CN108909258A - A kind of binary channels conveying mechanism of collating locking wire gear - Google Patents

Abstract

The present invention provides a kind of binary channels conveying mechanisms of collating locking wire gear, including rack, the rack is equipped with bookblock accumulation platform, lifting device and double channel conveying device, it is equipped between the bookblock accumulation platform and the lifting device and promotes buanch unit, binary channels buanch unit is equipped between the lifting device and the double channel conveying device, the double channel conveying device includes binary channels cell driving device, first passage unit and second channel unit.An assembling machine can be connected to form a collating book sewing machine with two book sewing machines through the invention, complete being connected between assembling machine and book sewing machine and transmitted, improve the efficiency of production, while reducing cost of labor.

Description

A kind of binary channels conveying mechanism of collating locking wire gear

Technical field

The present invention relates to binding machine equipment technical field in road after printing more particularly to a kind of pairs of collating locking wire gear Channel conveyor structure.

Background technique

Currently, the development level of printing machinery is quite fast, but the adhesive bookbinding machinery for belonging to road after printing compares also It is lag.Traditional collating process and locking wire process needs to separate two independent machines and goes to complete, lack linkage mechanism The two is combined, the degree of automation for causing books to produce is low, is not able to satisfy the demand in market；And according to the speed of production, The speed of production of one assembling machine needs two book sewing machines matched, and traditional production work efficiency is low, the labor of operating personnel Fatigue resistance is high, is unfavorable for long working.Therefore, a kind of binary channels conveying mechanism of collating locking wire gear is needed, is solved existing There is the defect of technology.

Summary of the invention

In order to solve the above-mentioned technical problems, the present invention provides a kind of binary channels conveying mechanism of collating locking wire gear, An assembling machine can be connected to form a collating book sewing machine with two book sewing machines, completed between assembling machine and book sewing machine It is connected and transmits, improve the efficiency of production, while reduces cost of labor.

The invention provides following technical scheme, a kind of binary channels conveying mechanism of collating locking wire gear, including rack, institute Rack is stated equipped with bookblock accumulation platform, lifting device and double channel conveying device, wherein the bookblock accumulation platform and the promotion It is equipped between device and promotes buanch unit, it is single that binary channels transfer is equipped between the lifting device and the double channel conveying device Member, the double channel conveying device include binary channels cell driving device and are mounted on the binary channels cell driving device First passage unit and second channel unit；The buanch unit that promoted turns the bookblock being deposited on the bookblock accumulation platform The lifting device is moved to, the bookblock reaches channel transfer station after the promotion of the lifting device, according to demand, described Binary channels cell driving device drives the first passage unit or the second channel unit to reach the channel transfer station, Bookblock on the lifting device is transferred to the first passage unit or the second channel by the binary channels buanch unit Unit.

Further, the lifting device include promoted plummer, lifting cylinder and promoted sliding rail, the lifting cylinder and The promotion sliding rail is mounted on the rack, and the output shaft of the lifting cylinder is fixed on described mention by one first link block It rises on plummer, the promotion plummer is slidably connected on the promotion sliding rail by several promotion sliding blocks, the promotion gas Cylinder drives the promotion plummer to slidably reciprocate in the promotion sliding rail.

Further, the promotion buanch unit includes first straight line mould group and the first transfer element, the first straight line Mould group includes the first motor, the first synchronous case, first straight line guide rail, the first belt and the first sliding block, the first straight line guide rail Both ends be equipped with the first transmission shaft, wherein first transmission shaft of one end passes through the described first synchronous case and first horse Up to being connected, first belt is mounted on first transmission shaft, and first sliding block is fixed on first belt, And first sliding block is slidably connected with the first straight line guide rail；First transfer element is fixed on first sliding block On, first transfer element includes the first cylinder, the first slide bar and the first pushing block, and one end of first pushing block is fixed to be connected The output end of first cylinder is connect, the other end is fixedly connected with first slide bar.

