RU2398332C2 - Method for cutting of fibre optic cable and device for method realisation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: prior to operation of cable shell cutting, on shell of its main part by means of shell compression, on outer side at first a circular groove is formed, afterwards shell is cut near groove, and separated part of shell is pulled off cable to the side off circular groove. Device for method realisation differs by the fact that it is equipped with crimping roller installed on axis of knife, parallel to it, with gap between side adjacent surfaces of knives and crimping roller, at the same time diametre of crimping roller is more than diametre of disk knife. End of climping roller is arranged as rounded. Clamp is made of two clamping rollers arranged on axes fixed in body one over another and opposite to crimping roller and knife. Axis of knife and crimping roller is installed on slider, which is connected by drive of its displacement along body towards clamping rollers, which are fixed on axes arranged in a single plane, and gap is produced between clamping rollers, and a crimping roller is arranged opposite to it.

EFFECT: increased quality of cable cutting.

5 cl, 8 dwg

Description

The technical solutions presented in this description relate to the field of cutting mainly multicore cables having strong, mainly steel sheaths, for example, sheaths of fiber optic cables. These technical solutions are intended for use in the construction of hand tools for these purposes, however, they can be used in other designs for the same purposes.

A device for cutting insulation of a cable without damaging the insulating layer is known, comprising a housing with cable fixing means, articulated and spring-loaded handles covering the cable, a handle extension mechanism on the upper half of the handle, the handles being movably mounted in the transverse and longitudinal directions, and the knife has a limiter cutting depths (RU 2179357, 2002.02.10, H02G 1/12).

A known manual tool for cutting the cable insulation and removing the sheath, the method consists in first clamping the cable in the device case, then cutting the insulation by autorotation of the knife around the cable when it is fed, and then removing the insulation from the cable, this method is carried out by the device including a case with a notch knife, a grooved clamp with a protrusion, a cable spring-pressing cam, and drive handles (RU 2221690, 2003.07.27, H02G 1/12).

Known manual tool for cutting the sheath of multicore cables, containing two spring-loaded handles with L-shaped jaws, one of which has a stop and a clamp, and the other has notched knives, while next to the notched channel, the fixed knife has a platform for compressing the insulation of the wire, and a movable knife in the same area has a longitudinal blade with a one-sided bevel (RU 2222080, 2003.07.20, H02G 1/12).

A device for cutting ropes and cables is also known, comprising a housing with movable and fixed knives fixed to it, a moving knife moving drive, a movable knife holder in the form of racks, one of which has a movable knife fixed (RU 1556028 A1, 1999.07.20, B66C 11 / 52).

A device for cutting cables is known, comprising two rotatable around a common axis of the lever, two knives having through grooves, while the knives are made with a cut angle that allows crimping the cable in place of the cut (RU 2001131650/02, 2003.07.27, B23D 29/00) .

Of the known closest to the method presented in this description is a hand tool for cutting the cable sheath and removing the sheath, the method consists in first clamping the cable in the device body, then cutting the insulation by autorotation of the knife around the cable when it is fed, and then remove the insulation from the cable, while this method is carried out by a device including a body with a notch knife, a grooved clamp with a protrusion, a spring-loaded cam compressing the cable, and drive handles (RU 2221690, 200 3.07.27, H02G 1/12).

The common features of this solution with the features presented in the description of the solution is a method of cutting a fiber optic cable in a protective sheath, including cutting the sheath with a knife along its annular perimeter, separating the detachable part of the sheath from its main part and pulling the detachable part of the sheath from the cable fibers.

Of the known closest to the device for cutting cable presented in this description is a device that includes a housing with a notch knife, a grooved clamp with a protrusion, compresses the cable with a spring-loaded cam, and drive handles (RU 2221690, 2003.07.27, H02G 1/12).

Common features of this solution with the solution presented in the description is a cable cutting device comprising a housing mounted on a disk knife axis in the housing, opposite which a pinch roller is mounted on the other axis.

If the closest technical solutions for cutting optical fiber cables are used, the cable fibers are significantly damaged, which reduces the quality of cable cutting.

This is due to the fact that the use of a knife moved around the cable leaves a significant dent on the wall of the protective sheath from the cutting edge of the knife. This leads to a narrowing of the sheath channel in the cable cutting zone through which the cutting plane passes. As a result of this, when pulling off the detachable part of the cable sheath from the main part along the optical fibers of the cable, they are damaged by the protective sheath.

