KR19990065583A - Light distribution box for underground wireless system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical distribution box for underground wireless systems, and more particularly, to a structure for connecting and distributing optical core wires connecting optical transmission equipment and antenna boosters and cable boosters, and protecting and mounting optical connection points. The 19-inch rack distribution box used in the prior art has a structure in which the optical core wire of the incoming optical cable is connected or distributed to the adapter panel on the front, and there has been a loss of the optical signal due to the connection when the optical signal is connected. Since the connection and distribution are made only at the front side, there is a limit to the additional connection of the core wire in the post-branch operation, and the panel is fixed in the fixed distribution box, which makes it difficult to maintain the panel or to expand and inspect the core wire. The present invention allows a plurality of two-core cord optical cable branching by allowing the optical cable to be introduced and connected to the rear side, and the connection with the optical equipment does not use the method of connecting to the optical adapter panel on the front side, and the cut-out rubber on the front side. It is formed into a structure that applies the connection method through the plug, and the connecting plate is formed with 16 two-core cord cable inlets, 24-core loose tube and 64-core ribbon fiber cable inlets at the rear thereof, and an optical jumper cord withdrawal at the front thereof. And 32 holes that can be attached to the optical tap is formed to deposit a plurality of cables in a single panel. The connecting plate is formed in a structure that is mounted on the inner box and protected in the enclosure, and improved convenience for easy operation by drawing out the inner box arbitrarily during the second quarter work of the connecting plate.

Description

Light distribution box for underground wireless system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical distribution box for underground wireless systems, and more particularly, to a structure for connecting and distributing an optical core wire connecting an optical transmission device, an antenna booster, and a cable booster and protecting and mounting an optical connection point. The conventional optical distribution box is formed only at the front of the optical adapter panel to connect and distribute the optical core wires of the optical cable introduced into the optical distribution box for the 19-inch rack. It is difficult to anticipate the effect, and because it is a method of connecting to the panel of the optical adapter, the loss of the optical signal can be expected, and since the distribution box is formed as a single unit and fixed, the interior of the compartment is narrow so that the efficiency of work during post-quarter work is It is pointed out that it is not efficient and it is difficult to accommodate a large number of cables because the conventional optical connection plate is connected and distributed only in the front portion of the optical adapter panel.

In order to solve the above problems, the optical jumper is a method of directly connecting through the cut-out rubber stopper on the front side without using the connection panel, and the rear side of the box has 16 two-core cord cable inlets and The three cores of the 24-core loose tube and the 64-core ribbon optical cable are housed together, and the front of the box forms 32 holes for mounting the optical adapter and pulling the optical jumper cord, and the opening of the hole is covered with a cut rubber stopper. . To accommodate 24 connectors per access plate, the connection method uses fusion and mechanical method, and forms a plurality of the connection plates to be separated from each other at a constant distance, and to maintain a constant distance between the inner wall of the vessel and the above structure. A support is required and the support is formed to be rotatable.

It is formed to the inner box and the inner box to protect the inner box formed as described above to form the outer box and to form a slide rail on one side of the inner wall of the outer box to facilitate the withdrawal of the inner box, a single structure SUMMARY OF THE INVENTION An object of the present invention is to provide a distribution function for connecting various optical cores to and protecting and mounting the connection points of the optical cores.

1 is a layout view of a connecting plate of the present invention.

