CS215137B2 - Instrument for removing the isolating layers of cables of circular diameter in the length necessary for assembly - Google Patents

Abstract

The present invention relates to a device for stripping the length of the outer insulation of cables having a circular cross-section and to a method of using the device. In order to avoid the problems of known stripping devices which are not self-centring, a stripping device is provided which comprises cutters 1, having curved edges 1b, and being arranged in pairs, each pair of cutters being movable in a radial groove of a holder 2. Control cams 3 are provided which have cam grooves 3a in the form of curved slots. The slots 3a serve to move the cutters 1 by means of guide pins 1a provided on each cutter. In use, relative rotation between the cam plates 3 and the holder 2 causes the cutters 1 to move in the radial grooves of the holder 2, whereby the cutters 1 cut into the outer insulation of a circular cable which has previously been inserted into the device along the axis of the device. The cam slots may follow a logarithmic spiral. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a method and arrangement of tools for removing insulating layers of round cable in the length required for assembly, during which a cable is inserted between the tools arranged in a plane perpendicular to the cable axis and whose blades are directed towards the center.

By controlling the movement arm, the blades with arc blades are set to a dimension that is larger than the largest cable diameter. By means of the movement arm and its effect, the blades are moved, whereby the blades penetrate into the plastic along the arc of the backdrop and separate the part to be cut along the polygonal curve.

The tool has a self-centering effect so that even cables with less flat circular cross-sectional areas can be successfully insulated.

SUMMARY OF THE INVENTION The present invention relates to a tool for removing insulating layers of circular cross-sectional cable in the length required for assembly, which consists of a dowel holder mounted with a pair of sliding means arranged on both sides of the dowel holder in a cylindrical body. than the largest outer diameter of the cables, from the caliper for adjusting the notch size of the dies, the dimensional scale formed on the flange of the cylindrical body, and the control arm.

There are known tools for removing cable insulation layers which remove the insulation of a circular cable in a circle but do not have a self-centering effect. In addition, in order to achieve a circular cut of the insulating layers, these tools need to be rotated either by the cutting tool or by the cable, which is impossible with a larger cable weight. In another embodiment, the blades are fixed at one end thereof and the other ends are provided with cutting arms. The disadvantage of this arrangement is the unreliability or inaccuracy of cutting off the insulation in the exact circle. In some solutions, the blades are arranged in one plane, which is an advantage over the previous solution, but this movement is linear in continuous rotation, in which they circumscribe the entire circle around the cable several times. This eliminates the advantage of self-centering and, in the event of incorrect adjustment of the blade, cuts either deeper than necessary to strip the insulating sheath of the cable or does not cut off the insulating sheath completely. In the first case, the insulating layer of the inner conductor is damaged, resulting in reduced impedance. In this latter embodiment, the blades moving in a straight line with the straight cutting edges intersect infinitely many linear paths during multiple turns, the smaller the length of the individual paths. a greater number of tool revolutions, so that the cutting surface is only approximately a full circle. The disadvantage of a solution in which the blades are individually adjustable, move along a forced path and enter the sheath of the cable insulation by eccentric rotation is that they are limited to a circular cut. A common disadvantage of all these solutions is the impossibility of polygonal cutting. which has a self-centering effect due to torque transmission, in the case of a suitable knife design, as described below, which eliminates all the above-mentioned disadvantages of the prior art cable stripping tool removal solutions.

SUMMARY OF THE INVENTION The tool of which the known components are described above is characterized in that grooves, pins of pins, whose cutting edges are arcuate, are movable in grooves of the wings in mutually parallel slots, the pin knife holder arranged in pairs of blades opposite each other. in mutually perpendicular grooves of the dowel-holder, and the slides are located in the cylindrical body. There are several other features of the invention. At least two opposing arcuate grooves in the form of a logarithmic spiral are formed on each of the wings, the wings being rotated relative to each other by an angle corresponding to the grooves formed in the pin guiding holder and lying flat. The dowel holder is movable by means of an operating arm attached thereto, up to the stop of the caliper for adjusting the notch dimension, and is loosely mounted between the slides attached to the cylindrical body. In another embodiment, the pin knife holder is attached to the cylindrical body and the guillots are movable by means of an actuating arm to the stop of the yoke to adjust the notch dimension.

The advantage of the arrangement of the device according to the invention is that the moving blades with arc blades move in a single plane, the movement curves of the blades conform to the arcuate shape of the slots and follow the curve of the logarithmic spiral so that the contour polygonal curve. According to theoretical research, the torque transmission is advantageous in polygonal curves and a polygonal curve cutting tool achieves a self-centering effect, which is important for the accuracy of cutting off the insulating layer of the circular cross-section cable, preventing damage to the inner sheath of the cable.

