SU866630A1 - Device for stripping insulation from wire - Google Patents

Description

one

The invention relates to process equipment for the preparation of electrical wires for installation and can be used in the electrical, radio and other industries.

A device and method for stripping a multi-conductor cable is known, in which the stripping wheels for stripping are made of fiberglass, spread out at some distance from each other, corresponding to the thickness of the wires to be stripped. The circles rotate in the same direction, with the result that the adjacent peripheral elements of these circles move in the opposite direction to each other. 1.

However, making fiberglass stripping wheels does not exclude the possibility of damage to the wire strands when the gap between the working surfaces of the circles changes, resulting in the need to adjust the gap between the circles.

There is also known a method and apparatus for removing insulating materials of protective layers, oxide from profiled wires, containing two grinding wheels made of steel or

artificial glass fibers provided with a rotation drive and located on parallel shafts with a gap between their working surfaces.

However, in this device, in the course of operation, it is necessary to maintain a constant gap between the working surfaces of the grinding wheels, which

10 reduces the performance of the device and the quality of wire processing.

The purpose of the invention is to increase the productivity and quality of the wires being processed.

15

This goal is achieved by the fact that the circles are made of a material that has adhesion to the wire insulation material, for example, vinyl plastic, while isolating a wire made of polyvinyl chloride.

FIG. 1 shows a schematic illustration of the device; in fig. 2 is a view of A in FIG. li in fig. 3 - the node T in FIG. 2

25

To remove the insulation from wires 1, they use grinding wheels 2 equipped with a drive for their rotation (not shown), located on parallel shafts with a gap between their working 30 surfaces. Circles are made

from a material having adhesion to the material of wire insulation 1,.

The table shows the materials of the circle and the insulation of the electrical wire.

Isolation material electrical circular wire material

Polyvinyl chloride

Polyethylene impregnated heat-resistant or fluoroplastic

Polyvinyl chloride

The removal of insulation from electrical wires is carried out as follows.

The wire 1, clamped at a certain distance from the rotating wheels 2, is introduced into the space between the circles 2 to the contact of the wire with the circles 2, where the first isolation section is removed (Fig. 2,1). Then, a pair of forces appeared during the friction of the wire 1 about the rotating circles 2, contributes to the wire turning around its axis by 90 °, thus removing the insulation around the entire perimeter of the wire section 1. After that, the wire returns to its original position, removing it from the rotating circle , gov 2, the next segment of the wire 1 approaches the treatment zone.

The process is repeated.

When the treated wire 1 is inserted between the rotating circles 2 before the wire contacts the circles, the insulation of the wire is removed by rubbing the circles against the insulation. The removed particles of the wire insulation are transferred spontaneously on the surface of the circles, forming a layer 3 identical to the material of the wire-insulation. At the same time, in the place of the contacts of the circles 2 and the wire 1, a pair of forces arises, contributing to the rotation of the wire 1 around its axis by 90 and, thus, removing the insulation, along the entire perimeter of the wire section.

/ After the complete removal of the isolation, the pair of forces disappears, since the insulating layer 3 applied to the circle 2 and the bare section 4 have a coefficient of friction much smaller than during the removal of the insulation, after which the wire 1 returns to its original position, turning backwards by 90.

The wire 1 is clamped on both sides, the distance between the clamp points for

the possibilities of turning during processing are chosen depending on the cross-section of the wire, for example, when the cross-section of the wire is from 0.25 mm to 0.75 mm, the length between the pressure points is 5 200 mm.

Removed insulation from wires and adheres to the circles, gradually increasing the thickness of its layers on circles 2, is removed spontaneously due to

- friction of these layers against each other, thereby maintaining a certain gap between the circles 2.

The exposed portion 4 of wire 1 is stripped of the oxide layer 5, and thus this portion 4 is prepared under

5 the next operation, for example, fluxing and tinning.

The stripped parts 4 of the wire 1 are not damaged during this stripping, and the ends of the 6 edges of the insulator on

The 0 ends of the stripped portion are obtained without tearing and notching, the angle of the end face with the axis of the wire 1 is 90.

The proposed method of removing electrical wire insulator 5 improves process efficiency and the quality of the wires being processed.

The productivity of the process of removal of Q insulation is achieved due to the fact that the insulation from the electrical wires is transferred to the surface of the circles, and the rotating wheels are chosen from materials that have an adhesion to the insulation material removed from the electrical wires that can spontaneously maintain the necessary clearance between the circles, while the clamped wire is turned around the axis, which ALLOWS to exclude the change of circles, since the circles act as a carrier of the layer and do not work in the process. In addition, it is not necessary to adjust the gap between the circles when processing 5 wires of different cross sections due to the fact that rotating circles erase randomly. gradually increasing layers of insulation.

Improving the quality of the Q wires processed is achieved by the above characteristics and the choice of combination of the material of the circles and the insulation to be removed, which is expressed in removing the oxide layer from the cores of the wires to prepare the next operation, and

eliminates damage to the conductors of the wires.

Claims (2)

1. US patent, cl. publish 1968., 2. Patent FRG 2540933, cl. H 02 G 1/12, published 1977.