of the present invention, two axle motivation structures can fifty-fifty clip disc both sides, reach that average folder is stopped power.

Description

Bicycle mechanical clamp

Technical field

The present invention is relevant with clamp, in particular to a kind of bicycle mechanical clamp.

Background technology

Cycling general mood is prevailing in recent years, and dealer is in addition to strongly developing more preferable transmission system, and also research and development are stopped emphatically Car system.Brake system is related to the personal safety of rider, and common brake hangs evil spirit, C folders, V folders and clamp etc..Its In, clamp are usually used on the bicycle of superior performance, and clamp can be divided into hydraulic type and mechanical again, due to hydraulic type generally compared with It is expensive, therefore again to be mechanically easier to be received by the beginner of introduction, as disclosed by TaiWan, China patent No. TWI542798 etc. from Driving clamp are that category is such.

In known such clamp structure, it is interconnected start to drive lining to move relative to caliper body by each element And disc is clipped, to reach brake purpose.The clamp structure of known technology includes two axle motivation structures and a rocking arm, and the rocking arm is set There is an axle portion for connecting a wherein axle motivation structure respectively for the consolidation hole of brake cable consolidation and two.But brake cable acts on consolidation Hole is different to the torque produced by two axle portions, causes two axle motivation structures can not fifty-fifty clip disc both sides.

Therefore, it is necessary to bicycle mechanical clamp a kind of novel and with progressive be provided, to solve the above problems.

The content of the invention

It is a primary object of the present invention to provide a kind of bicycle mechanical clamp, press from both sides power of stopping and be averaged.

To reach above-mentioned purpose, the present invention uses following technical scheme：

A kind of bicycle mechanical clamp, including：One caliper body, it includes the two group apertured for being arranged at opposite sides；Two Axle motivation structure, two axle motivation structures are movably mounted on two groups of apertured respectively；One interlinked mechanism, it includes two two axle motivations of connection The arm of structure and provided with one be available for hold a brake cable fixed structure, the interlinked mechanism rotate two axle motivation structures with axle move activate Two lining groups are moved towards a disc, and two arm section are not rotated around one first center of rotation portion and one second center of rotation portion, should Torque that the active force that brake cable acts on the fixed structure is produced to the first center of rotation portion with to second center of rotation The torque that portion is produced is identical.

Further,

One of side of each axle motivation structure of each axle motivation structure and interlinked mechanism correspondence is provided with chamfered groove more than one, another sets Have a pair should many chamfered grooves and mutually embedding group of polygonal column.

The first center of rotation portion and the second center of rotation portion are respectively a pivot, and each pivot is protruded out towards each axle motivation structure Beyond each many chamfered grooves.

Each axle motivation structure correspondence wherein pivot is provided with a groove, and each pivot wears a wherein groove respectively.

The bicycle mechanical clamp also include two fixed parts, and two fixed parts wear it on the inside of the caliper body respectively In an axle motivation structure and the first center of rotation portion and the second center of rotation portion one of them.

Each axle motivation structure accommodates the actuated piece including an actuated piece for being rotationally arranged in one of which apertured and one At least one of axle moving part, the actuated piece not caliper body axial movement relatively, the first center of rotation portion and the Two center of rotation portions connect and drive two actuated piece synchronous axial systems to be caused to compel to support the axial movement of a wherein axle moving part respectively respectively Dynamic two lining groups are moved towards the disc.

The caliper body is provided with least one axially extending guide hole in opposite sides, and two axle moving parts are respectively equipped with least one Axially extending limit convex, at least a limit convex movably wear an at least guide hole.

The bicycle mechanical clamp also include two pads, and the caliper body is respectively equipped with a recess in opposite sides, respectively Pad is located therein a recess, and each pad is located therein between a recess and wherein consistent moving part.

