CN117013344A - Automatic wire connecting and disconnecting device for polyethylene insulated wire - Google Patents

Abstract

The invention relates to an automatic wire connection and disconnection device for a polyethylene insulated wire, which comprises a base, a lifting cylinder, a controller, a chassis, a rotating mechanism, a wire disconnection device and a wiring device, wherein the lifting cylinder and the controller are arranged in the base; the clamping mechanism and the winding mechanism are adopted to replace the traditional manual operation and welding method using welding flux, so that resources are saved, the winding mode is more firm, the interface is not easy to break under stress, and the service life is longer.

Description

Automatic wire connecting and disconnecting device for polyethylene insulated wire

Technical field:

the invention relates to the field of power equipment, in particular to an automatic connection and disconnection device for a polyethylene insulated wire.

The background technology is as follows:

at present, in the power industry, no matter equipment maintenance, equipment test or updating, polyethylene insulated wires are needed, but at present, most of modes adopted for connecting power wires are manual operation, when wiring is conducted, firstly, an insulator needs to be sheared off manually by using a tool, conductors and the insulator are easily sheared off together, waste is easily caused, secondly, operators generally directly twist connector lugs by hands when wiring, and then manually wind insulating tapes. The method is time-consuming and labor-consuming, and because personal habits are different, the force used in the screwing process is different, the phenomenon that the connected wire ends are wound and loosened or the overlapping part is too little, poor contact of wires is caused, and the phenomena of loosening, leakage and the like of the insulating tape are caused easily. There are also many conventional soldering methods, but soldering is prone to falling off of solidified flux at high temperature, and the service life is greatly affected by the environment.

The invention comprises the following steps:

in view of the above, the main purpose of the present invention is to solve the problems of the existing polyethylene insulated wire that the connection and disconnection are troublesome and waste, and to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an automatic wiring device that connects of polyethylene insulated wire, includes base, lift cylinder, controller, chassis, rotary mechanism, wiring device and termination, inside lift cylinder and the controller of setting up of base, the flexible end upper portion installation chassis of lift cylinder, install rotary mechanism on the chassis, rotary mechanism top sets up wiring device and termination respectively, rotary mechanism includes bearing frame, fluted disc, rotary disk, boss and rotating electrical machines, the bottom of chassis sets up the rotating electrical machines, the upper portion fixed mounting bearing frame of chassis, the fluted disc is installed to the bearing frame, the upper portion installation boss of fluted disc, install the rotary disk on the boss, the output of rotating electrical machines passes the chassis, and with the marginal meshing of fluted disc, the controller is connected with lift cylinder, rotating electrical machines, wiring device and termination respectively.

Preferably, four connecting seats are further arranged in the base, lifting rods are arranged on each connecting seat, return springs are arranged on each lifting rod, and the upper part of each lifting rod is fixedly connected with the chassis.

Preferably, the stitch removing device comprises a telescopic mechanism, a box body, a feed mechanism, a stitch removing mechanism, a waste bin and a gear motor, wherein the feed mechanism and the stitch removing mechanism are arranged in the box body, the telescopic mechanism comprises a transverse plate, a telescopic cylinder and a sliding block, the transverse plate is fixedly arranged in the middle of a rotating disc, a first sliding groove and a second sliding groove are respectively formed in two ends of the upper part of the rotating disc, the sliding block is arranged in the first sliding groove, the telescopic cylinder is arranged at the front end of the transverse plate, the front end of the telescopic cylinder is fixedly connected with the sliding block, the box body is arranged at the upper part of the sliding block, the feed mechanism comprises a sleeve, feed wheels, feed belts and a driver, the sleeve is arranged on the inner wall of the box body, the part of the sleeve extends out of the box body, the front end of the sleeve is provided with four feed wheels, the feed wheels are in two-two pairs, the feed wheels are sleeved with the feed belts, each feed wheel is connected with the driver, and the stitch removing mechanism is arranged at the front end of the feed wheels, and the driver is arranged on one side of the box body.