The tool according to the invention will be explained in more detail by way of example with reference to the accompanying drawing, in which: Fig. 1 shows the knives with their holder and the fittings required for assembly in axonometric view, Fig. 2 shows the position of knives in axonometric view when assembled. tool status. 3 shows a tool according to the invention assembled with a cable in the central opening of one quarter without an outer cylindrical body, FIG. 4 shows a section through a single-core or multi-core multi-insulated cable after stripping.

The dowel blades 1 are provided with blades 1b and are guided in grooves 3a formed in a pair of sliding bars 3. The dowel blades 1 'have a flat side f, the angle β is the cutting angle of the dowel blade 1.

.No o> br. 4, the outer diameter of the cable is indicated by the reference numeral D and the core conductor is indicated by the reference numeral d, or, in the case of a multi-core cable, the diameter of the inner weaker cable. The polygonal curve Di is generated after the working process, as shown below.

Radial grooves 2a are provided perpendicular to one another in the holder 2 of the dowel blades 1, in which the dowel blades 1 are arranged, the arcuate cutting edges 1b of each pair of dowel blades 1 facing each other and forming a polygonal circumferential surface.

At the front of the 2-blade knife holder 1 do215137 are seated sliders 3, in whose grooves 3a are slidingly mounted pins 1a of the blade knives

The grooves 3a in the slides 3 are arcuate and have the form of logarithmic curves that follow the pins 1a of the pin blades 1 as the pin 2 holder 2 moves. It can be seen from Fig. 2 that the pins 1a are guided by the arc grooves 3a of one pin 3 and pins 1a of the second pair of dowel blades 1, which is perpendicular to the first pair of dowel blades 1, are guided by arcuate grooves 3a of the second coulter 3. The coulters 3 are pivoted relative to each other by an angle corresponding to the grooves 2a formed in the dowel guide 2. plane.

The pin knife holder 3 is mounted in the cylindrical body 4 loosely between the slots 3 connected to the cylindrical body, for example by a screw 4b. The control arm 5 is fastened to the flange of the holder 2. When the control arm 5 and hence the pin knife holder 1 is moved, the pin knives 1 conform to the arc grooves 3a in the sliders 3 and circumscribe the arc corresponding to the curvature of the arc grooves 3a. so that the cable insulation is cut through four interconnected curves forming a piolygonal cut.

If the notch dimension by the dowel knives 1 has been determined by measurement or calculation, it is possible to adjust the notch dimension by the yoke 6 provided with the locking screw 6a.

In another embodiment, the pin-knife holder 1 can be mounted firmly in the cylindrical body 4, while the sliders 3 are movable in the cylindrical body 4 by means of a rotary actuating arm 5.

The tool according to the invention is designed primarily as a hand-held tool, but can be designed as a stable machine in a stripping station, and can be driven pneumatically or electrically in the actual stripping process.

The tools according to the invention can be used to separate the plastic sheath from the outer perimeter of any cable, in which there is neither a smooth surface nor an area of exactly circular cross section under the outer sheath.

Claims (4)

A tool for removing insulating layers of circular cross-section cables of a length required for assembly, consisting of a dowel holder mounted with a pair of sliding means arranged on both sides of the dowel holder in a cylindrical body, the diameter of the central hole of the dowel holder is greater than the largest outer diameter cables, a caliper for adjusting the notch size of the dies, a dimensional scale formed on the flange of the cylindrical body and a control arm, characterized in that grooves (3a), dowels (1a) of the dies are formed in mutually parallel wings (3) (1) with arcuate blades (1b) are movable in grooves (3a) of the sliders (3), wherein the pin holder (2), arranged in pairs of blades (1b), does not rotate in mutually perpendicular grooves (2a) of the holder (1) 2) the dowel knives (1), and the slides (3) are located in a cylindrical t Bodies (4). Insulation stripping tool according to claim 1, characterized in that at least two opposing arcuate grooves (3a) in the form of a logarithmic spiral are formed on each of the wings (3), the wings (3) being rotated relative to each other by an angle corresponding to the grooves (2a). ) formed in the holder (2) for guiding the dies (1) and lying flat. Tool for removing cable insulation layers according to Claims 1, 2, characterized in that the pin holder (2) is movable by means of an operating arm (5) attached thereto, up to the stop of the yoke (6) for adjusting the notch dimension, being loosely mounted between the sliding links (3) attached to the cylindrical body (4). Insulation stripping tool according to Claim 1, 2, characterized in that the pin holder (2) is fixed in a cylindrical body (4) and the sliders (3) are movable by means of a common control arm (5) which it is attached to them up to the stop of the caliper (6) to adjust the notch dimension.