CN108515564B

CN108515564B - Processing equipment for communication cable

Info

Publication number: CN108515564B
Application number: CN201810409804.5A
Authority: CN
Inventors: 张美姣
Original assignee: Tailong Precision Machinery Jiangsu Co ltd
Current assignee: Tailong Precision Machinery Jiangsu Co.,Ltd.
Priority date: 2018-05-02
Filing date: 2018-05-02
Publication date: 2020-05-01
Anticipated expiration: 2038-05-02
Also published as: CN108515564A

Abstract

The invention relates to processing equipment for a communication cable, which comprises a main board, a cutting and deburring device, a middle limiting device and an end limiting device, wherein the cutting and deburring device is installed at the front end of the main board, the middle limiting device is installed in the middle of the main board, and the end limiting device is installed at the rear end of the main board. The invention can solve the problems that the communication cable sleeve needs to be limited manually and then cut in the existing communication cable sleeve processing process, the process is complicated, personnel need to grasp the communication cable sleeves with different structures in different modes when limiting the communication cable sleeves, the manual grasping is single and unstable, the positions are easy to deviate during the manual cutting so as to cause uneven pipe orifices during the cutting, burrs are generated after the cutting, the process is long in time consumption, the labor intensity is high, the efficiency is low and the like, and can realize the automatic limiting and cutting functions of the communication cable sleeves.

Description

Processing equipment for communication cable

Technical Field

The invention relates to the field of electric power, in particular to processing equipment for a communication cable.

Background

The communication cable sleeve is a novel sleeve material which is popularized and used in power engineering, has high strength and rigidity, can be directly buried under a traffic lane without adding a concrete protective layer, can roll up the construction progress of the cable engineering, has flexibility, can resist damage caused by external stress and foundation settlement, is corrosion-resistant, has long service life, can be used in a humid saline-alkali area, has good flame retardance and heat resistance, can be used for a long time at a high temperature of 130 ℃ without deformation, does not burn when meeting fire, and has good performance of resisting external signal interference, so the communication cable sleeve is widely applied to the field of power, but has complex and complicated cutting of the communication cable sleeve, is difficult to process the communication cable sleeve, needs to be manually limited and then cut the communication cable sleeve, has complex and complicated processes, and when the communication cable sleeve is limited, personnel need to grasp the communication cable sleeves with different structures in different modes, and the manual grabbing is single and unstable, during cutting, the position is easy to deviate during manual cutting, so that the pipe orifices are uneven, burrs are generated after cutting, the time consumed in the process is long, the labor intensity is high, and the efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a processing device for communication cables, which can solve the problems that the communication cable sleeve needs to be limited manually and then cut in the existing processing process of the communication cable sleeve, the process is complicated, when the communication cable sleeve is limited, personnel need to grasp the communication cable sleeves with different structures in different modes, the grasping is single and unstable, when the communication cable sleeve is limited, the position is easy to deviate during manual cutting, the pipe orifices are not uniform, burrs are generated after cutting, the process time is long, the labor intensity is high, the efficiency is low and the like, can realize the functions of automatic limiting and cutting of the communication cable sleeve, can carry out targeted limiting on the communication cable sleeves with different structures, can simultaneously limit multiple parts, simultaneously limit multiple parts of the pipe orifices, can carry out automatic grasping and stabilizing, can carry out automatic cutting, can cut flat, can carry out automatic deburring without manual operation, the method has the advantages of short consumed time, simple operation, low labor intensity, high working efficiency and the like.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a processing equipment for communication cable, includes mainboard, cutting burring device, middle part stop device and tip stop device, the mainboard front end install cutting burring device, the mid-mounting of mainboard has middle part stop device, tip stop device is installed to the rear end of mainboard.

The cutting and deburring device comprises a moving mechanism, two limiting mechanisms, an auxiliary mechanism, a cutting mechanism and a deburring mechanism, wherein the moving mechanism is arranged at the front end of a main board, the two limiting mechanisms are arranged at the upper end of the moving mechanism, the auxiliary mechanism is arranged at the left end of the moving mechanism, the cutting mechanism is arranged at the lower side of the right end of the auxiliary mechanism and is positioned between the two limiting mechanisms, the deburring mechanism is arranged at the rear end of the cutting mechanism, the moving mechanism drives the two limiting mechanisms to move back and forth, the two limiting mechanisms limit the front and rear ends of the communication cable sleeve to be cut, the auxiliary mechanism drives the cutting mechanism to lift, the cutting mechanism carries out reciprocating cutting on the communication cable sleeve, the deburring mechanism carries out deburring treatment on the part of the communication cable sleeve after cutting, and the moving mechanism is matched with the auxiliary mechanism, cutting mechanism carries out automation to the communication cable sleeve and surely levels, and mouth of pipe parallel and level, burring mechanism carries out automation burring to the mouth of pipe after the cutting, need not manual operation, and easy operation consumes the weak point, has reduced intensity of labour, has improved work efficiency.

Middle part stop device include slewing mechanism, two clamp are got mechanism and chucking mechanism, slewing mechanism installs on the mainboard, slewing mechanism's upper end is installed two and is got the mechanism, and two clamp are got the mechanism symmetrical arrangement, every clamp is got the symmetry in the mechanism and is installed chucking mechanism, slewing mechanism drives two clamp and gets the mechanism and rotate, two clamp are got the mechanism and are carried on spacingly to the communication cable sleeve of smooth outer wall, chucking mechanism carries on spacingly to corrugated communication cable sleeve, two clamp are got mechanism and chucking mechanism and cooperate and carry out to spacingly according to the communication cable sleeve of isostructure not, need not manual operation, and the operation is simple, consume for a short time, the labor intensity is reduced, and the work efficiency is improved.

Tip stop device including rotating stop gear and sucking disc mechanism, rotate stop gear and install the rear end at the mainboard, rotate stop gear's front end and install sucking disc mechanism, it is spacing to corrugate communication cable sleeve's rear end to rotate stop gear, sucking disc mechanism carries on spacingly to the communication cable sleeve of smooth inner wall, it is spacing to rotate stop gear and sucking disc mechanism and cooperate and carry out the pertinence to communication cable sleeve's rear end, middle part stop device cooperatees with tip stop gear and carries out a lot of spacingly to different communication cable sleeves, need not manual operation, the operation is simple, consume the weak point, the labor intensity is reduced, and the work efficiency is improved.

