KR102672699B1 - Apparatus for protecting information and communication underground cables - Google Patents

Abstract

The information and communication underground cable protection device of the present invention is an information and communication underground cable protection device for protecting information and communication underground cables laid along pipes buried underground, and is combined with the information and communication underground cables at a predetermined interval within the pipe. A plurality of cable laying members spaced apart from each other; A traction hose coupled to the cable laying members penetrates the pipe and tows the cable laying members into the pipe; And a cable fixing member for fixing the cable laying member to the inside of the pipe, wherein the cable laying member has both ends of the cable extension formed by the information and communication underground cable so that the straight length is extended by tension applied from the outside. Combined, when the tension is applied to at least one end of the cable extension, the straight length of the information and communication underground cable is extended in the direction of the tension to prevent disconnection of the information and communication underground cable.

Description

Information and communication underground cable protection device{APPARATUS FOR PROTECTING INFORMATION AND COMMUNICATION UNDERGROUND CABLES}

The present invention relates to an information and communication underground cable protection device, and more specifically, to an information and communication underground cable to prevent changes in the ground layer around the information and communication underground cable buried underground or damage to the underground cable due to excavation work, etc. It's about cable protection.

In general, an optical cable is a communication cable that transmits a signal-coded ray through internal reflection through an optical fiber consisting of a core, clad, and jacket, and has a higher bandwidth than other wired transmission media. The data transmission rate is excellent because it is wide, and the size and weight of the support structure can be reduced due to its small size and weight. Since it is transmitted in the form of light, it is not subject to external interference such as impact noise or crosstalk, and recently, short-distance and It is applied to various fields such as wide area communication network, long distance communication, military, and subscriber line.

However, most of the above optical cables are laid in a state of being placed in a pipe buried in the ground. When changes in the stratum occur around the area where the optical cable is buried or excavation work is performed, there is a disconnection between the stratum surfaces, contact with an excavator, and the optical cable is damaged during excavation. Direct or indirect shock may be applied due to movement of tree roots surrounding the pipe, which may damage the optical cable. As a result, communication quality deteriorates due to defective optical cable network and the cost of maintenance increases significantly. Due to the problem, there is an urgent need for technology to detect such situations in advance and prevent damage to optical cables.

In relation to this, Republic of Korea Patent No. 10-1016054 states that the amount of impact applied to an optical cable buried underground is detected in real time and immediately warns on-site of a situation in which the optical cable may be damaged, preventing accidents in which the optical cable is damaged in advance. An information and communication underground optical cable protection device is disclosed.

However, this conventional technology may not be able to respond to damage to the underground cable if the worker does not recognize the warning or in the case of a naturally occurring phenomenon such as a change in the ground layer around the information and communication underground cable.

That is, in the past, despite the above warnings, it was not possible to directly prevent the information and communication underground cable from being damaged or broken when any force was applied to the information and communication underground cable or around the information and communication underground cable.

Republic of Korea Patent No. 10-1016054 (announced on February 23, 2011)

The present invention was devised to solve the above-mentioned problems, by providing a cable extension formed by an information and communication underground cable so that the straight length is extended, and arranging the cable extension at a predetermined interval in a pipe buried underground, so that it can be exposed from the outside. The aim is to provide a protection device for information and communication underground cables that can prevent information and communication underground cables from being damaged by applied tension.

In order to achieve the above-described problem, the information and communication underground cable protection device provided by the present invention is an information and communication underground cable protection device for protecting information and communication underground cables laid along pipes buried underground. A plurality of cable laying members coupled with cables and spaced apart at predetermined intervals within the pipe; A traction hose coupled to the cable laying members penetrates the pipe and tows the cable laying members into the pipe; And a cable fixing member for fixing the cable laying member to the inside of the pipe, wherein the cable laying member has both ends of the cable extension formed by the information and communication underground cable so that the straight length is extended by tension applied from the outside. Combined, when the tension is applied to at least one end of the cable extension, the straight length of the information and communication underground cable is extended in the direction of the tension to prevent disconnection of the information and communication underground cable.

Preferably, the cable laying member includes a cylindrical cable tube in which the cable extension part is accommodated; and a plurality of cable coupling members that are detachably formed at both ends of the cable pipe and are respectively coupled to both ends of the cable extension portion, wherein the cable coupling members respond to the tension applied to the cable extension portion. By being separated from the cable pipe while coupled to the end, the straight length of the cable extension can be extended.

Preferably, the cable fixing member includes an adhesive member that is attached to the outer surface of the cable pipe and generates adhesive force by heat to secure the cable pipe to the inside of the pipe. And it may include a heating member that is injected into the peripheral space formed between the outer and inner surfaces of the cable pipe and reacts with water supplied through the traction hose to apply heat to the adhesive member.

