KR20130081087A - A fiber optic cable connecting terminal box - Google Patents

Abstract

PURPOSE: An optical cable terminal is provided to provide a wide work space, thereby easily installing or repairing the cable to an optical adapter. CONSTITUTION: An optical cable terminal box comprises a terminal box main body (100), a bracket (200), and an optic adapter panel (300). The bracket is formed on the terminal box main body and forms a guide recess. The optical adapter panel is installed to be able to slide to the forward and backward of the bracket and forms a guide protrusion which is inserted into the guide recess. The guide recess comprises a fist guide recess which is formed in the forward and backward, and a second guide recess which is formed in the upward and downward and is formed consecutively to the first guide recess.

Description

Optical fiber terminal box {A fiber optic cable connecting terminal box}

The present invention relates to an optical cable terminal box, and more particularly, to an optical cable terminal box including a terminal box body, a bracket formed on the terminal box main body, and an optical adapter panel slidably installed in the front and rear directions on the bracket.

In general, an optical cable terminal box (aka: FTTH optical box) is for connecting, branching, and arranging optical fibers. It is not buried underground and is usually fixed to a telephone pole or indoor / outdoor wall, and an optical adapter, connector, and cable are built in. It provides splicing functions such as fusion splicing, mechanical splicing or connector splicing, as well as connection protection and draw-in / out functions.

As shown in FIG. 1, the optical cable terminal box basically includes a housing 10 fixed to a telephone pole or an indoor / outdoor wall.

An optical cable inlet 11 is formed on the side of the enclosure 10 to allow the optical cable C1 to be inserted therein, and a plurality of photo-outer rays C2 connected to the final subscriber are inserted to the opposite side of the optical cable inlet 11. The photo-outdoor inlet 12 is formed.

In addition, the front surface of the housing 10 is hinged to the cover 20 to be opened and closed, the back of the housing 10 is formed with a support piece 13 extending outwardly is formed in the support piece 13 fastening A ball 14 is formed.

Therefore, the optical cable terminal box is a whole body by coupling the fastening bolts to the fastening hole 14 of the support piece 13 in a state in which the housing 10 is in close contact with the telephone pole or indoor / outdoor wall so that the cover 20 faces the front. It can be firmly fixed on the walls of the main or indoor / outdoor.

Meanwhile, an optical adapter panel 30 is installed inside the enclosure 10. The optical adapter panel 30 is provided with a plurality of optical adapters 31 each provided with an optical adapter input terminal 31a and an output terminal 31b on both sides.

Therefore, in the state in which the housing 10 is fixed to the telephone pole or indoor / outer wall surface, the optical cable inlet 11 is inserted into the housing 10 and the optical cable C1 is inserted into the enclosure 10, and then the outer coating of the optical fiber C1 is introduced. Peeled off and branched into a plurality of optical fiber clusters (hereinafter referred to as "optical fibers"), which are then branched back into 8 optical fiber units using a splitter (S), and each branched optical fiber is connected to each other using a connector 32a. When coupled to the adapter input terminal 31a, respectively, the connection of the optical cable C1 is completed.

Thereafter, the photo-outer rays C2 are inserted into the photo-outlet inlets 12 formed in the enclosure 10, respectively, and the photo-outer rays C2 are respectively connected to the optical adapter output terminals 31b by using the connector 32b. When combined, the connection work of the optical cable (C1) and the optical outdoor (C2) is completed.

In this case, the optical cable C1 introduced into the housing 10 through the optical cable inlet 11 is branched into optical fibers in the housing 10 so that the optical fibers are connected to the optical adapter input terminal 31a, respectively. In order to prevent the optical fibers from being entangled in the process up to one side of the adapter panel 30, the arranging member 40 to which the optical fibers are supported is installed.

The conventional optical cable terminal box has a problem that the optical adapter panel 30 to which a plurality of optical cables are connected is fixed inside the housing 10 due to a narrow space for repair and replacement.

The present invention has been made to solve the above-described problem, an optical cable terminal box that can facilitate the installation of the optical cable and the connection of the optical cable, the installation of the optical adapter, and the installation of the optical distribution unit in the terminal box which is a limited space with a narrow workspace. The purpose is to provide.

An optical cable terminal box of the present invention for achieving the above object includes a terminal box body, a bracket formed on the terminal box body, and an optical adapter panel slidably installed in the front and rear directions on the bracket.

A guide groove is formed in the bracket, and a guide protrusion inserted into the guide groove is formed in the optical adapter panel, and the guide groove is continuously formed in the first guide groove and the first guide portion formed in the front-rear direction. It may include a second guide groove formed in the vertical direction.

According to the optical cable terminal box of the present invention as described above, there are the following effects.

Including a bracket formed on the terminal box main body and an optical adapter panel slidably installed in the front and rear directions, the operation can be performed in a large space, thereby facilitating the installation or repair of the cable in the optical adapter.