As a preferred technical scheme of the invention, the moving mechanism comprises electric sliding blocks and a moving plate, the electric sliding blocks are symmetrically arranged on the main board, the moving plate is arranged on the electric sliding blocks, and when the electric sliding block works, the electric sliding blocks drive the moving plate to move back and forth, so that the moving plate moves automatically, the labor intensity is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the limiting mechanism comprises supporting rods, a circular ring plate and limiting branched chains, the supporting rods are symmetrically arranged on the movable plate, the upper ends of the supporting rods are symmetrically arranged on the circular ring plate, the limiting branched chains are uniformly arranged on the inner wall of the circular ring plate along the circumferential direction of the inner wall, when the limiting mechanism works, the limiting branched chains limit the communication cable sleeve, and automatically limit the front end and the rear end of the communication cable sleeve which need to be cut.

As a preferred technical scheme of the invention, the limiting branched chain comprises a pushing cylinder and a rubber arc plate, the pushing cylinder is arranged on the inner wall of the circular ring plate, the top end of the pushing cylinder is arranged on the rubber arc plate through a flange, and when the limiting branched chain works, the pushing cylinder drives the rubber arc plate to limit the front end of the communication cable sleeve, so that the labor intensity is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the auxiliary mechanism comprises a U-shaped connecting frame and a connecting cylinder, the lower end of the U-shaped connecting frame is arranged on the movable plate, the connecting cylinder is symmetrically arranged on the inner wall of the upper end of the U-shaped connecting frame, the top end of the connecting cylinder is arranged on the cutting mechanism through a flange, and when the cutting mechanism works, the connecting cylinder drives the cutting mechanism to lift, so that the cutting mechanism is lifted automatically, manual operation is not needed, the labor intensity is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the cutting mechanism comprises a U-shaped auxiliary frame, an auxiliary sliding block, an auxiliary sliding groove, a telescopic auxiliary frame, two auxiliary racks, two incomplete gears, two main motors, a spring, an outer plate, a connecting sliding groove, a connecting sliding block, an inner plate and a cutting knife, the U-shaped auxiliary frame is arranged at the right end of the auxiliary mechanism, the auxiliary sliding block is symmetrically arranged on the side wall of the U-shaped auxiliary frame, the auxiliary sliding block is connected with the auxiliary sliding groove in a sliding fit manner, the auxiliary sliding groove is symmetrically arranged on the middle side wall of the telescopic auxiliary frame, the upper end side wall of the telescopic auxiliary frame is provided with the two auxiliary racks, the two auxiliary racks are symmetrically arranged, the incomplete gears are meshed on the auxiliary racks, the incomplete gears are arranged on an output shaft of the main motors, the main motors are arranged on the U-shaped auxiliary frame through bases, the outer plate is symmetrically arranged at the lower end of the telescopic auxiliary frame, the, the connecting slide block is arranged on the inner plate, the inner plate is symmetrically arranged at the upper end of the cutting knife, the cutting knife is connected with the telescopic auxiliary support through the spring, when the device works, the two main motors simultaneously drive the two incomplete gears to rotate positively, the two incomplete gears drive the two auxiliary racks to rotate, the two auxiliary racks drive the telescopic auxiliary support to reciprocate under the assistance of the auxiliary slide block and the auxiliary slide groove, the telescopic auxiliary support drives the cutting knife to lift, when the cutting knife touches the outer surface of the communication cable sleeve, the cutting knife upwards buffers under the assistance of the spring, the connecting slide groove and the connecting slide block to ensure that the appearance of the communication cable sleeve cannot be changed when the cutting knife cuts, the communication cable sleeve is automatically cut, the pipe orifice is cut to be level, the appearance of the communication cable sleeve cannot be changed during cutting, manual operation is not needed, the device is simple to operate, the working efficiency is improved.

As a preferred technical scheme of the invention, the deburring mechanism comprises an L-shaped support frame, a lifting support frame, a rotating motor, a telescopic connecting support frame, a rotating motor, a bottom plate, an adjusting cylinder, a matching plate, four L-shaped brush plates, an L-shaped stabilizing frame, a top cylinder and a grinding wheel, wherein the L-shaped support frame is arranged at the upper end of a cutting mechanism, the lifting support frame is arranged at the rear end of the L-shaped support frame, the rotating motor is arranged at the lower end of the lifting support frame through a base, the telescopic connecting support frame is arranged on an output shaft of the rotating motor, the rotating motor is arranged at the front side of the upper end of the telescopic connecting support frame through the base, the output shaft of the rotating motor is arranged on the telescopic connecting support frame through a bearing, the bottom plate is arranged on the output shaft of the rotating motor, two open grooves are arranged on the bottom plate, four open grooves are uniformly arranged on, and the middle part of the matching board is provided with a circular groove, the side wall of the matching board is uniformly provided with four L-shaped brush boards through hinges, the middle part of each L-shaped brush board is arranged in the open groove through a pin shaft, the left end and the right end of the bottom board are symmetrically provided with L-shaped stable frames, the L-shaped stable frames are provided with top air cylinders, the top ends of the top air cylinders are arranged at the front ends of the grinding wheels through flanges, and the top air cylinders are positioned in the through grooves, when the grinding machine works, the lifting support drives the rotating motor to ascend and descend to a working position, the rotating motor is matched with the telescopic connecting support to drive the grinding wheels to adjust to the working position, the rotating motor drives the grinding wheels to rotate, the rotating grinding wheels grind the pipe orifices of the communication cable sleeves after cutting, after the grinding, the top air cylinders drive the grinding wheels to move forwards to enable the grinding wheels to be far away from the communication cable sleeves after cutting, the adjusting air cylinders drive the matching board to adjust forwards, the matching, the four L-shaped brush plates clear the pipe orifice of the communication cable sleeve after being ground flat under the assistance of the rotating motor, the deburring mechanism automatically debugs the pipe orifice after cutting, manual operation is not needed, the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the rotating mechanism comprises a rotating motor, a two-way expansion plate, a pair cylinder, a slide bar, a fixed chute and two vertical plates, the rotating motor is arranged on a main board through a base, the output shaft of the rotating motor is provided with the two-way expansion plate, the lower end of the two-way expansion plate is symmetrically provided with the slide bar, the slide bar is connected with the fixed chute in a sliding fit manner, the fixed chute is arranged on the main board, the pair cylinder is symmetrically arranged in the middle of the upper end of the two-way expansion plate, the top end of the pair cylinder is arranged at the outer end of the two-way expansion plate through a flange, the two vertical plates are arranged at the left end and the right end of the two-way expansion plate, when the communication cable sleeve works, after one end of the communication cable sleeve is processed, the rotating motor drives the two, automatic rotation has reduced intensity of labour, has improved work efficiency.