Preferably, the stitch removing mechanism comprises a side plate, a servo motor, a cam, a sliding seat, a first cutting plate, a second cutting plate, a connecting rod, a top plate, a spring and a toothed plate, wherein the side plate is installed in the box body and is configured with a groove in the box body, the servo motor is installed on one side of the side plate, the cam is installed at the output end of the servo motor, the sliding seat is installed on the other side of the side plate, the first cutting plate and the second cutting plate are assembled on the sliding seat, the two sides of the first cutting plate and the two sides of the second cutting plate are respectively and movably connected through the connecting rod, the spring is installed on the connecting rod, the top of the connecting rod is provided with the top plate, the cam is located between the top plate and the first cutting plate, the toothed plate is also installed on one side of the side plate, the speed reducing motor and the waste box are installed on the outer side of the box body, the output end of the speed reducing motor is provided with a gear, the gear is matched with the toothed plate, and the waste box is communicated with the interior of the box body.

Preferably, the wiring device comprises two wiring boards, a walking device, a clamping mechanism and a winding mechanism, wherein the two wiring boards are installed on the rotary disk in a mirror image mode, a round hole is formed in each wiring board, the walking device is installed above the two wiring boards, the clamping mechanism comprises a screw rod, a motor, a lifting seat and a clamp, the screw rod is installed in a second sliding groove, the lifting seat is assembled on the screw rod, the clamp is assembled on the lifting seat, the motor is arranged at the far end of the screw rod, and the winding mechanism is two groups and is installed at the bottom of the walking device.

The winding mechanism mainly comprises a telescopic plate, a supporting arm, an open fluted disc, a traction hole, a driving gear, two driven gears and a driving motor, wherein the telescopic plate is arranged at the bottom of the walking device, the telescopic plate is vertically arranged with the supporting arm, the open fluted disc is arranged on one side of the supporting arm, the traction hole is formed in the open fluted disc, one side of the open fluted disc is meshed with the two driven gears, the two driven gears are meshed with the driving gear, and the driving gear is connected with the driving motor.

The principle of the invention is as follows:

the invention mainly comprises two parts of disconnecting and connecting, firstly, the equipment can be used for adjusting the height under the action of the lifting cylinder according to the operation condition, and after the height adjustment is finished, the rotating motor is controlled to rotate according to the operation requirement. When the stitch removing is selected, the stitch removing device is adjusted to a designated position, then the electric wire to be removed is sent to the sleeve, the wire is clamped and sent to the stitch removing mechanism by the feed mechanism, the servo motor drives the cam to rotate during stitch removing, the upper top plate drives the second cutting plate to move upwards in the rotating process, and simultaneously the first cutting plate extrudes the first cutting plate to move downwards under the action of the cam, so that the insulating part of the electric wire is cut off, and the driver reverses to take out the electric wire after cut off, so that stitch removing is performed. When wiring is needed, the rotating mechanism rotates the wiring device to a designated position, then two wires to be connected are sent to the clamping mechanism through round holes of the wiring board, conductors of the wires are clamped by the clamping mechanism, at the moment, conductor ends are respectively arranged on two sides of the clamp, at the moment, the two side wire harnesses pass through the supporting arm and the open fluted disc through the control walking device, then the walking device controls the expansion plate to move towards the middle until the conductor ends on two sides of the clamp are respectively inserted into traction holes on the inner side of the open fluted disc, and then the driving motor drives the driving gear to rotate, so that the open fluted disc winds the solid ends on the solid wire harnesses.

The invention has the beneficial effects that:

the invention is suitable for different operation requirements, realizes the switching between the disconnecting and the wiring, and adopts the disconnecting mechanism to adjust the length of the disconnecting at any time, thereby having higher adaptability; in addition, the clamping mechanism and the winding mechanism are adopted to replace the traditional manual operation and welding method using welding flux, so that resources are saved, the winding mode is more firm, the interface is not easy to break under stress, and the service life is longer.

