CN220896222U - High-precision wire harness stripping equipment - Google Patents

Abstract

The utility model discloses high-precision wire harness stripping equipment which comprises a machine table, a positioning module fixedly assembled on one side of the machine table, a wire carrier for loading wires, a wire cutting driving source assembled on the other side of the machine table, and a wire cutting module in driving connection with the wire cutting driving source, wherein the positioning module is provided with a tool base mounted on the machine table and a wire pressing mechanism arranged on the tool base. The automatic wire cutting device has the advantages that the positioning module is matched with the wire cutting module for use, the full-automatic wire cutting sheath removal can be realized, compared with manual peeling, the automatic wire cutting device has the advantages that the efficiency is high, the accuracy is higher, in addition, the upper cutter and the lower cutter are provided with profiling cutting edges matched with the wire harness, the inside of a core wire can be effectively avoided through the structural design, and the inside of the core wire cannot be cut; in addition, the equipment adopts the modular combination of the modules, and each module runs independently, so that the equipment can be independently disassembled, replaced and maintained when a certain module is abnormal.

Description

High-precision wire harness stripping equipment

Technical Field

The utility model relates to the technical field of wires, in particular to high-precision wire harness stripping equipment.

Background

With the rise of 5G, the data transmission quality determines the application of artificial intelligence and man-machine interaction technology to a great extent, so that the subsequent market trend is determined, such as higher requirements on the processing and production of high-frequency high-speed transmission lines. The existing high-frequency high-speed cable component is generally peeled manually, and has poor precision and unstable quality, so that the fluctuation of product quality is large, and therefore, a wire peeling device with high precision, good stability and good maintenance needs to be provided.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide high-precision wire harness stripping equipment.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: a high-precision wire harness stripping device comprises a machine table, a positioning module fixedly assembled on one side of the machine table, a wire carrier for loading wires, a wire cutting driving source assembled on the other side of the machine table, and a wire cutting module in driving connection with the wire cutting driving source, wherein the positioning module is provided with a tool base mounted on the machine table and a wire pressing mechanism arranged on the tool base, when the wire carrier is assembled on the tool base, the wire carrier is pressed down by the wire pressing mechanism to position the wire carrier, the wire cutting module is provided with an upper cutter and a lower cutter, and when the wire cutting module is driven by the driving source to move in place, the upper cutter and the lower cutter are used in combination to cut the outer skin of the wires in the wire carrier.

In further technical scheme, line ball mechanism is including setting up in the line ball base of frock base, sliding connection in the line ball slide of line ball base, fixed mounting in line ball base and be used for driving the line ball slide to push down the driving source, the line ball slide is equipped with a plurality of briquetting.

In a further technical scheme, each pressing block is provided with a wire pressing groove, the pressing driving source drives the wire pressing sliding seat to press downwards, the pressing blocks press downwards to support the wire carrier on the tool base, and the wire is kept in the wire pressing groove.

In a further technical scheme, the tool base is provided with a positioning column, the wire carrier is provided with a positioning groove matched with the positioning column, and when the wire carrier is placed on the tool base, the positioning column is inserted into the positioning groove of the wire carrier so as to enable the positioning wire carrier to be kept on the tool base.

In a further technical scheme, the wire carrier comprises a wire carrying base, and a threading plate and a wire clamping plate which are respectively assembled on the wire carrying base, wherein the threading plate is provided with a plurality of threading grooves, and the wire clamping plate is arranged on the threading plate so as to enable wires to be kept in the threading grooves.

In a further technical scheme, the wire carrier further comprises a pressing part and a pull rod, one end of the wire clamping plate is rotatably mounted on the wire carrying base through a first rotating shaft, the pressing part is rotatably mounted on the wire carrying base through a second rotating shaft, the pull rod is rotatably assembled on the second rotating shaft, the pull rod drives the second rotating shaft to rotate, and the pressing part rotates along with the second rotating shaft to abut against the wire clamping plate.

In a further technical scheme, cut line module includes mount pad, fixed mounting in the last cutter actuating source of mount pad upper portion, with last cutter actuating source transmission connection's last blade holder, fixed mounting in the lower cutter actuating source of mount pad lower part and with lower blade holder that lower cutter actuating source transmission is connected, go up the cutter assembly in last blade holder, lower cutter assembly is in lower blade holder, go up the cutter and have the profile modeling cutting edge with pencil adaptation with lower cutter.

In a further technical scheme, cut line module still is provided with fixed assembly in the guide holder of mount pad, and the guide holder is equipped with and is vertical extension's direction slide rail, go up blade holder slidable mounting in the upper portion of direction slide rail, lower blade holder slidable mounting is in the lower part of direction slide rail.

