RU2221690C2 - Method for stripping cover and sheath from cable and apparatus for performing the same - Google Patents

Abstract

FIELD: processing and recovery of waste cables. SUBSTANCE: method comprises steps of pressing-in wedge-shaped disc cutters into cable sheath and lengthwise rolling around of cable by means of said cutters in parallel relative to surface of cable. Apparatus includes face chuck with follower tracks engaging with carriages carrying wedge-shaped disc cutters. Face chuck is mounted with possibility of rotation; plane of apex of each cutter wedge is parallel relative to axis of face chuck. EFFECT: simplified process of stripping cover and sheath of cable. 4 cl, 6 dwg

Description

 The invention relates to a relatively new field of technology - methods and devices for removing the cover and sheath from cable products, the most common form of which is cable.

The main parts of the cable are three:
1) core - a conductive core;
2) shell - the layers closest to the core;
3) the cover, which is made up of other, outer layers: armor, winding, braid, screen, filler, insulating material and other cable elements.

 On a significant scale, the described new field of technology was found to be in demand for three main reasons. The first is the desire for the recycling of materials. Second: disarmament and conversion processes are underway in the world, in which there is a need for cutting large amounts of cable from military (but sometimes civilian) objects to the core and waste - the sheath and cover. Next, valuable components are extracted from the core in the form of non-ferrous metals, lead, etc. The third reason: the development of the cable cutting area is pushed by the environmental situation on the planet, which is more and more cluttered with garbage from human activities. The scale of production of cable products can be indirectly estimated by the fact that the list of GOSTs for products in the collection of standards is several hundred.

 In the patent and general technical literature there is no information about methods and devices for removing the sheath and cover from the cable, possibly due to the secrecy of production.

 All this shows the need to develop methods and devices that would ensure the removal of the outer layers from the cable - the cover and sheath.

 Known methods for removing the cover and sheath from the cable, containing the cable, introducing into it the cutting means and moving them along the cable, and only the outer layers of the cable are destroyed. As cutting tools, a gas cutter, an abrasive wheel, a milling machine and other metal-cutting tools are used (literature data not available). The disadvantages of these methods are the presence of shavings or cable melting, the difficulty of sorting by components, and low productivity. The cutting of the layers of the cover and shell is facilitated by the fact that they are wound onto the core very tightly, which is why even with an incomplete incision of most of the thickness of the layers, the remaining part is torn (burst) due to internal stress.

 At the same time, there is a technical field that is somewhat similar to cable cutting - this is the field of pipe cutting. The similarity is primarily in the purpose, which is the processing of long products (pipes, rods, etc.), which include cable products.

 In technical essence, the closest known applications and methods for cutting pipes with wedge circular knives are most widely described both in the patent and in the specialized literature (for example, "Cutting pipes into blanks" by V. Chizhik-Poleyko and others ., NIIMASH, series S-3, 1976, M., UDC 621.937; 669-462). In this source, on pages 20, 22, 37-43, methods and devices for cutting pipes by pressing wedge circular knives when rolling relative to the pipe in a plane perpendicular to its longitudinal axis are given.

 By design, such a device in general terms is a case on which an annular faceplate with copy paths, a faceplate rotation mechanism, a feed mechanism for a long product coaxially with the faceplate, carriages with rollers parallel to the faceplate axis and interacting with its copy paths for moving shafts with wedge-shaped discs are mounted knives mounted on bearings in carriages equidistant from the axis of the faceplate.

 The aim of the present invention is to create a new method of removing the cable cover and sheath and the development of devices for implementing the method.

 This goal is achieved by the fact that the method of removing the cover and sheath from the cable, comprising feeding the cable, introducing cutting tools into it and moving them along the cable, is such that the cutting tools are inserted and moved by pressing the wedge circular knives and rolling them longitudinally parallel to the cable surface to a depth corresponding to the thickness of the layers of the cover and sheath, taking into account the elastic compliance of the cable materials.

