KR19990070326A - Intermediate junction box for power-optical cable - Google Patents

Abstract

The present invention relates to an intermediate junction box for a power-optical composite cable, and more particularly, to an optical junction box and an arrangement thereof for improving an existing intermediate junction box for a power cable and for connecting an optical fiber.

In the measurement of the temperature of the junction box of the existing power cable, there is a problem that the junction box of the optical fiber necessary for the temperature measurement in the structure of the power cable junction box can not be formed therein, and thus the junction box is formed outside the intermediate junction box. Fiber is formed by forming a lead-out tube on one side of the protective copper tube into which the existing cable is introduced, separates the optical fiber to be introduced like the existing power cable, enters into the optical fiber junction box formed on any one side of the central copper tube and extends from the junction box The central copper tube is wound at regular intervals so that it is connected to another optical fiber junction box formed in the same way. Temperature measurement inside the power cable junction box is facilitated by the optical fiber formed by winding the center copper tube between the optical fiber junction box installed on both sides of the central copper tube by the above method.

Description

Intermediate junction box for power-optical cable

The present invention relates to an intermediate junction box for a power-optical composite cable, and to an optical junction box arrangement for measuring the temperature of an intermediate junction box of an electric power cable by installing an optical junction box for connection of an optical fiber and an improvement of an existing junction box for a power cable. will be.

It has been difficult to easily measure temperature against temperature changes occurring in the intermediate junction box of a conventional power cable, and in particular, an optical fiber junction box is formed inside the intermediate junction box of the power cable for the optical fiber arrangement of the power cable junction box. It has been pointed out that it is difficult to find accuracy in measuring the temperature inside the power junction box.

A protective copper tube places the central copper tube in the center and forms an intermediate flange between them, so as not to damage the enclosure of the intermediate junction box that constitutes the junction box, that is, without affecting the insulation performance of the intermediate junction box and the assembly process. It is an object of the present invention to obtain a configuration capable of measuring the temperature in the intermediate junction box by forming a fiber optic junction box.

In order to achieve the above object, the extraction tube is formed on one side of the protective copper tube so that the optical fiber can be withdrawn from the inside of the protective copper tube formed on both sides of the intermediate junction box and protect the portion when the optical fiber drawn out from the extraction tube is connected. Two optical fiber junction boxes are formed on both sides of the central copper tube formed between the protective copper tubes on both sides so as to be connected to each box between the junction box and the box, and the central copper tube is wound to form an optical fiber for measuring the temperature therein. do. The lead pipe is formed at an angle of 15 ° at an angle of about 15 ° at a position of about 30 ° in the circumferential direction of the protective copper pipe at the ground terminal, and the inner diameter of the lead pipe is sized so that the optical fiber can be easily taken out. It is preferable that the length is 50 mm.

The optical fiber wound around the central copper tube is embedded in the metal tube to enter the optical fiber junction box. Since the optical fiber introduced into the optical fiber junction box and the optical fiber junction box is connected inside the optical fiber junction box, the optical fiber is sufficiently dressed to sufficiently protect the connection part from external shock and moisture, and the connection of the optical fiber junction box and the connector tube It is characterized by consisting of a device for tightly sealing the part.

1 is a protective copper tube of the present invention

2 is a fiber optic junction box of the present invention

3 is an intermediate junction box for the power-optical cable of the present invention

4 is an intermediate junction box for the existing power cable

Explanation of symbols on the main parts of the drawing

1-1: Power Cable 1-2: Composite Cable

2: Protective copper tube 3: Grounding terminal

4: Central Dongguan 5: Middle Flange

6: drawing tube 7: fiber optic junction box

8 connector 9 metal tube for connection

10: optical fiber connection part 11: optical fiber connection

16-1: optical fiber 12: intermediate junction box

13: Inlet 14: Connector

Hereinafter, with reference to the accompanying drawings and embodiments will be described in detail with respect to the present invention.

The present invention is formed in the intermediate flange (5), the central copper tube connecting the two protective copper tube (2) and the central copper tube (4) and the central copper tube (4) and the two protective copper tube (2) formed with the outgoing tube (6) And a connection metal tube 9 for protecting the optical fiber junction box 7 which protects the connection part 10 of the optical fiber 16-1 and the optical fiber 16-1 formed between the box 7 and the box 7. It consists of.

FIG. 1 shows a protective copper tube 2 formed on both sides of the present invention, and FIG. 2 shows a state in which the optical fiber 16-1 is connected to the inside of the optical fiber junction box 7, and FIG. Is a state diagram configured to measure the internal temperature of the intermediate junction box 12 of the power cable (1-1).