A guide groove is formed in the bracket, and a guide protrusion inserted into the guide groove is formed in the optical adapter panel, and the guide groove is continuously formed in the first guide groove and the first guide portion formed in the front-rear direction. Including a second guide groove formed in the vertical direction, the position of the optical adapter panel is fixed when working with a simple structure, the operator can perform the operation more easily.

1 is a front view showing a conventional optical cable terminal box.
2 is a front perspective view of an optical cable terminal box according to a preferred embodiment of the present invention.
3 is a rear perspective view of an optical cable terminal box according to a preferred embodiment of the present invention.
Figure 4 is a rear perspective view showing a state in which the optical cable terminal box is installed on the power pole according to a preferred embodiment of the present invention.
Figure 5 is a front perspective view showing a state in which the optical cable terminal box is installed on the wall according to a preferred embodiment of the present invention.
6 is an exploded perspective view of an optical cable terminal box according to a preferred embodiment of the present invention.
7 is a partial cross-sectional view of an optical cable terminal box bolt fastening according to a preferred embodiment of the present invention.
Figure 8 is a perspective view of the optical cable terminal box coupled state according to a preferred embodiment of the present invention.
9 is a perspective view showing a state in which the optical cable is connected to the optical cable terminal box according to an embodiment of the present invention.
10 is a perspective view showing a state during operation of the optical cable terminal box according to a preferred embodiment of the present invention.

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

For reference, the same components as those of the conventional art will be described with reference to the above-described prior art, and a detailed description thereof will be omitted.

As shown in Figure 2 to 10, the optical cable terminal box of the present embodiment, the terminal box body 100, the bracket 200 formed on the terminal box body 100, and sliding to the bracket 200 in the front and rear direction And an optical adapter panel 300 that is possibly installed.

As shown in Figure 2, the terminal box body 100 is formed in a hollow rectangular shape, the door 110 is installed on the front may be opened in front if necessary.

The terminal box body 100 may be entirely formed of a synthetic resin material.

The door 110 has one side connected to the terminal box body 100 through the hinge 160.

In addition, the door 110 is formed with a locking part 140 on the other side, the door 110 is maintained in a closed state. Through the locking unit 140, the operator can see the inside of the terminal box only when necessary. The locking unit 140 is provided with a bolt or the like so that the locked state of the door 110 can be maintained firmly.

Furthermore, the locking protrusion 150 is formed to protrude from the other side of the door 110 to be disposed above and below the locking unit 140, respectively.

The locking protrusion 150 has protrusions formed at upper and lower portions thereof, and is caught by the protruding jaw 190 formed at the terminal box body 100.

Such a locking protrusion 150 and a protrusion jaw 190 is provided, and when the locking operation of the door 110 is first made to catch the locking protrusion 150 on the protrusion jaw 190, the door 110 is moved forward. It does not open, which makes work easier.

At both sides of the lower side of the terminal box main body 100, a lead-out portion 180 through which an optical cable or the like is introduced or drawn is formed.

As shown in Figure 3, the terminal box of the present embodiment includes a ring portion 120 that is rotatably installed on the back of the terminal box body 100.

The ring part 120 is formed in a "U" shape including a horizontal part connecting both vertical parts on both sides and vertical parts on both sides, and both ends thereof are connected by the rotation shaft 122.

The horizontal portion has a thicker front and rear thickness than the vertical portion. Due to this it is possible to minimize the weight of the ring portion 120 and to improve the rigidity of the ring portion 120.

When the ring portion 120 is folded, the curved portion 121 is formed on the surface behind the ring portion 120 in an arc shape. The bent part 121 is formed at the center of the horizontal part.

The horizontal portion is formed with a plurality of insertion holes 123 in the front and rear directions.

Due to the insertion hole 123, the weight of the terminal box can be reduced, and when the terminal box is installed on the wall, the terminal box can be easily hung on nails.

Furthermore, a protrusion 130 having a through hole 131 into which the fixing band B is inserted is formed at the rear side of the terminal box main body 100 in the left and right directions.

The second curved portion 132 is formed at the center of the surface of the rear of the protrusion 130. The second bent part 132 is formed to be disposed in line with the bent part 121.

The front and rear thicknesses of both sides of the protrusion 130 may be formed to be similar to or the same as the thickness of the horizontal portion of the ring part 120, and thus the terminal box may be stably installed.

On both sides of the lower portion of the protruding portion 130, the shaft insertion groove 134 into which the pivot shaft 122 of the ring portion 120 is inserted is formed so that the lower portion thereof is opened, and the shaft locking protrusion is disposed inside the shaft insertion groove 134. 135 is formed.

