CN110789140A

CN110789140A - Electric power lead wire pyrocondensation pipe processing and assembly quality

Info

Publication number: CN110789140A
Application number: CN201910925885.9A
Authority: CN
Inventors: 史建勋; 苏毅方; 徐勇明; 丁一岷; 卞栋梁; 赵平; 姚建华; 郁云忠; 周海燕; 于敏英; 徐晶; 王利军; 马铭佶; 沈伶妮
Original assignee: Jiaxing Power Supply Co of State Grid Zhejiang Electric Power Co Ltd; Jiashan Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Jiaxing Power Supply Co of State Grid Zhejiang Electric Power Co Ltd; Jiashan Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2020-02-14
Anticipated expiration: 2039-09-27
Also published as: CN110789140B

Abstract

The invention discloses a power lead heat-shrinkable tube processing and assembling device which comprises a base, a workbench, a batching device, a pulling device, a cutting device, a transfer forming device, a tube supporting device and a sleeve moving device, wherein the workbench is fixed on the base; the automatic pipe-pulling device can automatically complete the operations of feeding, pulling, transfer molding, cutting, pipe-supporting and pipe-moving of the heat-shrinkable pipe, has high automation degree, reduces the processing manpower resources of enterprises, improves the processing efficiency and quality of cables, and reduces the operation management cost of enterprises.

Description

Electric power lead wire pyrocondensation pipe processing and assembly quality

Technical Field

The invention relates to the field of wire processing, in particular to a power lead heat-shrinkable tube processing and assembling device.

Background

The method is an indispensable step for sleeving the heat-shrinkable tubes at the two ends of the lead in the manufacturing process of the power lead, the existing cable processing is a processing and manufacturing mode which mainly disperses and the flow is auxiliary, and compared with other manufacturing industries, the method has the problems of more product specifications, complex production drawings, unstable production process and the like. Moreover, the heat-shrinkable tube is an important step in cable processing, the automation degree of processing and assembling is insufficient, and in order to improve the automation level of cable processing, the automation level of processing and assembling of the heat-shrinkable tube must be improved in a targeted manner. At present, although a related automatic processing device for the heat shrinkable tube is provided, the device cannot be well adapted to the cable production line. To pyrocondensation pipe cutting device someone has proposed a crank link drive, and its overall structure compares the structure with this patent comparatively complicacy. For the cutter head, it has been proposed to mount the cutter vertically, driven by means of a pneumatic motor. This patent improves the tool bit, makes its side slope can relative motion carry out soft cutting from top to bottom. In addition, the heat shrinkable tube processing and assembling are used as a cable processing side branch process, and a mechanical arm is adopted for assembling for realizing automation. A vacuum expansion grinding tool is proposed for expansion forming of the heat-shrinkable tube, and the method has high requirements on production conditions, so that the heat-shrinkable tube is subjected to negative pressure expansion forming by adopting an industrial pneumatic paw. In addition, the invention also provides a device for moving the sleeving position of the heat shrinkable tube. According to the automatic processing and manufacturing requirements of the power transmission and transmission lead wire cable in the power supply industry, in order to achieve the purposes of reducing the shortage of processing human resources of enterprises, improving the processing efficiency and quality of the cable, reducing the operation management cost of the enterprises and the like, the heat-shrinkable sleeve cutting processing and assembling device suitable for the assembling processing of the power lead wire cable product is developed. Aiming at the heat shrinkable tube sleeving process, the heat shrinkable tube processing and assembling device is designed.

Disclosure of Invention

The invention aims to solve the problems that the existing cable processing is mainly discrete and the processing and manufacturing mode is auxiliary, compared with other manufacturing industries, the processing mode is discrete, the product specifications are multiple, the production drawing is complicated, the production process is unstable and the like, and provides a power lead heat-shrinkable tube processing and assembling device which can effectively improve the processing efficiency and quality of cables, reduce the operation and management cost of enterprises and reduce the processing manpower resources of the enterprises.

The invention realizes the purpose through the following technical scheme: a power lead heat-shrinkable tube processing and assembling device comprises a base, a workbench, a batching device, a pulling device, a cutting device, a transfer forming device, a tube supporting device and a tube moving device, wherein the workbench is fixed on the base;

the batching device comprises a batching tray, an active feeding motor, a support frame, a feeding motor base, a rotating shaft, an adjusting frame and a swing rod, wherein the support frame is fixed on a workbench, the feeding motor base is fixed on the support frame, the active feeding motor is horizontally arranged on the feeding motor base, the rotating shaft is arranged in the middle of the batching tray, one end of the rotating shaft of the batching tray is connected to a motor head of the active feeding motor, a heat shrinkable tube to be processed is wound on the batching tray, and the active feeding motor drives the rotating shaft of the batching tray and the batching tray to rotate together when rotating so as to realize the discharging operation of the heat shrinkable tube wound on the batching tray; the adjusting frame is vertically fixed on a supporting frame on the right side of the batching tray, the swing rod comprises a swing arm and a supporting shaft, the swing arm is connected to the adjusting frame, the supporting shaft is vertically installed at one end of the swing arm, and the supporting shaft is located below the movement path of the heat-shrinkable tube;

