CN218549058U - Front-end automatic processing equipment integrating crimping, reverse weaving and aluminum foil removing - Google Patents

Abstract

The utility model discloses a collect crimping, reverse weaving, remove aluminium foil in front end automated processing equipment of an organic whole, it includes: the wire end part sheath stripping mechanism comprises a rack, a conveying module, a wire stripping module, a sleeve crimping mechanism, a wire stroking and weaving mechanism, a reverse weaving mechanism and a laser aluminum foil removing mechanism, wherein the conveying module is installed on the rack and used for conveying wires, the wire stripping module is arranged beside the conveying module and used for stripping sheaths at the end parts of the wires, the sleeve crimping mechanism is arranged beside the wire stripping module and used for crimping a sleeve at the end part of the wires, the stroking and weaving mechanism is arranged beside the sleeve crimping mechanism and used for stroking braided wires at the end parts of the wires, the reverse weaving mechanism is arranged beside the reverse weaving mechanism and used for removing aluminum foils exposed at the end parts of the wires, and the conveying module sequentially conveys the wires to the wire stripping module, the sleeve crimping mechanism, the stroking and weaving mechanism, the reverse weaving mechanism and the laser aluminum foil removing mechanism.

Description

Front-end automatic processing equipment integrating crimping, reverse weaving and aluminum foil removing

The technical field is as follows:

the utility model relates to an automated production field refers in particular to a front end automated processing equipment who collects crimping, reverse weaving, goes aluminium foil in an organic whole.

Background art:

cable is a generic term for optical cables, electrical cables, and the like. The cable has many purposes, is mainly used for controlling installation, connecting equipment, transmitting power and other multiple functions, and is a common and indispensable object in daily life. Installation requires special care since the cable is live.

Cables can be classified into various types according to their uses, such as: the cable comprises an automobile antenna cable, an automobile antenna, an automobile audio and video wire, an automobile USB data wire, an automobile electronic wiring harness, a network jumper wire, a USB data wire, a TV antenna cable, an optical fiber jumper wire and the like. In order to quickly meet the requirements of customers, manufacturers often segment the whole cable as required and process the end of the cable, because the cable usually comprises an inner core, an inner insulating sheath, an aluminum foil layer, a braided shielding layer and an insulating sheath, the braided shielding layer and the aluminum foil layer are often removed firstly when in connection, but the traditional production process adopts manual wire stripping, sleeve crimping, stroking, reverse braiding and aluminum foil cutting, so that the workload of workers is large, the production efficiency is low, the product quality is unstable, the production risk is large, and the safety factor of the workers is low.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art's not enough, provide a front end automated processing equipment that collects the crimping, reverse weaving, remove the aluminium foil in an organic whole.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a collect crimping, reverse weaving, remove aluminium foil in front end automated processing equipment of an organic whole, includes: the wire stripping machine comprises a rack, a conveying module, a wire stripping module, a sleeve crimping mechanism, a stroking and weaving mechanism, a reverse weaving mechanism and a laser aluminum foil removing mechanism, wherein the conveying module is installed on the rack and used for conveying wires, the wire stripping module is arranged beside the conveying module and used for stripping the outer skins of the end portions of the wires, the sleeve crimping mechanism is arranged beside the wire stripping module and used for crimping a sleeve to the end portion of the wires, the stroking and weaving mechanism is arranged beside the sleeve crimping mechanism and used for stroking the end portions of the wires, the reverse weaving mechanism is arranged beside the reverse weaving mechanism and used for removing aluminum foils exposed at the end portions of the wires, and the conveying module sequentially conveys the wires to the wire stripping module, the sleeve crimping mechanism, the stroking and weaving mechanism, the reverse weaving mechanism and the laser aluminum foil removing mechanism.

Furthermore, in the above technical solution, the transmission module includes a first guide rail disposed on the frame, a support slider slidably mounted on the first guide rail, a plurality of first wire clamps disposed on the support slider and used for clamping the wire, a first driving device disposed on the frame and used for pushing the support slider to move, and a first buffering device and a second buffering device disposed at two ends of the first guide rail and used for limiting movement of the support slider, wherein two ends of the wire are clamped and moved by the first wire clamps.

Further, in the above technical solution, the wire stripping module includes a second guide rail vertically disposed on one side of the transmission module, a first movable seat mounted on the second guide rail, a first peeling module and a second peeling module rotatably mounted on the first movable seat, a second driving module disposed on the first movable seat and used for driving the first peeling module and the second peeling module to peel off in a rotating manner, and a third driving device disposed on the rack and used for driving the first movable seat to approach or leave the transmission module.

