KR20070063909A - Elastic cable - Google Patents

Abstract

An elastic cable is provided to reduce electric loss by reducing friction through a double outer cover, and to improve durability by preventing damage due to external impacts. An elastic cable includes an inner core unit(110), a first outer cover(120), a conductor unit(130), and a second outer cover(140). The inner core unit(110) is made of elastic material for the cable to have resilience and elasticity. The first outer cover(120) covers the inner core unit(110) with a fabric of a predetermined form. The conductor unit(130) is formed by winding a conductor around the outside of the first outer cover(120). The second outer cover(140) covers the conductor unit(130) with a fabric of a predetermined form.

Description

Flexible Wire Cables {ELASTIC CABLE}

1 is a perspective view of an electric wire cable with elasticity according to the present invention.

2 is a cross-sectional view of a wire cable with elasticity according to the present invention.

3 is an embodiment in which the cable according to the present invention is applied to a folding pipe.

** Description of symbols for the main parts of the drawing **

100: cable 110: inner core

120: first outer shell 130: conductor portion

140: second jacket 200: pipe

The present invention relates to an electric wire cable having elasticity, and more particularly, to be configured to have tensile and resilient properties, and to be applied to a foldable pipe that is repeatedly assembled and detached as well as stretched / restored in an exposed space. The present invention relates to an electric wire cable having elasticity that prevents the cable from sagging even when the cable is reassembled, even if the cable is prevented.

A common cable forms a conductor with an inner core and covers its surface to protect the inner core, and the electric wire used as the inner core is made of a non-ferrous metal material (including copper, copper, silver, etc.) having no internal elasticity. The conventional method for making such a cable have elasticity / resilience is to wire the inner core of the above-described core, and then cover the coil in a coil form using a material such as vinyl or polyethylene. For example.

In the case of the cable made by the above-described method, although it is possible to stretch in the exposed space, if the stretching is repeated, the cable is stretched and not neatly arranged, which may not only be aesthetically uncomfortable, but also may cause inconvenience to use. . For example, if the coiled cable according to the above method is applied to a foldable pipe that is repeatedly used for assembly and disassembly, as the use is repeated, the cable is gradually stretched so that the cable between the node and the node is reassembled. This occurs when the clip is not neatly restored inside the pipe.

The present invention devised to solve the above problems, characterized in that it is configured to have a tensile and resilience, even when applied to a foldable pipe that is repeated assembling and detaching, as well as stretching / restoring in the exposed space. An object of the present invention is to provide a wire cable having elasticity that prevents the cable from slipping so that the cable is not caught between the nodes when the pipe is reassembled.

In addition, an object of the present invention is to provide an electric wire cable having elasticity that protects the sheath and reduces the friction from the outside by forming a shell of a predetermined shape in the inner core portion and the conductor portion of the cable, respectively, to facilitate the expansion and contraction of the cable. do.

The configuration of the present invention for achieving the above object, the inner core portion 110, made of an elastic body to wrap the cable 100 has a resilience and elasticity to wrap the inner core portion 110 in a predetermined shape of the fabric The first outer shell 120, the conductor portion 130 to form a coil wound around the outer conductor of the first outer shell 120, and the second outer shell 140 for wrapping the conductor portion 130 in a predetermined shape fabric It is made, including.

The inner core portion 110 is characterized in that the rubber material, and also characterized in that it is configured as a bundle of elastic strands of one strand or a plurality of strands.

The conductor portion 130 is formed of a stranded wire or enameled stranded wire which facilitates the stretching action of the cable 100, and the first shell 120 and the second shell 140 are made of nylon fiber. It is characterized by consisting of a woven fabric in the shape of a mesh (mesh, net).

Hereinafter, the present invention will be described in more detail with reference to the drawings and examples.

1 and 2 are a perspective view and a cross-sectional view of a wire cable with elasticity according to the present invention.