the material pulling device comprises a material pulling driving motor, a material pulling bearing seat, a material pulling side plate, an upper central shaft, an upper material pulling barrel, a lower central shaft, a lower material pulling barrel, a transmission gear and a guide plate; the two material pulling side plates are arranged in parallel and are vertically fixed on the workbench; the upper central shaft is horizontally supported on the two material pulling side plates through a bearing, one end of the upper central shaft extends out of one material pulling side plate and is connected with a transmission gear, the lower central shaft is horizontally supported on the two material pulling side plates through a bearing, one end of the lower central shaft extends out of one material pulling side plate and is connected with a transmission gear, the lower central shaft is arranged in parallel with the upper central shaft, the lower central shaft is arranged right below the upper central shaft, a transmission gear connected with one end of the upper central shaft is meshed with a gear connected with one end of the lower central shaft, the upper pulling barrel is sleeved on the upper central shaft between the two pulling side plates and is fixedly connected with the upper central shaft through a key, the lower pulling material barrel is sleeved on a lower central shaft between the two pulling material side plates, the lower pulling material barrel is fixedly connected with the lower central shaft through a key, and a gap for moving the heat supply shrinkage pipe is reserved between the upper pulling material barrel and the lower pulling material barrel; the material pulling driving motor is fixed on the workbench on one side of the material pulling side plate, a driving shaft of the material pulling driving motor is fixedly connected with one end of the lower central shaft through a key, the lower central shaft is driven to rotate when the material pulling driving motor moves, and the upper central shaft is driven to rotate reversely through the two transmission gears when the lower central shaft rotates, so that the upper material pulling barrel and the lower material pulling barrel are driven to rotate reversely; the guide plates are fixed on the two material pulling side plates, and the bottoms of the guide grooves on the guide plates are parallel to the highest point of the material pulling barrel;

the cutting device comprises a movable cutting tool bit, a fixed cutting tool bit, a cutting driving motor, an outer shell and a cutting motor support, wherein the outer shell is fixed on a workbench, the fixed cutting tool bit is fixed inside the outer shell, the cutting motor support is fixed at the upper end of the outer shell, the cutting driving motor is fixed on the cutting motor support, the cutting driving motor is vertically arranged, and a motor head at the lower end of the cutting driving motor is connected with the movable cutting tool bit; a track for the movable cutting tool bit to move is arranged in the outer shell, the fixed cutting tool bit and the movable cutting tool bit are arranged oppositely, and the movable cutting tool bit is driven to linearly move along the track in the outer shell when the cutting driving motor moves, so that the movable cutting tool bit is close to and far away from the fixed cutting tool bit;

the transfer molding device comprises an angle-shaped block, a sliding block, a first sliding rod, a first sliding groove seat, a first fastener and a first L-shaped fixed block, the first L-shaped fixed block is fixed on the workbench, the first sliding groove seat is fixed on one side surface of the first L-shaped fixed block, two vertically arranged sliding grooves are formed in the first sliding groove seat, the two first sliding rods are respectively sleeved on the two sliding grooves of the first sliding groove seat, the upper ends of the two first sliding rods are connected to the lower surface of the first fastener, the upper surface of the first fastener is fixedly connected with the angle-shaped block, one side, protruding downwards, of the angle-shaped block is close to the upper surface of the first L-shaped fixed block, and the angle-shaped block and the upper surface of the first L-shaped fixed block jointly form a containing cavity for containing an expanded tubular heat shrink tube; the surface of the first sliding groove seat is also provided with a vertical linear groove, a sliding block is sleeved in the vertical linear groove, the upper end of the sliding block is provided with a support column, the upper end of the support column supports the lower surface of a first fastener, the sliding block is provided with a positioning through hole, the bottom of the vertical linear groove is provided with a plurality of positioning threaded holes, and a positioning stud penetrates through the positioning through hole in the sliding block and is screwed into the positioning threaded hole in the bottom of the vertical linear groove to realize the positioning of the sliding block;

the pipe supporting device comprises a supporting column, a V-shaped supporting block, an upper stop block, a second sliding rod, a second sliding groove seat, a second fastener, a second L-shaped fixing block and a horizontal guide rail seat, wherein the horizontal guide rail seat is fixed on the workbench, the second L-shaped fixing block is sleeved on the horizontal guide rail seat, and the second sliding groove seat is fixed on the second L-shaped fixing block; the second L-shaped fixing block is provided with two vertically arranged sliding grooves, two second sliding rods are respectively sleeved on the two sliding grooves of the second sliding groove seat, the upper ends of the two second sliding rods are connected to the lower surface of a second fastener, the upper surface of the second fastener is fixedly connected with the upper blocking block, the V-shaped supporting block is fixed on the second sliding groove seat, one end of the supporting column is arranged between the V-shaped supporting block and the upper blocking block and attached to the second sliding groove seat, and the V-shaped supporting block and the upper blocking block share one end of the supporting column; the other end of the support column is in a conical boss shape;

