CN219636566U - Automatic wire cutting device for flat cable - Google Patents

Abstract

The utility model discloses an automatic wire cutting device for a wire arrangement, which comprises a wire bundling barrel, wherein a wire pulling part, a wire pressing part and a wire cutting part are arranged on the periphery of the wire bundling barrel; the flat cable is pulled to the cylinder surface of the wire harness cylinder through the wire pulling part, and the wire end of the flat cable is tightly pressed through the wire pressing part, so that the flat cable forms a winding wire body which is tightly attached to the cylinder surface on the wire harness cylinder; the tangent line portion corresponds to the wound wire body, and the tangent line portion can be fed radially relative to the wire harness cylinder to chop the wound wire body. The utility model ensures that the flat cable is in the form of a winding wire body and is bound on the binding drum through the cooperation of the wire pulling part and the wire pressing part, thereby ensuring that the cut is smooth and the winding wire body is not damaged by pulling when the wire cutting part cuts the winding wire body.

Description

Automatic wire cutting device for flat cable

Technical Field

The utility model belongs to the technical field of wire arranging and cutting processing, and particularly relates to an automatic wire arranging and cutting device.

Background

The flat cable cutting process is to cut the coiled wire body so as to form a segmented flat cable. The existing wire cutting processing mainly comprises two modes of wire pressing and cutting and wire cutting, and when the wire pressing and cutting and wire cutting are carried out, instant pulling force can be generated on the flat wire, the instant pulling force not only affects the flatness of the incision, but also is easy to cause pulling damage to the wire body.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides an automatic wire cutting device for a wire arrangement, which ensures that a wire arrangement is in a winding wire body form and is bound on a wire binding cylinder through the cooperation of a wire pulling part and a wire pressing part, and ensures that a cut is smooth and the wire arrangement is not damaged by pulling when the wire cutting part cuts the winding wire body.

The technical scheme is as follows: in order to achieve the above purpose, the automatic wire cutting device for the flat cable comprises a wire bundling barrel, wherein a wire pulling part, a wire pressing part and a wire cutting part are arranged on the periphery of the wire bundling barrel; the flat cable is pulled to the cylinder surface of the wire harness cylinder through the wire pulling part, and the wire end of the flat cable is tightly pressed through the wire pressing part, so that the flat cable forms a winding wire body which is tightly attached to the cylinder surface on the wire harness cylinder; the tangent line portion corresponds to the winding wire body, and the tangent line portion can cut the winding wire body relative to the radial feeding of the wire harness cylinder.

Further, a pair of guard plates are symmetrically arranged at the input end of the wire harness cylinder and correspond to the wire pulling part, and a wire arrangement guiding port is formed between the pair of guard plates in a limiting mode.

Further, the wire pressing device comprises a wire pressing driving part corresponding to the wire pressing part, and the wire pressing part drives the relative wire bundling barrel to radially displace through the wire pressing driving part.

Further, the line pressing part is of a line pressing rod structure which is parallel to the axis of the wire bundling barrel.

Further, the wire cutting device comprises a wire cutting driving part corresponding to the wire cutting part, and the wire cutting part drives the relative wire winding barrel to radially displace through the wire cutting driving part.

Further, the tangent line part is positioned between the wire pulling part and the wire pressing part, and the tangent line part is a cutter structure of which the cutter body is parallel to the axis of the wire harness cylinder in the length direction.

Further, the wire pulling part is a driving roller which is driven by a motor to rotate in cooperation with the wire binding cylinder to execute the wire pulling action.

Further, the wire winding device comprises a wire winding drum, wherein the wire winding drum rotates to scatter the wire winding, and the wire winding drum discharges the wire winding to the wire winding drum.

The beneficial effects are that: according to the utility model, the wire ends of the flat wires are pressed and positioned by matching with the wire pressing part of the wire pulling part, so that the flat wires form a winding wire body clung to the surface of the wire binding cylinder, the cut of the winding wire body is smooth when the wire cutting part cuts the winding wire body, the wire body is not damaged by pulling, the cutting action is rapid and thorough, and the quality of the wire cutting processing of the flat wires is ensured.

Drawings

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

FIG. 2 is a schematic view of the structure of the wire harness barrel portion of the present utility model;

fig. 3 is a schematic side view of the wire harness barrel portion of the present utility model.

Detailed Description

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

The flat cable cutting process is to cut the coiled wire body so as to form a segmented flat cable. The existing wire cutting processing mainly comprises two modes of wire pressing and cutting and wire cutting, and when the wire pressing and cutting and wire cutting are carried out, instant pulling force can be generated on the flat wire, the instant pulling force not only affects the flatness of the incision, but also is easy to cause pulling damage to the wire body.

In order to solve the above problems, the technical solution proposed by the present utility model is as shown in fig. 1 and fig. 3, and an automatic wire cutting device for wire arrangement, comprising a wire-binding cylinder 2, wherein a wire-pulling part 4, a wire-pressing part 5 and a wire-cutting part 6 are arranged on the periphery of the wire-binding cylinder 2; the wire laying device comprises a wire laying barrel 1, wherein a wire laying 3 which is rotatably scattered on the wire laying barrel 1 is laid on the wire laying barrel 2; the flat cable 3 is pulled to the cylindrical surface of the wire harness cylinder 2 through the wire pulling part 4, and the wire end of the flat cable 3 is pressed through the wire pressing part 5, so that the flat cable 3 forms a winding wire body which is tightly attached to the cylindrical surface on the wire harness cylinder 2; the tangent line portion 5 corresponds to a wound wire body, and the tangent line portion 5 is capable of cutting the wound wire body by being fed radially with respect to the wire harness drum 2. According to the utility model, the wire ends of the flat wires 3 are pressed and positioned by matching with the wire pressing part 5 of the wire pulling part 4, so that the flat wires 3 form a winding wire body which is tightly attached to the surface of the wire binding cylinder 2, and the cutting is ensured to be smooth and free from pulling and damaging when the wire cutting part 6 cuts the winding wire body, thereby realizing rapid and thorough cutting.

