KR200346082Y1 - Coating structure of multi core cable - Google Patents

Abstract

The present invention improves workability by easily removing the sheath covering the cable when wiring a cable that is integrally covered with several strands of wire around the core to the corresponding area, and improves workability and damages the cable as well as the worker. Regarding the covering structure of the multi-core cable that can be prevented,

That is, in a multi-core cable in which a plurality of wires are arranged around a core, a fine steel wire is interposed between the filler formed on the outside of the wire to form a protective layer and the sheath formed on the outside, along the length direction of the cable. When removing the sheath of the cable for wiring, pull out the sheath to the outside of the sheath by using a tool such as a forceps while exposing one end of the steel wire embedded inside the sheath to cut the sheath by a predetermined length. It will be removed later.

Description

Coating structure of multi core cable

The present invention facilitates the removal of the sheath covering the cable when performing the wiring work for connecting the cable structure of the multi-core cable, more specifically, the core, in which several strands of wires are integrally covered, to the corresponding area. It relates to a multi-core cable sheathing structure that improves the properties and prevents damage to the cable as well as the operator.

In general, multi-core cables are required for durability and pressure resistance because they are mainly used to build lines between electric and communication facilities located in the middle and long distances. To remove, a knife or special tool for stripping was used.

1A and 1B are perspective views illustrating an example of a general multi-core cable and a stripping process thereof, before stripping the wires of the cable C to a corresponding device, stripping of the stripping is performed. Although there are some differences depending on the length of the cable, several tens of centimeters to one meter of length is cut in the length direction, and then the cut-out part is removed. Especially, when wiring the cable to a facility of a large structure such as a ship or a plant, 4 The coating was removed by a length of about -6 m.

It was common to use a knife to remove the sheath of the cable, but if there was a slight deviation in the direction of the blade in the process of cutting the cylindrical sheath in the longitudinal direction, there was a high risk of cutting your hands. If the depth of cut and the adjustment of the cutting depth is irregular, there is a problem such as damage to the wire and loss of electrical insulation as the blade penetrates the wire.

In consideration of the problems with the use of the knife, as described in the applicant's patent application No. 303369, the exclusive tool for stripping the coating having a circular cutter 3 electrically driven between the guide rollers 2 on both sides (1). Although using (see Figure 2), in this case, there was a problem in that the compatibility and the compatibility of the cable of various standards, as well as there was a restriction on the carrying and use of the tool.

The present invention has been made in view of the above problems with the conventional cable stripping, the object is to provide a covering structure of a multi-core cable that can easily and easily remove the covering surrounding the cable.

The present invention for achieving the above object, in a multi-core cable with a plurality of wires arranged around the core, the longitudinal direction of the cable between the filler formed on the outside of the wire to form a protective layer and the coating formed on the outside thereof. Therefore, by forming the fine steel wires through the wires, when the cable sheaths are removed for wiring, one end of the wires embedded therein is exposed, and the wires are grasped out of the sheath using a tool such as a forceps. It is characterized in that it is removed after cutting the sheath by a predetermined length pull.

1A and 1B are perspective views illustrating an example of a general multi-core cable and a stripping process thereof;

Figure 2 is a perspective view showing an example of a conventional coating tool for stripping,

Figure 3 is a partially cutaway perspective view showing the covering structure of the multi-core cable of the embodiment of the present invention,

Figure 4a and 4b is a configuration diagram showing a preparatory step of removing the coating of the multi-core cable of the present invention and its removal state.

<Description of Symbols for Main Parts of Drawings>

C: Core E: Wire

10: filling layer 20: coating

30: steel wire

Hereinafter, the coating structure of the multi-core cable of the present invention will be described with reference to the accompanying drawings.

3 is a partial cutaway perspective view showing a covering structure of a multi-core cable according to an embodiment of the present invention, the fatigue generated when the wire is stretched outward after arranging a plurality of wires (E) around the core (C) Filling layer 10 is formed to protect from various deformation factors that can be applied from the outside while preventing stress.

The outer side of the filling layer 10 is coated with a coating 20 to further improve the durability of the cable, at least one fine in the longitudinal direction of the outer peripheral surface of the filling layer 10 in the process of forming the coating (20) The steel wire 30 was positioned to intervene between the sheaths.

At this time, the material of the filling layer 10 uses a special mixture of synthetic rubber series that can be easily detached by hand without using a separate tool regardless of the ambient temperature, the material of the coating 20 to the surrounding environment It is desirable to form a durable material while satisfying water resistance, weather resistance, cold resistance, and flame resistance so that it can be adapted.

In addition, the thickness of the steel wire 30 is reflected in the design in consideration of the shear force of the coating layer.

Figures 4a and 4b is a block diagram showing the preparatory step of removing the sheath of the multi-core cable of the present invention and the state of its removal, a portion of the sheath at the end of the cable first when removing the sheath of the cable 20 for wiring work Remove and expose a portion of the steel wire 30 embedded therein, and the exposed steel wire 30 is pulled to separate the sheath 20 adjacent to the steel wire by using a tool such as a forceps, such as scissors and The same action was taken to cut the sheath.

When the filling layer 10 is exposed by the cutting action of the steel wire 30, the coating 20, which has already been cut, and the steel wire 30 exposed to the outside are removed, thereby simplifying the removal of the coating. In addition to safety and workability can be improved by removing the coating.

The covering structure of the multi-core cable of the present invention is safe because the fine wire is interposed between the filling layer surrounding the plurality of wires and the covering surrounding the filling layer, thereby removing the coating by cutting the wire. There is an effect that can easily remove the coating, there is also an advantage that can improve the workability by removing the coating.

Claims (1)

After filling a plurality of wires (E) around the core (C) is formed a filling layer (10) to protect against various deformation factors applied from the outside while preventing the fatigue stress generated when the wire is stretched outward To form the sheath 20 on the outer side of the filling layer 10, the at least one fine steel wire 30 is located in the longitudinal direction of the outer peripheral surface of the filling layer 10 in the process of forming the sheath 20 A sheath structure of a multi-core cable, characterized in that.