Furthermore, in the above technical scheme, set up in being used for supporting respectively on the first removal seat the first module of skinning with the second skins first support pivot and the second of module and supports the pivot, the second drive module including install in first support pivot with the second supports epaxial first belt pulley and second belt pulley, set up in first motor on the first removal seat, set up in the last third belt pulley of first motor output shaft and cover are located first belt pulley with the second belt pulley and the first belt on the third belt pulley.

Further, in the above technical solution, the stroking and knitting mechanism includes a first support seat mounted on the frame, a fifth guide rail disposed on the first support seat and perpendicular to the conveying module, a second moving seat mounted on the fifth guide rail, a first stroking clamp and a second stroking clamp which are disposed in parallel at a front end of the second moving seat and used for stroking the wire material and knitting the wire, and a first cylinder mounted on the first support seat and used for pushing the second moving seat to move.

Further, in the above technical solution, the reverse knitting mechanism includes a third guide rail vertically disposed at one side of the conveying module, a third moving seat mounted on the third guide rail, a first brush module and a second brush module rotatably mounted on the third moving seat, a fourth driving module disposed on the third moving seat and used for driving the first brush module and the second brush module to rotate, and a fifth driving device mounted on the frame and used for driving the third moving seat to approach or leave the conveying module.

Furthermore, in the above technical solution, the first brush module includes a first clip cylinder, a first brush and a second brush that are disposed on the two side arms of the first clip cylinder and cooperate to reverse the wire knitting yarn, and a second motor and a third motor that are respectively mounted on the two side arms of the first clip cylinder and are used for driving the first brush and the second brush to rotate, and the second brush module is the same as the first brush module in structure.

Furthermore, in the above technical scheme, the laser aluminum foil removing mechanism includes a first fixing clip and a second fixing clip which are arranged in parallel and used for clamping the wires, and a laser emitter which is arranged above the first fixing clip and the second fixing clip and used for cutting the aluminum foils at the ends of the wires, wherein the first fixing clip and the second fixing clip are both rotatably mounted on the frame and are driven to rotate by a sixth driving module.

Furthermore, in the above technical solution, the laser aluminum foil removing mechanism is further provided with an aluminum foil pulling mechanism, and the aluminum foil pulling mechanism includes a fourth guide rail vertically disposed on one side of the conveying module, a fourth movable seat mounted on the fourth guide rail, a first aluminum foil pulling clip and a second aluminum foil pulling clip mounted on the fourth movable seat in a rotatable manner, a seventh driving module disposed on the fourth movable seat and used for driving the first aluminum foil pulling clip and the second aluminum foil pulling clip to pull out an aluminum foil in a rotating manner, and an eighth driving device disposed on the frame and used for driving the fourth movable seat to be close to or far away from the conveying module.

Further, in the above technical solution, the sleeve crimping mechanism includes a crimping machine disposed beside the conveying module, a crimping controller mounted on one side of the crimping machine, and a waste collecting device disposed on one side of the crimping module and disposed at a crimping module level of the lower end of the crimping machine, which is in butt joint with the wire rod and transmits the pipe sleeve.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses in adopt the conveying module to clip the wire rod and send the wire rod to the wire stripping module in proper order, sleeve pipe crimping mechanism, rub with the fingers the weaving mechanism, anti-weaving mechanism, laser goes the aluminium foil mechanism, peel off the crust of wire rod tip by the wire stripping module, punch a pipe box on the crust that the tip of wire rod was kept by sleeve pipe crimping mechanism, make the wire rod tip compacter, prevent to be torn by the interline, it is smooth and tidy to break up the exposed netted braided wire of wire rod tip by rubbing with the fingers the weaving mechanism, make things convenient for subsequent processing, reverse the weaving mechanism is reversed the exposed braided wire of wire rod tip, make exposed braided wire will be exposed completely, so that subsequent processing, it cuts off the exposed aluminium foil of wire rod tip to go the aluminium foil mechanism by laser, thereby realize automatic skinning the wire rod, rub with the fingers the weaving, anti-weave, cut the aluminium foil process, can effectively improve production efficiency, practice thrift the cost when guaranteeing stable product quality, reduce staff's work load.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the transfer module of the present invention;

fig. 3 is a perspective view of the middle wire stripping module of the present invention;