According to the preferable technical scheme, the clamping mechanism comprises a limiting cylinder and an arc-shaped clamping plate, the limiting cylinder is installed on the vertical plate, the top end of the limiting cylinder is installed on the arc-shaped clamping plate through a flange, rectangular grooves are symmetrically formed in the arc-shaped clamping plate, when the clamping mechanism works, the limiting cylinder drives the arc-shaped clamping plate to limit the communication cable sleeve with the smooth outer wall, the clamping mechanism limits the communication cable sleeve with the smooth outer wall in a targeted mode, manual operation is not needed, operation is simple, consumption is short, labor intensity is reduced, and working efficiency is improved.

As a preferred technical scheme of the invention, the clamping mechanism comprises two weighing plates, a straight cylinder, a moving plate, a U-shaped outer frame, a clamping cylinder and a corrugated clamping block, wherein the two weighing plates are arranged at the left end and the right end of a rectangular groove, the weighing plates are provided with matching grooves, the arc-shaped clamping plate is provided with the straight cylinder, the top end of the straight cylinder is arranged on the moving plate through a flange, the moving plate is connected with the matching grooves in a sliding matching manner, the moving plate is provided with a square groove, the moving plate is provided with the U-shaped outer frame, the U-shaped outer frame is provided with the clamping cylinder, the top end of the clamping cylinder is arranged on the corrugated clamping block through a flange, the corrugated clamping block is positioned in the square groove, when the communication cable sleeve is corrugated in specific work, the straight cylinder drives the moving plate to move to a proper position, the clamping cylinder drives the corrugated clamping block to clamp the outer wall of the corrugated communication cable sleeve, and the clamping mechanism carries out targeted position limitation on the corrugated, the manual operation is not needed, the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the rotation limiting mechanism comprises a back plate, an operating cylinder, a circular plate, a circular sliding groove, a circular sliding block, an annular plate, a circular rack, a circular gear, a circular motor, an L-shaped back frame, a pressure cylinder, a rubber arc plate, a rubber clamping plate and a corrugated block, wherein the back plate is arranged on a main plate, the upper end of the back plate is provided with the operating cylinder, the top end of the operating cylinder is arranged on the circular plate through a flange, the outer wall of the circular plate is provided with the circular sliding groove, the circular groove is connected with the circular sliding block in a sliding fit manner, the circular sliding block is arranged on the inner wall of the annular plate, the outer wall of the annular plate is provided with the circular rack, the circular rack is engaged with the circular gear, the circular gear is arranged on an output shaft of the circular motor, the circular motor is arranged on the circular plate through a base, the L-shaped back frame is uniformly arranged on the annular plate along the, and be provided with the ripple groove on the rubber arc board, the rubber cardboard is installed to the front end of annular slab, the ripple piece is installed to the outer end of rubber cardboard, and the ripple piece is corresponding with the ripple groove, concrete during operation, the operating cylinder drives the plectane and stretches out and draws back, when communication cable sleeve's structure is the corrugate, the round motor drives the round gear and rotates, the round gear drives the rack on the annular slab and rotates, the air cylinder drives the rubber arc board and adjusts to the inboard and make rubber arc board and ripple piece carry on spacingly to corrugated communication cable sleeve's rear end, it is spacing to rotate stop gear to corrugated communication cable sleeve's rear end pertinence, need not manual operation, moreover, the steam generator is simple in operation, consume for a short time, the labor intensity is reduced, and the work efficiency is improved.

As a preferred technical scheme of the invention, the sucker mechanism comprises a cylinder, a connecting cylinder and a sucker plate, the cylinder is arranged at the front end of the rotation limiting mechanism, the connecting cylinder is uniformly arranged on the cylinder along the circumferential direction of the cylinder, the top end of the connecting cylinder is arranged on the sucker plate through a flange, when the communication cable sleeve works specifically, when the inner wall of the communication cable sleeve is smooth, the connecting cylinder drives the sucker plate to extend outwards to enable the sucker plate to be tightly attached to the inner wall of the communication cable sleeve, the sucker plate sucks and stabilizes the inner wall of the communication cable sleeve under the working of the external air pump, the sucker mechanism carries out targeted limiting on the rear end of the communication cable sleeve with a smooth outer wall, manual operation is not needed, the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency.

When the communication cable sleeve is corrugated, the straight cylinder drives the moving plate to move to a proper position, the clamping cylinder drives the corrugated clamping block to clamp the outer wall of the corrugated communication cable sleeve, and the rotary limiting mechanism on the end limiting device starts to work, the operation cylinder drives the circular plate to stretch, when the communication cable sleeve is corrugated, the circular motor drives the circular gear to rotate, the circular gear drives the circular rack on the annular plate to rotate, the pressing cylinder drives the rubber arc plate to adjust inwards to limit the rear end of the corrugated communication cable sleeve by the rubber arc plate and the corrugated block, and then the sucker mechanism starts to work, when the inner wall of the communication cable sleeve is smooth, the connecting cylinder drives the sucker plate to extend outwards so that the sucker plate is tightly attached to the inner wall of the communication cable sleeve, the sucker plate stably absorbs the inner wall of the communication cable sleeve under the work of an external air pump, the third step is that a moving mechanism on the cutting and deburring device starts to work, the electric slider drives the moving plate to move back and forth, then the limiting mechanism starts to work, the limiting branched chain limits the communication cable sleeve, the limiting branched chain starts to work, the pushing cylinder drives the rubber arc plate to limit the front end of the communication cable sleeve, then the auxiliary mechanism starts to work, the connecting cylinder drives the cutting mechanism to lift, then the cutting mechanism starts to work, the two main motors simultaneously drive the two incomplete gears to rotate forwards, the two incomplete gears drive the two auxiliary racks to rotate, and the two auxiliary racks drive the telescopic auxiliary support to reciprocate under the assistance of the auxiliary slider and the auxiliary sliding groove, when the cutting knife touches the outer surface of the communication cable sleeve, the cutting knife is buffered upwards under the assistance of a spring, a connecting sliding groove and a connecting sliding block to ensure that the appearance of the communication cable sleeve cannot be changed when the cutting knife cuts, then a deburring mechanism starts to work, the lifting bracket drives a rotating motor to be lifted to a working position, the rotating motor is matched with a telescopic connecting bracket to drive a grinding wheel to be adjusted to the working position, the rotating motor drives the grinding wheel to rotate, the rotating grinding wheel grinds the pipe orifice of the cut communication cable sleeve flatly, after the grinding flatly, a top air cylinder drives the grinding wheel to move forwards to enable the grinding wheel to be far away from the pipe orifice of the cut communication cable sleeve, an adjusting air cylinder drives a matching plate to be adjusted forwards, the matching plate drives four L-shaped brush plates to adjust the angles so that the four L-shaped brush plates are adjusted to the working position, and the four L-shaped brush plates clear the pipe orifice of the communication cable sleeve after the flat grinding, and fourthly, starting to work by a rotating mechanism on the middle limiting device, and after one end of the communication cable sleeve is processed, rotating the motor to drive the bidirectional expansion plate to rotate so that the other port of the communication cable sleeve rotates to a working position, driving the bidirectional expansion plate to expand and contract by the cylinder, so that the function of automatically limiting and cutting the communication cable sleeve can be realized.