In order to measure the temperature inside the junction box 12 in the existing junction box 12 for the existing power cable (1-1) shown in Figure 4, the protective copper tube (2) into which the power cable (1-1) is introduced The optical fiber 16-1 is introduced into the inlet 13 of the main body 13 and formed into a composite cable (1-2) like the existing power cable (1-1), and the lead-out pipe (6) formed at one side of the protective copper pipe (2). Then, the optical fiber 16-1 is taken out and led to the optical fiber junction box 7. The optical fiber 16-1 withdrawn from the lead-out tube 6 and introduced into the optical fiber junction box 7 has a connection tube 8 outside the optical fiber 16-1 to protect the optical fiber 16-1. And the optical fiber 16-1 is positioned inside the connector 8 in a shape as shown in FIG. The optical fiber 16-1 in the optical fiber junction box 7 as shown in FIG. 2 is sufficient to facilitate the connection of the optical fiber splice 11 and to facilitate the post-branching operation.

The optical fiber splicing part 10 connected from the optical fiber splice box 7 tightly seals the connecting part 14 of the connecting pipe 8 in order to protect it from external shock and moisture, and the connection part of the metal pipe 9 for optical fiber connecting is also sealed. do. Since the connection metal tube 9 drawn out from the optical fiber junction box 7 has the optical fiber 16-1 embedded therein, the central copper tube 4 has a curvature capable of keeping the tension of the optical fiber 16-1 to a minimum. ) A number of wheels to facilitate the temperature measurement of the intermediate junction (12). The optical fiber junction box 7 is formed on both sides of the central copper tube 2 in a shape as shown in FIG. 3, but is formed at a position where the curvature of the optical fiber 16-1 can be easily maintained. In addition, the connection pipe 8 drawn from the lead pipe 6 and connected to the optical fiber junction box 7 has a ground terminal 3 formed in the protective copper pipe 2 to maintain the curvature of the internal optical fiber 16-1. In the circumferential direction of the protective copper tube (2) to form an outlet tube (6) in the circumferential direction of the protective tube (2) and the connecting tube (8) connected through the outlet tube (6) the optical fiber junction box (7) 15 degrees in the direction oblique to keep the curvature of the optical fiber 16-1 to the maximum, and the inner diameter of the lead-out tube 6 is formed to a size that the optical fiber 16-1 can be easily drawn out and its length Form 50 mm.

The present invention which can measure the temperature inside the intermediate junction box for power cables by forming an optical fiber junction box outside the power junction box for power cables (PJB) affects the function of the existing junction box for power cables, that is, insulation performance and assembly process. It forms the optical fiber junction box outside the intermediate junction box to connect the optical fiber introduced into the connector and the optical fiber introduced into the fiber optic metal tube and winds the outer surface of the central copper tube many times without passing the introduced optical fiber metal tube into the intermediate junction box. The optical fiber junction box that can measure the temperature inside the intermediate junction box and each function associated with it can improve the work efficiency and the connection efficiency.

Claims (4)

A composite power cable (1-2) is introduced into the inlet (13), the protective copper tube (2) formed with a lead pipe (6) connecting the ground terminal (3) and the connecting pipe (8) on one side and the protective copper tube on both sides The connection pipe 6 connected to the lead pipe 6 of (2) is connected, and the connection metal pipe 9 wound around the outside of the central copper pipe 4 having the protective copper pipe 12 formed on both sides is pulled out. Intermediate junction box for power optical composite cable, characterized in that it consists of a fiber optic junction box (7) connected by the incoming. The power optical composite cable according to claim 1, wherein the lead pipe (6) is formed at a position of 30 ° in the circumferential direction of the protective copper pipe (2) at the ground terminal (3) formed on one side of the protective copper pipe (2). Intermediate junction box The power optical composite cable according to claim 1, wherein the connection pipe (8) is formed obliquely at about 15 ° in the direction of the optical fiber junction box (7) from the lead pipe (6) formed on one side of the protective copper pipe (2). Middle junction. The optical fiber 16-1 according to claim 1, wherein the optical fiber junction box 7 uses the optical fiber 16-1 drawn from the lead pipe 6 of the protective copper tube 2 to the outside of the intermediate junction box 12. Intermediate junction box for power optical composite cable, characterized in that the optical fiber connection portion 10 and the optical fiber connection head 11 is built in to facilitate the connection operation.