KR20240002528A - Flexible cable - Google Patents

Abstract

The present invention relates to a multi-row flexible cable structure. More specifically, the present invention relates to a multi-row flexible cable structure, and more specifically, to continuously form wrinkles along the longitudinal direction on the outer covering of the cable, thereby increasing the ductility of the cable due to tension and contraction of the wrinkles, allowing the cable to be introduced into a conduit. It is about a multi-row flexible cable structure that minimizes friction between cables and pipes to prevent damage and prevents cables from becoming twisted.
The multi-row flexible cable structure according to the present invention includes a plurality of wire parts including a core part formed of a conductive material and a covering part formed of an insulating material surrounding the core part; A protective cover formed to surround the electric wire portion, wherein the protective cover is formed to surround each of the electric wire portions, an inner protective portion formed to be flexible, with valleys and ridges repeatedly formed along the longitudinal direction on the outer peripheral surface, and It is formed to surround the inner protection parts and includes an outer protection part made of a flexible and insulating material.

Description

Multi-row flexible cable structure {Flexible cable}

The present invention relates to a multi-row flexible cable structure. More specifically, the present invention relates to a multi-row flexible cable structure, and more specifically, to continuously form wrinkles along the longitudinal direction on the outer covering of the cable, thereby increasing the ductility of the cable due to tension and contraction of the wrinkles, allowing the cable to be introduced into a conduit. It is about a multi-row flexible cable structure that minimizes friction between cables and pipes to prevent damage and prevents cables from becoming twisted.

In the conventional method of inserting a cable into a pipeline, when the pulling wire is pulled, the high-voltage cable rubs against the inner circumferential surface of the pipeline, so the sheath of the high-voltage cable is damaged by friction, or the longer the insertion distance of the cable, the more the cable and the inner peripheral surface of the pipeline become damaged. Since the friction force also increases, there is a problem that the force pulling the cable becomes very large.

Republic of Korea registered utility model 20-0346082 Republic of Korea Public Patent No. 10-2009-0084677 Republic of Korea registered patent 10-0801268

The present invention is intended to solve the above-described conventional problems, and provides a multi-row flexible cable structure that minimizes friction between the cable and the pipe when entering and passing the cable through the pipe, prevents damage, and prevents the cable from being twisted. There is a purpose.

In order to achieve the above object, a multi-row flexible cable structure according to the present invention includes a plurality of wire parts including a core part formed of a conductive material and a covering part formed of an insulating material surrounding the core part; A protective cover formed to surround the electric wire portion, wherein the protective cover is formed to surround each of the electric wire portions, an inner protective portion formed to be flexible, with valleys and ridges repeatedly formed along the longitudinal direction on the outer peripheral surface, and It is formed to surround the inner protection parts and includes an outer protection part made of a flexible and insulating material.

The electric wire part includes a first cable and a second cable, and the ridge of the inner protection part surrounding the first cable is arranged to be inserted into and contact the valley part of the inner protection part surrounding the second cable.

The first cable and the second cable are characterized in that they are formed with different diameters.

The electric wire part includes a first cable to a third cable, and the ridge of the inner protection part surrounding the first cable is inserted into and contacts the valley part of the inner protection part surrounding the second cable, and the third cable is connected to the third cable. The crest of the inner protection part surrounding the first cable is in contact with the valley part of the inner protection part surrounding the first cable, and the crest part of the inner protection part surrounding the third cable is inserted into and contacts the valley part of the inner protection part surrounding the second cable. It is characterized by being

It further includes a spacing member interposed between the first cable and the second cable to space the first cable and the second cable at a predetermined distance, and the spacing member is positioned in the longitudinal direction of the first cable and the second cable. It includes an extension rib extending along the extension rib, and a plurality of insertion protrusions that protrude outward from the extension rib, are inserted into contact with the valley portions of the first cable and the second cable, and are spaced apart at regular intervals along the extension rib. It is characterized by:

The wire portion includes a first cable to a third cable, and further includes a spacing member interposed between the first cable to the third cable to space the first cable to the third cable at a predetermined distance from each other, The spacing member includes an extension rib extending along the longitudinal direction of the first cable to the third cable, and a radial projection from the extension rib to insert and contact the valley portions of the first cable to the third cable, respectively, and the extension member. It is characterized by comprising a plurality of insertion protrusions spaced apart at regular intervals along the rib.

The multi-row flexible cable structure according to the present invention not only prevents damage by minimizing friction between the cable and the pipe when the cable is introduced into and passes through the pipe, but also prevents the cable from being twisted.