The invention has the beneficial effects that:

1. the invention can solve the problems that the prior communication cable sleeve processing process needs to be manually limited and then cut, the process is complicated, when the communication cable sleeve is limited, personnel need to grab the communication cable sleeves with different structures in different modes, and the manual grabbing is single and unstable, the pipe orifices are not uniform due to the fact that the position is easy to deviate during manual cutting during cutting, burrs are generated after cutting, the process is long in time consumption, the labor intensity is high, the efficiency is low and the like, the automatic limiting and cutting functions of the communication cable sleeve can be realized, the method has the advantages that the method can be used for carrying out targeted limiting on communication cable sleeves with different structures, simultaneously limiting a plurality of parts, automatically grabbing and stabilizing, automatically cutting, flattening pipe orifices, automatically deburring, needing no manual operation, being short in consumed time, simple in operation, low in labor intensity, high in working efficiency and the like;

2. the automatic deburring device is provided with the cutting and deburring device, the moving mechanism is matched with the auxiliary mechanism to assist the cutting mechanism in position adjustment, the cutting mechanism is used for automatically cutting and flattening the communication cable sleeve, the pipe orifices are flush, and the deburring mechanism is used for automatically deburring the cut pipe orifices without manual operation, so that the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency is improved;

3. the middle limiting device is arranged, the two clamping mechanisms and the clamping mechanism are matched to carry out targeted limiting according to communication cable sleeves with different structures, manual operation is not needed, the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency is improved;

4. the invention is provided with the end part limiting device, the rotation limiting mechanism is matched with the sucker mechanism to carry out targeted limiting on the rear end of the communication cable sleeve, the middle limiting device is matched with the end part limiting device to carry out multiple limiting on different communication cable sleeves, manual operation is not needed, the operation is simple, the consumption is short, the labor intensity is reduced, and the working efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the main plate and the cutting and deburring device of the present invention;

FIG. 3 is a schematic structural view of the deburring mechanism of the present invention;

FIG. 4 is a schematic structural view of the main board and the middle position limiting device of the present invention;

FIG. 5 is a schematic structural view between the main plate and the end stop device of the present invention;

fig. 6 is an enlarged view of a portion of the invention in the X-direction of fig. 2.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 6, in order to achieve the above object, the present invention adopts the following technical solutions: the utility model provides a processing equipment for communication cable, includes mainboard 1, cutting burring device 2, middle part stop device 3 and

tip stop device

4, 1 front end of mainboard install cutting burring device 2, the mid-mounting of mainboard 1 has middle part stop device 3, tip stop device 4 is installed to the rear end of mainboard 1.

The cutting and deburring device 2 comprises a moving mechanism 21, two limiting mechanisms 22, an auxiliary mechanism 23, a cutting mechanism 24 and a deburring mechanism 26, wherein the moving mechanism 21 is installed at the front end of the main board 1, the two limiting mechanisms 22 are installed at the upper end of the moving mechanism 21, the auxiliary mechanism 23 is installed at the left end of the moving mechanism 21, the cutting mechanism 24 is installed at the lower side of the right end of the auxiliary mechanism 23, the cutting mechanism 24 is positioned between the two limiting mechanisms 22, the deburring mechanism 26 is installed at the rear end of the cutting mechanism 24, the moving mechanism 21 drives the two limiting mechanisms 22 to move back and forth, the two limiting mechanisms 22 limit the front end and the rear end of the communication cable sleeve to be cut, the auxiliary mechanism 23 drives the cutting mechanism 24 to lift, the cutting mechanism 24 carries out reciprocating cutting on the communication cable sleeve, and the deburring mechanism 26 carries out deburring processing on the part, moving mechanism 21 and auxiliary mechanism 23 cooperate supplementary cutting mechanism 24 to carry out position control, and cutting mechanism 24 carries out automation to the communication cable sleeve and surely levels, and mouth of pipe parallel and level, deburring mechanism 26 carries out automation burring to the mouth of pipe after the cutting, need not manual operation, and easy operation consumes the weak point, has reduced intensity of labour, has improved work efficiency.

Middle part stop device 3 include slewing mechanism 31, two clamp are got mechanism 32 and chucking mechanism 33, slewing mechanism 31 is installed on mainboard 1, slewing mechanism 31's upper end is installed two and is got mechanism 32, and two clamp are got mechanism 32 symmetrical arrangement, every clamp is got and is installed chucking mechanism 33 on the mechanism 32 symmetrically, slewing mechanism 31 drives two clamps and gets mechanism 32 and rotate, two clamp are got mechanism 32 and are spacing to the communication cable sleeve pipe of smooth outer wall, chucking mechanism 33 is spacing to the communication cable sleeve pipe of corrugate, two clamp are got mechanism 32 and chucking mechanism 33 and are cooperateed and carry out to spacing according to the communication cable sleeve pipe of isostructure, need not manual operation, and is simple in operation, consume the weak point, labor intensity is reduced, and work efficiency is improved.

Tip stop device 4 including rotating stop gear 41 and sucking disc mechanism 43, rotate stop gear 41 and install the rear end at mainboard 1, rotate stop gear 41's front end and install sucking disc mechanism 43, it is spacing to rotate stop gear 41 and carry out spacingly to corrugate communication cable sleeve's rear end, sucking disc mechanism 43 carries out spacingly to the communication cable sleeve of smooth inner wall, it is spacing to rotate stop gear 41 and sucking disc mechanism 43 and cooperate and carry out the pertinence to communication cable sleeve's rear end, middle part stop device 3 cooperatees with tip stop device 4 and carries out spacingly many times to different communication cable sleeves, need not manual operation, and is easy to operate, consume the weak point, and the labor intensity is reduced, and the work efficiency is improved.

The moving mechanism 21 comprises an electric slider 211 and a moving plate 212, the electric slider 211 is symmetrically arranged on the main board 1, the moving plate 212 is arranged on the electric slider 211, and when the moving mechanism works specifically, the electric slider 211 drives the moving plate 212 to move back and forth, so that the moving mechanism moves automatically, the labor intensity is reduced, and the working efficiency is improved.

Stop gear 22 include vaulting pole 221, ring plate 222 and spacing branch 223, vaulting pole 221 symmetry is installed on movable plate 212, the upper end symmetry of vaulting pole 221 is installed on ring plate 222, spacing branch 223 is evenly installed along its circumference to the inner wall of ring plate 222, during specific work, spacing branch 223 is spacing to the communication cable sleeve, it is spacing to carry out the automation to both ends around the communication cable sleeve needs the cutting, need not manual operation, and easy operation consumes the weak point, and intensity of labour has been reduced, and work efficiency is improved.