FIG. 4 is a perspective view of the middle stroking and knitting mechanism of the present invention;

fig. 5 is a perspective view of the middle-reverse knitting mechanism of the present invention;

FIG. 6 is a perspective view of the laser aluminum foil removing mechanism of the present invention;

FIG. 7 is a perspective view of the aluminum foil pulling mechanism of the present invention;

fig. 8 is a perspective view of the middle sleeve crimping mechanism of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

Referring to fig. 1 to 8, an automated front-end processing apparatus integrating crimping, reverse knitting and aluminum foil removal is disclosed, which comprises: the wire straightening and stripping device comprises a rack 1, a conveying module 2 which is arranged on the rack 1 and used for conveying a wire 10, a wire stripping module 3 which is arranged beside the conveying module 2 and used for stripping the outer skin of the end part of the wire 10, a sleeve crimping mechanism 4 which is arranged beside the wire stripping module 3 and used for crimping a sleeve to the end part of the wire 10, a straightening and weaving mechanism 5 which is arranged beside the sleeve crimping mechanism 4 and used for straightening and stripping the braided wire of the end part of the wire 10, a reverse weaving mechanism 6 which is arranged beside the straightening and weaving mechanism 5 and used for reversely weaving the braided wire of the end part of the wire 10, and a laser aluminum foil removing mechanism 7 which is arranged beside the reverse weaving mechanism 6 and used for removing the exposed aluminum foil of the end part of the wire 10, wherein the conveying module 2 sequentially conveys the wire 10 to the wire stripping module 3, the sleeve crimping mechanism 4, the straightening and weaving mechanism 5, the reverse weaving mechanism 6 and the laser aluminum foil removing mechanism 7. The wire 10 is clamped by the conveying module 2, the wire 10 is sequentially conveyed to the wire stripping module 3, the sleeve pressing mechanism 4, the stroking mechanism 5, the reverse knitting mechanism 6 and the laser aluminum foil removing mechanism 7, the outer skin of the end part of the wire 10 is stripped by the wire stripping module 3, a sleeve is punched on the outer skin reserved at the end part of the wire 10 by the sleeve pressing mechanism 4, the end part of the wire 10 is firmer and prevented from being torn by an inner wire, the exposed net-shaped braided wire at the end part of the wire 10 is scattered and stroked by the stroking mechanism 5, subsequent processing is facilitated, the exposed braided wire at the end part of the wire 10 is reversely overturned by the reverse knitting mechanism 6, the aluminum foil is completely exposed by the exposed braided wire, the subsequent processing is facilitated, the exposed aluminum foil at the end part of the wire 10 is cut by the laser aluminum foil removing mechanism 7, automatic procedures of stripping, stroking, reverse knitting and cutting of the wire 10 are achieved, production efficiency can be effectively improved, labor cost is saved when stable product quality is guaranteed, and workload of workers is reduced.

The conveying module 2 comprises a first guide rail 21 arranged on the rack 1, a supporting slide block 22 slidably mounted on the first guide rail 21, a plurality of first wire clamps 23 arranged on the supporting slide block 22 and used for clamping the wire 10, a first driving device 24 arranged on the rack 1 and used for pushing the supporting slide block 22 to move, and a first buffer device 25 and a second buffer device 26 arranged at two ends of the first guide rail 21 and used for limiting the movement of the supporting slide block 22, wherein two ends of the wire 10 are clamped and moved by the first wire clamps 23.

The wire stripping module 3 includes a second guide rail 31 vertically disposed on one side of the transmission module 2, a first movable seat 32 mounted on the second guide rail 31, a first peeling module 33 and a second peeling module 34 rotatably mounted on the first movable seat 32, a second driving module 35 disposed on the first movable seat 32 and used for driving the first peeling module 33 and the second peeling module 34 to peel off the skin in a rotating manner, and a third driving device 36 disposed on the rack 1 and used for driving the first movable seat 32 to approach or leave the transmission module 2. The first peeling module 33 and the second peeling module 34 are both conventional peeling devices. The front end of the first movable seat 32 is provided with a first slag discharge groove 37 which is located below the first peeling module 33 and the second peeling module 34 and discharges the outer skins.

The first movable base 32 is provided with a first supporting rotating shaft 321 and a second supporting rotating shaft 322 for supporting the first peeling module 33 and the second peeling module 34, respectively, and the second driving module 35 comprises a first belt pulley 351 and a second belt pulley 352 mounted on the first supporting rotating shaft 321 and the second supporting rotating shaft 322, a first motor 353 arranged on the first movable base 32, a third belt pulley 354 arranged on an output shaft of the first motor 353, and a first belt 355 sleeved on the first belt pulley 351, the second belt pulley 352 and the third belt pulley 354.