the sleeve moving device comprises supports, vertical supporting plates, a horizontal driving motor, a horizontal motor base, a horizontal lead screw, a horizontal linear guide rail, a horizontal moving block, a moving base, a vertical driving motor, a vertical linear guide rail, a vertical lead screw, a vertical slider and a mechanical clamp, wherein the vertical supporting plates are fixed on two supports vertically arranged on the ground through two mounting frames, the horizontal driving motor is fixed on the vertical supporting plates through the horizontal motor base, the horizontal lead screw and the horizontal linear guide rail are both horizontally mounted, one end of the horizontal linear guide rail is fixed on the horizontal motor base, the other end of the horizontal linear guide rail is fixed on the vertical supporting plates through the horizontal lead screw base, one end of the horizontal lead screw is supported on the horizontal lead screw base, and the other end of the horizontal lead screw is connected with an output shaft of; the horizontal moving block is sleeved on the horizontal lead screw and the horizontal linear guide rail, and when the horizontal driving motor moves, the horizontal moving block is driven to linearly move in the horizontal direction along the horizontal linear guide rail and the horizontal lead screw; the vertical linear guide rail is installed on the moving seat, a vertical sliding block is sleeved on the vertical linear guide rail and the vertical lead screw, and the vertical driving motor drives the vertical sliding block to linearly move along the vertical linear guide rail and the vertical lead screw when moving; the mechanical clamp is fixed on the vertical sliding block, and a clamp hand of the mechanical clamp is arranged vertically downwards.

Furthermore, the two sides of the batching tray are provided with deep groove side plates for preventing the heat shrinkable tube from falling off, and the heat shrinkable tube is wound on the inner ring of the batching tray on the inner side of the deep groove. The deep groove lateral plates on the two sides of the batching tray can effectively prevent the heat shrinkable tube from falling off from the batching tray when being wound.

Further, the driving feeding motor is a stepping motor. The motor speed of the active feeding motor is adjustable, and the heat shrink tube wound on the batching tray is driven to feed materials at a certain speed.

Furthermore, a vertical groove is formed in the adjusting frame; one end of the swing arm, which is far away from the supporting shaft, is hinged on the supporting frame, a row of threaded holes are formed in the swing arm, and the middle of the swing arm is fixed through a positioning bolt which penetrates through a vertical groove in the adjusting frame and is screwed in one of the threaded holes in the swing arm. The height of the support shaft on the swing rod can be adjusted by adjusting the height of the positioning bolt, and the height of the heat shrink tube supported by the support shaft can be adjusted.

Furthermore, a bearing seat is fixed on the workbench between the material pulling driving motor and the material pulling side plate, and a driving shaft of the material pulling driving motor is supported on the bearing seat through a bearing. When the heat shrinkable tube reaches the material pulling device, the heat shrinkable tube is firstly correctly sent to a gap between the upper pulling material barrel and the lower pulling material barrel through the guide plate, and the upper pulling material barrel and the lower pulling material barrel are driven to rotate reversely by the material pulling driving motor, so that the heat shrinkable tube is pulled to enter the next station by utilizing the friction force of the upper pulling material barrel and the lower pulling material barrel.

Further, be provided with the cutting hole that the level set up on the shell body, the upper end that the fixed tool bit that cuts is located cuts downtheholely, and the activity cuts the sword and cuts the hole through cutting when moving along the track. When the heat shrinkable tube reaches the cutting device, the cutting driving motor drives the movable cutting tool bit to move downwards, relative displacement is generated between the movable cutting tool bit and the fixed cutting tool bit, then shearing force is generated to shear the heat shrinkable tube, and a section of the required heat shrinkable tube is obtained through a shearing process.

After the cut flat heat shrinkable tube reaches the transfer forming device, the flat heat shrinkable tube is expanded into a tubular shape through a negative pressure through an external industrial electric air claw, and the cylindrical heat shrinkable tube processed and formed through the industrial electric air claw can be accommodated in the accommodating cavity between the angle-shaped block and the L-shaped fixed block.

Furthermore, the outer diameter of the support column is equal to the aperture of the heat shrink tube, and a center hole is formed in one end, close to the right side, of the support column. The diameter of the support column is matched with the aperture of the heat-shrinkable tube, the heat-shrinkable tube is pushed by the heat-shrinkable tube of the previous procedure after being cut to continue to move forwards and to be sleeved on the support column, and the heat-shrinkable tube is sleeved on the support column to facilitate clamping and assembling of the manipulator. The center of the right surface of the support column is provided with a center hole, and the support column can be sleeved at one end of the cable through the center through hole so as to be convenient for taking down the heat shrinkable tube. When the support column is sleeved with the heat shrink tube, the manipulator clamps the support column and moves to the next station, and then the used support column is placed back between the V-shaped support block and the stop block.

Furthermore, a plurality of positioning threaded holes are further formed in the second sliding groove seat, sliding grooves of the positioning threaded holes are communicated, and a positioning screw penetrates through the positioning threaded holes and screws the second sliding rod in the sliding groove of the second sliding groove seat.

Horizontal drive motor drive horizontal moving block, remove the seat, the whole horizontal motion that vertical slider and mechanical clamp are constituteed, the whole vertical motion that vertical drive motor drive vertical slider and mechanical clamp are constituteed to realize the removal of mechanical clamp optional position in the plane, after reaching the assigned position, mechanical clamp presss from both sides tightly on the pyrocondensation pipe, then horizontal drive motor and vertical drive motor drive mechanical clamp and pyrocondensation pipe move together, move the pyrocondensation pipe to the junction of cable lead head and terminal.

