SU1170543A1 - Device for stripping harness - Google Patents

Abstract

A device for cleaning insulation from the ribbon wires, which contains a platform, an infrared source, such as a laser generator, an optical system that includes two focusing lenses, and a wire feed mechanism, characterized in that, in order to improve performance, it contains a cross bar mounted on the platform and equipped with a displacement drive perpendicular to the wire feed direction, the optical system is equipped with a radiation flux divider mounted against the output window of the infrared source from at the Brewster angle to the electric vector of the incident radiation wave, and by three mirrors arranged in such a way that the optical axes of the radiation fluxes form a quadrilateral at the intersection, while the lenses are fixed on the traverse on both sides of the wire feeder, one of the mirrors is mounted on the platform opposite the splitter and each of the other two is optically coupled to a focusing lens and attached to the cross beam.

Description

The invention relates to process equipment for the preparation of ribbon wires for installation prior to installation and soldering them to boards or to connectors of electronic components and can be used in the radio engineering, electronic and instrument-making industries.

The purpose of the invention is to increase productivity.

FIG. 1 shows a device, a general view; in fig. 2 - optical system.

The device contains an infrared radiation source (LG laser generator) 1 with an output window 2, a platform 3 with an optical system located on it, consisting of a divider 4 of the radiation flux, which uses a thin germanium plate, flat mirrors 5, 6 and 7 made of aluminum with a polished reflective surface, and focusing their Irtrane lenses 8 and 9, yoke 10, kinematically connected with an adjustable drive 11 through a screw 12 and a nut 13 fixed in the middle of the yoke 10. A flat mirror 6 is fixed on the yoke with a focusing lens 9 and a mirror 7 with a lens 8, the lenses 8 and 9 are fixed with the possibility of adjusting the focal distance, and the optical axes of the lenses are mixed relative to each other by an amount greater than the diameter of the contact spot of the focused beam in order to avoid undesirable effects rays. The guide element 14 is fixed on the platform 3. The carriage 15 with the window 16 is located between the focusing lenses, mounted on the platform 3 perpendicular to it with the possibility of vertical movement and serves to stir, feed and feed the wire 17.

A radiation flux divider 4 is installed against the output window of the laser generator at a Brewster angle to the electric vector of the fallua, its radiation wave. The mirrors 5, 6 and 7 are arranged in such a way that the optical axes of the radiation fluxes form a quadrilateral at the intersection.

The device works as follows.

The wire 17 is clamped in the carriage 15, so that the treated section of the wire is located in the window 16 of the carriage between the two focusing lenses 8 and 9, at a distance of the focal distance from each of the lenses. The laser generator 1 is turned on, the mode of its operation providing IR radiation is set, and the radiation flux through the window 2 is directed to the optical system installed on the plate 3. The radiation flux falling on divider 4 is divided into reflected and refracted streams.

The refracted flow, reflected from mirrors 5 and 6, passes through lens 9, is focused by it onto one of the surfaces of the ribbon wire, and the reflected flow, reflected from mirror 7 and the passage through lens 8, is focused onto the other surface of the wire. Then, the yoke 10 is moved with mirrors 6 and 7 fixed on it and the lens 11 and the drive lens 11 through the screw 12 and the nut 13 along the guide element 14 across the wire and cut its insulation with an IR laser beam from both sides simultaneously. After cutting through the insulation, the wire is moved to the required amount by the carriage 15 by means of an actuator (not shown) and by moving the cross bar 10 in the opposite direction, cutting the insulation in the next section of the wire.

0 Under the action of a certain length of radiation, the insulation evaporates, and current-carrying cores with a higher reflectivity are not subject to the damaging effects of radiation.

After the necessary processing wire in

5, the carriage 15 is expanded and moved to a predetermined measuring length in the vertical direction (downward) to the next technological operation, for example cutting, and the cutting operation is repeated, not turning off the laser.

The speed of movement of the traverse with mirrors and lenses fixed on it is adjusted and selected depending on the radiation power, the light flux density and the properties of the insulating material.

Claims (1)

DEVICE FOR CLEANING INSULATION FROM TAPE WIRES, containing a platform, an infrared radiation source, for example a laser generator, an optical system including two focusing lenses, and a wire feed mechanism, characterized in that, in order to increase productivity, it contains Figure 1 lives the traverse mounted on the platform and equipped with a displacement drive perpendicular to the direction of wire feed, the optical system is equipped with a radiation flux divider mounted against the output window of the infrared radiation source at an angle of Brewster to the electric vector of the incident radiation wave, and three mirrors located in this way that the optical axis of the radiation fluxes form a quadrangle at the intersection, while the lenses are mounted on a traverse on both sides of the wire feed mechanism, one of rkal installed on the platform in front of the divider, and each of the other two optically coupled with the focusing lens and is fixed on the traverse.