Preferably, the cable laying member further includes a traction hose coupling pipe provided on the outside of the cable pipe to penetrate and couple the traction hose, and an outer surface of the cable pipe that contacts the traction hose inside the traction hose coupling pipe. A water inflow path may be formed to allow water supplied through the traction hose to flow into the peripheral space.

The information and communication underground cable protection device of the present invention is provided with a cable extension formed by an information and communication underground cable so that the straight length is extended, and the cable extension is spaced apart from the pipe buried in the ground at a predetermined interval to prevent tension applied from the outside. It has the advantage of preventing damage to information and communication underground cables.

Figures 1 and 2 are perspective views for explaining an information and communication underground cable protection device according to an embodiment of the present invention.
Figure 3 is a cross-sectional view taken along line I-I' indicated in Figure 1.
Figure 4 is a cross-sectional view taken along line II-II' indicated in Figure 1.
Figure 5 is a diagram for explaining a process of combining a cable laying member and a traction hose according to an embodiment of the present invention.
Figure 6 is a diagram for explaining the installation process and operating state of a cable laying member according to an embodiment of the present invention.
Figures 7 and 8 are diagrams for explaining the operating state of the information and communication underground cable protection device according to an embodiment of the present invention.

Below, embodiments of the present invention will be described with reference to the attached drawings, and will be described in detail so that those skilled in the art can easily practice the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. Meanwhile, in order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification. In addition, descriptions of parts that can be easily understood by those skilled in the art are omitted even if detailed descriptions are omitted.

Throughout the specification and claims, when it is said that a part includes a certain component, this does not mean excluding other components, but may further include other components, unless specifically stated to the contrary.

Figures 1 and 2 are perspective views illustrating an information and communication underground cable protection device according to an embodiment of the present invention, Figure 3 is a cross-sectional view cut along line Ⅰ-Ⅰ' indicated in Figure 1, and Figure 4 is a It is a cross-sectional view cut along line II-II' indicated in Figure 1, Figure 5 is a diagram for explaining the coupling process of a cable laying member and a traction hose according to an embodiment of the present invention, and Figure 6 is a diagram of the present invention. It is a drawing for explaining the installation process and operating state of a cable laying member according to an embodiment, and Figures 7 and 8 are drawings for explaining the operating state of an information and communication underground cable protection device according to an embodiment of the present invention. .

Referring to Figures 1 to 8, the information and communication underground cable protection device according to an embodiment of the present invention is a device for protecting the information and communication underground cable (10) laid along the pipe (20) buried underground. , a plurality of cable laying members 100, a traction hose 200, and a cable fixing member 300.

The cable laying member 100 is coupled to the information and communication underground cable 10, and is arranged to be spaced apart at predetermined intervals within the pipe 20, as illustrated in FIG. 7.

At this time, the cable laying member 100 accommodates the cable extension 400 formed by the information and communication underground cable 10 so that the straight length is extended by tension applied from the outside, and the amount of the cable extension 400 In combination with the end, when the tension is applied to at least one end of the cable extension part 400, the straight length of the information and communication underground cable (10) is extended in the direction of the tension to prevent disconnection of the information and communication underground cable (10). do.

For this purpose, the cable laying member 100 is formed to be separable at both ends of the cylindrical cable pipe 110 and the cable pipe 110 in which the cable extension 400 is accommodated, and is connected to both ends of the cable extension 400. It includes a plurality of cable coupling members 120 that are coupled to each other, and a traction hose coupling pipe 140 provided on the outside of the cable pipe 110 so that the traction hose 200, which will be described later, penetrates and couples thereto.

When the tension is applied, the cable coupling member 120 is separated from the cable pipe 110 while being coupled to the end of the cable extension 400 in response to it, thereby extending the straight length of the cable extension 400. To this end, a separation groove 130 may be formed between the cable coupling member 120 and the cable tube 110 so that the cable coupling member 120 can be easily separated by the tension.

In addition, the cable pipe 110 is a cable fixing member 300, which will be described later, and an adhesive member 310 is attached to the outer surface to secure the cable pipe 110 to the inside of the pipe 20 by generating adhesive force due to heat. , a heating member 320 that reacts with water supplied through the traction hose 200 to be described later and applies heat to the adhesive member 310 in the peripheral space 150 formed between the outer and inner surfaces of the cable pipe 110. is injected. At this time, the adhesive member 310 may be implemented as a heat-melt adhesive that melts with heat and acts as an adhesive, and the heating member 320 may be implemented as calcium oxide (CaO) or magnesium (Mg) that reacts with water and generates heat. You can.

In order to allow the water supplied through the traction hose 200 to flow into the surrounding space 150, the water is placed on the outer surface of the cable pipe 110 in contact with the traction hose 200 that penetrates the traction hose coupling pipe 140. A first inflow hole 111 may be formed. In addition, a second inlet hole 211 is formed on the side of the traction hose 200 in contact with the first inlet hole 111, and as shown in the enlarged view of FIG. 6, the first inlet hole 111 and the second inlet hole 111 The inlet holes 211 may be arranged in a row to form a water inflow path.