Description of the drawings:

fig. 1 is a schematic three-dimensional structure of an automatic connection and disconnection device for polyethylene insulated wires;

fig. 2 is a schematic diagram of a front view structure of an automatic connection and disconnection device for polyethylene insulated wires;

fig. 3 is a schematic top view of an automated wire splicing and stripping device for polyethylene insulated wires;

FIG. 4 is a schematic cross-sectional view taken along line A-A in FIG. 3;

FIG. 5 is a schematic cross-sectional view taken along line B-B in FIG. 3;

FIG. 6 is an enlarged schematic view of the structure along the portion C in FIG. 4;

FIG. 7 is an enlarged schematic view of the structure along the portion D in FIG. 5;

FIG. 8 is a schematic cross-sectional view taken along line E-E in FIG. 2;

in the figure: the chassis 1, the lifting cylinder 2, the controller 3, the chassis 4, the rotating mechanism 5, the disconnecting device 6, the wiring device 7, the connecting base 8, the lifting lever 9, the return spring 10, the bearing housing 50, the toothed disc 51, the rotating disc 52, the boss 53, the rotating motor 54, the telescopic mechanism 61, the traverse 610, the telescopic cylinder 611, the slider 612, the case 62, the feeding mechanism 63, the sleeve 630, the feeding wheel 631, the feeding belt 632, the driver 633, the disconnecting mechanism 64, the side plate 640, the servo motor 641, the cam 642, the sliding base 643, the first cutting plate 644, the second cutting plate 645, the connecting rod 646, the top plate 647, the spring 648, the toothed plate 649, the waste bin 65, the speed reducing motor 66, the wiring plate 70, the walker 71, the clamping mechanism 72, the lead screw 720, the motor 721, the lifting base 722, the clamp 723, the winding mechanism 73, the telescopic plate 730, the support arm, the opening toothed disc 732, the drawing hole 733, the driving gear 734, the driven gear 735, and the driving motor 736.

The specific embodiment is as follows:

for the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

The present invention provides the following specific examples.

Embodiment 1, refer to fig. 1-8, an automatic wire connecting and disconnecting device of polyethylene insulated wire, including base 1, lift cylinder 2, controller 3, chassis 4, rotary mechanism 5, wire disconnecting device 6 and termination 7, the inside lift cylinder 2 and the controller 3 of setting up of base 1, the chassis 4 is installed to the telescopic end upper portion of lift cylinder 2, install rotary mechanism 5 on the chassis 4, rotary mechanism 5 top sets up wire disconnecting device 6 and termination 7 respectively, rotary mechanism 5 includes bearing frame 50, fluted disc 51, rotary disk 52, boss 53 and rotary motor 54, the bottom of chassis 4 sets up rotary motor 54, the upper portion fixed mounting bearing frame 50 of chassis 4, bearing frame 50 installs fluted disc 51, the upper portion of fluted disc 51 installs boss 53, install rotary disk 52 on the boss 53, rotary motor 54's output passes chassis 4, and meshes with the edge of fluted disc 51, controller 3 is connected with lift cylinder 2, rotary motor 54, wire disconnecting device 6 and termination 7 respectively.

Principle of rotation: the rotating motor 54 drives the fluted disc 51 to rotate, and the boss 53 on the fluted disc 51 drives the rotating disc 52 to rotate, so that the angle adjustment can be performed, the stitch removing and the stitch connecting can be independently satisfied, and the stitch connecting and the stitch removing can be simultaneously performed.

The inside of base 1 still sets up four connecting seats 8, dispose lifter 9 on every connecting seat 8, install return spring 10 on every lifter 9, and the upper portion and the chassis 4 fixed connection of every lifter 9, the main aim at of connecting seat 8 supports return spring 10, after lifting cylinder 2 pressure release, under return spring 10's effect, chassis 4 slowly descends, can not descend rapidly and cause base 1 to damage.