1 and 2 are diagrams showing a multi-row flexible cable structure according to an embodiment of the present invention.
Figure 3 is a diagram showing a multi-row flexible cable structure according to another embodiment of the present invention.
Figure 4 is a diagram showing a multi-row flexible cable structure according to another embodiment of the present invention.
Figures 5 and 6 are diagrams showing a multi-row flexible cable structure according to another embodiment of the present invention.
7 and 8 are diagrams showing a multi-row flexible cable structure according to another embodiment of the present invention.

Hereinafter, a multi-row flexible cable structure according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

1 and 2 show a multi-row flexible cable structure 1 according to an embodiment of the present invention. Referring to Figures 1 and 2, the multi-row flexible cable structure (1) according to the present invention includes a wire portion (10) and a protective cover (20).

Referring to FIGS. 1 and 2, the wire portion 10 includes a first cable 110 and a second cable 120. Of course, the wire unit 10 may be composed of two cables, or it may be composed of three or more cables. As shown, the wire unit 10 may include a first cable 110 and a second cable 120 having the same structure and diameter.

The first cable 110 and the second cable 120 each have a core portion 11 formed of a conductive material, a covering portion 12 formed of an insulating material that surrounds the core portion 11 to protect the core portion 11. It is composed including.

The protective cover 20 is formed to surround the electric wire portion 10.

The protective cover 20 includes an inner protective part 21 and an outer protective part 22.

The inner protection portion 21 is formed to surround each of the wire portions 10. In more detail, the inner protection portion 21 is formed to surround each cable constituting the electric wire portion 10.

The inner protection part 21 has a hollow tube structure, and the inner diameter may correspond to or be larger than the outer diameter of the cable. When the inner diameter of the inner protection part 21 is formed larger than the outer diameter of the cable, the inside of the inner protection part 21 can be left empty so that a space can be formed between the inner protection part 21 and the cable. Differently, a separate filler can be inserted between the inner protection part 21 and the cable, and a material having elasticity can be used as the filler.

The inner protection portion 21 has valleys 21A and crests 21B repeatedly formed along the longitudinal direction on its outer peripheral surface. The inner protection portion 21 has a typical corrugated pipe structure in which the valleys 21A and ridges 21B are repeated and can be bent in all directions. The inner protection portion 21 may be made of synthetic resin such as PE or PP, or a synthetic resin material having elasticity and flexibility. Additionally, the inner protection portion 21 may be formed of other metal alloy materials such as aluminum, stainless steel, iron, and iron alloy.

The outer protection portion 22 is formed to surround the inner protection portions 21 of each cable and is made of a flexible and insulating material. The outer protection portion 22 may be injection molded. Additionally, the outer protection portion 22 may be formed in a circular shape, or alternatively, may be formed in other shapes depending on the shape, size, and arrangement structure of the cable inside. For example, when the wire portion 10 is composed of two cables, it may be formed in a circular or oval shape, and if the wire portion 10 is composed of three cables, it may be formed in a circular or triangular shape. The outer protection part 22 can be made of the same material as the filling material filled between the inner protection part 21 and the cable described above. It is desirable to use a material with flexibility and insulation as the filler.

The wire section 10 may be composed of cables having a core section 11 and a covering section 12 of the same size as shown in FIGS. 1 and 2, and may be composed of cables of different diameters as shown in FIG. It may also be composed of cables having a core portion 11.

In addition, the wire portion 10 has the ridge 21B of the inner protection portion 21 surrounding the first cable 110 connected to the valley 21A of the inner protection portion 21 surrounding the second cable 120. It can be inserted and placed in contact.

Alternatively, the wire portion 10 may be composed of a first cable 110 and a second cable 120 having different diameters, as shown in FIG. 3. In this case, the crest (21B) of the inner protection part 21 surrounding the first cable 110 is inserted into and contacts the valley 21A of the inner protection part 21 surrounding the second cable 120. It can be.

Meanwhile, the wire unit 10 may be configured to include first cables 110 to third cables 130 having the same structure and thickness as shown in FIG. 4. In this case, the crest (21B) of the inner protection part 21 surrounding the first cable 110 is inserted into and contacts the valley 21A of the inner protection part 21 surrounding the second cable 120. It can be. And, the crest (21B) of the inner protection part 21 surrounding the third cable 130 is in contact with the valley 21A of the inner protection part 21 surrounding the first cable 110, and the third cable ( The crest (21B) of the inner protection part 21 surrounding the second cable 130 may be inserted into and contact the valley 21A of the inner protection part 21 surrounding the second cable 120.

The multi-row flexible cable structure (1) according to the present invention may further include a first spacing member (30).

Referring to Figures 5 and 6, the first spacing member 30 is interposed between the first cable 110 and the second cable 120 to keep the first cable 110 and the second cable 120 at a predetermined distance. They are spaced apart, and either the first cable 110 or the second cable 120 is blocked from flowing along the longitudinal direction.