Further, the binary channels buanch unit includes second straight line mould group and the second transfer element, and described second is straight Line mould group includes that the second motor, the second synchronous case, second straight line guide rail, the second belt and the second sliding block, the second straight line are led The both ends of rail are equipped with second driving shaft, and wherein the second driving shaft of one end passes through the described second synchronous case and described second Motor is connected, and second belt is mounted on the second driving shaft, and second sliding block is fixed on second belt On, and second sliding block is slidably connected with the second straight line guide rail；It is sliding that second transfer element is fixed on described second On block, second transfer element includes the second cylinder, the second slide bar and the second pushing block, and one end of second pushing block is fixed The output end of second cylinder is connected, the other end is fixedly connected with second slide bar.

Further, the binary channels cell driving device includes installation base station, third motor, third synchronous case, third Linear guide, third belt and slide unit, the third motor and the third linear guide are separately fixed at the installation base station On, the both ends of the installation base station are equipped with third transmission shaft, and wherein the third transmission shaft of one end is same by the third Step case is connected with the third motor, and the third belt is mounted on the third transmission shaft, and the slide unit is fixed on institute It states on third belt, and the slide unit is slidably connected by several third sliding blocks and the third linear guide.

Further, the first passage unit is fixedly mounted on the slide unit, and the first passage unit includes the One channel plummer and first passage buanch unit, the first passage buanch unit include the 4th straight line mould group and the 4th transfer Element, the 4th straight line mould group include the 4th motor, the 4th synchronous case, the 4th linear guide, the 4th belt and Four-slider, The both ends of 4th linear guide are equipped with the 4th transmission shaft, and wherein the 4th transmission shaft of one end is same by the described 4th Step case is connected with the 4th motor, and the 4th belt is mounted on the 4th transmission shaft, and the Four-slider is fixed On the 4th belt, and the Four-slider is slidably connected with the 4th linear guide；4th transfer element is solid Be scheduled on the Four-slider, the 4th transfer element include the 4th cylinder, the 4th slide bar and the 4th pushing block, the described 4th One end of pushing block is fixedly connected with the output end of the 4th cylinder, and the other end is fixedly connected with the 4th slide bar.

Further, the second channel unit includes second channel plummer and second channel buanch unit, and described Two channel plummers are fixedly mounted on the slide unit, and the second channel buanch unit is fixedly mounted on the installation base station One end；The second channel buanch unit includes the 5th straight line mould group and the 5th transfer element, and the 5th straight line mould group includes 5th motor, the 5th synchronous case, the 5th linear guide, the 5th belt and the 5th sliding block, the both ends of the 5th linear guide are equal Equipped with the 5th transmission shaft, wherein the 5th transmission shaft of one end is connected by the described 5th synchronous case with the 5th motor It connects, the 5th belt is mounted on the 5th transmission shaft, and the 5th sliding block is fixed on the 5th belt, and described 5th sliding block is slidably connected with the 5th linear guide；5th transfer element is fixed on the 5th sliding block, described 5th transfer element includes the 5th cylinder, the 5th slide bar and the 5th pushing block, and one end of the 5th pushing block is fixedly connected described The output end of 5th cylinder, the other end are fixedly connected with the 5th slide bar.

Further, the bookblock accumulation platform, the promotion plummer, the first passage plummer and described second lead to Sliding channel is equipped on road plummer.

Beneficial effects of the present invention are：The present invention provides a kind of binary channels conveying mechanism of collating locking wire gear, energy It is enough to be connected an assembling machine to form a collating book sewing machine with two book sewing machines, complete the phase between assembling machine and book sewing machine Connection and transmission, improve the efficiency of production, while reducing cost of labor.

Detailed description of the invention

Fig. 1 is the perspective view of the binary channels conveying mechanism of collating locking wire gear of the present invention；

Fig. 2 is the top view of the binary channels conveying mechanism of collating locking wire gear of the present invention；

Fig. 3 is the structural schematic diagram of lifting device of the present invention；

Fig. 4 is the structural schematic diagram of binary channels cell driving device of the present invention；

Fig. 5 is the structural schematic diagram of the first channel of the invention buanch unit；

Fig. 6 is the structural schematic diagram of the second channel of the invention buanch unit；

Fig. 7 is the structural schematic diagram of the present invention for promoting buanch unit；

Fig. 8 is the structural schematic diagram of binary channels buanch unit of the present invention.