The stroking and knitting mechanism 5 comprises a first supporting seat 51 mounted on the rack 1, a fifth guide rail 52 arranged on the first supporting seat 51 and perpendicular to the conveying module 2, a second moving seat 53 mounted on the fifth guide rail 52, a first stroking clamp 54 and a second stroking clamp 55 which are arranged at the front end of the second moving seat 53 in parallel and used for stroking the braided wire of the wire 10, and a first cylinder 56 mounted on the first supporting seat 51 and used for pushing the second moving seat 53 to move. The front end of the first supporting seat 51 is provided with a second slag discharge groove 57 which is positioned below the first wire smoothing clamp 54 and the second wire smoothing clamp 55 and is used for receiving and discharging the sheared braided wires.

The reverse knitting mechanism 6 includes a third guide rail 61 vertically disposed on one side of the conveying module 2, a third moving seat 62 mounted on the third guide rail 61, a first brush module 63 and a second brush module 64 rotatably mounted on the third moving seat 62, a fourth driving module 65 disposed on the third moving seat 62 and used for driving the first brush module 63 and the second brush module 64 to rotate, and a fifth driving device 66 mounted on the frame 1 and used for driving the third moving seat 62 to approach or leave the conveying module 2. The fourth driving module 65 has the same structure as the second driving module 35.

The first brush module 63 includes a first clamp cylinder 631, a first brush 632 and a second brush 633 which are arranged on two side clamping arms of the first clamp cylinder 631 and cooperate to reverse the wire 10 weaving wire and are respectively installed on the two side clamping arms of the first clamp cylinder 631 and used for driving the first brush 632 and the second brush 633 rotating second motor 634 and third motor 635, and the second brush module 64 is identical to the first brush module 63 in structure. The front end of the third movable seat 62 is provided with a third slag discharge groove 67 which is located below the first brush module 63 and the second brush module 64 and is used for receiving and discharging the cut braided wire.

The laser aluminum foil removing mechanism 7 comprises a first fixing clamp 71 and a second fixing clamp 72 which are arranged in parallel and used for clamping the wires 10, and a laser emitter 73 which is arranged above the first fixing clamp 71 and the second fixing clamp 72 and used for cutting the aluminum foil at the end part of each wire 10, wherein the first fixing clamp 71 and the second fixing clamp 72 are both arranged on the rack 1 in a rotatable mode and are driven to rotate by a sixth driving module. The laser aluminum foil removing mechanism 7 further includes a fifth guide rail 74 vertically disposed on one side of the conveying module 2, a fifth moving seat 75 mounted on the fifth guide rail 74, a ninth driving module 76 disposed on the fifth moving seat 75 and configured to drive the first fixing clip 71 and the second fixing clip 72 to rotate, and a tenth driving device disposed on the frame 1 and configured to push the fifth moving seat 75 to approach or depart from the conveying module 2. The ninth driving module 76 has the same structure as the second driving module 35.

The side of the laser aluminum foil removing mechanism 7 is further provided with an aluminum foil removing mechanism 8, and the aluminum foil removing mechanism 8 comprises a fourth guide rail 81 vertically arranged on one side of the conveying module 2, a fourth moving seat 82 arranged on the fourth guide rail 81, a first aluminum foil removing clamp 83 and a second aluminum foil removing clamp 84 arranged on the fourth moving seat 82 in a rotatable mode, a seventh driving module 85 arranged on the fourth moving seat 82 and used for driving the first aluminum foil removing clamp 83 and the second aluminum foil removing clamp 84 to remove aluminum foil in a rotating mode, and an eighth driving device 86 arranged on the frame 1 and used for pushing the fourth moving seat 82 to be close to or far away from the conveying module 2. The seventh driving module 85 and the second driving module 35 have the same structure. The front end of the fourth movable seat 82 is provided with a fourth slag discharge groove 8 which is positioned below the first aluminum foil pulling clamp 83 and the second aluminum foil pulling clamp 84 and used for receiving and discharging the sheared braided wires.

The sleeve crimping mechanism 4 comprises a crimping machine 41 arranged beside the transmission module 2, a crimping controller 42 arranged at one side of the crimping machine 41, and a waste collecting device 44 arranged at one side of the crimping module 43 and arranged at the lower end of the crimping machine 41, butted with the wire 10 and used for transferring the sleeve.