The effective arm of force of the fixed structure to the first center of rotation portion and the second center of rotation portion is identical；Each axle is moved Mechanism accommodates at least one of axle of the actuated piece including an actuated piece for being rotationally arranged in one of which apertured and one Moving part, the relatively not described caliper body axial movement of the actuated piece, two pivots connect and drive two actuated piece synchronous axial systems respectively Activate two lining groups to compel to support the axial movement of a wherein axle moving part respectively and moved towards the disc；Each actuated piece is provided with a pair The groove of a wherein pivot is answered, two pivots wear a wherein groove respectively；The bicycle mechanical clamp also include two fixed parts, two Fixed part wears a wherein actuated piece and a wherein pivot for the interlinked mechanism on the inside of the caliper body respectively；Each actuating Part is provided with polygonal column, and the interlinked mechanism is provided with chamfered groove more than two；The caliper body is axially extending provided with least one in opposite sides Guide hole, two axle moving parts are respectively equipped with the axially extending limit convex of plural number, and plural limit convex movably wears plural guide hole；Should Bicycle mechanical clamp also include two pads, and the caliper body is respectively equipped with a recess in opposite sides, and each pad is located at it In a recess, each pad is located therein between a recess and wherein consistent moving part；The bicycle mechanical clamp are solid also including one Part, the fastener is hubbed at the interlinked mechanism, and the fixed structure is on the fastener；Each many chamfered grooves are blind slot；Two fixed parts Wear respectively a wherein actuated piece and its in a pivot.

It is an advantage of the invention that：

The bicycle mechanical clamp of the present invention, two axle motivation structures can fifty-fifty clip disc both sides, reach that average folder is stopped Power.

Brief description of the drawings

Fig. 1 is the stereogram of a preferred embodiment of the present invention.

Fig. 2 is the exploded view of a preferred embodiment of the present invention.

Fig. 3 is a profile of a preferred embodiment of the present invention.

Fig. 4 is the illustrative view of a preferred embodiment of the present invention.

Embodiment

Possible embodiment of the invention is only illustrated with embodiment below, so and is not used to limit the model of the invention to be protected Farmland, in advance statement.

Fig. 1 to 4 is refer to, it shows the preferred embodiment of the present invention, bicycle mechanical clamp 1 of the invention include one Caliper body 10, two axle motivation structures 20 and an interlinked mechanism 30.

Caliper body 10 includes the two group apertured 11 for being arranged at opposite sides；Movably group is set two axle motivation structures 20 respectively In two groups of apertured 11；Interlinked mechanism 30 includes the arm 31 of two two axle motivation structures 20 of connection and is available for holding a brake cable provided with one 2 fixed structure 32, interlinked mechanism 30 is rotated two axle motivation structures 20 and moved with axle shifting two lining groups of actuating towards a disc 3, and two Arm 31 is rotated rotating around one first center of rotation portion 33 and one second center of rotation portion 34, and brake cable 2 acts on fixed structure The torque that 32 active force is produced to the first center of rotation portion 33 is identical with the torque produced to the second center of rotation portion 34.With This, two axle motivation structures 20 are able to average and stably clip disc 3.

It is preferred that effective arm of force in center of rotation portion 34 of the fixed center of rotation of structure 32 to the first portion 33 and second is identical, Two axle motivation structures 20 are made averagely to clip disc 3.Specifically describe, caliper body 10 is the structure of left and right mirror, fixed structure 32 Positioned at the middle extended spot of the left and right structure of caliper body 10.

In the present embodiment, fixed structure 32 is not limited to hole, also can wear limit for brake cable 2 for groove or pressure clip assembly etc. The structure of position.

In the present embodiment, the first center of rotation portion 33 and the second center of rotation portion 34 are respectively pivot 331,341；Preferably Ground, first, second center of rotation portion 33,34 is in AnchorPoint；In other embodiment, first, second center of rotation portion 33,34 also may be used For on an axial line or an axis hole etc..

Bicycle mechanical clamp 1 also include a fastener 40, and the fastener 40 can be considered a part for interlinked mechanism 30, be Firmware 40 is hubbed at interlinked mechanism 30, and fixed structure 32, can relative 30 turns of interlinked mechanism with fastener 40 on fastener 40 Move with adjustment angle.