Description of symbols：

Rack 1.

Bookblock accumulates platform 2.

Lifting device 3 promotes plummer 31, and lifting cylinder 32 promotes sliding rail 33, and the first link block 34 promotes sliding block 35.

Double channel conveying device 4, binary channels cell driving device 41 install base station 411, third transmission shaft 4111, third Motor 412, the synchronous case 413 of third, third linear guide 414, third belt 415, slide unit 416, third sliding block 4161；

First passage unit 42, first passage plummer 43, first passage buanch unit 44, the 4th straight line mould group 441, the Four motors 4411, the 4th synchronous case 4412, the 4th linear guide 4413, the 4th transmission shaft 44131, the 4th belt 4414, the 4th Sliding block 4415, the 4th transfer element 442, the 4th cylinder 4421, the 4th slide bar 4422, the 4th pushing block 4423；

Second channel unit 45, second channel plummer 46, second channel buanch unit 47, the 5th straight line mould group 471, the Five motors 4711, the 5th synchronous case 4712, the 5th linear guide 4713, the 5th transmission shaft 47131, the 5th belt 4714, the 5th Sliding block 4715, the 5th transfer element 472, the 5th cylinder 4721, the 5th slide bar 4722, the 5th pushing block 4723.

Promote buanch unit 5, first straight line mould group 51, the first motor 511, the first synchronous case 512, first straight line guide rail 513, the first transmission shaft 5131, the first belt 514, the first sliding block 515, the first transfer element 52, the first cylinder 521, first is sliding Bar 522, the first pushing block 523.

Binary channels buanch unit 6, second straight line mould group 61, the second motor 611, the second synchronous case 612, second straight line guide rail 613, second driving shaft 6131, the second belt 614, the second sliding block 615, the second transfer element 62, the second cylinder 621, second is sliding Bar 622, the second pushing block 623.

Sliding channel 7.

Specific embodiment

In order to make goal of the invention of the invention, technical solution and technical effect are more clearly understood, below with reference to specific reality Applying mode, the present invention is described further.It should be understood that specific embodiment described herein, for explaining only the invention, It is not intended to limit the present invention.

Referring to Fig.1, a kind of binary channels conveying mechanism of collating locking wire gear, including rack 1, the rack 1 are equipped with Bookblock accumulates platform 2, lifting device 3 and double channel conveying device 4, wherein the bookblock accumulation platform 2 and the lifting device 3 it Between be equipped with promoted buanch unit 5, between the lifting device 3 and the double channel conveying device 4 be equipped with binary channels buanch unit 6, the double channel conveying device 4 is including binary channels cell driving device 41 and is mounted on the binary channels cell driving device First passage unit 42 and second channel unit 45 on 41；The promotion buanch unit 5 will be deposited in the bookblock accumulation platform 2 On bookblock be transferred to the lifting device 3, the bookblock reaches channel transfer station after the promotion of the lifting device 3, According to demand, the binary channels cell driving device 41 drives the first passage unit 42 or the second channel unit 45 to arrive Up to the channel transfer station, the bookblock on the lifting device 3 is transferred to described first and led to by the binary channels buanch unit 6 Road unit 42 or the second channel unit 45.The binary channels conveying mechanism of collating locking wire gear of the present invention, can be by one Assembling machine is connected to form a collating book sewing machine with two book sewing machines, and specifically, one end is accumulated platform 2 and matched by the bookblock Page machine is connected, and the other end passes through the first passage unit 42 respectively and connects First book sewing machine, the second channel unit 45 second book sewing machine of connection, complete being connected between assembling machine and book sewing machine and transmit, improve the efficiency of production, together When reduce cost of labor.

Referring to Fig. 3, the lifting device 3 includes promoting plummer 31, lifting cylinder 32 and promotion sliding rail 33, the promotion Cylinder 32 and the promotion sliding rail 33 are mounted in the rack 1, and the output shaft of the lifting cylinder 32 passes through one first connection Block 34 is fixed on the promotion plummer 31, and the promotion plummer 31 is slidably connected at described by several promotion sliding blocks 35 It is promoted on sliding rail 33, the lifting cylinder 32 drives the promotion plummer 31 to slidably reciprocate in the promotion sliding rail 33.