In a further technical scheme, go up cutter driving source including assemble in the first servo motor of the upper portion of mount pad, with first screw nut drive assembly and the first transmission piece of first screw nut transmission connection of first servo motor drive connection, go up blade holder fixed connection in first transmission piece, lower cutter driving source is including the second servo motor of assemble in the lower part of mount pad, with second servo motor drive connection's second screw nut drive assembly and the second transmission piece of second screw nut transmission connection, lower blade holder fixed connection in second transmission piece.

In further technical scheme, still include frame and aircraft bonnet, after the frame is fixed to the assembly of board, the aircraft bonnet cover is located the frame, makes positioning module, cut line module and cut line actuating source built-in the aircraft bonnet, and the aircraft bonnet still has offered the pan feeding hole that can supply the wire rod carrier to load into or take out.

By adopting the structure, compared with the prior art, the utility model has the following advantages:

The automatic wire cutting device has the advantages that the positioning module is matched with the wire cutting module for use, the full-automatic wire cutting sheath removal can be realized, compared with manual peeling, the automatic wire cutting device has the advantages that the efficiency is high, the accuracy is higher, in addition, the upper cutter and the lower cutter are provided with profiling cutting edges matched with the wire harness, the inside of a core wire can be effectively avoided through the structural design, and the inside of the core wire cannot be cut; in addition, the equipment adopts the modular combination of the modules, and each module runs independently, so that the equipment can be independently disassembled, replaced and maintained when a certain module is abnormal.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the present utility model with the housing and hood hidden;

FIG. 3 is a schematic diagram of a positioning module according to the present utility model;

Fig. 4 is a schematic structural view of the wire carrier assembled to the tooling base;

fig. 5 is a schematic structural view of the wire assembled to the wire carrier;

FIG. 6 is a schematic view of the wire carrier after the clamp is hidden;

Fig. 7 is a schematic structural view of the thread cutting driving source and the thread cutting module according to the present utility model;

FIG. 8 is a schematic diagram of a wire cutting module according to the present utility model;

FIG. 9 is a schematic diagram of the upper cutter and the lower cutter in apposition;

Detailed Description

The following are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model.

As shown in fig. 1 to 9, the high-precision wire harness stripping device provided by the utility model comprises a machine table 1, a positioning module 2 fixedly assembled on one side of the machine table 1, a wire carrier 3 for loading wires 01, a wire cutting driving source 4 assembled on the other side of the machine table 1, and a wire cutting module 5 connected with the wire cutting driving source 4 in a driving manner, wherein the positioning module 2 is provided with a tool base 20 mounted on the machine table 1 and a wire pressing mechanism 21 arranged on the tool base 20, and the wire cutting module 5 is provided with an upper cutter 50 and a lower cutter 51.

In specific operation, firstly, the wire 01 is loaded and then the wire carrier 3 is assembled on the tool base 20, then the wire carrier 3 is pressed down by the wire pressing mechanism 21 to position the wire carrier 3 so as to facilitate subsequent wire cutting, and then when the driving source drives the wire cutting module 5 to move in place, the upper cutter 50 and the lower cutter 51 are combined and matched to cut the outer skin of the wire 01 in the wire carrier 3.

The utility model can realize full automatic core wire removing crust through the cooperation of the positioning module 2 and the wire cutting module 5, compared with manual peeling, the structure design is high in efficiency and accuracy, and the upper cutter 50 and the lower cutter 51 are provided with the profiling cutting edge 500 matched with the wire harness, so that the structure design can effectively avoid the inner part of the core wire and does not cut the inner part of the core wire; in addition, the equipment adopts the modular combination of the modules, and each module runs independently, so that the equipment can be independently disassembled, replaced and maintained when a certain module is abnormal.

In this embodiment, the pressing mechanism 21 includes a pressing base 210 erected on the tool base 20, a pressing slide seat 211 slidably connected to the pressing base 210, and a pressing driving source 212 fixedly mounted on the pressing base 210 and used for driving the pressing slide seat 211 to press down, where the pressing slide seat 211 is equipped with a plurality of pressing blocks 213. The wire 01 is fixed by being pressed down by the pressing block 213, thereby ensuring the tangential stability.

Specifically, each of the pressing blocks 213 has a wire groove (not shown), the pressing driving source 212 drives the wire sliding seat 211 to press down, and the pressing block 213 presses down to hold the wire carrier 3 against the tooling base 20 and hold the wire 01 in the wire groove.

In this embodiment, the tooling base 20 is provided with the positioning column 200, the wire carrier 3 is formed with the positioning groove 300 used in cooperation with the positioning column 200, when the wire carrier 3 is placed on the tooling base 20, the positioning column 200 is inserted into the positioning groove 300 of the wire carrier 3 to enable the positioning wire carrier 3 to be kept on the tooling base 20, and when the tooling base is used, only the positioning groove 300 of the wire carrier 3 is required to be aligned with the positioning column 200 of the tooling base 20, and the tooling base is not required to be fixed by adopting other fasteners such as screws or bolts, so that the wire carrier 3 is very convenient to take and place.