The invention has the beneficial effects that:

1. the automatic pipe-pulling device can automatically complete the operations of feeding, pulling, transfer molding, cutting, pipe-supporting and pipe-moving of the heat-shrinkable pipe, has high automation degree, reduces the processing manpower resources of enterprises, improves the processing efficiency and quality of cables, and reduces the operation management cost of enterprises.

2. According to the invention, the deep-groove side plates for preventing the heat shrinkable tube from falling off are arranged on the two sides of the batching tray, so that the heat shrinkable tube can be effectively prevented from falling off from the batching tray when being wound.

3. The feeding device adopts the stepping motor as a driving source, the motor speed of the driving feeding motor is adjustable, and the heat-shrinkable tube wound on the batching tray is driven to feed at a certain speed.

4. The hot melting tube is supported by the tube supporting device, the supporting column position of the supporting column is adjustable, and the hot melting tube can be conveniently clamped by a mechanical clamp so as to conveniently carry out the next procedure.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a power lead heat shrinkable tube processing and assembling device.

Fig. 2 is a schematic view of the structure of the batching device according to the present invention.

Fig. 3 is a schematic structural diagram of the material pulling device of the present invention.

FIG. 4 is a schematic view of the cutting device of the present invention.

FIG. 5 is a schematic view of the internal structure of the cutting device of the present invention.

FIG. 6 is a schematic structural view of a transfer molding apparatus according to the present invention.

Fig. 7 is a structural schematic view of the pipe bracing device of the invention.

Fig. 8 is a structural schematic diagram of the sleeve moving device of the invention.

In the figure, 1-batching device, 2-pulling device, 3-cutting device, 4-transfer forming device, 5-pipe supporting device, 6-sleeve moving device, 7-base, 8-workbench, 101-rotating shaft, 102-batching tray, 103-heat shrink pipe, 104-supporting shaft, 105-adjusting frame, 106-supporting frame, 107-driving feeding motor, 108-feeding motor base, 109-swinging arm, 201-guide plate, 202-pulling bearing, 203-pulling driving motor, 204-pulling side plate, 205-upper central shaft, 206-upper pulling barrel, 207-transmission gear, 208-lower pulling barrel, 209-lower central shaft, 301-cutting driving motor, 302-cutting motor support, 303-outer shell, 304-movable cutting tool bit, 305-fixed cutting tool bit, 401-angle block, 402-first L-shaped fixed block, 403-first sliding groove seat, 404-first sliding rod, 405-first fastener, 406-sliding block, 407-positioning stud, 501-support column, 502-upper stop block, 503-second sliding groove seat, 504-horizontal guide rail seat, 505-second L-shaped fixed block, 506-V-shaped support block, 507-positioning screw, 601-vertical driving motor, 602-vertical motor seat, 603-vertical linear guide rail, 604-horizontal motor seat, 605-vertical support plate, 606-horizontal driving motor, 607-horizontal lead screw nut, 608-horizontal lead screw, 609-bracket, 610-horizontal linear guide rail, 611-vertical lead screw nut, lead screw, 612-mechanical clamp, 613-moving seat, 614-moving seat, 615-vertical screw rod, 616-vertical slide block and 617-mounting frame.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

as shown in fig. 1-8, an electric power lead heat-shrinkable tube processing and assembling device comprises a base 7, a workbench 8, a batching device 1, a pulling device 2, a cutting device 3, a transfer forming device 4, a tube supporting device 5 and a tube moving device 6, wherein the workbench 8 is fixed on the base 7, the base 7 is arranged on the ground, the pulling device 2, the cutting device 3, the transfer forming device 4 and the tube supporting device 5 are sequentially fixed on the workbench 8 from left to right, the batching device 1 is arranged on the base 7 on the left side of the workbench 8, and the tube moving device 6 is arranged on the ground on the right side of the workbench 8.

The batching device 1 comprises a batching tray 102, a driving feeding motor 107, a support frame 106, a feeding motor base 108, a rotating shaft 101, an adjusting frame 105 and a swing rod, wherein the support frame 106 is fixed on the workbench 8, the feeding motor base 108 is fixed on the support frame 106, the driving feeding motor 107 is horizontally arranged on the feeding motor base 108, the rotating shaft 101 is arranged in the middle of the batching tray 102, one end of the rotating shaft 101 of the batching tray 102 is connected to a motor head of the driving feeding motor, a heat shrinkable tube 103 to be processed is wound on the batching tray 102, and the driving feeding motor 107 drives the rotating shaft 101 of the batching tray 102 and the batching tray 102 to rotate together when rotating, so that the discharging operation of the heat shrinkable tube 103 wound on the batching tray 102 is realized; the adjusting frame 105 is vertically fixed on the supporting frame 106 on the right side of the batching tray 102, the swing rod comprises a swing arm 109 and a supporting shaft 104, the swing arm 109 is connected to the adjusting frame 105, the supporting shaft 104 is vertically installed at one end of the swing arm 109, and the supporting shaft 104 is located below the movement path of the heat shrink tube 103.