Referring to Fig. 7, the promotions buanch unit 5 includes first straight line mould group 51 and the first transfer element 52, and described first Straight line mould group 51 includes the synchronous case 512 of the first motor 511, first, first straight line guide rail 513, the first belt 514 and the first sliding block 515, the both ends of the first straight line guide rail 513 are equipped with the first transmission shaft 5131, wherein first transmission shaft of one end 5131 are connected by the described first synchronous case 512 with first motor 511, and first belt 514 is mounted on described the On one transmission shaft 5131, first sliding block 515 is fixed on first belt 514, and first sliding block 515 with it is described First straight line guide rail 513 is slidably connected；First transfer element 52 is fixed on first sliding block 515, and described first turn Moving element 52 includes the first cylinder 521, the first slide bar 522 and the first pushing block 523, and one end of first pushing block 523 is fixed The output end of first cylinder 521 is connected, the other end is fixedly connected with first slide bar 522.Specifically, first motor 511 the described first synchronous casees 512 of driving and first transmission shaft 5131 rotation, so that first belt 514 is driven to rotate, Finally drive first transfer element 52 that is fixed on first sliding block 515 the first straight line guide rail 513 back and forth Sliding, first cylinder 521 drive first pushing block 523 to slide back and forth.

Referring to Fig. 8, the binary channels buanch unit 6 includes second straight line mould group 61 and the second transfer element 62, and described the Two straight line mould groups 61 are sliding including the synchronous case 612 of the second motor 611, second, second straight line guide rail 613, the second belt 614 and second The both ends of block 615, the second straight line guide rail 613 are equipped with second driving shaft 6131, wherein the second driving shaft of one end 6131 are connected by the described second synchronous case 612 with second motor 611, and second belt 614 is mounted on described the On two transmission shafts 6131, second sliding block 615 is fixed on second belt 614, and second sliding block 615 with it is described Second straight line guide rail 613 is slidably connected；Second transfer element 62 is fixed on second sliding block 615, and described second turn Moving element 62 includes the second cylinder 621, the second slide bar 622 and the second pushing block 623, and one end of second pushing block 623 is fixed The output end of second cylinder 621 is connected, the other end is fixedly connected with second slide bar 622.Specifically, second motor 611 the described second synchronous casees 612 of driving and the second driving shaft 6131 rotate, so that second belt 614 is driven to rotate, Finally drive second transfer element 62 that is fixed on second sliding block 615 the second straight line guide rail 613 back and forth Sliding, second cylinder 621 drive second pushing block 623 to slide back and forth.

Referring to Fig. 4, the binary channels cell driving device 41 includes installing base station 411, third motor 412, third to synchronize Case 413, third linear guide 414, third belt 415 and slide unit 416, the third motor 412 and the third linear guide 414 are separately fixed on the installation base station 411, and the both ends of the installation base station 411 are equipped with third transmission shaft 4111, wherein The third transmission shaft 4111 of one end is connected by the synchronous case 413 of the third with the third motor 412, the third Belt 415 is mounted on the third transmission shaft 4111, and the slide unit 416 is fixed on the third belt 415, and the cunning Platform 416 is slidably connected by several third sliding blocks 4161 and the third linear guide 414.Specifically, the third motor 412 The synchronous case 413 of the third and the third transmission shaft 4111 rotation are driven, to drive the third belt 415 to rotate, most The slide unit 416 is driven to slidably reciprocate in the third linear guide 414 eventually.