The stitch removing device 6 comprises a telescopic mechanism 61, a box body 62, a feeding mechanism 63, a stitch removing mechanism 64, a waste box 65 and a gear motor 66, wherein the feeding mechanism 63 and the stitch removing mechanism 64 are arranged inside the box body 62, the telescopic mechanism 61 comprises a transverse plate 610, a telescopic cylinder 611 and a sliding block 612, the transverse plate 610 is fixedly arranged in the middle of the rotary disc 52, a first sliding groove and a second sliding groove are respectively formed in the two ends of the upper portion of the rotary disc 52, the sliding block 612 is arranged in the first sliding groove, the telescopic cylinder 611 is arranged at the front end of the transverse plate 610, the front end of the telescopic cylinder 611 is fixedly connected with the sliding block 612, the box body 62 is arranged on the upper portion of the sliding block 612, and the sliding block 612 can move left and right under the action of the telescopic cylinder 611 so as to adjust the distance conveniently. The feeding mechanism 63 comprises a sleeve 630, feeding wheels 631, feeding belts 632 and a driver 633, the sleeve 630 is mounted on the inner wall of the box 62 and partially extends out of the box 62, four feeding wheels 631 are arranged at the front end of the sleeve 630, the feeding wheels 631 are arranged in pairs, the feeding belts 632 are sleeved between the feeding wheels 631 in pairs, each feeding wheel 631 is connected with the driver 633, the stitch removing mechanism 64 is mounted at the front end of the feeding wheel 631, the driver 633 is mounted on the outer side of the box 62, the waste box 65 is mounted on the outer side of the box 62 and opposite to the stitch removing mechanism 64, and the waste box 65 collects cut insulating materials by adopting an adsorption principle.

The feeding process comprises the following steps: the feeding process includes feeding and receiving, the wire is fed into the sleeve when fed, the feeder belt 632 clamps the end of the wire, and the feeding and receiving are controlled by the driver 633 to control the feeding wheel 631 to rotate positively and negatively.

The stitch removing mechanism 64 comprises a side plate 640, a servo motor 641, a cam 642, a sliding seat 643, a first cutting plate 644, a second cutting plate 645, a connecting rod 646, a top plate 647, a spring 648 and a toothed plate 649, wherein the side plate 640 is installed in the box 62 and matched with a groove in the box 62, the servo motor 641 is installed on one side of the side plate 640, the cam 642 is installed at the output end of the servo motor 641, the sliding seat 643 is installed on the other side of the side plate 640, the first cutting plate 644 and the second cutting plate 645 are assembled on the sliding seat 643, the two sides of the first cutting plate 644 and the second cutting plate 645 are respectively and movably connected through the connecting rod 646, the spring 648 is installed on the connecting rod 646, the top plate 647 is arranged on the upper portion of the connecting rod 646, the cam 642 is located between the top plate 647 and the first cutting plate 644, the toothed plate 649 is also installed on one side of the side plate 640, the output end of the speed reducing motor 66 is provided with a gear, the gear is matched with the toothed plate 649, and the waste bin 65 is communicated with the interior of the box 62.

And (3) a disconnecting process: during the wire stripping, the servo motor 641 drives the cam 642 to rotate, in the rotating process, the upper top plate 647 drives the second cutting plate 645 to move upwards under the action of the cam 642, meanwhile, the first cutting plate 644 moves downwards under the extrusion of the cam 642 to cut off the insulation part of the electric wire, in the process, the first cutting plate 644 and the second cutting plate 645 continuously move along the sliding seat 643, the spring 648 on the connecting rod 646 mainly acts as buffering and pressure relief, the conductor cannot be cut off under the action of the spring 648, the wire stripping machine can be suitable for the operation of conductors with different diameters, and after the diameter of the conductor is changed, the gap between the first cutting plate 644 and the second cutting plate 645 can be adjusted by screwing the nuts on the connecting rod 646 and the top plate 647.