The material pulling device 2 comprises a material pulling driving motor 203, a material pulling bearing seat, a bearing, a material pulling side plate 204, an upper central shaft 205, an upper material pulling barrel 206, a lower central shaft 209, a lower material pulling barrel 208, a transmission gear 207 and a guide plate 201; the two material pulling side plates 204 are arranged in parallel, and the two material pulling side plates 204 are both vertically fixed on the workbench 8; the upper central shaft 205 is horizontally supported on the two material pulling side plates 204 through a bearing, one end of the upper central shaft 205 extends out of one material pulling side plate 204 and is connected with a transmission gear 207, the lower central shaft 209 is horizontally supported on the two material pulling side plates 204 through a bearing, one end of the lower central shaft 209 extends out of one material pulling side plate 204 and is connected with one transmission gear 207, the lower central shaft 209 and the upper central shaft 205 are arranged in parallel, the lower central shaft 209 is arranged under the upper central shaft 205, the transmission gear 207 connected with one end of the upper central shaft 205 is meshed with a gear connected with one end of the lower central shaft 209, the upper material pulling barrel 206 is sleeved on the upper central shaft 205 between the two material pulling side plates 204, the upper material pulling barrel 206 and the upper central shaft 205 are fixedly connected through a key, the lower material pulling barrel 208 is sleeved on the lower central shaft 209 between the two material pulling side plates 204, and the lower material pulling barrel, a gap for moving the heat supply shrinkage pipe 103 is reserved between the upper pulling barrel 206 and the lower pulling barrel 208; the material pulling driving motor 203 is fixed on the workbench 8 on one side of the material pulling side plate 204, a driving shaft of the material pulling driving motor 203 is fixedly connected with one end of the lower central shaft 209 through a key, the lower central shaft 209 is driven to rotate when the material pulling driving motor 203 moves, the upper central shaft 205 is driven to reversely rotate through the two transmission gears 207 when the lower central shaft 209 rotates, and then the upper material pulling barrel 206 and the lower material pulling barrel 208 are driven to reversely rotate; the guide plate 201 is fixed on the two material pulling side plates 204, and the bottom of the guide groove on the guide plate 201 is parallel to the highest point of the material pulling barrel 208.

The cutting device 3 comprises a movable cutting tool bit 304, a fixed cutting tool bit 305, a cutting driving motor 310, an outer shell 303 and a cutting motor support 302, wherein the outer shell 303 is fixed on the workbench 8, the fixed cutting tool bit 305 is fixed inside the outer shell 303, the cutting motor support 302 is fixed at the upper end of the outer shell 303, the cutting driving motor 310 is fixed on the cutting motor support 302, the cutting driving motor 310 is vertically arranged, and a motor head at the lower end of the cutting driving motor 310 is connected with the movable cutting tool bit 304; the inside track that is provided with activity cutting tool bit 304 and moves of shell body 303, fixed cutting tool bit 305 and activity cutting tool bit 304 set up relatively, drive activity cutting tool bit 304 along the inside track rectilinear motion of shell body 303 when cutting driving motor 310 motion, and then realize that activity cutting tool bit 304 is close to and keeps away from fixed cutting tool bit 305.

The transfer molding device 4 comprises an angle-shaped block 401, a sliding block 406, a first sliding rod 404, a first sliding groove seat 403, a first fastener 405 and a first L-shaped fixed block 402, wherein the first L-shaped fixed block 402 is fixed on the workbench 8, the first sliding groove seat 403 is fixed on one side surface of the first L-shaped fixed block 402, the first sliding groove seat 403 is provided with two vertically arranged sliding grooves, the two first sliding rods 404 are respectively sleeved on the two sliding grooves of the first sliding groove seat 403, the upper ends of the two first sliding rods 404 are connected to the lower surface of the first fastener 405, the upper surface of the first fastener 405 is fixedly connected with the angle-shaped block 401, the downward convex side of the angle-shaped block 401 is close to the upper surface of the first L-shaped fixed block 402, and the upper surfaces of the angle-shaped block 401 and the first L-shaped fixed block 402 jointly form a containing cavity for containing the heat shrinkable tube 103 which is expanded into a tubular shape; the surface of the first sliding groove seat 403 is also provided with a vertical linear groove, the sliding block 406 is sleeved in the vertical linear groove, the upper end of the sliding block 406 is provided with a support column 501, the upper end of the support column 501 supports the lower surface of the first fastening piece 405, the sliding block 406 is provided with a positioning through hole, the bottom of the vertical linear groove is provided with a plurality of positioning threaded holes, and the positioning stud 407 penetrates through the positioning through hole in the sliding block 406 and is screwed into the positioning threaded hole in the bottom of the vertical linear groove to realize the positioning of the sliding block 406.

The pipe supporting device 5 comprises a supporting column 501, a V-shaped supporting block 506, an upper stop block 502, a second sliding rod, a second sliding groove seat 503, a second fastener, a second L-shaped fixing block 505 and a horizontal guide rail seat 504, wherein the horizontal guide rail seat 504 is fixed on the workbench 8, the second L-shaped fixing block 505 is sleeved on the horizontal guide rail seat 504, and the second sliding groove seat 503 is fixed on the second L-shaped fixing block 505; the second L-shaped fixing block 505 is provided with two vertically arranged sliding grooves, two second sliding rods are respectively sleeved on the two sliding grooves of the second sliding groove seat 503, the upper ends of the two second sliding rods are connected to the lower surface of a second fastener, the upper surface of the second fastener is fixedly connected with the upper baffle block 502, the V-shaped supporting block 506 is fixed on the second sliding groove seat 503, one end of the strut 501 is arranged between the V-shaped supporting block 506 and the upper baffle block 502 and is attached to the second sliding groove seat 503, and the V-shaped supporting block 506 and the upper baffle block 502 jointly occupy one end of the strut 501; the other end of the brace 501 is in a conical boss shape.