Referring to Fig. 5, the first passage unit 42 is fixedly mounted on the slide unit 416, the first passage unit 42 Including first passage plummer 43 and first passage buanch unit 44, the first passage buanch unit 44 includes the 4th straight line mould Group 441 and the 4th transfer element 442, the 4th straight line mould group 441 include the 4th motor 4411, the 4th synchronous case 4412, the Four linear guides 4413, the 4th belt 4414 and Four-slider 4415, the both ends of the 4th linear guide 4413 are equipped with Four transmission shafts 44131, wherein the 4th transmission shaft 44131 of one end passes through the described 4th synchronous case 4412 and the 4th horse It is connected up to 4411, the 4th belt 4414 is mounted on the 4th transmission shaft 44131, and the Four-slider 4415 is fixed On the 4th belt 4414, and the Four-slider 4415 is slidably connected with the 4th linear guide 4413；Described Four transfer elements 442 are fixed on the Four-slider 4415, and the 4th transfer element 442 includes the 4th cylinder 4421, the One end of four slide bars 4422 and the 4th pushing block 4423, the 4th pushing block 4423 is fixedly connected with the defeated of the 4th cylinder 4421 Outlet, the other end are fixedly connected with the 4th slide bar 4422.Specifically, the 4th motor 4411 drives the described 4th synchronous case 4412 and the 4th transmission shaft 44131 rotation, so that the 4th belt 4414 be driven to rotate, final driving is fixed on described The 4th transfer element 442 on Four-slider 4415 slidably reciprocates in the 4th linear guide 4413, the 4th gas Cylinder 4421 drives the 4th pushing block 4423 to slide back and forth.

Referring to Fig. 6, the second channel unit 45 includes second channel plummer 46 and second channel buanch unit 47, institute It states second channel plummer 46 to be fixedly mounted on the slide unit 416, the second channel buanch unit 47 is fixedly mounted on institute State one end of installation base station 411；The second channel buanch unit 47 includes the 5th straight line mould group 471 and the 5th transfer element 472, the 5th straight line mould group 471 includes the 5th motor the 4711, the 5th synchronous case 4712, the 5th linear guide the 4713, the 5th The both ends of belt 4714 and the 5th sliding block 4715, the 5th linear guide 4713 are equipped with the 5th transmission shaft 47131, wherein one 5th transmission shaft 47131 at end is connected by the described 5th synchronous case 4712 with the 5th motor 4711, and described the Five belts 4714 are mounted on the 5th transmission shaft 47131, and the 5th sliding block 4715 is fixed on the 5th belt 4714 On, and the 5th sliding block 4715 is slidably connected with the 5th linear guide 4713；5th transfer element 472 is fixed on On 5th sliding block 4715, the 5th transfer element 472 is pushed away including the 5th cylinder 4721, the 5th slide bar 4722 and the 5th One end of block 4723, the 5th pushing block 4723 is fixedly connected with the output end of the 5th cylinder 4721, and the other end is fixedly connected 5th slide bar 4722.Specifically, the 5th motor 4711 drives the described 5th synchronous case 4712 and the 5th transmission Axis 47131 rotates, so that the 5th belt 4714 be driven to rotate, finally drives the institute being fixed on the 5th sliding block 4715 It states the 5th transfer element 472 to slidably reciprocate in the 5th linear guide 4713, the 5th cylinder 4721 drives the described 5th Pushing block 4723 slides back and forth.

Referring to Fig. 2, the bookblock accumulation platform 2, the promotion plummer 31, the first passage plummer 43 and described the Sliding channel 7 is equipped on two channel plummers 46.

The working principle of the binary channels conveying mechanism of collating locking wire gear of the present invention is：In actual application, institute The one end for stating bookblock accumulation platform 2 is connected with assembling machine, and one end of the first passage unit 42 connects First book sewing machine, institute The one end for stating second channel unit 45 connects second book sewing machine；The bookblock of the assembling machine synthesis conveys and is finally deposited in institute It states on bookblock accumulation platform 2, after the bookblock quantity of accumulation reaches, the promotion buanch unit 5 works, the first straight line Mould group 51 drives first transfer element 52 to reach the bookblock accumulation platform 2, meanwhile, first cylinder 521 drives described First pushing block 523, which forward extends out, to be resisted against on the bookblock, and the first straight line mould group 51 drives first transfer element 52 The bookblock is pushed on the promotion plummer 31 by return, first pushing block 523；The lifting cylinder 32 drives described It promotes plummer 31 and reaches channel transfer station after the promotion sliding rail 33 is lifted up；