To sum up, the utility model discloses mainly handle the front end of USB/LVDS pencil (wire stripping-sleeve pipe crimping-anti-weaving-cut aluminium foil), adopt the module design, the module function can be opened and close according to the product technology requirement at will. The automatic production equipment integrates the functions of wire stripping, sleeve crimping, stroking and weaving, reverse weaving and aluminum foil cutting. When the wire stripping machine works, equipment runs from left to right, staff bring a wire 100 from the transmission module 2 at the left end to the on-line state, the wire 10 passes through the first wire clamp 23 and firstly goes to a wire stripping station, and the outer skin of the wire 10 is stripped by the wire stripping module 3; then, the sleeve is pressed and connected by a sleeve pressing and connecting mechanism 4 at a sleeve pressing and connecting station; then, the aluminum foil is conveyed to a finishing weaving and reverse weaving station, the weaving is reversed and cleaned by a smoothing weaving mechanism 5 and a reverse weaving mechanism 6, and finally, the aluminum foil is cut by a laser aluminum foil removing mechanism 7 at a laser aluminum foil cutting station.

Wire stripping module 3: the length and the diameter of the wire stripping are adjusted, the wire head advances to a specified position, the proximity sensor triggers, the first stripping module 33 and the second stripping module 34 are driven by the second driving module 35 to rotationally strip the outer skin, and then the wire head flows to the next process;

the sleeve crimping mechanism 4: adjusting the crimping height of the crimping module, enabling the wire head to advance to a specified position, triggering a proximity sensor, automatically punching a sleeve by a motor, and then flowing to a next process after crimping;

a stroking and weaving mechanism 5 and a reverse weaving mechanism 6: the thread end is advanced to a specified position, the proximity sensor is triggered, the weaving clamp reverses the weaving, then the weaving is reversed through the brush, and then the thread end flows to the next procedure;

laser removes aluminium foil mechanism 7: the laser position and the laser parameters are adjusted, the thread end advances to a designated position, the proximity sensor triggers, the laser is emitted from the emitter and is emitted to the bottom of the aluminum foil to complete cutting, then the laser flows to the next process, and the aluminum foil is pulled out by the aluminum foil pulling mechanism 8.

After the scheme is adopted, the utility model has the characteristics of it is following:

(1) The equipment replaces manpower, multifunctional integrated automatic front-end processing is realized, the functions of crimping, reverse weaving and aluminum foil removal are integrated, and the labor cost is reduced

(2) The automatic equipment replaces manual operation, so that the productivity is greatly improved;

(3) The transfer time is not needed among the working procedures, the production time is reduced, and the possibility of poor products caused by improper transfer is eliminated.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a collect crimping, reverse weaving, remove aluminium foil in front end automated processing equipment of an organic whole which characterized in that includes: the wire stripping device comprises a rack (1), a conveying module (2) which is arranged on the rack (1) and used for conveying wires (10), a wire stripping module (3) which is arranged beside the conveying module (2) and used for stripping skins at the end parts of the wires (10), a sleeve crimping mechanism (4) which is arranged beside the wire stripping module (3) and used for crimping a sleeve to the end parts of the wires (10), a braiding mechanism (5) which is arranged beside the sleeve crimping mechanism (4) and used for stripping braided wires at the end parts of the wires (10), a reverse braiding mechanism (6) which is arranged beside the reverse braiding mechanism (5) and used for reversely braiding the braided wires at the end parts of the wires (10), and a laser aluminum foil removing mechanism (7) which is arranged beside the reverse braiding mechanism (6) and used for removing exposed aluminum foils at the end parts of the wires (10), wherein the conveying module (2) sequentially conveys the wires (10) to the wire stripping module (3), the sleeve crimping mechanism (4), the reverse braiding mechanism (5), the reverse braiding mechanism (6) and the laser aluminum foil removing mechanism (7).

2. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 1, wherein: the conveying module (2) comprises a first guide rail (21) arranged on the rack (1), a supporting sliding block (22) slidably mounted on the first guide rail (21), a plurality of first line clamps (23) arranged on the supporting sliding block (22) and used for clamping the wires (10), a first driving device (24) arranged on the rack (1) and used for pushing the supporting sliding block (22) to move, and a first buffer device (25) and a second buffer device (26) which are arranged at two ends of the first guide rail (21) and used for limiting the movement of the supporting sliding block (22), wherein two ends of the wires (10) are clamped and moved by the first line clamps (23).

3. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 2, wherein: the wire stripping module (3) comprises a second guide rail (31) vertically arranged on one side of the transmission module (2), a first moving seat (32) arranged on the second guide rail (31), a first peeling module (33) and a second peeling module (34) which are rotatably arranged on the first moving seat (32), a second driving module (35) which is arranged on the first moving seat (32) and used for driving the first peeling module (33) and the second peeling module (34) to peel in a rotating manner, and a third driving device (36) which is arranged on the rack (1) and used for pushing the first moving seat (32) to be close to or far away from the transmission module (2).

4. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 3, wherein the automatic front-end processing equipment comprises: set up on first removal seat (32) and be used for supporting respectively first support pivot (321) and second support pivot (322) of first module (33) of skinning with second skinning module (34), second drive module (35) including install in first support pivot (321) with first belt pulley (351) and second belt pulley (352) on second support pivot (322), set up in first motor (353) on first removal seat (32), set up in third belt pulley (354) and cover on first motor (353) output shaft are located first belt pulley (351) with second belt pulley (352) and first belt (355) on the third belt pulley (354).

5. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 1, wherein: the stroking and weaving mechanism (5) comprises a first supporting seat (51) installed on the rack (1), a fifth guide rail (52) which is arranged on the first supporting seat (51) and is perpendicular to the conveying module (2), a second moving seat (53) installed on the fifth guide rail (52), a first stroking wire clamp (54) and a second stroking wire clamp (55) which are arranged at the front end of the second moving seat (53) in parallel and used for stroking the braided wire of the wire (10), and a first air cylinder (56) which is installed on the first supporting seat (51) and used for pushing the second moving seat (53) to move.

6. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 1, wherein: the reverse weaving mechanism (6) comprises a third guide rail (61) vertically arranged on one side of the conveying module (2), a third moving seat (62) arranged on the third guide rail (61), a first brush module (63) and a second brush module (64) which are arranged on the third moving seat (62) in a rotatable mode, a fourth driving module (65) which is arranged on the third moving seat (62) and used for driving the first brush module (63) and the second brush module (64) to rotate, and a fifth driving device (66) which is arranged on the rack (1) and used for driving the third moving seat (62) to be close to or far away from the conveying module (2).

7. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 6, wherein: first brush module (63) including first clip cylinder (631), set up in on the both sides arm of first clip cylinder (631) and the cooperation beat reverse first brush (632) and second brush (633) of wire rod (10) braided wire and install respectively in be used for the drive on the both sides arm of first clip cylinder (631) first brush (632) with second brush (633) rotatory second motor (634) and third motor (635), second brush module (64) with first brush module (63) the same structure.

8. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 1, wherein: laser goes aluminium foil mechanism (7) including parallel arrangement and be used for pressing from both sides tight first fixed clip (71) and second fixed clip (72) of wire rod (10) and set up in first fixed clip (71) with second fixed clip (72) top is used for the cutting laser emitter (73) of wire rod (10) tip aluminium foil, first fixed clip (71) with second fixed clip (72) all with can install in by rotatory mode in frame (1) to it is rotatory by the drive of sixth drive module.

9. The automatic front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in claim 8, wherein: aluminium foil mechanism (7) side is removed in laser still is provided with and pulls out aluminium foil mechanism (8), should pull out aluminium foil mechanism (8) including set up perpendicularly in fourth guide rail (81) of conveying module (2) one side, install in fourth removal seat (82) on fourth guide rail (81), install in with the mode that can rotate in first pull out aluminium foil clip (83) and second on fourth removal seat (82) pull out aluminium foil clip (84), set up in on fourth removal seat (82) and be used for the drive first pull out aluminium foil clip (83) and second pull out seventh drive module (85) of aluminium foil clip (84) rotatory pull out the aluminium foil and set up in on frame (1) and be used for promoting fourth removal seat (82) are close to or keep away from eighth drive arrangement (86) of conveying module (2).

10. The automated front-end processing equipment integrating crimping, reverse weaving and aluminum foil removal as claimed in any one of claims 1 to 9, wherein: the sleeve crimping mechanism (4) comprises a crimping machine (41) arranged beside the transmission module (2), a crimping controller (42) arranged on one side of the crimping machine (41), and a waste collecting device (44) arranged on one side of the crimping module (43) and used for connecting and transmitting the lower end of the crimping machine (41) and the wire (10) in a butt joint mode and used for connecting and transmitting the sleeve.

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