In this embodiment, the wire carrier 3 includes a wire carrying base 30, a threading plate 31 and a wire clamping plate 32 respectively assembled on the wire carrying base 30, the threading plate 31 has a plurality of threading grooves 310, and the wire clamping plate 32 is disposed on the threading plate 31 for holding the wires 01 in the threading grooves 310.

Further, the wire carrier 3 further includes a holding member 33 and a pull rod 34, one end of the wire clamping plate 32 is rotatably mounted on the wire carrying base 30 through a first rotating shaft 35, the holding member 33 is rotatably mounted on the wire carrying base 30 through a second rotating shaft, and the pull rod 34 is rotatably mounted on the second rotating shaft.

Specifically, after the wire 01 is installed in the wire threading slot 310, the pull rod 34 drives the second rotating shaft to rotate, and the pressing piece 33 rotating along with the second rotating shaft abuts against the wire clamping plate 32, so that the wire clamping plate 32 and the wire threading plate 31 are in butt joint, and the movement of the wire 01 is limited.

More specifically, the tooling base 20 is provided with a plurality of assembling stations for assembling the wire carriers 3, so that the multi-station motion can be performed simultaneously, and the wire cutting effect is higher.

In this embodiment, the thread cutting module 5 includes a mounting base 52, an upper cutter driving source 53 fixedly mounted on an upper portion of the mounting base 52, an upper cutter holder 54 in transmission connection with the upper cutter driving source 53, a lower cutter driving source 55 fixedly mounted on a lower portion of the mounting base 52, and a lower cutter holder 56 in transmission connection with the lower cutter driving source 55, the upper cutter 50 is assembled on the upper cutter holder 54, and the lower cutter 51 is assembled on the lower cutter holder 56.

When cutting the wire, the upper cutter driving source 53 drives the upper cutter 50 to move downwards, and the lower cutter driving source 55 drives the cutter 51 to move upwards.

More specifically, the wire cutting module 5 is further provided with a guide seat 57 fixedly assembled to the mounting seat 52, the guide seat 57 is equipped with a guide sliding rail 570 extending longitudinally, the upper tool apron 54 is slidably mounted on an upper portion of the guide sliding rail 570, and the lower tool apron 56 is slidably mounted on a lower portion of the guide sliding rail 570.

The guide seat 57 and the guide sliding rail 570 are matched to play a role in guiding, so that the upper cutter 50 and the lower cutter 51 can be ensured to run stably.

In this embodiment, the upper cutter driving source 53 includes a first servomotor 530 assembled at an upper portion of the mounting base 52, a first screw nut transmission assembly 531 drivingly connected to the first servomotor 530, and a first transmission block 532 drivingly connected to the first screw nut, the upper cutter holder 54 is fixedly connected to the first transmission block 532, the lower cutter driving source 55 includes a second servomotor 533 assembled at a lower portion of the mounting base 52, a second screw nut transmission assembly 534 drivingly connected to the second servomotor 533, and a second transmission block (not shown) drivingly connected to the second screw nut, and the lower cutter holder 56 is fixedly connected to the second transmission block.

The servo motor and the screw nut component are adopted as the driving source of the push broach, and compared with a mode of adopting a cylinder piece, the device has higher reliability and better stability.

More specifically, the utility model further comprises a frame 6 and a hood 7, after the machine table 1 is fixedly assembled to the frame 6, the hood 7 is covered on the frame 6, so that the positioning module 2, the wire cutting module 5 and the wire cutting driving source 4 are arranged in the hood 7, the hood 7 is arranged to play a role in protecting, the wire cutting waste is prevented from splashing everywhere to cause difficult cleaning, and the hood 7 is provided with a feeding hole 70, so that a user can conveniently put in or take out the wire carrier 3.

In this embodiment, the wire cutting driving source 4 may be implemented by a linear transmission structure such as a cylinder member or a screw nut assembly, which is not specifically described herein.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (10)

1. A high accuracy pencil equipment of peeling, its characterized in that: the wire cutting device comprises a machine table (1), a positioning module (2) fixedly assembled on one side of the machine table (1), a wire carrier (3) used for loading wires (01), a wire cutting driving source (4) assembled on the other side of the machine table (1) and a wire cutting module (5) connected to the wire cutting driving source (4) in a driving mode, wherein the positioning module (2) is provided with a tool base (20) installed on the machine table (1) and a wire pressing mechanism (21) arranged on the tool base (20), when the wire carrier (3) is assembled on the tool base (20), the wire carrier (3) is pressed down by the wire pressing mechanism (21) to position the wire carrier (3), the wire cutting module (5) is provided with an upper cutter (50) and a lower cutter (51), and when the wire cutting module (5) is driven by the driving source to move to a position, the upper cutter (50) and the lower cutter (51) are matched and used for cutting the outer skin of the wires (01) in the wire carrier (3).