When the First book sewing machine needs the bookblock, the binary channels cell driving device 41 drives described first 42 forward slip of channel unit is parallel with the promotion plummer 31 up to the first passage plummer 43, the binary channels Buanch unit 6 works, and second cylinder 621 drives second pushing block 623 to forward extend out and is resisted against on the bookblock, described Second straight line mould group 61 drives second transfer element 62 to move right, and the bookblock is pushed to by second pushing block 623 The first passage plummer 43, the binary channels cell driving device 41 drive the first passage unit 42 to slide backward directly Parallel with the First book sewing machine to the first passage plummer 43, the first passage buanch unit 44 works, institute It states the 4th cylinder 4421 the 4th pushing block 4423 is driven to forward extend out and be resisted against on the bookblock, the 4th straight line mould group 441 drive the 4th transfer element 442 to move right, and the bookblock is pushed to the First by the 4th pushing block 4423 Book sewing machine；

When second book sewing machine needs the bookblock, the binary channels cell driving device 41 drives described second Until the second channel plummer 46 is parallel with the promotion plummer 31, the binary channels turns the sliding of channel plummer 46 Unit 6 is moved to work, second cylinder 621 drives second pushing block 623 to forward extend out and is resisted against on the bookblock, and described the Two straight line mould groups 61 drive second transfer element 62 to move right, and the bookblock is pushed to institute by second pushing block 623 Second channel plummer 46 is stated, the binary channels cell driving device 41 drives 46 forward slip of second channel plummer straight Parallel with second book sewing machine to the second channel plummer 46, the second channel buanch unit 47 works, institute It states the 5th cylinder 4721 the 5th pushing block 4723 is driven to forward extend out and be resisted against on the bookblock, the 5th straight line mould group 471 drive the 5th transfer element 472 to move right, and the bookblock is pushed to described second by the 5th pushing block 4723 Book sewing machine.

The above content is a further detailed description of the present invention in conjunction with specific preferred embodiments, and it cannot be said that Specific implementation of the invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs, exist Under the premise of not departing from present inventive concept, architectural form cans be flexible and changeable, can be with derivative series product.It only makes several Simple deduction or replace all shall be regarded as belonging to present invention scope of patent protection determined by the appended claims.

Claims (8)

1. a kind of binary channels conveying mechanism of collating locking wire gear, including rack, the rack is equipped with bookblock accumulation platform, mentions Rise device and double channel conveying device, it is characterised in that：Wherein, it is equipped with and mentions between the bookblock accumulation platform and the lifting device Buanch unit is risen, binary channels buanch unit, the binary channels are equipped between the lifting device and the double channel conveying device Conveying device includes binary channels cell driving device and the first passage unit that is mounted on the binary channels cell driving device With second channel unit；The bookblock that the promotion buanch unit will be deposited on the bookblock accumulation platform is transferred to the promotion and fills It sets, the bookblock reaches channel transfer station after the promotion of the lifting device, according to demand, the binary channels unit driving Device drives the first passage unit or the second channel unit reaches the channel transfer station, the binary channels transfer Bookblock on the lifting device is transferred to the first passage unit or the second channel unit by unit.

2. the binary channels conveying mechanism of collating locking wire gear as described in claim 1, it is characterised in that：The lifting device Including promoting plummer, lifting cylinder and promoting sliding rail, the lifting cylinder and the promotion sliding rail are mounted on the rack, The output shaft of the lifting cylinder is fixed on the promotion plummer by one first link block, and the promotion plummer passes through Several promotion sliding blocks are slidably connected on the promotion sliding rail, and the lifting cylinder drives the promotion plummer in the promotion Sliding rail slidably reciprocates.

3. the binary channels conveying mechanism of collating locking wire gear as described in claim 1, it is characterised in that：The promotion transfer Unit includes first straight line mould group and the first transfer element, and the first straight line mould group includes the first motor, the first synchronous case, the The both ends of one linear guide, the first belt and the first sliding block, the first straight line guide rail are equipped with the first transmission shaft, wherein one end First transmission shaft be connected by the described first synchronous case with first motor, described in first belt is mounted on On first transmission shaft, first sliding block is fixed on first belt, and first sliding block is led with the first straight line Rail is slidably connected；First transfer element is fixed on first sliding block, first transfer element include the first cylinder, First slide bar and the first pushing block, one end of first pushing block are fixedly connected with the output end of first cylinder, and the other end is solid Surely first slide bar is connected.