Each axle motivation structure 20 includes an actuated piece 21 and one for being rotationally arranged in one of which apertured 11 and accommodates actuating At least one of axle moving part 22 of part 21, with thinning bicycle mechanical clamp 1；In the present embodiment, each axle moving part 22 is provided with One tank 221 is for accommodating at least a part of of actuated piece 21.Actuated piece 21 is not moved axially with respect to caliper body 10, two pivots 331,341 connect and drive the synchronous axial system of two actuated piece 21 to compel to move axially and activate to a wherein axle moving part 22 respectively respectively Two lining groups are moved towards disc 3.

The side of each axle motivation structure 20 of each axle motivation structure 20 and interlinked mechanism 30 correspondence one of them provided with chamfered groove more than one 35, Another is provided with a polygonal groove 35 of correspondence and mutually embedding group of polygonal column 211.In the present embodiment, each actuated piece 21 is provided with polygonal Post 211, interlinked mechanism 30 is provided with chamfered groove 35 more than two, in this way, interlinked mechanism 30 can stably drive each actuated piece 21 to rotate.Preferably Ground, each pivot 331,341 is protruded out beyond each many chamfered grooves 35 towards each axle motivation structure 20, and each pivot 331,341 is extending at least partially into respectively Actuated piece 21, to lift the intensity of the structure of interlinked mechanism 30.In the present embodiment, each correspondence of axle motivation structure 20 wherein pivot 331,341 are provided with a groove 23, and each pivot 331,341 wears a wherein groove 23 respectively, and each axle motivation structure 20 is able to firmly Combined with interlinked mechanism 30 and be difficult to be mutually disengaged.In the present embodiment, each many chamfered grooves 35 are blind slot, with the knot of interlinked mechanism 30 Structure intensity is preferably difficult to damage because of long term.

Bicycle mechanical clamp 1 also include two fixed parts 50, and two fixed parts 50 are worn by the inner side of caliper body 10 respectively A wherein actuated piece 21 and two pivots 331,341 one of them, locked each actuated piece 21 and gearing machine with lifting each fixed part 50 The fastening force of structure 30 and mutually fasten combination, and make between each actuated piece 21 and each axle moving part 22 and each axle moving part 22 and clamp There is gap between body 1 and mutual abrasion are reduced, to maintain the structural strength of bicycle mechanical clamp 1.In other embodiment, Two fixed parts can be worn respectively on the outside of caliper body a wherein actuated piece and its in a pivot.In addition, two fixed 50 points of parts A wherein actuated piece 21 and a wherein pivot 331,341 are not worn.

Bicycle mechanical clamp 1 also include two pads 60, and caliper body 10 is respectively equipped with a recess 12 in opposite sides, respectively Pad 60 is located therein a recess 12, and each pad 60 is located therein between a recess 12 and wherein consistent moving part 21, each pad 60 It is incorporated into being stabilized on caliper body 10, and is difficult relative caliper body 10 and slide, and each actuated piece 21 is consolidated Ground is abutted against in caliper body 10 indirectly.

Caliper body 10 is in opposite sides provided with least one axially extending guide hole 13 (perforation or blind hole), two axle moving parts 22 At least one axially extending limit convex 222 is respectively equipped with, an at least limit convex 222 movably wears an at least guide hole 13.In In the present embodiment, at least the quantity of a guide hole 13 is plural number, and is set around each group apertured 11；At least number of a limit convex 222 Measure as plural number.Such each axle moving part 22 can be moved axially stably without being rotated relative to caliper body 10.

The technical principle described above for being presently preferred embodiments of the present invention and its being used, for those skilled in the art For, without departing from the spirit and scope of the present invention, any equivalent change based on the basis of technical solution of the present invention Change, simply replacement etc. obviously changes, belong within the scope of the present invention.