Example 2:

the difference from embodiment 1 is that the wiring device 7 includes two wiring boards 70, a walking device 71, a clamping mechanism 72 and a winding mechanism 73, the two wiring boards 70 are installed on the rotary disk 52 in a mirror image mode, a round hole is formed in each wiring board 70, the walking device 71 is installed above the two wiring boards 70, the clamping mechanism 72 includes a lead screw 720, a motor 721, a lifting seat 722 and a clamp 723, the lead screw 720 is installed in the second sliding groove, the lifting seat 722 is assembled on the lead screw 720, the clamp 723 is assembled on the lifting seat 722, the motor 721 is arranged at the far end of the lead screw 720, and the winding mechanism 73 is two groups and is installed at the bottom of the walking device 71.

The winding mechanism 73 comprises a telescopic plate 730, a supporting arm 731, an opening fluted disc 732, a traction hole 733, a driving gear 734, two driven gears 735 and a driving motor 736, wherein the telescopic plate 730 is arranged at the bottom of the walker 71, the telescopic plate 730 is vertically arranged with the supporting arm 731, the opening fluted disc 732 is assembled on one side of the supporting arm 731, the traction hole 733 is arranged on the opening fluted disc 732, one side of the opening fluted disc 732 is meshed with the two driven gears 735, the two driven gears 734 are arranged on the inner side of the supporting arm 731, the two driven gears 735 are meshed with the driving gear 734, and the driving gear 734 is connected with the driving motor 736.

The wiring process comprises the following steps: two wires to be connected are fed into the clamping mechanism 72 through the round holes of the wiring board 70, the clamping mechanism 72 clamps conductors of the wires, at this time, conductor ends are respectively arranged on two sides of the clamp 723, at this time, the two side wire harnesses pass through the supporting arm and the open fluted disc by controlling the walking device 7 to move to a designated position, then the walking device 7 controls the telescopic plate 730 to move towards the middle until the conductor ends on two sides of the clamp 723 are respectively inserted into the traction holes 733 on the inner side of the open fluted disc 732, and then the drive motor 736 drives the driving gear 734 to rotate, and the open fluted disc 732 winds the solid ends on the solid wire harness.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides an automatic wiring device of taking out stitches of insulating electric wire of polyethylene, includes base (1), lift cylinder (2), controller (3), chassis (4), rotary mechanism (5), device of taking out stitches (6) and termination (7), inside lift cylinder (2) and the controller (3), its characterized in that of setting up of base (1): the lifting device is characterized in that a chassis (4) is mounted on the upper portion of the telescopic end of the lifting cylinder (2), a rotating mechanism (5) is mounted on the chassis (4), a disconnecting device (6) and a wiring device (7) are respectively arranged on the upper portion of the rotating mechanism (5), the rotating mechanism (5) comprises a bearing seat (50), a fluted disc (51), a rotating disc (52), a boss (53) and a rotating motor (54), the rotating motor (54) is arranged at the bottom of the chassis (4), the bearing seat (50) is fixedly mounted on the upper portion of the chassis (4), the fluted disc (51) is mounted on the bearing seat (50), a rotating disc (52) is mounted on the boss (53), the output end of the rotating motor (54) penetrates through the chassis (4) and is meshed with the edge of the fluted disc (51), and the controller (3) is connected with the lifting cylinder (2), the rotating motor (54), the disconnecting device (6) and the wiring device (7) respectively.

2. An automated polyethylene insulated wire splicing and stripping apparatus according to claim 1, wherein: four connecting seats (8) are further arranged in the base (1), lifting rods (9) are arranged on each connecting seat (8), return springs (10) are arranged on each lifting rod (9), and the upper portion of each lifting rod (9) is fixedly connected with the chassis (4).