The sleeve moving device 6 comprises a support 609, a vertical support plate 605, a horizontal driving motor 606, a horizontal motor base 604, a horizontal screw rod 608, a horizontal linear guide rail 610, a horizontal moving block 613, a moving base 614, a vertical driving motor 601, a vertical linear guide rail 603, a vertical screw rod 615, a vertical sliding block 616 and a mechanical clamp 612, the vertical support plate 605 is fixed on two supports 609 vertically arranged on the ground through two mounting brackets, a horizontal driving motor 606 is fixed on the vertical support plate 605 through a horizontal motor base 604, the horizontal screw rod 608 and the horizontal linear guide rail 610 are both horizontally arranged, one end of the horizontal linear guide rail 610 is fixed on the horizontal motor base 604, the other end of the horizontal linear guide rail 610 is fixed on the vertical support plate 605 through the horizontal screw rod base, one end of the horizontal screw rod 608 is supported on the horizontal screw rod seat, and the other end of the horizontal screw rod 608 is connected with an output shaft of the horizontal driving motor 606; the horizontal moving block 613 is sleeved on the horizontal lead screw 608 through a horizontal lead screw nut 607 and is sleeved on the horizontal linear guide rail 610, and when the horizontal driving motor 606 moves, the horizontal moving block 613 is driven to linearly move along the horizontal linear guide rail 610 and the horizontal lead screw 608 in the horizontal direction; the moving base 614 is fixed on a horizontal moving block 613, the vertical driving motor 601 is vertically fixed on the moving base 614 through a vertical motor base 602, an output shaft at the lower end of the vertical driving motor 601 is connected with the upper end of a vertical screw 615, the lower end of the vertical screw 615 is fixed on the moving base 614 through a vertical screw base, the vertical linear guide rail 603 is installed on the moving base 614, a vertical sliding block 616 is sleeved on the vertical linear guide rail 603, the vertical sliding block 616 is sleeved on the vertical screw 615 through a vertical screw nut, and the vertical driving motor 601 is driven to linearly move along the vertical linear guide rail 603 and the vertical screw 615 when moving; the mechanical clamp 612 is fixed on the vertical sliding block 616, and the clamping hands of the mechanical clamp 612 are arranged vertically downwards.

Deep groove side plates for preventing the heat shrinkable tube 103 from falling off are arranged on two sides of the batching tray 102, and the heat shrinkable tube 103 is wound on the inner ring of the batching tray 102 on the inner side of the deep groove.

The active feeding motor 107 is a stepping motor.

A vertical groove is formed in the adjusting frame 105; one end of the swing arm 109, which is far away from the support shaft 104, is hinged on the support frame 106, a row of threaded holes are arranged on the swing arm 109, and the middle part of the swing arm 109 is fixed by a positioning bolt which passes through a vertical groove on the adjusting frame 105 and is screwed in one of the threaded holes on the swing arm 109.

A bearing seat is further fixed on the workbench 8 between the material pulling driving motor 203 and the material pulling side plate 204, and a driving shaft of the material pulling driving motor 203 is supported on the bearing seat through a material pulling bearing 202.

The shell body 303 is provided with a horizontally arranged cutting hole, the upper end of the fixed cutting tool bit 305 is located in the cutting hole, and the movable cutting tool moves along the track and passes through the cutting hole.

The outer diameter of the support column 501 is equal to the aperture of the heat shrink tube 103, and a central hole is formed in one end, close to the right side, of the support column 501.

The second chute seat 503 is further provided with a plurality of positioning threaded holes, the positioning threaded holes are communicated with the chutes, and the positioning screws 507 penetrate through the positioning threaded holes and screw the second slide bar in the chutes of the second chute seat 503.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, so long as the technical solutions can be realized on the basis of the above embodiments without creative efforts, which should be considered to fall within the protection scope of the patent of the present invention.

Claims

1. The utility model provides a power lead wire pyrocondensation pipe processing and assembly quality which characterized in that: the automatic pipe drawing and supporting device comprises a base (7), a workbench (8), a batching device (1), a drawing device (2), a cutting device (3), a transfer forming device (4), a pipe supporting device (5) and a pipe moving device (6), wherein the workbench (8) is fixed on the base (7), the base (7) is arranged on the ground, the drawing device (2), the cutting device (3), the transfer forming device (4) and the pipe supporting device (5) are sequentially fixed on the workbench (8) according to the sequence from left to right, the batching device (1) is arranged on the base (7) on the left side of the workbench (8), and the pipe moving device (6) is arranged on the ground on the right side of the workbench (8);