Claims (10)

1. bicycle mechanical clamp, it is characterised in that including：

One caliper body, including the two group apertured for being arranged at opposite sides；

Two axle motivation structures, are movably mounted on two groups of apertured respectively；

One interlinked mechanism, including two connection two axle motivation structures arm and provided with one be available for hold brake cable fixed structure, turn Dynamic two axle motivation structures move two lining groups of actuating with axle and moved towards a disc, and two arm section are not around one first center of rotation portion and one Second center of rotation portion is rotated, and the brake cable acts on the power that the active force of the fixed structure is produced to the first center of rotation portion Square is identical with the torque produced to the second center of rotation portion.

2. bicycle mechanical clamp as claimed in claim 1, it is characterised in that during the fixed structure to described first is rotated Effective arm of force in center portion and the second center of rotation portion is identical.

3. bicycle mechanical clamp as claimed in claim 1, it is characterised in that each axle of each axle motivation structure and interlinked mechanism correspondence One of side of motivation structure provided with chamfered groove more than one, another should many chamfered grooves and mutually embedding group of polygonal column provided with a pair.

4. bicycle mechanical clamp as claimed in claim 3, it is characterised in that the first center of rotation portion and the second rotation Central part is respectively a pivot, and each pivot is protruded out beyond each many chamfered grooves towards each axle motivation structure.

5. bicycle mechanical clamp as claimed in claim 4, it is characterised in that each axle motivation structure correspondence wherein pivot is provided with One groove, each pivot wears a wherein groove respectively.

6. bicycle mechanical clamp as claimed in claim 1, it is characterised in that also including two fixed parts, two fixed part difference Worn on the inside of the caliper body a wherein axle motivation structure and the first center of rotation portion and the second center of rotation portion its In one.

7. the bicycle mechanical clamp as described in claim 1 to 6 any of which, it is characterised in that each axle motivation structure includes One be rotationally arranged in the actuated piece of one of which apertured and one accommodate the actuated piece at least one of axle moving part, the cause The relatively not described caliper body axial movement of moving part, the first center of rotation portion and the second center of rotation portion connect and driven respectively Dynamic two actuated piece synchronous axial systems activate two lining groups and moved towards the disc to compel to support the axial movement of a wherein axle moving part respectively It is dynamic.

8. bicycle mechanical clamp as claimed in claim 7, it is characterised in that the caliper body is in opposite sides provided with extremely A few axially extending guide hole, two axle moving parts are respectively equipped with least one axially extending limit convex, and an at least limit convex may move Ground wears an at least guide hole.

9. bicycle mechanical clamp as claimed in claim 7, it is characterised in that also including two pads, the caliper body in Opposite sides is respectively equipped with a recess, and each pad is located therein a recess, and each pad is located therein a recess and wherein consistent dynamic Between part.

10. bicycle mechanical clamp as claimed in claim 5, it is characterised in that the fixed structure to described first is rotated Central part and effective arm of force in the second center of rotation portion are identical；Each axle motivation structure is rotationally arranged in one of which including one and set The actuated piece in hole and an at least one of axle moving part for accommodating the actuated piece, the actuated piece not caliper body axial direction relatively Mobile, two pivots connect and drive two actuated piece synchronous axial systems to be activated to compel to support the axial movement of a wherein axle moving part respectively respectively Two lining groups are moved towards the disc；Groove of each actuated piece provided with a correspondence wherein pivot, two pivots wear it respectively In a groove；The bicycle mechanical clamp also include two fixed parts, and two fixed parts are worn on the inside of the caliper body respectively A wherein pivot for a wherein actuated piece and the interlinked mechanism；Each actuated piece is provided with polygonal column, and the interlinked mechanism is polygonal provided with two Groove；The caliper body is provided with least one axially extending guide hole in opposite sides, and two axle moving parts are respectively equipped with plural axial direction and prolonged The limit convex stretched, plural limit convex movably wears plural guide hole；The bicycle mechanical clamp also include two pads, the card Pincers body is respectively equipped with a recess in opposite sides, and each pad is located therein a recess, each pad be located therein a recess and its In between an actuated piece；The bicycle mechanical clamp also include a fastener, and the fastener is hubbed at the interlinked mechanism, and this is fixed Structure is on the fastener；Each many chamfered grooves are blind slot；Two fixed parts wear respectively a wherein actuated piece and its in a pivot.