The limiting branched chain 223 comprises a pushing cylinder 2231 and a rubber arc-shaped plate 2232, the pushing cylinder 2231 is installed on the inner wall of the circular ring plate 222, the top end of the pushing cylinder 2231 is installed on the rubber arc-shaped plate 2232 through a flange, and when the device works specifically, the pushing cylinder 2231 drives the rubber arc-shaped plate 2232 to limit the front end of the communication cable sleeve, so that the labor intensity is reduced, and the working efficiency is improved.

The auxiliary mechanism 23 include that the U type links frame 231 and links cylinder 232, the lower extreme that the frame 231 is even to the U type is installed on movable plate 212, the upper end inner wall symmetry that the frame 231 is even to the U type is installed and is linked cylinder 232, link the top of cylinder 232 and pass through flange mounting on cutting mechanism 24, concrete during operation links cylinder 232 and drives cutting mechanism 24 and go up and down, automatic lift cutting mechanism 24 need not manual operation, has reduced intensity of labour, has improved work efficiency.

The cutting mechanism 24 comprises a U-shaped auxiliary frame 241, an auxiliary sliding block 242, an auxiliary sliding groove 243, a telescopic auxiliary support 244, two auxiliary racks 245, two incomplete gears 246, two main motors 247, springs 248, an outer plate 249, a connecting sliding groove 250, a connecting sliding block 251, an inner plate 252 and a cutting knife 253, wherein the U-shaped auxiliary frame 241 is arranged at the right end of the auxiliary mechanism 23, the auxiliary sliding blocks 242 are symmetrically arranged on the side wall of the U-shaped auxiliary frame 241, the auxiliary sliding blocks 242 are connected with the auxiliary sliding groove 243 in a sliding fit mode, the auxiliary sliding grooves 243 are symmetrically arranged on the side wall of the middle part of the telescopic auxiliary support 244, the two auxiliary racks 245 are arranged on the side wall of the upper end of the telescopic auxiliary support 244, the two auxiliary racks 245 are symmetrically arranged, the incomplete gears 246 are meshed on the auxiliary racks 245, the incomplete gears 246 are arranged on the output shaft of the main motors 247, the main motors 247 are arranged on the U-shaped auxiliary, the outer plate 249 is provided with a connecting sliding groove 250, the connecting sliding groove 250 is connected with a connecting sliding block 251 in a sliding fit mode, the connecting sliding block 251 is arranged on an inner plate 252, the inner plate 252 is symmetrically arranged at the upper end of a cutting knife 253, the cutting knife 253 is connected with a telescopic auxiliary bracket 244 through a spring 248, during specific work, two main motors 247 simultaneously drive two incomplete gears 246 to rotate positively, the two incomplete gears 246 drive two auxiliary racks 245 to rotate, the two auxiliary racks 245 drive the telescopic auxiliary bracket 244 to reciprocate under the assistance of the auxiliary sliding block 242 and the auxiliary sliding groove 243, the telescopic auxiliary bracket 244 drives the cutting knife 253 to lift, when the cutting knife 253 touches the outer surface of the communication cable sleeve, the cutting knife 253 is buffered upwards under the assistance of the spring 248, the connecting sliding groove 250 and the connecting sliding block 251 to ensure that the appearance of the communication cable sleeve is not changed when the cutting knife 253 is cut, and the communication, the pipe orifice cutting is parallel and level, the appearance of the communication cable sleeve cannot be changed during cutting, manual operation is not needed, operation is simple, consumption is short, labor intensity is reduced, and working efficiency is improved.

The deburring mechanism 26 comprises an L-shaped support frame 261, a lifting support 262, a rotating motor 263, a telescopic connecting support 264, a rotating motor 265, a bottom plate 266, an adjusting cylinder 267, a matching plate 268, four L-shaped brush plates 269, an L-shaped stabilizing support 272, a top air cylinder 270 and a grinding wheel 271, wherein the L-shaped support frame 261 is installed at the upper end of the cutting mechanism 24, the lifting support 262 is installed at the rear end of the L-shaped support frame 261, the rotating motor 263 is installed at the lower end of the lifting support frame 262 through a base, the telescopic connecting support 264 is installed on an output shaft of the rotating motor 263, the rotating motor 265 is installed at the front side of the upper end of the telescopic connecting support 264 through the base, the output shaft of the rotating motor 265 is installed on the telescopic connecting support 264 through a bearing, the bottom plate 266 is installed on an output shaft of the rotating motor 265, two through grooves are formed in the bottom plate 266, four open grooves are, the top end of the adjusting cylinder 267 is mounted on the matching plate 268 through a pin shaft, a circular groove is arranged in the middle of the matching plate 268, four L-shaped brush plates 269 are uniformly mounted on the side wall of the matching plate 268 through hinges, the middle of each L-shaped brush plate 269 is mounted in an open slot through a pin shaft, L-shaped stabilizing frames 272 are symmetrically mounted at the left end and the right end of the bottom plate 266, a top cylinder 270 is mounted on each L-shaped stabilizing frame 272, the top end of each top cylinder 270 is mounted at the front end of the grinding wheel 271 through a flange, and each top cylinder 270 is located in the corresponding through groove, during specific work, the lifting support 262 drives the rotating motor 263 to ascend and descend to a working position, the rotating motor 263 is matched with the telescopic connecting support 264 to drive the grinding wheel 271 to adjust to the working position, the rotating motor 265 drives the grinding wheel 271 to rotate, the rotating grinding wheel 271 grinds the pipe orifice of the cut communication cable sleeve flatly, after the flatly grinding, the top cylinder 270, adjusting cylinder 267 drives cooperation board 268 and adjusts forward, cooperation board 268 drives four L type brush boards 269 and carries out angle modulation and makes four L type brush boards 269 adjust operating position, four L type brush boards 269 clear away the communication cable sleeve pipe mouth after grinding flat under the rotating electrical machines 265 is supplementary, deburring mechanism 26 carries out automatic deburring to the mouth of pipe after the cutting, need not manual operation, easy operation consumes the weak point, and the labor intensity is reduced, and the work efficiency is improved.