the batching device (1) comprises a batching tray (102), a driving feeding motor (107), a supporting frame (106), a feeding motor base (108), a rotating shaft (101), an adjusting frame (105) and a swinging rod, the supporting frame (106) is fixed on the workbench (8), the feeding motor base (108) is fixed on the supporting frame (106), the driving feeding motor (107) is horizontally arranged on the feeding motor base (108), the middle part of the batching tray (102) is provided with a rotating shaft (101), one end of the rotating shaft (101) of the batching tray (102) is connected to the motor head of the driving feeding motor, a heat shrinkable tube (103) to be processed is wound on the batching tray (102), the rotating shaft (101) of the batching tray (102) is driven to rotate together with the batching tray (102) when the driving feeding motor (107) rotates, thereby realizing the discharging operation of the heat shrinkable tube (103) wound on the batching tray (102); the adjusting frame (105) is vertically fixed on a supporting frame (106) on the right side of the batching tray (102), the swing rod comprises a swing arm (109) and a supporting shaft (104), the swing arm (109) is connected to the adjusting frame (105), the supporting shaft (104) is vertically installed at one end of the swing arm (109), and the supporting shaft (104) is located below a movement path of the heat shrinkable tube (103);

the material pulling device (2) comprises a material pulling driving motor (203), a material pulling bearing seat, a bearing, a material pulling side plate (204), an upper central shaft (205), an upper material pulling barrel (206), a lower central shaft (209), a lower material pulling barrel (208), a transmission gear (207) and a guide plate (201); the two material pulling side plates (204) are arranged in parallel, and the two material pulling side plates (204) are vertically fixed on the workbench (8); the material pulling device is characterized in that the upper central shaft (205) is horizontally supported on the two material pulling side plates (204) through a bearing, one end of the upper central shaft (205) extends out of one material pulling side plate (204) and is connected with a transmission gear (207), the lower central shaft (209) is horizontally supported on the two material pulling side plates (204) through a bearing, one end of the lower central shaft (209) extends out of one material pulling side plate (204) and is connected with a transmission gear (207), the lower central shaft (209) and the upper central shaft (205) are arranged in parallel, the lower central shaft (209) is arranged under the upper central shaft (205), the transmission gear (207) connected with one end of the upper central shaft (205) is meshed with the gear connected with one end of the lower central shaft (209), the upper pulling material barrel (206) is sleeved on the upper central shaft (205) between the two material pulling side plates (204), and the upper pulling material barrel (206) is fixedly connected with the upper, the lower pulling barrel (208) is sleeved on a lower central shaft (209) between the two pulling side plates (204), the lower pulling barrel (208) is fixedly connected with the lower central shaft (209) through a key, and a gap for moving the heat supply shrinkage pipe (103) is reserved between the upper pulling barrel (206) and the lower pulling barrel (208); the material pulling driving motor (203) is fixed on the workbench (8) on one side of the material pulling side plate (204), a driving shaft of the material pulling driving motor (203) is fixedly connected with one end of the lower central shaft (209) through a key, the lower central shaft (209) is driven to rotate when the material pulling driving motor (203) moves, the upper central shaft (205) is driven to rotate reversely through the two transmission gears (207) when the lower central shaft (209) rotates, and then the upper material pulling barrel (206) and the lower material pulling barrel (208) are driven to rotate reversely; the guide plate (201) is fixed on the two material pulling side plates (204), and the bottom of a guide groove on the guide plate (201) is parallel to the highest point of the material pulling barrel (208);

the cutting device (3) comprises a movable cutting tool bit (304), a fixed cutting tool bit (305), a cutting driving motor (310), an outer shell (303) and a cutting motor support (302), the outer shell (303) is fixed on the workbench (8), the fixed cutting tool bit (305) is fixed inside the outer shell (303), the cutting motor support (302) is fixed at the upper end of the outer shell (303), the cutting driving motor (310) is fixed on the cutting motor support (302), the cutting driving motor (310) is vertically arranged, and a motor head at the lower end of the cutting driving motor (310) is connected with the movable cutting tool bit (304); a track for the movement of the movable cutting tool bit (304) is arranged in the outer shell (303), the fixed cutting tool bit (305) and the movable cutting tool bit (304) are arranged oppositely, and the movable cutting tool bit (304) is driven to linearly move along the track in the outer shell (303) when the cutting driving motor (310) moves, so that the movable cutting tool bit (304) is close to and far away from the fixed cutting tool bit (305);

the transfer molding device (4) comprises an angle-shaped block (401), a sliding block (406), a first sliding rod (404), a first sliding groove seat (403), a first fastener (405) and a first L-shaped fixing block (402), wherein the first L-shaped fixing block (402) is fixed on the workbench (8), the first sliding groove seat (403) is fixed on one side face of the first L-shaped fixing block (402), two vertically-arranged sliding grooves are formed in the first sliding groove seat (403), the two first sliding rods (404) are respectively sleeved on the two sliding grooves of the first sliding groove seat (403), the upper ends of the two first sliding rods (404) are connected to the lower surface of the first fastener (405), the upper surface of the first fastener (405) is fixedly connected with the angle-shaped block (401), one side of the downward bulge of the angle-shaped block (401) is close to the upper surface of the first L-shaped fixing block (402), and the upper surfaces of the angle-shaped block (401) and the first L-shaped fixing block (402) jointly form a tubular structure for accommodating the opened upper surface A cavity of a heat shrink tube (103); the surface of the first sliding groove seat (403) is also provided with a vertical linear groove, a sliding block (406) is sleeved in the vertical linear groove, the upper end of the sliding block (406) is provided with a support column (501), the upper end of the support column (501) supports the lower surface of a first fastener (405), the sliding block (406) is provided with a positioning through hole, the bottom of the vertical linear groove is provided with a plurality of positioning threaded holes, and a positioning stud (407) penetrates through the positioning through hole in the sliding block (406) and is screwed into the positioning threaded hole in the bottom of the vertical linear groove to position the sliding block (406);

