KR200263560Y1 - Improvement of optical fiber distribution structure - Google Patents

Abstract

The present invention relates to a fiber optic cable distribution box structure for preventing human error, which will be described in more detail to facilitate work, eliminate obstacles, and improve transmission reliability. It includes a substantially hexahedral-shaped enclosure having a plurality of inlets; A plurality of distributor parts arranged inside the enclosure in a vertical direction and substantially horizontal to the ground; A plurality of cable holders installed between the up and down distributors; An optical core fixing clip formed between the plurality of distributor portions; And an optical cable connection part installed at a lower portion of the distributor and the fixing unit to which the optical cable is connected.

Description

Fiber Optic Distribution Box Structure for Human Error Prevention

The present invention relates to a fiber optic cable distribution box structure for preventing human error, and in more detail, the fiber optic cable for human error prevention can be facilitated, removes obstacles, and improves transmission path reliability. The distribution box structure.

In general, a transmission medium refers to a physical path for transmitting actual information between communication partners. Transmission media can be broadly classified into wired ones, such as coaxial cables and optical fibers, and wireless ones, which are signals that propagate along a medium such as water or air. Wireline transmission media are further subdivided according to their physical characteristics and wireless transmission media according to the frequency range of propagated signals.

When wired transmission media are classified according to their physical characteristics, the wire pair consists of two insulated conductors twisted together, a coaxial cable with an insulating material filled in between two conductors, and an electrical signal to the light source. It is divided into optical fiber cable which converts into optical signal and then reflects it into glass conductor.

Applicant KEPCO uses optical fiber cable, especially, Composite Overhead Ground Wire With Optical Fiber (OPGW) as transmission medium for power communication.

In order to protect the transmission line from lightning strikes, the fiber optic cable is embedded in the overhead line installed at the top of the transmission tower to serve as an information communication function.

This type of cable is a nationwide network that connects KEPCO workplaces across the country to form a national network, and through the above transmission media, internal telephones, LANs, and power system operation facilities (SCADA, EMS, C / R). It is conducting various electric power communication such as information transmission and powercom rental line.

On the other hand, the OPGW is introduced into the information communication room from the transmission tower is accommodated in the optical fiber cable distribution box enclosure for the actual connection to the information transmission station.

That is, as shown in Figure 1, the conventional distribution box is provided with a substantially hexahedral-shaped enclosure (1 ') with an open front to protect a number of components therein, the inside of the enclosure (1') On the upper side, a plurality of distributor portions 8 'are arranged in a direction substantially perpendicular to the ground. In addition, a substantially plate-shaped optical core holder 9 'is provided on the lower surface of the plurality of distributor portions 8', and a plurality of clips can be fixed to the optical core 7 'on the upper surface of the holder 9'. 10 'is provided. In addition, a plurality of optical cable connecting portions 11 'are provided on the lower surface of the fixing base 9', and an incoming cable 6 'is provided at the inlet 2' of the housing 1 'at the optical cable connecting portion 11'. It is connected through. In addition, a plurality of optical cores 7 'are connected to the plurality of distributor portions 8' while being fixed to the clip 10 'through the inlets 3'. In addition, in order to protect the optical cable 6 'outside the housing 1', cable covers 4 'are provided on both sides of the housing 1', and an interior distribution is provided at the front of the housing 1 '. A sliding door 5 'is provided to protect the base 8' and the like.

However, such a conventional fiber optic cable distribution box structure has a small hand space, and in view of maintenance, it is inconvenient to work due to the narrow spacing between cores in the inspection work such as simple core insertion, demolition work and core loss measurement. There is always an inherent risk of inadequate contact with ships, poor contact and human failure.

Therefore, the present invention has been devised to solve the conventional problems as described above, and improves the internal structure of the fiber optic cable distribution box to promote the convenience of the work, and to remove the obstacles in accordance with the work in advance to further improve the transmission path. To ensure reliability.

1 is a perspective view showing a conventional optical fiber cable distribution box structure.

Figure 2 is a perspective view showing the structure of a fiber optic cable distribution box for preventing human error according to the present invention.