 A device for implementing the method, comprising a housing and an annular faceplate with copy paths mounted on it, a faceplate rotation mechanism, a feed mechanism for a lengthy product coaxially with the faceplate, carriages with rollers parallel to the axis of the faceplate and interacting with its paths for moving shafts with wedge circular knives installed on the bearings in the carriages equidistant relative to the axis of the faceplate, made so that each knife is equipped with a rotation drive and installed so that the plane the vertices of the knife wedge are parallel to the axis of the faceplate, from which the knife is separated by the radius of the cable core, taking into account the elastic flexibility of the cable materials, each carriage is made in the form of a plate, which is equipped with a boss for the bearing supports of the knife shaft, a hole for the finger connected to the body and parallel to the axis of the faceplate and means of fixing the plate on the housing. The rotation mechanism of the faceplate is made in the form of a rod, one end of which is pivotally connected to the faceplate, a flywheel is fixed on the other end, and a threaded section is made on the rod, interacting with a nut mounted on the housing with the possibility of rotation around a round nut shank, the axis of which is parallel to the axis of the faceplate, moreover, the faceplate is provided with a risk, and the housing is equipped with a scale with divisions indicating the diameter of the cable core and taking into account the elastic compliance of the cable materials. Means of fixing each carriage on the body are made in the form of several screws passing through the holes in the carriage and the grooves on the body of the screw, the head of each of which is fixed to the carriage, and a nut is screwed onto the threaded end with the handles inserted into it.

The claimed method is illustrated by the drawings of figures 1 and 2, which depicts in two projections a schematic flow diagram of the process of removing the cover and sheath from cable K:
figure 1 is a view of the end of the cable K at the time of starting the cutting of the cable by means of cutting P when fed by the mechanism P;
figure 2 - view A (figure 1) in the process of removing from the cable cover and sheath in the form of tapes L and the release of the core C.

 For simplicity, a circular cable is shown in which the cutting means P are equally removed from the axis of the cable and can be equally spaced around the circumference, although this is not necessary. Only the symmetrical arrangement of the means P (to balance the design of the device embodying the method) with respect to the transverse axis OO passing through one of the elements of the cutting means P is required. The cutting means use wedge-shaped knives located on the shafts in the bearing supports with the possibility of free or forced rotation. The number of knives must be at least two. In the drawings explaining the proposed method and device, the use of three knives is depicted.

 The method is implemented as follows.

 The cable K is fed by the mechanism P to the cutting means Р - wedge circular knives installed relative to the longitudinal axis of the cable at a distance of the core radius C of the cable, which causes the knives to be pressed into the cable surface and longitudinally run the cable parallel to its surface to a depth T corresponding to the layer thickness cover and sheath, taking into account the elastic compliance of the cable materials. Since in the manufacture of the cable the winding of the cover and sheath on the core is very tight, when cut, they immediately separate and fall, without requiring any additional effort and funds in the form of scrapers, etc. With incomplete cutting with knives, the remaining thickness of the cover and shell even burst from the tension created during winding. The cut cover and shell with ribbons L (their number is equal to the number of knives) hang down under their own weight and are removed.

A device for implementing the proposed method is shown in Fig.3-6:
figure 3 is a frontal General view of the device from the output side of the cable core and the tapes of the cover and sheath separated from it;
in FIG. 4 is a general view of the device from the back, where the cable is fed into the device;
figure 5 is a section bB (figure 3);
figure 6 is a section bb (figure 4).

 The device comprises a housing 1 and an annular faceplate 2 mounted on it (it is rotatably inserted into the opening of the housing 1) with copy paths “a”, a turning mechanism 3 of the faceplate 2, a feed mechanism 4 of the cable and three carriages 5, each of which carries a bolt-shaped finger 6 and a roller 7 parallel to the axis of the faceplate 2, and a wedge circular knife 8. The finger 6 is connected to the body 1 and is the axis of rotation of the carriage 5. The roller 7 interacts with the copy path “a” of the faceplate 2 to rotate the carriage 5 around the finger 6. Each wedge 8 mounted disk knife van on the shaft 9, which is mounted on two bearing bearings 10 in the carriage 5. In figure 3, the knives 8 are placed uniformly around the circumference and equidistant from the axis of the faceplate 2, spaced from it by the value of the radius of the cable core, taking into account the elastic compliance of the cable materials. Each knife 8 is equipped with an individual rotation drive in the form of a coupling 11 and an electric motor 12 and is installed so that the plane of the vertices of the knife wedge is parallel to the axis of the faceplate 2.

 Each carriage 5 is a plate equipped with a boss "b" under the bearing bearings 10 of the shaft 9 and holes for the bushings 13, in which are placed the pin 6, the roller 7 and the means for fixing the plate on the housing 1 in the adjusted position. The fixing means are made in the form of several (3 for each carriage) screws 14 passing through the bushings 13 of the carriage 5 and the grooves “in” on the housing 1. The head of each screw 14 is fixedly mounted on the carriage 5, and a nut 15 is screwed onto the threaded end of the screw 14 handles 16 inserted into it (there may be one or several of them - two for each screw 14 are shown in the drawings).