the pipe supporting device (5) comprises a supporting column (501), a V-shaped supporting block (506), an upper stop block (502), a second sliding rod, a second sliding groove seat (503), a second fastener, a second L-shaped fixing block (505) and a horizontal guide rail seat (504), wherein the horizontal guide rail seat (504) is fixed on a workbench (8), the second L-shaped fixing block (505) is sleeved on the horizontal guide rail seat (504), and the second sliding groove seat (503) is fixed on the second L-shaped fixing block (505); the second L-shaped fixing block (505) is provided with two vertically arranged sliding grooves, two second sliding rods are respectively sleeved on the two sliding grooves of a second sliding groove seat (503), the upper ends of the two second sliding rods are connected to the lower surface of a second fastener, the upper surface of the second fastener is fixedly connected with an upper stop block (502), the V-shaped supporting block (506) is fixed on the second sliding groove seat (503), one end of the supporting column (501) is arranged between the V-shaped supporting block (506) and the upper stop block (502) and attached to the second sliding groove seat (503), and the V-shaped supporting block (506) and the upper stop block (502) jointly occupy one end of the supporting column (501); the other end of the support column (501) is in a conical boss shape;

the sleeve moving device (6) comprises a support (609), a vertical support plate (605), a horizontal driving motor (606), a horizontal motor base (604), a horizontal screw rod (608), a horizontal linear guide rail (610), a horizontal moving block (613), a moving base (614), a vertical driving motor (601), a vertical linear guide rail (603), a vertical screw rod (615), a vertical sliding block (616) and a mechanical clamp (612), wherein the vertical support plate (605) is fixed on two supports (609) vertically arranged on the ground through two mounting frames, the horizontal driving motor (606) is fixed on the vertical support plate (605) through the horizontal motor base (604), the horizontal screw rod (608) and the horizontal linear guide rail (610) are both horizontally arranged, one end of the horizontal linear guide rail (610) is fixed on the horizontal motor base (604), and the other end of the horizontal linear guide rail (610) is fixed on the vertical support plate (605) through the horizontal screw rod base, one end of the horizontal screw rod (608) is supported on the horizontal screw rod seat, and the other end of the horizontal screw rod (608) is connected with an output shaft of the horizontal driving motor (606); the horizontal moving block (613) is sleeved on the horizontal screw rod (608) and the horizontal linear guide rail (610), and when the horizontal driving motor (606) moves, the horizontal moving block (613) is driven to linearly move along the horizontal linear guide rail (610) and the horizontal screw rod (608) in the horizontal direction; the moving base (614) is fixed on a horizontal moving block (613), the vertical driving motor (601) is vertically fixed on the moving base (614) through a vertical motor base (602), an output shaft at the lower end of the vertical driving motor (601) is connected with the upper end of a vertical screw rod (615), the lower end of the vertical screw rod (615) is fixed on the moving base (614) through a vertical screw rod base, the vertical linear guide rail (603) is installed on the moving base (614), a vertical sliding block (616) is sleeved on the vertical linear guide rail (603) and the vertical screw rod (615), and the vertical driving motor (601) drives the vertical sliding block (616) to linearly move along the vertical linear guide rail (603) and the vertical screw rod (615) when moving; the mechanical clamp (612) is fixed on the vertical sliding block (616), and a clamping hand of the mechanical clamp (612) is arranged vertically downwards.

2. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: deep groove side plates for preventing the heat shrinkable tube (103) from falling off are arranged on two sides of the batching tray (102), and the heat shrinkable tube (103) is wound on an inner ring of the batching tray (102) on the inner side of the deep groove.

3. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: the driving feeding motor (107) is a stepping motor.

4. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: a vertical groove is formed in the adjusting frame (105); one end of the swing arm (109), which is far away from the supporting shaft (104), is hinged on the supporting frame (106), a row of threaded holes are formed in the swing arm (109), and the middle part of the swing arm (109) is fixed through a positioning bolt which penetrates through a vertical groove in the adjusting frame (105) and is screwed in one of the threaded holes in the swing arm (109).

5. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: and a bearing seat is further fixed on the workbench (8) between the material pulling driving motor (203) and the material pulling side plate (204), and a driving shaft of the material pulling driving motor (203) is supported on the bearing seat through a material pulling bearing (202).

6. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: the cutting hole that is provided with the level setting on shell body (303), the upper end that the fixed tool bit (305) that cuts is located cuts downtheholely, and the activity cuts the sword and passes through the cutting hole when moving along the track.

7. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: the outer diameter of the support column (501) is equal to the aperture of the heat shrink tube (103), and a center hole is formed in one end, close to the right side, of the support column (501).

8. The power lead heat shrinkable tube processing and assembling device as claimed in claim 1, wherein: the second sliding groove seat (503) is also provided with a plurality of positioning threaded holes, the sliding grooves of the positioning threaded holes are communicated, and a positioning screw rod (507) penetrates through the positioning threaded holes and screws the second sliding rod in the sliding groove of the second sliding groove seat (503).