2. The high-precision wire harness stripping apparatus as claimed in claim 1, wherein: the wire pressing mechanism (21) comprises a wire pressing base (210) arranged on the tool base (20), a wire pressing sliding seat (211) connected to the wire pressing base (210) in a sliding mode, and a pressing driving source (212) fixedly arranged on the wire pressing base (210) and used for driving the wire pressing sliding seat (211) to press downwards, wherein the wire pressing sliding seat (211) is provided with a plurality of pressing blocks (213).

3. The high-precision wire harness stripping apparatus as claimed in claim 2, wherein: each pressing block (213) is provided with a wire pressing groove, a pressing driving source (212) drives the wire pressing sliding seat (211) to press downwards, the pressing blocks (213) press downwards to support the wire carrier (3) on the tool base (20), and the wires (01) are kept in the wire pressing groove.

4. The high-precision wire harness stripping apparatus as claimed in claim 1, wherein: the tool base (20) is provided with a positioning column (200), the wire carrier (3) is formed with a positioning groove (300) matched with the positioning column (200), and when the wire carrier (3) is placed on the tool base (20), the positioning column (200) is inserted into the positioning groove (300) of the wire carrier (3) so that the wire carrier (3) is kept on the tool base (20).

5. The high-precision wire harness stripping apparatus as claimed in claim 1, wherein: the wire carrier (3) comprises a wire carrying base (30), and a threading plate (31) and a wire clamping plate (32) which are respectively assembled on the wire carrying base (30), wherein the threading plate (31) is provided with a plurality of threading grooves (310), and the wire clamping plate (32) is arranged on the threading plate (31) and used for enabling wires (01) to be kept in the threading grooves (310).

6. The high-precision wire harness stripping apparatus as claimed in claim 5, wherein: wire rod carrier (3) still include to press and hold piece (33) and pull rod (34), and one end of clamp (32) is installed in carrying line base (30) through first pivot (35) rotation, presses and holds piece (33) and rotate through the second pivot and install in carrying line base (30), and pull rod (34) rotate and assemble in the second pivot, and pull rod (34) drive the second pivot and rotate, press and hold piece (33) along with second pivot pivoted and contradict clamp (32).

7. The high-precision wire harness stripping apparatus as claimed in claim 1, wherein: the wire cutting module (5) comprises a mounting seat (52), an upper cutter driving source (53) fixedly mounted on the upper portion of the mounting seat (52), an upper cutter seat (54) in transmission connection with the upper cutter driving source (53), a lower cutter driving source (55) fixedly mounted on the lower portion of the mounting seat (52) and a lower cutter seat (56) in transmission connection with the lower cutter driving source (55), the upper cutter (50) is assembled on the upper cutter seat (54), the lower cutter (51) is assembled on the lower cutter seat (56), and the upper cutter (50) and the lower cutter (51) are provided with profiling cutting edges (500) matched with a wire harness.

8. The high-precision wire harness stripping apparatus as claimed in claim 7, wherein: the wire cutting module (5) is further provided with a guide seat (57) fixedly assembled on the mounting seat (52), the guide seat (57) is provided with a guide sliding rail (570) extending longitudinally, the upper cutter seat (54) is slidably mounted on the upper portion of the guide sliding rail (570), and the lower cutter seat (56) is slidably mounted on the lower portion of the guide sliding rail (570).

9. The high-precision wire harness stripping apparatus as claimed in claim 7, wherein: the upper cutter driving source (53) comprises a first servo motor (530) assembled on the upper portion of the mounting seat (52), a first screw nut transmission assembly (531) in driving connection with the first servo motor (530) and a first transmission block (532) in driving connection with the first screw nut, the upper cutter seat (54) is fixedly connected with the first transmission block (532), the lower cutter driving source (55) comprises a second servo motor (533) assembled on the lower portion of the mounting seat (52), a second screw nut transmission assembly (534) in driving connection with the second servo motor (533) and a second transmission block in driving connection with the second screw nut, and the lower cutter seat (56) is fixedly connected with the second transmission block.

10. The high-precision wire harness stripping apparatus as claimed in claim 1, wherein: the wire cutting machine further comprises a frame (6) and a hood (7), after the machine table (1) is fixedly assembled to the frame (6), the hood (7) is covered on the frame (6), the positioning module (2), the wire cutting module (5) and the wire cutting driving source (4) are arranged in the hood (7), and the hood (7) is further provided with a feeding hole (70) for the wire carrier (3) to be loaded or unloaded.