As shown in FIGS. 1 and 2, the cable according to the present invention includes an inner core portion 110, a first outer shell 120, a conductor portion 130, and a second outer shell 140. The inner core portion 110 is formed of an elastic body having excellent elasticity and resilience, the first outer shell 120 is coated on the inner core portion 110 to protect the inner core portion 110, and the first outer shell 120 is Use a fabric woven in the form of a mesh (mesh, net).

The inner core part 110 may be formed in a bundle of one strand of elastic body or several strands of elastic body, and may be changed to various materials having resilience and elasticity according to the purpose of the cable.

The first shell 120 serves to prevent corrosion of the inner core portion 110 and reduce friction with the conductor portion 130 by using a fiber having a slippery surface such as nylon.

The conductor part 130 is wound in the form of a coil on the first outer shell 120 surrounding the inner core part 110 to be integrally formed with the inner core part 110 and the first outer shell 120, and of the cable 100. Stranded wire or enameled stranded wire is used to facilitate stretching. The conductor portion 130 may be changed to another conductor that can be stretched while electricity is conducted.

The second sheath 140 is similar to the first sheath 120 to block contamination from the outside by using a fiber of a slippery material, and to withstand bending, impact, humidity, etc., the conductor part After winding 130 to the first shell 120, the surface is wrapped to prevent damage to the covering of the conductor portion 130 by external friction.

The material of the fabric constituting the first shell 120 and the second shell 140 is a fiber of a material such as nylon referred to as an embodiment of the present invention, as well as preventing the cable from breaking, as well as the cable ( 100 to help stretch and protect the inner core portion 110 and the conductor portion 130 from the external environment or impact, and in addition to the material and shape of the fabric described above material that can facilitate the stretching action of the cable And changes to fabrics are possible.

Figure 3 shows an embodiment in which the cable according to the invention is applied to the folding pipe.

As shown in FIG. 3, when the cable according to the present invention is applied to the foldable pipe 200, the cable may be tensioned and restored by the inner core portion 110 (refer to FIGS. 1 and 2) formed of the elastic body. In addition, since the conductor portion 130 (see FIGS. 1 and 2) wound around the inner core portion 110 is simultaneously stretched and contracted with the inner core portion 110, the cable 100 may be repeatedly removed / assembled. ) And the conductor portion 130 are not stretched to prevent the cable from being caught between the node connecting the pipe 200 and the node when the pipe 200 is reassembled.

As described above, specific preferred embodiments of the present invention have been described, but the present invention is not limited to the above-described embodiments, and various modifications by those skilled in the art to which the present invention pertains are described below. It should be said that they fall within the claims of the present invention as claimed.

As described above, the electric wire cable having elasticity according to the present invention is freely stretched in the exposed space, as well as the cable stretches even when the pipe node is repeatedly removed and assembled when applied to the foldable pipe. There is no, there is an effect that the cable is not pinched between the nodes when reassembling the pipe section to facilitate the use.

In addition, the present invention can reduce the electrical loss by the friction is formed by the double shell, it is effective to prevent the damage of the cable due to the external environment and impact to increase the cable life.

Claims (5)

In electric wire cable which electricity is conducted An inner core portion formed of an elastic body so that the cable has resilience and elasticity; A first sheath surrounding the inner core with a predetermined shape of fabric; A conductor portion wound around the first outer shell to form a coil; And A second envelope surrounding the conductor portion with a fabric of a predetermined shape; Wire cable with elasticity, characterized in that consisting of. The method of claim 1, The inner core portion is a wire cable with elasticity, characterized in that the rubber material. The method of claim 1, The inner core portion is a wire cable with elasticity, characterized in that the elastic body of one strand or a plurality of strands can be configured as a bundle. The method of claim 1, The conductor portion is a wire cable with elasticity, characterized in that formed by a stranded wire or enameled stranded wire to facilitate the stretching action of the cable. The method of claim 1, The first sheath and the second sheath is a wire cable with elasticity, characterized in that made of a woven fabric in a mesh shape using fibers made of nylon.

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