The rotating mechanism 31 comprises a rotating motor 311, a bidirectional expansion plate 312, a pair of air cylinders 313, a slide bar 314, a fixed sliding groove 315 and two vertical plates 316, the rotating motor 311 is installed on the main board 1 through a base, the bidirectional expansion plate 312 is installed on an output shaft of the rotating motor 311, the slide bar 314 is symmetrically installed at the lower end of the bidirectional expansion plate 312, the slide bar 314 is connected with the fixed sliding groove 315 in a sliding fit manner, the fixed sliding groove 315 is installed on the main board 1, the pair of air cylinders 313 are symmetrically installed in the middle of the upper end of the bidirectional expansion plate 312, the top end of the air cylinder 313 is installed at the outer end of the bidirectional expansion plate 312 through a flange, the two vertical plates 316 are installed at the left end and the right end of the bidirectional expansion plate 312, during specific work, after one end of the communication cable sleeve is processed, the rotating motor 311 drives the bidirectional expansion plate 312 to rotate so that the other port of the, automatic rotation has reduced intensity of labour, has improved work efficiency.

Press from both sides and get mechanism 32 and include spacing cylinder 321 and arc splint 322, spacing cylinder 321 is installed on riser 316, flange mounting is passed through on arc splint 322 on the top of spacing cylinder 321, and the symmetry is provided with the rectangular channel on the arc splint 322, concrete during operation, spacing cylinder 321 drives arc splint 322 and carries on spacingly to the glossy communication cable sleeve of outer wall, it is spacing to press from both sides the smooth communication cable sleeve of mechanism 32 to carry out the pertinence of outer wall, need not manual operation, the operation is simple, consume for a short time, the labor intensity is reduced, and the work efficiency is improved.

The clamping mechanism 33 comprises two weighing plates 331, a straight air cylinder 333, a moving plate 334, a U-shaped outer frame 335, a clamping air cylinder 336 and a corrugated clamping block 337, wherein the two weighing plates 331 are installed at the left end and the right end of a rectangular groove, the weighing plates 331 are provided with matching grooves, the arc-shaped clamping plate 322 is provided with the straight air cylinder 333, the top end of the straight air cylinder 333 is installed on the moving plate 334 through a flange, the moving plate 334 is connected with the matching grooves in a sliding matching manner, the moving plate 334 is provided with a square groove, the moving plate 334 is provided with the U-shaped outer frame 335, the U-shaped outer frame 335 is provided with the clamping air cylinder 336, the top end of the clamping air cylinder 336 is installed on the corrugated clamping block 337 through a flange, and the corrugated clamping block 337 is located in the square groove, when the communication cable sleeve is corrugated, the straight air cylinder 333 drives the moving plate 334 to move to a proper position, the clamping air cylinder 336 drives the corrugated clamping block 337 to clamp the outer wall, the clamping mechanism 33 is used for carrying out targeted limiting on the corrugated communication cable sleeve, manual operation is not needed, operation is simple, consumption is short, labor intensity is reduced, and working efficiency is improved.

The rotation limiting mechanism 41 comprises a back plate 411, an operating cylinder 412, a circular plate 413, a smooth groove 414, a circular slider 415, a ring plate 416, a circular rack 417, a circular gear 418, a circular motor 419, an L-shaped back frame 420, a pressure cylinder 421, a rubber arc plate 422, a rubber clamping plate 423 and a corrugated block 424, wherein the back plate 411 is installed on the main plate 1, the operating cylinder 412 is installed at the upper end of the back plate 411, the top end of the operating cylinder 412 is installed on the circular plate 413 through a flange, the circular sliding groove 414 is installed on the outer wall of the circular plate 413, the smooth groove 414 is connected with the circular slider 415 through a sliding fit mode, the circular slider 415 is installed on the inner wall of the ring plate 416, the circular rack 417 is installed on the outer wall of the ring plate 416, the circular rack 417 is engaged with the circular gear 418, the circular gear 418 is installed on the output shaft of the circular motor 419, the circular motor 419 is installed on the circular plate 413 through a base, the L-shaped rear frame 420 is provided with a pneumatic cylinder 421, the top end of the pneumatic cylinder 421 is mounted on a rubber arc plate 422 through a flange, the rubber arc plate 422 is provided with a corrugated groove, the front end of the annular plate 416 is provided with a rubber clamping plate 423, the outer end of the rubber clamping plate 423 is provided with a corrugated block 424, the corrugated block 424 corresponds to the corrugated groove, during specific work, the pneumatic cylinder 412 drives the circular plate 413 to stretch and retract, when the communication cable sleeve is corrugated, the circular motor 419 drives the circular gear 418 to rotate, the circular gear 418 drives the circular rack 417 on the annular plate 416 to rotate, the pneumatic cylinder 421 drives the rubber arc plate 422 to adjust inwards to enable the rubber arc plate 422 and the corrugated block 424 to limit the rear end of the corrugated communication cable sleeve, the limiting mechanism 41 is rotated to limit the rear end of the corrugated communication cable sleeve in a targeted manner, manual operation is not needed, operation is simple and low in cost, the labor intensity is reduced, and the working efficiency is improved.

Sucking disc mechanism 43 include cylinder 431, connect cylinder 432 and sucking disc board 433, the front end at rotation stop gear 41 is installed to cylinder 431, evenly install along its circumference on cylinder 431 and connect cylinder 432, connect the top of cylinder 432 and pass through flange mounting on sucking disc board 433, concrete during operation, when communication cable sleeve's inner wall is smooth, connect cylinder 432 and drive sucking disc board 433 and outwards extend and make sucking disc board 433 hug closely at communication cable sleeve's inner wall, sucking disc board 433 is inhaled steadily communication cable sleeve's inner wall under the work of external air pump, sucking disc mechanism 43 carries out pertinence spacing to the smooth communication cable sleeve rear end of outer wall, need not manual operation, and easy operation consumes the weak point, and the intensity of labour has been reduced, and the work efficiency is improved.