3. An automated polyethylene insulated wire splicing and stripping apparatus according to claim 1, wherein: the stitch removing device (6) comprises a telescopic mechanism (61), a box body (62), a feeding mechanism (63), a stitch removing mechanism (64), a waste box (65) and a gear motor (66), wherein the feeding mechanism (63) and the stitch removing mechanism (64) are arranged inside the box body (62), the telescopic mechanism (61) comprises a transverse plate (610), a telescopic cylinder (611) and a sliding block (612), the transverse plate (610) is fixedly arranged in the middle of a rotating disc (52), the two ends of the upper part of the rotating disc (52) are respectively provided with a first sliding groove and a second sliding groove, the sliding block (612) is arranged in the first sliding groove, the front end of the transverse plate (610) is provided with the telescopic cylinder (611), the front end of the telescopic cylinder (611) is fixedly connected with the sliding block (612), the upper part of the sliding block (612) is provided with the box body (62), the feeding mechanism (63) comprises a sleeve (630), a feeding belt (632) and a driver (633), the sleeve (630) is arranged on the inner wall of the box body (62), the part of the box body (631), the sleeve (631) is provided with two pairs of feeding wheels (631) and two pairs of feeding rollers (631) are sleeved on the front end of the two feeding belt (631), each feed wheel (631) is connected with a driver (633), the disconnecting mechanism (64) is arranged at the front end of the feed wheel (631), the drivers (633) are arranged at the outer side of the box body (62), and the waste box (65) is arranged at the outer side of the box body (62) and opposite to the disconnecting mechanism (64).

4. An automated polyethylene insulated wire splicing and stripping apparatus according to claim 3, wherein: the disconnecting mechanism (64) comprises a side plate (640), a servo motor (641), a cam (642), a sliding seat (643), a first cutting plate (644), a second cutting plate (645), a connecting rod (646), a top plate (647), a spring (648) and a toothed plate (649), wherein the side plate (640) is installed in a box body (62) and matched with a groove in the box body (62), the servo motor (641) is installed on one side of the side plate (640), a cam (642) is installed at the output end of the servo motor (641), a sliding seat (643) is installed on the other side of the side plate (640), the sliding seat (643) is provided with the first cutting plate (644) and the second cutting plate (645), two sides of the first cutting plate (644) and the second cutting plate (645) are respectively and movably connected through the connecting rod (646), the spring (648) is installed on the connecting rod (646), the top plate (647) is arranged on the upper part of the connecting rod (646), the cam (642) is located between the top plate (647) and the first cutting plate (647) and the toothed plate (649), the gear (649) is also matched with the gear (66) on one side of the side plate (6466), the waste box (65) is communicated with the inside of the box body (62).

5. An automated polyethylene insulated wire splicing and stripping apparatus according to claim 1, wherein: the wiring device (7) comprises two wiring boards (70), a walking device (71), a clamping mechanism (72) and a winding mechanism (73), wherein the two wiring boards (70) are installed on a rotating disc (52) in a mirrored mode, round holes are formed in each wiring board (70), the walking device (71) is installed above the two wiring boards (70), the clamping mechanism (72) comprises a lead screw (720), a motor (721), a lifting seat (722) and a clamp (723), the lead screw (720) is installed in the second sliding groove, the lifting seat (722) is assembled on the lead screw (720), the clamp (723) is assembled on the lifting seat (722), the motor (721) is arranged at the far end of the lead screw (720), and the winding mechanism (73) is two groups and is installed at the bottom of the walking device (71).

6. An automated polyethylene insulated wire splicing and stripping apparatus according to claim 5, wherein: winding mechanism (73) are including expansion plate (730), support arm (731), open tooth disc (732), draw hole (733), driving gear (734), two driven gears (735) and driving motor (736), expansion plate (730) are installed in runner (71) bottom, expansion plate (730) are installed perpendicularly with support arm (731), open tooth disc (732) are joined in marriage to one side of support arm (731), set up draw hole (733) on open tooth disc (732), open tooth disc (732) one side and two driven gears (735) meshing, the inboard at support arm (731) is installed to two driven gears (734), two driven gears (735) still mesh with driving gear (734), driving gear (734) are connected with driving motor (736).