 The rotation mechanism 3 of the faceplate 2 is a rod 17, one end of which is connected to the faceplate 2 by a hinge 18, and a flywheel 19 is fixed on the other end. On the shaft 17 there is a threaded portion "g" interacting with a nut 20 mounted on the housing 1 with the possibility of rotation around its round shank 21. The finger-shaped hinge 18 and the round shank 21 are parallel to the axis of the faceplate 2 and provide rotation by the last rotation of the shaft 17 using the flywheel 19. The amount of rotation is determined by combining the risks "d" on the faceplate 2 with the corresponding conductive dividing the scale 22 fixed to the body 1. The scale graduations 22 indicate the diameter of the core of the cable and allow the elastic yielding of the cable materials.

 The feed mechanism 4 in the form of, for example, a roll feed (see the schematic illustration in figure 4) is located on the back of the device and provides continuous movement of the cable into the knives 8.

 When preparing the device for operation, it is first necessary to adjust the distance from the knives 8 to the axis of the faceplate 2. To do this, rotate all the handles 16 to weaken the fixation of the carriages 5 on the housing 1. Then rotate the flywheel 19, turning the faceplate 2 to synchronously rotate all the carriages 5, and hence the knives 8, by the required amount. Upon completion of the adjustment, the carriages 5 are fixed on the housing 1 by rotating the handles 16. The end of the cable is tucked into the feed mechanism 4. The device is ready for operation.

 The device operates as follows.

 The rotation drives of all knives 8 and the feed mechanism 4 are turned on. The latter feeds the cable into the knives 8. The rotating drive knives 8 are pressed into the cover and sheath (to a depth T - see Fig. 1) during tangential longitudinal rolling and the cover and sheath are cut to core surface. Since the layers of the cover and the shell are wound tightly around the core, they separate even with incomplete cutting, tearing from internal stress.

 The obtained core and tapes of the outer layers can be processed further on nearby equipment or transported for this purpose - it is advisable to wind them in the form of a bay. Cover tapes and shells can be crumbled into small pieces, for example, on drum scissors, which makes the waste very compact and transportable.

 The process of removing the cover and sheath from the cable with the proposed method and device is very productive, especially when working with the use of unwinding and winding devices. The simplest such device is a shaft that rotates freely or forcibly on bearing bearings in racks of a U-shaped frame.

Claims (4)

1. The method of removing the cover and sheath from the cable, including feeding the cable, introducing cutting means into it and moving them along the cable, characterized in that the introduction and moving of the cutting means is made by pressing the wedge disk knives and longitudinally rolling the cable parallel to its surface to a depth of corresponding to the thickness of the layers of the cover and sheath, taking into account the elastic compliance of the cable materials. 2. A device for removing the cover and the sheath from the cable, comprising a housing and an annular faceplate with copy paths mounted on it, a faceplate rotation mechanism, a length feeding mechanism coaxially on the faceplate, carriages with rollers parallel to the faceplate axis and interacting with its copy paths to move the shafts with wedge circular knives mounted on bearing bearings in the carriages equidistant to the axis of the faceplate, characterized in that each knife is equipped with a rotation drive and is installed t so that the plane of the vertices of the knife wedge is parallel to the axis of the faceplate, from which the knife is separated by the radius of the cable core, taking into account the elastic flexibility of the cable materials, each carriage is made in the form of a plate, which is equipped with a boss for the bearing supports of the knife shaft, a hole for a finger connected to the body and parallel to the axis of the faceplate, and by means of fixing the plate on the housing. 3. The device according to claim 2, characterized in that the rotation mechanism of the faceplate is made in the form of a rod, one end of which is pivotally connected to the faceplate, a flywheel is fixed on the other end, and a threaded section is made on the rod, interacting with a nut mounted on the housing with the possibility rotation around the round shank of the nut, the axis of which is parallel to the axis of the faceplate, the faceplate provided with a notch, and the housing with a scale with divisions indicating the diameter of the cable core and taking into account the elastic compliance of the cable materials. 4. The device according to claim 2 or 3, characterized in that the means of fixing each carriage on the housing are made in the form of several screws passing through the holes on the carriage and grooves on the housing, the head of each of which is mounted on the carriage, and a nut is screwed onto the threaded end handles inserted into it.

Images