4. the binary channels conveying mechanism of collating locking wire gear as described in claim 1, it is characterised in that：The binary channels turns Moving unit includes second straight line mould group and the second transfer element, the second straight line mould group include the second motor, the second synchronous case, The both ends of second straight line guide rail, the second belt and the second sliding block, the second straight line guide rail are equipped with second driving shaft, wherein one The second driving shaft at end is connected by the described second synchronous case with second motor, and second belt is mounted on institute It states on second driving shaft, second sliding block is fixed on second belt, and second sliding block and the second straight line Guide rail is slidably connected；Second transfer element is fixed on second sliding block, and second transfer element includes the second gas Cylinder, the second slide bar and the second pushing block, one end of second pushing block are fixedly connected with the output end of second cylinder, the other end It is fixedly connected with second slide bar.

5. the binary channels conveying mechanism of collating locking wire gear as claimed in claim 2, it is characterised in that：The binary channels list First driving device includes installation base station, third motor, the synchronous case of third, third linear guide, third belt and slide unit, and described the Three motors and the third linear guide are separately fixed on the installation base station, and the both ends of the installation base station are equipped with third Transmission shaft, wherein the third transmission shaft of one end is connected by the synchronous case of the third with the third motor, and described the Three belts are mounted on the third transmission shaft, and the slide unit is fixed on the third belt, and the slide unit is by several Third sliding block is slidably connected with the third linear guide.

6. the binary channels conveying mechanism of collating locking wire gear as claimed in claim 5, it is characterised in that：The first passage Unit is fixedly mounted on the slide unit, and the first passage unit includes that first passage plummer and first passage transfer are single Member, the first passage buanch unit include the 4th straight line mould group and the 4th transfer element, and the 4th straight line mould group includes the Four motors, the 4th synchronous case, the 4th linear guide, the 4th belt and Four-slider, the both ends of the 4th linear guide are all provided with There is the 4th transmission shaft, wherein the 4th transmission shaft of one end is connected by the described 4th synchronous case with the 4th motor, 4th belt is mounted on the 4th transmission shaft, and the Four-slider is fixed on the 4th belt, and described Four-slider is slidably connected with the 4th linear guide；4th transfer element is fixed on the Four-slider, and described Four transfer elements include the 4th cylinder, the 4th slide bar and the 4th pushing block, and one end of the 4th pushing block is fixedly connected with described the The output end of four cylinders, the other end are fixedly connected with the 4th slide bar.

7. the binary channels conveying mechanism of collating locking wire gear as claimed in claim 6, it is characterised in that：The second channel Unit includes second channel plummer and second channel buanch unit, and the second channel plummer is fixedly mounted on the slide unit On, the second channel buanch unit is fixedly mounted on one end of the installation base station；The second channel buanch unit includes 5th straight line mould group and the 5th transfer element, the 5th straight line mould group are led including the 5th motor, the 5th synchronous case, the 5th straight line The both ends of rail, the 5th belt and the 5th sliding block, the 5th linear guide are equipped with the 5th transmission shaft, wherein described the of one end Five transmission shafts are connected by the described 5th synchronous case with the 5th motor, and the 5th belt is mounted on the 5th transmission On axis, the 5th sliding block is fixed on the 5th belt, and the 5th sliding block and the 5th linear guide sliding connect It connects；5th transfer element is fixed on the 5th sliding block, and the 5th transfer element includes the 5th cylinder, the 5th slide bar And the 5th pushing block, one end of the 5th pushing block are fixedly connected with the output end of the 5th cylinder, the other end is fixedly connected with institute State the 5th slide bar.

8. the binary channels conveying mechanism of collating locking wire gear as claimed in claim 7, it is characterised in that：The bookblock accumulation Sliding channel is equipped on platform, the promotion plummer, the first passage plummer and the second channel plummer.