The traction hose 200 penetrates the pipe 20 while being coupled to the cable laying members 100 and tows the cable laying members 100 into the pipe 20 . That is, the traction hose 200 penetrates the traction hose coupling pipe 140 and is coupled to the cable laying members 100, and then the cable laying members 100 are pulled from one side of the pipe 20 to the other side. They can be towed inside the pipe (20). In addition, when the traction hose 200 penetrates the traction hose coupling pipe 140, the first inlet hole 111 formed outside the cable pipe 110 and the second inlet hole 211 formed in the traction hose 200 ) are arranged in a row to form a water inflow path, and then the traction hose 200 can be attached to the inside of the traction hose coupling pipe 140.

The cable fixing member 300 fixes the cable laying member 100 to the inside of the pipe 20. For this purpose, the cable fixing member 300 is attached to the outer surface of the cable pipe 110, and an adhesive member 310 that generates adhesive force by heat to secure the cable pipe 110 to the inside of the pipe 20, and A heating member 320 is injected into the peripheral space 150 formed between the outer and inner surfaces of the cable pipe 110 and reacts with water supplied through the traction hose 200 to apply heat to the adhesive member 310. Includes.

As described above, according to the present invention, the cable laying member 100 is towed into the pipe 20 by the traction hose 200, and as illustrated in FIG. 7, the cable laying member 100 is pulled into the pipe 20. ), the cable laying member 100 is towed to be spaced apart at a predetermined interval within the space, and then water is supplied through the towing hose 200 to fix the cable laying member 100 inside the pipe 20, as shown in FIG. 7 As illustrated, the information and communication underground cable 10 can be installed in the pipe 20.

As such, in the present invention, in a state in which the information and communication underground cable 10 is laid in the pipe 20, the information and communication underground cable 10 is installed by a work vehicle (e.g., an excavator, etc.), as illustrated in FIG. 8. When tension is applied, the straight length of the information and communication underground cable 10 is extended by the cable extension part 400 inside the cable laying member 100, so that the information and communication underground cable 10 is not disconnected. According to the example of FIG. 8, it can be seen that in this case, the traction hose 200 is disconnected, but the information and communication underground cable 10 is not disconnected.

In this way, the information and communication underground cable protection device of the present invention is provided with a cable extension formed by the information and communication underground cable so that the straight length is extended, and the cable extension is arranged at a predetermined interval in the pipe buried underground, thereby protecting against external force. It has a feature that prevents information and communication underground cables from being damaged by the tensile force.

Although the embodiments of the present invention have been described above, the scope of the rights of the present invention is not limited thereto, and the embodiments of the present invention can be easily modified by those skilled in the art in the technical field to which the present invention belongs and are recognized as equivalent. Includes all changes and modifications to the extent permitted.

100: Cable laying member 200: Towing hose
300: Cable fixing member 400: Cable extension part

Claims (4)

In the information and communication underground cable protection device for protecting the information and communication underground cables laid along pipes buried underground,
A plurality of cable laying members coupled to the information and communication underground cable and spaced apart at predetermined intervals within the pipe;
A traction hose coupled to the cable laying members penetrates the pipe and tows the cable laying members into the pipe; and
It includes a cable fixing member that secures the cable laying member to the inside of the pipe,
The cable laying member is
It is coupled to both ends of a cable extension formed by the information and communication underground cable so that the straight length is extended by tension applied from the outside, and when the tension is applied to at least one end of the cable extension, the information and communication cable extends in the direction of the tension. The straight length of the underground cable is extended to prevent disconnection of the information and communication underground cable,
The cable laying member is
a cylindrical cable tube in which the cable extension part is accommodated; and
It is detachably formed at both ends of the cable tube and includes a plurality of cable coupling members respectively coupled to both ends of the cable extension part,
The cable coupling member is
When the tension is applied, the information and communication underground cable protection device is separated from the cable pipe in a state of coupling with the end of the cable extension in response to it, thereby extending the straight length of the cable extension. delete The method of claim 1, wherein the cable fixing member is
An adhesive member attached to the outer surface of the cable pipe and generating adhesive force by heat to secure the cable pipe to the inside of the pipe; and
Information and communication underground cable protection, comprising a heating member that is injected into the circumferential space formed between the outer and inner surfaces of the cable pipe and reacts with water supplied through the traction hose to apply heat to the adhesive member. Device. The method of claim 3, wherein the cable laying member is
It further includes a traction hose coupling pipe provided on the outside of the cable pipe to penetrate and couple the traction hose,
On the outer surface of the cable pipe in contact with the traction hose inside the traction hose coupling pipe,
An information and communication underground cable protection device, characterized in that a water inflow path is formed to allow water supplied through the traction hose to flow into the surrounding space.

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