When the communication cable sleeve works, firstly, the clamping mechanism 32 on the middle limiting device 3 starts to work, the limiting cylinder 321 drives the arc-shaped clamping plate 322 to limit the communication cable sleeve with smooth outer wall, then the clamping mechanism 33 starts to work, when the communication cable sleeve is corrugated, the straight cylinder 333 drives the moving plate 334 to move to a proper position, the clamping cylinder 336 drives the corrugated clamping block 337 to clamp the outer wall of the corrugated communication cable sleeve, in a second step, the rotation limiting mechanism 41 on the end limiting device 4 starts to work, the operation cylinder 412 drives the circular plate 413 to stretch, when the communication cable sleeve is corrugated, the circular motor 419 drives the circular gear 418 to rotate, the circular gear 418 drives the circular rack 417 on the annular plate 416 to rotate, the pressing cylinder drives the rubber arc plate 422 to adjust inwards so that the rubber arc plate 422 and the corrugated block 424 limit the rear end of the corrugated communication cable sleeve, then, the suction cup mechanism 43 starts to work, when the inner wall of the communication cable sleeve is smooth, the connecting cylinder 432 drives the suction cup plate 433 to extend outwards so that the suction cup plate 433 is tightly attached to the inner wall of the communication cable sleeve, the suction cup plate 433 sucks the inner wall of the communication cable sleeve stably under the work of an external air pump, in the third step, the moving mechanism 21 on the cutting and deburring device 2 starts to work, the electric slider 211 drives the moving plate 212 to move back and forth, then, the limiting mechanism 22 starts to work, the limiting branched chain 223 limits the communication cable sleeve, the limiting branched chain 223 starts to work, the pushing cylinder 2231 drives the rubber arc plate 2232 to limit the front end of the communication cable sleeve, then, the auxiliary mechanism 23 starts to work, the connecting cylinder 232 drives the cutting mechanism 24 to lift, then, the cutting mechanism 24 starts to work, and the two main motors simultaneously drive the two incomplete gears 246 to perform positive rotation, two incomplete gears 246 drive two auxiliary racks 245 to rotate, the two auxiliary racks 245 drive the telescopic auxiliary support 244 to reciprocate under the assistance of the auxiliary sliding block 242 and the auxiliary sliding groove 243, the telescopic auxiliary support 244 drives the cutting knife 253 to lift, when the cutting knife 253 touches the outer surface of the communication cable sleeve, the cutting knife 253 is buffered upwards under the assistance of the spring 248, the connecting sliding groove 250 and the connecting sliding block 251 to ensure that the appearance of the communication cable sleeve cannot be changed when the cutting knife 253 cuts, then the deburring mechanism 26 starts to work, the lifting support 262 drives the rotating motor 263 to lift to a working position, the rotating motor 263 is matched with the telescopic connecting support 264 to drive the grinding wheel 271 to adjust to the working position, the rotating motor 265 drives the grinding wheel 271 to rotate, the rotating grinding wheel 271 grinds the cut communication cable sleeve, after the grinding is flat, the top cylinder 270 drives the grinding wheel 271 to move forwards to enable the grinding wheel 271 to be far away from the cut communication cable sleeve opening, an adjusting cylinder 267 drives a matching plate 268 to adjust forwards, the matching plate 268 drives four L-shaped brush plates 269 to adjust the angle so that the four L-shaped brush plates 269 are adjusted to a working position, the four L-shaped brush plates 269 clear the pipe orifice of the communication cable sleeve after being ground flat with the aid of a rotating motor 265, and a fourth step, a rotating mechanism 31 on a middle limiting device 3 starts to work, after one end of the communication cable sleeve is processed, a rotating motor 311 drives a bidirectional expansion plate 312 to rotate so that the other end port of the communication cable sleeve rotates to a working position, and the cylinder 313 drives the bidirectional expansion plate 312 to expand and contract, so that the functions of automatic limiting and cutting of the communication cable sleeve are realized, the problem that the communication cable sleeve needs to be manually limited and then cut in the existing communication cable sleeve processing process is solved, the process is complicated and complex, and when the communication cable sleeve is limited, personnel need carry out the snatching of different modes to the communication cable sleeve of isostructure, and the manual work snatchs singlely, shakiness, and during the cutting, the skew position easily leads to the mouth of pipe uneven during manual cutting, has the burr after the cutting, and the process is spent long, and difficult problems such as intensity of labour is big and inefficiency have reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a processing equipment for communication cable, includes mainboard (1), cutting burring device (2), middle part stop device (3) and tip stop device (4), its characterized in that: the cutting and deburring device (2) is installed at the front end of the main board (1), the middle part of the main board (1) is provided with the middle limiting device (3), and the rear end of the main board (1) is provided with the end limiting device (4);

the cutting and deburring device (2) comprises a moving mechanism (21), two limiting mechanisms (22), an auxiliary mechanism (23), a cutting mechanism (24) and a deburring mechanism (26), wherein the moving mechanism (21) is installed at the front end of the main board (1), the two limiting mechanisms (22) are installed at the upper end of the moving mechanism (21), the auxiliary mechanism (23) is installed at the left end of the moving mechanism (21), the cutting mechanism (24) is installed on the lower side of the right end of the auxiliary mechanism (23), the cutting mechanism (24) is located between the two limiting mechanisms (22), and the deburring mechanism (26) is installed at the rear end of the cutting mechanism (24);

the middle limiting device (3) comprises a rotating mechanism (31), two clamping mechanisms (32) and clamping mechanisms (33), wherein the rotating mechanism (31) is installed on the main board (1), the two clamping mechanisms (32) are installed at the upper end of the rotating mechanism (31), the two clamping mechanisms (32) are symmetrically arranged, and the clamping mechanisms (33) are symmetrically installed on each clamping mechanism (32);

the end limiting device (4) comprises a rotation limiting mechanism (41) and a sucker mechanism (43), the rotation limiting mechanism (41) is installed at the rear end of the main board (1), and the sucker mechanism (43) is installed at the front end of the rotation limiting mechanism (41);

chucking mechanism (33) including two title boards (331), straight cylinder (333), move board (334), U type outrigger (335), card cylinder (336) and ripple fixture block (337), two title boards (331) are installed at the left and right sides both ends of rectangular channel, and be provided with the cooperation groove on title board (331), install straight cylinder (333) on arc splint (322), the flange mounting is passed through on the top of straight cylinder (333) moves board (334), it links to each other with the cooperation groove through sliding fit's mode to move board (334), and move and be provided with the square groove on board (334), move and install U type outrigger (335) on board (334), install card cylinder (fixture block 336) on U type outrigger (335), the flange mounting is passed through on ripple fixture cylinder (337) top of card cylinder (336), and ripple fixture block (337) are located the square groove.

2. The processing equipment for communication cables as claimed in claim 1, wherein: the moving mechanism (21) comprises electric sliders (211) and a moving plate (212), the electric sliders (211) are symmetrically arranged on the main board (1), and the moving plate (212) is arranged on the electric sliders (211);

the limiting mechanism (22) comprises supporting rods (221), a circular ring plate (222) and limiting branched chains (223), the supporting rods (221) are symmetrically arranged on the moving plate (212), the upper ends of the supporting rods (221) are symmetrically arranged on the circular ring plate (222), and the limiting branched chains (223) are uniformly arranged on the inner wall of the circular ring plate (222) along the circumferential direction of the circular ring plate;

the limiting branched chain (223) comprises a push cylinder (2231) and a rubber arc plate (2232), the push cylinder (2231) is installed on the inner wall of the circular ring plate (222), and the top end of the push cylinder (2231) is installed on the rubber arc plate (2232) through a flange.