As shown in fig. 2, a pair of guard plates 8 are symmetrically provided at the input end of the wire harness tube 2 at positions corresponding to the wire pulling portions 4, and a wire harness guide port 80 is defined between the pair of guard plates 8 to guide the wire harness 3.

The utility model comprises a wire pressing driving part 10 corresponding to the wire pressing part 5, wherein the wire pressing part 5 drives the relative wire cylinder 2 to radially displace through the wire pressing driving part 10. When the wire pressing is not needed, the wire pressing driving part 10 drives the wire pressing part 5 to move away from the wire bundling barrel 2 in the radial direction, so that the distance between the wire pressing part 5 and the wire bundling barrel 2 for the wire ends of the wire arranging wires 3 to pass is reserved, and when the wire pressing is carried out, the wire pressing driving part 10 drives the wire pressing part 5 to move close to the wire bundling barrel 2 in the radial direction, so that the wire ends of the wire arranging wires 3 are pressed. The wire pressing portion 5 is of a wire pressing rod structure parallel to the axis of the wire bundling barrel 2, namely a cylindrical rod, and the wire pressing portion cannot cause indentation damage to the wire body during wire pressing.

The utility model comprises a tangent driving part 9 corresponding to the tangent part 6, and the tangent part 6 drives the radial displacement relative to the wire harness tube 2 through the tangent driving part 9. More specifically, the tangent line portion 6 is located between the wire pulling portion 4 and the wire pressing portion 5, the tangent line portion 6 is a cutter structure in which the cutter body is parallel to the axis of the wire bundling barrel 2 in the length direction, and the length of the cutter body exceeds the width of the wire arranging barrel 3, so that one-time chopping is ensured.

As shown in fig. 1, the wire pulling portion 4 is a driving roller that is driven by a motor 11 to perform a wire pulling operation in cooperation with the rotation of the wire harness drum 2. In addition, the utility model also comprises a frame 7, the wire binding cylinder 2 is fixedly arranged on the frame 7, the wire pulling part 4 is arranged on the frame 7 in a rotating fit manner, the wire pressing driving part 10 and the wire cutting driving part 9 are both arranged on the frame 7, and the wire pressing driving part 10 and the wire cutting driving part 9 are preferably cylinders.

It should be noted that the wire pulling portion 4 is located at the top end of the wire bundling barrel 2, the wire pressing portion 5 is located at the side of the wire bundling barrel 2, and in order to ensure that the wire end of the flat cable 3 can enter the space between the wire pressing portion 5 and the wire bundling barrel 2 after being pulled by the wire pulling portion 4, the included angle between the wire pulling portion 4 and the wire pressing portion 5 cannot exceed 90 °.

The foregoing is only a preferred embodiment of the utility model, it being noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims (8)

1. An automatic winding displacement trimming device is characterized in that: comprises a wire binding cylinder (2), wherein a wire pulling part (4), a wire pressing part (5) and a wire cutting part (6) are arranged on the periphery of the wire binding cylinder (2); the flat cable (3) is pulled to the cylinder surface of the wire bundling cylinder (2) through the wire pulling part (4), and the wire end of the flat cable (3) is tightly pressed through the wire pressing part (5), so that the flat cable (3) forms a winding wire body which is tightly attached to the cylinder surface on the wire bundling cylinder (2); the tangent part (6) corresponds to a winding wire body, and the tangent part (6) can cut the winding wire body in a radial feeding way relative to the wire harness cylinder (2).

2. The automatic wire cutting device for flat cables according to claim 1, wherein: a pair of guard plates (8) are symmetrically arranged at the input end of the wire bundling barrel (2) and correspond to the wire pulling part (4), and a wire arranging guide opening (80) is formed between the pair of guard plates (8) in a limiting mode.

3. An automatic wire cutting device for flat cables according to claim 2, wherein: the wire pressing device comprises a wire pressing driving part (10) corresponding to the wire pressing part (5), wherein the wire pressing part (5) drives relative wire bundling barrel (2) to radially displace through the wire pressing driving part (10).

4. A wire-arranging automation wire-cutting device according to claim 3, wherein: the wire pressing part (5) is of a wire pressing rod structure which is parallel to the axis of the wire bundling barrel (2).

5. The automatic wire cutting device for flat cables according to claim 4, wherein: comprises a tangent driving part (9) corresponding to the tangent part (6), wherein the tangent part (6) drives the relative wire harness tube (2) to radially displace through the tangent driving part (9).

6. The automatic wire cutting device for flat cables according to claim 5, wherein: the cutting line part (6) is positioned between the wire pulling part (4) and the wire pressing part (5), and the cutting line part (6) is a cutter structure in which the cutter body is parallel to the axis of the wire binding cylinder (2) in the length direction.

7. The automatic wire cutting device for flat cables according to claim 6, wherein: the wire pulling part (4) is a driving roller which is driven by a motor (11) to rotate in coordination with the wire binding cylinder (2) to execute wire pulling action.

8. An automatic wire cutting device for flat cables according to any one of claims 1 to 7, wherein: the wire laying device comprises a wire laying barrel (1), wherein a wire laying (3) which is rotatably scattered on the wire laying barrel (1) is laid down to the wire bundling barrel (2).