2 is an exploded view of the front entrance of the present invention

Figure 3 is a side internal structure diagram of the present invention

Explanation of symbols on the main parts of the drawing

11: enclosure 12: enclosure

13: cable clamp 14: fixed holder

15: support 16: connection plate

17: guide 18: tension member holder

19: length adjustment holder 20: slide rail

21: hinge 22: handle

23: rubber stopper 24: front

25: rear portion 26: inlet

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

A sliding rail 20 is formed on one surface to mount the inner box 12 so that the inner box 12 can be stored therein, and the inner box 12 that is housed and protected by the outer box 11 and the optical jumper cord extracting and optical adapter are mounted. The present invention comprises a front part 24 formed with 32 holes, a 16-core cord cable inlet 26, and a rear part 25 formed with a 24-core loose tube and a 64-core ribbon optical cable inlet 26. . As shown in FIG. 1, when the front part 24 of the inner box 12 is placed at the bottom and the inner box 12 is upright, the upper surface of the figure becomes the rear part 25 of the inner box 12. The two-core cord and two-core cord holder 14 are formed from above, and on one side thereof, a cable clamp 13 is formed so that the optical core wire is grounded to the cord fixing holder 14 and fixed to the outer skin of the rear part. And an external pawl to connect the optical core and the aluminum layer inside the cable. Next, the optical fiber lead guide 17 is formed to guide the branch optical fiber until the branch fiber enters the connecting plate 16, and a tension member holder is formed at one side of the guide to eliminate the closed end caused by the expansion and contraction of the cable. 18) form a ground. A connection plate 16 is formed below the housing plate 12 to accommodate up to 24 connectors which can fuse and mechanically bond the optical cables introduced from the rear portion 25 and the front portion 24 of the inner box 12. It forms a plate like a bookcase, each plate is formed to maintain a distance at a constant distance and forms a support (15) on one side of the plate, the plate is hinged to the support (15) 21 and the plate is rotated Formed to be able to form a plate that can be built up to three pieces. In addition, the upper surface of the connecting plate 16 is formed as a cover to easily determine whether there is an abnormality of the connecting plate 16, and one side thereof is formed so that the hinge 21 is coupled to the support 15 of the connecting plate 16 to be opened arbitrarily. do. An optical jumper length adjusting holder 19 is formed under the cut rubber stopper 23 of the inner side of the inner case 12, passes through the holder 19, and passes through the branch line inlet guide 17. The length of the optical jumper grounded at 16) can be adjusted and fixed.

A slide rail 20 is formed on one side of the inner surface of the enclosure 11 so that the inner box 12 is supported by the rail 20 when the inner box 12 is pulled out to facilitate the withdrawal, and the front portion of the inner box 12 The handle 22 is formed in 24 to improve the ease of work during maintenance of the inner case 12 or additional connection of the core wire.

Conventional outgoing optical cables were introduced to the front and formed into an adapter panel connection structure, which resulted in optical loss, and there was a limit to the acceptance of optical cables in the optical distribution, and since they were formed as a single enclosure, difficulties existed in maintenance and core wire work. In the present invention, the incoming optical cable is introduced to the rear to form a plurality of cables, such as a 2-core cord cable, a 24-core loose tube cable, a 64-core ribbon cable, etc., and the incoming optical cable is directly connected to the holder without being connected to the adapter panel. This reduces the light loss by allowing the connection. In addition, the enclosure is formed into an enclosure and an inner box to facilitate the optical cable core wire extension or repair work, and is an advantageous invention to protect the internal structure.

Claims (5)

The optical jumper cord can be directly pulled out through the hole in the front part 24, and the front part 24 structure of the fixing device which can be connected to the optical adapter by attaching the optical adapter and the inlet port of the optical cable introduced into the rear part 25 are provided. Underground wireless, characterized in that the connecting plate 16 formed of the 26 and the fixing device and the cover for viewing the connecting plate 16 is formed on the connecting plate 16 and the enclosure protecting the connecting plate 16. Light distribution for the system. In claim 1, the front part (24) forms 32 holes and the holes are formed in the cut rubber stopper (23) and the light distribution for the underground wireless system, characterized in that formed to enable direct distribution. The base portion of claim 1, wherein the rear portion 25 has an inlet 26 through which the two-core optical cord cable and the 24-core loose tube 64-core ribbon cable are introduced into the rear surface, and a fixing device of the optical cable is formed. Optical distribution box for wireless systems. 2. The optical distribution box for the underground radio system according to claim 1, wherein the upper cover is pivotally coupled to the support plate (15) by a hinge (21). The method of claim 1, wherein the enclosure is formed of the enclosure 11 and the inner box 12, characterized in that formed on the slide rail 20 to facilitate the withdrawal of the inner box 12 on any one surface of the inner surface of the enclosure (11). Light distribution box for underground wireless systems.