The first spacing member 30 may include a first extension rib 31 and a first insertion protrusion 32.

The first extension rib 31 extends along the longitudinal direction of the first cable 110 and the second cable 120. The first extension rib 31 is formed in a strip shape with a thin thickness.

The first insertion protrusion 32 protrudes outward from the first extension rib 31 and inserts into and contacts the valley 21A of the first cable 110 and the second cable 120, respectively. The first insertion protrusion 32 is formed on one side of the curved surface of the first cable 110 and the second cable 120 so that the end can be in close contact with the outer peripheral surface of the first cable 110 and the second cable 120. A contact surface 32A having a corresponding curved surface is formed. In addition, a plurality of first insertion protrusions 32 are provided on the first extension rib 31 and are spaced apart at regular intervals along the first extension rib 31.

Meanwhile, the multi-row flexible cable structure (1) according to the present invention includes first cables (110) to third cables (130) and may further include a second spacer (40).

Referring to FIGS. 7 and 8, the second spacing member 40 is interposed between the first cable 110 to the third cable 130 arranged in a triangular shape to separate the first cable 110 to the third cable ( 130 are spaced apart from each other at a predetermined distance, and any one of the first cable 110 to the third cable 130 is blocked from flowing along the longitudinal direction.

The second spacing member 40 may include a second extension rib 41 and a second insertion protrusion 42.

The second extension rib 41 extends along the longitudinal direction of the first cable 110 to the third cable 130, and may be formed in a rod shape with a circular cross-section.

The second insertion protrusion 42 radially protrudes from the second extension rib 41 and inserts into and contacts the valley 21A of the first cable 110 to the third cable 130, respectively. The second insertion protrusion 42 is provided on one side of the first cable 110 to the third cable 130 so that its ends can be in close contact with the outer peripheral surfaces of the first cable 110 to the third cable 130, respectively. A contact surface 42A having a curved surface corresponding to the curved surface is formed. In addition, a plurality of second insertion protrusions 42 are provided on the second extension rib 41 and are spaced apart at regular intervals along the second extension rib 41.

The multi-row flexible cable structure according to the present invention described above has been described with reference to the attached drawings, but this is merely an example, and various modifications and other equivalent embodiments can be made by those skilled in the art. You will understand the point.

Therefore, the true scope of technical protection of the present invention should be determined only by the technical spirit of the attached claims.

1: cable
10: wire part
11: core part
12: coating part
21: inner protection part
22: outer protection part
110: 1st cable
120: 2nd cable
130: Third cable

Claims (6)

A plurality of wire parts including a core part formed of a conductive material and a covering part formed of an insulating material surrounding the core part;
Provided with a protective cover formed to surround the electric wire portion,
The protective cover is
an inner protective part formed to surround each of the electric wire parts, with valleys and ridges repeatedly formed along the longitudinal direction on the outer circumferential surface, and formed to be elastic;
A multi-row flexible cable structure formed to surround the inner protection parts and comprising an outer protection part made of a flexible and insulating material. According to paragraph 1,
The wire section includes a first cable and a second cable,
A multi-row flexible cable structure, characterized in that the ridge of the inner protection part surrounding the first cable is inserted into and contacts the valley part of the inner protection part surrounding the second cable. According to paragraph 1,
A multi-row flexible cable structure, wherein the first cable and the second cable are formed with different diameters. According to paragraph 1,
The wire section includes first to third cables,
The ridge of the inner protection part surrounding the first cable is inserted into and contacts the valley part of the inner protection part surrounding the second cable,
The crest of the inner protection part surrounding the third cable is in contact with the valley part of the inner protection part surrounding the first cable, and the crest part of the inner protection part surrounding the third cable is in contact with the valley part of the inner protection part surrounding the second cable. A multi-row flexible cable structure characterized in that it is inserted and placed in contact. According to paragraph 1,
Further comprising a spacing member interposed between the first cable and the second cable to space the first cable and the second cable at a predetermined distance,
The spacing member has an extension rib extending along the longitudinal direction of the first cable and the second cable, and protrudes outward from the extension rib to insert and contact the valley portions of the first cable and the second cable, respectively. A multi-row flexible cable structure comprising a plurality of insertion protrusions spaced apart at regular intervals along the extension rib. According to paragraph 1,
The wire section includes first to third cables,
Further comprising a spacing member interposed between the first cable to the third cable to space the first cable to the third cable at a predetermined distance from each other,
The spacing member includes an extension rib extending along the longitudinal direction of the first cable to the third cable, and a radial projection from the extension rib to insert and contact the valley portions of the first cable to the third cable, respectively. A multi-row flexible cable structure comprising a plurality of insertion protrusions spaced apart at regular intervals along the extension rib.

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