Description of the main symbols in the drawings

One; Enclosure 2,3; Entrance

4; Cover 5; door

6; Incoming cable 7; Optical core

8; Distributor section 9; Fixture

10; Clip 11; Connection

In order to achieve the above object, the structure of the optical fiber cable distribution box according to the present invention has an open front, and a substantially hexahedral-shaped enclosure having a plurality of inlets formed on its side; A plurality of distributor parts arranged inside the enclosure in a substantially horizontal direction with the ground and arranged up and down; A plurality of cable holders installed between the upper and lower distributors; An optical core fixing clip formed between the plurality of distributor portions; It is characterized in that it comprises an optical cable connecting portion is installed in the lower portion of the distributor and the fixing unit is connected to the optical cable.

According to the distribution according to the present invention as described above, since there is no interference between adjacent cores, the possibility of human failure is less likely to increase the convenience of work, and the work becomes easier by the wide interval between cores during the work. In addition, since the core insertion is performed correctly, the contact is good and the transmission path reliability is also improved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

Figure 2 is a perspective view showing the structure of a fiber optic cable distribution box for preventing human error according to the present invention.

As shown in the front, the front is opened, the side of the housing 1 is formed in the form of a substantially hexahedral having a plurality of inlets (2,3). Inside the enclosure 1, a plurality of distributor portions 8 are fixed in a substantially horizontal direction to the ground and in the up and down directions. That is, three distributor units 8 are arranged in the horizontal direction (left and right directions), and six distributor units 8 are fixed in the vertical direction (up and down directions), so that a total of 18 distributor units 8 are arranged. It is.

In addition, a plurality of optical core holders 9 are installed between the upper and lower distributors 8, and a clip 10 is installed between the distributors 8 of each column. 7) It can be fixed. As the fixing stand 9 is provided between the distributors 8 as described above, the distance between the optical cores 7 is widened, and thus the mutual interference between the optical cores 7 is reduced.

In addition, a plurality of optical cable connecting portions 11 are formed below the distributor portion 8 and the fixing stand 9 so that the optical cables 6 can be connected.

Of course, an optical cable 6 extends and is connected to the connection part 11 through the inlet 3 of the housing 1 on the side of the housing 1, and the optical cable 6 outside the housing 1. In order to protect the cable (1) cover (4) is attached to both sides of the housing (1).

On the other hand, an optical core 7 is introduced into each inlet 2 on the side of the enclosure 1, which is fixed to the clip 10 and then coupled to a predetermined distributor section 8.

In addition, the front of the enclosure 1 is provided with a sliding door 5 for viewing the distributor 8 and the cable connecting portion 11 from the external environment. Here, the distributor part 8 is installed to be as close as possible to the door 5, so that manual work is desired. In addition, the door 5 widens the width of the door 5 of the front housing 1 sufficiently to secure the insertion space of the optical core 7 connected to the distributor section 8. Of course, the door 5 may be provided only in the cable connecting portion 11. On the other hand, an optical core 7 is introduced into each inlet 2 on the side of the enclosure 1, which is fixed to the clip 10 and then coupled to a predetermined distributor section 8.

As described above, the present invention has been described in the above embodiment, but the present invention is not limited thereto, and various modifications may be made by those skilled in the art to which the present invention pertains.

Therefore, according to the optical fiber cable distribution box structure for preventing human error according to the present invention, since there is no interference between adjacent cores, there is less possibility of human failure and the work convenience is increased. Lose. In addition, since the core insertion is performed correctly, the contact is good and the transmission path reliability is also improved.

Claims (1)

A forward hexahedron-shaped housing having an open front side and a plurality of inlets; A plurality of distributor parts arranged inside the enclosure in a vertical direction and substantially horizontal to the ground; A plurality of cable holders installed between the up and down distributors; An optical core fixing clip formed between the plurality of distributor portions; The optical fiber cable distribution box structure for preventing human error, comprising an optical cable connection part installed at the lower part of the distributor and the fixing unit to which the optical cable is connected.