3. The processing equipment for communication cables as claimed in claim 1, wherein: the auxiliary mechanism (23) comprises a U-shaped connecting frame (231) and a connecting cylinder (232), the lower end of the U-shaped connecting frame (231) is installed on the moving plate (212), the connecting cylinder (232) is symmetrically installed on the inner wall of the upper end of the U-shaped connecting frame (231), and the top end of the connecting cylinder (232) is installed on the cutting mechanism (24) through a flange;

the cutting mechanism (24) comprises a U-shaped auxiliary frame (241), an auxiliary sliding block (242), an auxiliary sliding groove (243), a telescopic auxiliary frame (244), two auxiliary racks (245), two incomplete gears (246), two main motors (247), springs (248), an outer plate (249), a connecting sliding groove (250), a connecting sliding block (251), an inner plate (252) and a cutting knife (253), wherein the U-shaped auxiliary frame (241) is arranged at the right end of the auxiliary mechanism (23), the auxiliary sliding blocks (242) are symmetrically arranged on the side wall of the U-shaped auxiliary frame (241), the auxiliary sliding blocks (242) are connected with the auxiliary sliding groove (243) in a sliding fit mode, the auxiliary sliding grooves (243) are symmetrically arranged on the side wall of the middle part of the telescopic auxiliary frame (244), the two auxiliary racks (245) are arranged on the side wall of the upper end of the telescopic auxiliary frame (244), the two auxiliary racks (245) are symmetrically arranged, the incomplete gears (246) are meshed on the, incomplete gear (246) is installed on the output shaft of main motor (247), main motor (247) passes through pedestal mounting on U type auxiliary frame (241), planking (249) are installed to the lower extreme symmetry of flexible auxiliary support (244), install on planking (249) and link spout (250), link spout (250) link to each other with link slider (251) through sliding fit's mode, link slider (251) and install on inner panel (252), the upper end at cutting knife (253) is installed to inner panel (252) symmetry, link to each other through spring (248) between cutting knife (253) and flexible auxiliary support (244).

4. The processing equipment for communication cables as claimed in claim 1, wherein: the deburring mechanism (26) comprises an L-shaped support frame (261), a lifting support (262), a rotating motor (263), a telescopic connecting support (264), a rotating motor (265), a bottom plate (266), an adjusting cylinder (267), a matching plate (268), four L-shaped brush plates (269), an L-shaped stabilizing support (272), a top cylinder (270) and a grinding wheel (271), wherein the L-shaped support frame (261) is installed at the upper end of the cutting mechanism (24), the lifting support (262) is installed at the rear end of the L-shaped support frame (261), the rotating motor (263) is installed at the lower end of the lifting support frame (262) through a base, the telescopic connecting support (264) is installed on an output shaft of the rotating motor (263), the rotating motor (265) is installed at the front side of the upper end of the telescopic connecting support (264) through the base, an output shaft of the rotating motor (265) is installed on the telescopic connecting support (264) through a bearing, the bottom plate (266, be provided with two logical grooves on bottom plate (266), and evenly install four open slots on bottom plate (266), adjustment cylinder (267) are installed through the round pin axle in the upper and lower both ends of bottom plate (266), the top of adjustment cylinder (267) is installed on cooperation board (268) through the round pin axle, and the middle part of cooperation board (268) is provided with the circular slot, evenly install four L type brush boards (269) through the hinge on the lateral wall of cooperation board (268), the middle part of L type brush board (269) is installed in the open slot through the round pin axle, steady frame (272) of L type is installed to both ends symmetry about bottom plate (266), install on steady frame (272) of L type top cylinder (270), flange mounting is passed through at the front end of emery wheel (271) on the top of top cylinder (270), and top cylinder (270) are located logical inslot.

5. The processing equipment for communication cables as claimed in claim 1, wherein: the rotating mechanism (31) comprises a rotating motor (311), a bidirectional expansion plate (312), a pair cylinder (313), a sliding rod (314), a fixed sliding groove (315) and two vertical plates (316), wherein the rotating motor (311) is installed on the main board (1) through a base, the bidirectional expansion plate (312) is installed on an output shaft of the rotating motor (311), the sliding rod (314) is symmetrically installed at the lower end of the bidirectional expansion plate (312), the sliding rod (314) is connected with the fixed sliding groove (315) in a sliding fit mode, the fixed sliding groove (315) is installed on the main board (1), the pair cylinder (313) is symmetrically installed in the middle of the upper end of the bidirectional expansion plate (312), the top end of the pair cylinder (313) is installed at the outer end of the bidirectional expansion plate (312) through a flange, and the two vertical plates (316) are installed at the left end and the;

the clamping mechanism (32) comprises a limiting cylinder (321) and an arc-shaped clamping plate (322), the limiting cylinder (321) is installed on a vertical plate (316), the top end of the limiting cylinder (321) is installed on the arc-shaped clamping plate (322) through a flange, and rectangular grooves are symmetrically formed in the arc-shaped clamping plate (322).

6. The processing equipment for communication cables as claimed in claim 1, wherein: the rotation limiting mechanism (41) comprises a rear plate (411), an operating cylinder (412), a circular plate (413), a smooth groove (414), a circular sliding block (415), a ring plate (416), a circular rack (417), a circular gear (418), a circular motor (419), an L-shaped rear frame (420), a pressure cylinder (421), a rubber arc plate (422), a rubber clamping plate (423) and a corrugated block (424), wherein the rear plate (411) is installed on the main plate (1), the operating cylinder (412) is installed at the upper end of the rear plate (411), the top end of the operating cylinder (412) is installed on the circular plate (413) through a flange, the circular sliding groove (414) is installed on the outer wall of the circular plate (413), the circular sliding groove (414) is connected with the circular sliding block (415) in a sliding fit manner, the circular sliding block (415) is installed on the inner wall of the ring plate (416), the circular rack (417) is installed on the outer wall of the ring plate (416), and the circular gear (418) is, a circular gear (418) is installed on an output shaft of a circular motor (419), the circular motor (419) is installed on a circular plate (413) through a base, an L-shaped rear frame (420) is evenly installed on the annular plate (416) along the circumferential direction of the annular plate, a pressing cylinder (421) is installed on the L-shaped rear frame (420), the top end of the pressing cylinder (421) is installed on a rubber arc plate (422) through a flange, a corrugated groove is formed in the rubber arc plate (422), a rubber clamping plate (423) is installed at the front end of the annular plate (416), a corrugated block (424) is installed at the outer end of the rubber clamping plate (423), and the corrugated block (424) corresponds to the corrugated groove;

the sucker mechanism (43) comprises a cylinder (431), a connecting cylinder (432) and a sucker plate (433), wherein the cylinder (431) is installed at the front end of the rotation limiting mechanism (41), the connecting cylinder (432) is evenly installed on the cylinder (431) along the circumferential direction of the cylinder, and the top end of the connecting cylinder (432) is installed on the sucker plate (433) through a flange.