The result of the presented technical solutions is to improve the quality of cable cutting.

This result was obtained by the method of cutting a fiber optic cable in a protective sheath, including cutting the protective sheath with a knife along its annular perimeter, separating the detachable part of the sheath from its main part and pulling the detachable part of the sheath from the cable fibers, characterized in that prior to the operation of cutting the cable sheath on the shell of its main part, by compressing the shell from the outside, an annular groove is first formed, after which the shell is cut next to the groove, and the detachable part of the shell is tightened yut from the cable away from the annular groove.

The result was obtained by a device for cutting a fiber-optic cable, comprising a casing, a disk knife mounted on it on the axis, opposite which a clip is fixed in the casing, and the device is equipped with a crimping roller mounted on the axis of the knife parallel to it with a gap between the side adjacent surfaces of the knife and the crimping roller while the diameter of the crimping roller is larger than the diameter of the circular knife.

The end face of the crimping roller is rounded.

The clamp is made of two clamping rollers located on axes fixed in the housing one above the other and opposite the crimping roller and knife.

The axis of the knife and the crimping roller is mounted on a slider associated with the drive of its movement along the body towards the clamping rollers, which are fixed on axes located in the same plane, a gap is formed between the clamping rollers, opposite which the crimping roller is located.

Figure 1 shows a fiber optic cable after cutting it,

Figure 2 - crimp roller and knife of the device by which the cable was cut,

Figure 3 - the initial stage of cable cutting,

Figure 4 is an intermediate stage of cable cutting,

Figure 5 - device for cutting cable, front view,

In Fig.6 is a view a in Fig.5,

Fig.7 is a view of B in Fig.6,

On Fig - installation diagram of the device on the cable.

The device (FIGS. 5-7) comprises a housing 1, a disk knife 3 mounted in the housing on an axis 2, opposite which a cable clip is located. The clamp is mounted in the housing motionless on the axles 4 of the clamping rollers 5, located one above the other. The axis 4 of the rollers 5 are located in the same plane and in such a way that a gap is formed between them (Figs. 5, 8), opposite which the crimping roller 6 is located. Clamping rollers 5 are used to clamp the cable in the housing, the crimping roller 6 serves to crimp the cable sheath , as well as for clamping it in the housing.

The crimping roller 6 (Fig. 2) is mounted on the axis 2 parallel to the knife 3. Between the side adjacent surfaces 7 of the knife 3 and the crimping roller 6, a gap 8 is formed. The diameter Dp of the crimping roller 6 is larger than the diameter Dн of the circular knife 3. The end face 9 of the crimping roller 6 is made rounded off.

In the housing 1 of the device (FIGS. 5, 6), an opening 10 is made for cable 11 (the cable is not shown in the opening), and on one side of the opening 10, the axis 2 of knife 3 and crimp roller 6 are movably mounted, and on the other side of the aperture 10 in the housing are fixedly mounted axis 4 of the clamping rollers 5.

In the guides 12 of the housing 1 (Fig. 7), a slider 13 is mounted on which the axis 2 of the knife and the crimping roller is fixed, and the slider is mounted in the housing 1 with the possibility of its movement towards and from the clamping roller 5. A screw 14 is installed in the housing 1, which is engaged with the nut 15 of the slider 13. A handle 16 is fixed to the end of the screw.

Cable 11 (Fig. 1) in this example embodiment of the device comprises a steel sheath 17 in the form of a tube of unlimited length, in which optical fibers 18 are located. Position 19 shows an annular groove on the cable sheath 17 formed by a crimp roller 6 of the device, position 20 is a depression between clamping rollers 5.

In other examples, the sheath is made of any other known material used to protect the fibers of an optical fiber cable. It should be noted that the device presented in this description also provides cutting of the protective sheaths of other cables, which require the immunity of the cutting knife to the cores of the cable, for example to the electrical wires of a multicore electric cable.

The method is illustrated by the operation of the device, which operates as follows.

The device is placed on the cable 11 by introducing the cable into the opening 10 of the housing 1, while the cable is inserted into the opening 10 (Fig. 5) so that it is located between the clamping rollers 5 and the crimping roller 6 (Fig. 8). As can be seen from the arrangement of the device on the cable, the cable sheath 17 is located between the clamping rollers 5, simultaneously touches both surfaces of these rollers and is located in the cavity 20, which is located between the clamping rollers and is formed by them.

By rotating the handle 16 and the screw 14, the slider 13, the axis 2, the crimping roller 6 and the knife 3 are moved towards the opening 10, while the cable, in particular its protective sheath, is clamped between the crimping roller 6 and the clamping rollers 5 in such a way that, in fact , these rollers form a roller table of the rotation mechanism.

In the position shown in (figure 3), the clamping roller 6 is in contact with the sheath 17, and between the edge of the knife 3 and the surface of the protective sheath 17 there is a gap due to the difference in the diameters of the crimp roller and the knife.

Rotate the housing 1 of the device around the cable, while the crimp roller 6 and the clamping rollers 5 are rolled over the surface of the protective sheath 17 of the cable. Simultaneously with the rotation of the housing 1 around the cable rotate the handle 15 and feed the crimping roller 6 and knife 3 in the direction of the cable. In this case, an annular groove 19 is formed on the protective sheath 17 of the cable (FIG. 4). With an increase in the depth of the groove 19, the knife 3 touches the protective sheath 17 of the cable and gradually penetrates the cable sheath as the case rotates.

Since the crimp roller 6 is introduced into the protective sheath 17 first, then in the zone of its introduction into the sheath, a narrowing of the lumen of the sheath and its compression to the longitudinal axis of the cable is formed, as shown in Figs. 1 and 4. In the zone of rolling in the sheath, the crimp roller compresses the narrowed the sheath zone to the longitudinal axis of the cable. Outside this zone, the gap S between the fiber bundle 18 and the inner surface of the protective sheath 17 on the right side of the annular groove 19 (FIG. 1) becomes larger in comparison with the gap between the fiber bundle and the inner surface of the sheath on the left side of the groove 19.

The introduction of the knife 3 into the protective sheath 17 of the cable (figure 4) occurs in a plane extending away from the narrowing zone of the fiber bundle 18, at the point where the gap S between the fiber bundle 18 and the inner surface of the sheath 17 is maximum, which eliminates damage to the knife fibers 18 in the case of the knife going inside the sheath 17. After separating the detachable part 21 of the sheath from its main part 22, the detachable part 21 of the sheath is pulled from the fiber 18 of the cable away from the groove 19.

The separation of the detachable part 21 from the main part 22 of the protective shell 17 is carried out in two cases: in the first case, when the wall of the protective shell 17 of the detachable part 21 is completely cut through with a knife, and in the second case, when the knife only makes an incision 23 of the wall of the protective shell 17 (FIG. 4) and make a groove in the wall. In this case, after removing the device from the cable, the detachable part 21 is broken by swaying it in the radial directions of the cable. After breaking and separating the detachable part 21 from the main part 22 of the sheath, the detachable part 21 is pulled from the fiber 18 of the cable away from the groove 19. When pulling the detachable part of the sheath from the cable fibers, the latter are protected from damage, since the specified gap S between the fiber bundle 18 and the inner surface shell 17 on the right side of the groove 19 provides unhindered removal of the detachable part 21 of the protective shell from its main part.

Claims (5)

1. A method of cutting a fiber-optic cable in a protective sheath, including cutting the protective sheath with a knife along its annular perimeter, separating the detachable part of the sheath from its main part and pulling the detachable part of the sheath from the cable fibers, characterized in that prior to cutting the cable sheath on the shell of its main part by compressing the shell from the outside, first form an annular groove, after which the cutting of the shell is carried out next to the groove, and the separated part of the shell is pulled from the cable to the side from the annular groove. 2. The device for implementing the method according to claim 1, comprising a housing mounted on an axis of a disk knife, opposite which a clip is fixed in the housing, characterized in that the device is equipped with a crimping roller mounted on the axis of the knife, parallel to it, with a gap between the side adjacent surfaces of the knife and crimp roller, while the diameter of the crimp roller is larger than the diameter of the circular knife. 3. The device according to claim 2, characterized in that the end face of the crimp roller is rounded. 4. The device according to claim 2, characterized in that the clamp is made of two clamping rollers located on axes fixed in the housing one above the other and opposite the crimping roller and knife. 5. The device according to claim 2, characterized in that the axis of the knife and the crimping roller is mounted on a slider associated with the drive moving it along the housing towards the clamping rollers, which are fixed on axes located in the same plane, a gap is formed between the clamping rollers, opposite which is located crimp roller.

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