When the pivot shaft 122 of the ring part 120 is inserted into the shaft insertion groove 134 of the protrusion 130, the interval between the shaft insertion groove 134 is widened while the lower portion of the protrusion 130 is elastically deformed, thereby rotating the shaft 122. ) Is inserted into the shaft insertion groove 134. For this reason, the ring portion 120 is rotatably installed on the protrusion 130. After the ring portion 120 is installed in this way, the rotation shaft 122 is caught by the locking protrusion 135 so as not to be pulled out.

The ring portion 120 and the protrusion 130 may be disposed on the upper and lower back of the terminal box body 100, respectively.

As shown in FIG. 4, the terminal box of the present embodiment inserts the band B into the through hole 131 in the folded state of the ring part 120 when installed in the power pole, and the bend part 121 and the second bend part. 132 causes the curved surface of the power pole to abut. This ensures that the terminal box is reliably installed on a power pole with a curved surface.

In addition, as shown in Figure 5, the terminal box of this embodiment, when installed on a flat wall surface (W) can be rotated by the hook portion 120 to extend the ring portion 120 to hang on a nail or the like installed on the wall surface. As a result, the terminal box is stably installed on the wall surface W having a flat surface.

Thus, the terminal box of the present embodiment can be easily installed on the curved power pole or the wall (W) as needed without any special measures.

When the terminal box is installed on the power pole due to the protruding portion 130 and the ring part 120, the contact area between the terminal box main body 100 and the power pole increases, so that the terminal box can be stably installed, and the ring portion 130 is provided. It is also easy to install, even when installed on the flat wall (W) using a ring, the contact area between the wall (W) and the terminal box is increased, and the terminal box is stably installed without shaking.

In addition, the auxiliary protrusion 170 is formed on the back of the terminal box main body 100. The auxiliary protrusion 170 may be formed to correspond to a bolt position installed in the terminal box. The nut 900 may be insert injection molded into the auxiliary protrusion 170.

The nut 900 may be surrounded by the terminal box body 100 so as not to be exposed to the outside, thereby preventing corrosion and the like. In addition, a groove is formed along the circumferential direction on the outer circumferential surface of the nut 900, and a longitudinal groove is formed on the outer circumferential surface of the nut 900 in an up and down direction so that it is not easily detached or turned away.

Due to the auxiliary protrusion 170, while maintaining the weight of the terminal box body 100 lightly, the components inside the terminal box can be firmly fixed through bolts. Furthermore, when the terminal box is installed on the wall (W) or the power pole, the contact area is increased due to the auxiliary protrusion 170, so that the terminal box can be stably fixed.

As shown in FIG. 6, the bracket 200 is formed inside the terminal box body 100. The bracket 200 may be provided as a separate member and installed inside the terminal box body 100, or alternatively, may be integrally formed inside the terminal box body 100.

On one side of the terminal box main body 100, the arranging member 500 for arranging an optical fiber or an optical cable is arranged, and the bracket 200 is disposed on the other side.

A guide ring 600 for guiding an optical cable is formed in the lower side of the other side inside the terminal box main body 100. One side of the guide ring 600 is formed with a cutout to facilitate insertion of an optical cable.

The bracket 200 is installed in a panel-shaped mounting panel 400 installed inside the terminal box body 100. The mounting panel 400 may be omitted.

The bracket 200 includes an upper wall that connects both side walls and both side walls, and a rear surface abutting with the mounting panel 400.

The bracket 200 has guide grooves formed on both side walls thereof.

The guide groove includes a first guide groove 221 formed in the front-rear direction and a second guide groove 222 continuously formed in the first guide portion 221 and formed in the vertical direction.

The guide grooves are formed at upper and lower portions of both side walls, respectively, and auxiliary guide grooves are formed at both side walls of the guide grooves.

The auxiliary guide groove also includes a first guide groove 231 formed in the front-rear direction and a second guide groove 232 continuously formed in the first guide portion 221 and formed in the vertical direction.

Support walls 233 are formed at upper and lower portions of the auxiliary guide grooves.

Both sides of the upper wall are formed to have a wider width as the cutout portion 210 faces forward.

The optical adapter panel 300 is slidably installed in the front and rear directions on the bracket 200.

The optical adapter panel 300 also includes a front connection part connecting the side walls disposed at both sides and a front upper part of the side wall, and a rear connection part connecting the rear side of the side wall.

Shelf protrusions 340 are formed in the vertical direction in both sidewalls of the optical adapter panel 300.

The optical adapter 330 penetrates in front of one side wall of the optical adapter panel 300. The position where the optical adapter 330 is installed can be changed in various ways depending on the situation.

The fastening part to which other components can be fastened is formed at the lower side of the outer sidewall of the optical adapter panel 300. The fastening part may have an insert injection molding nut.

A guide protrusion 310 inserted into the guide groove is formed at an outer side of one side wall of the optical adapter panel 300.

An auxiliary protrusion 320 disposed below the side guide wall 310 of the optical adapter panel 300 and inserted into the auxiliary guide groove is formed.

As shown in FIG. 7, the auxiliary protrusion 320 has a bolt insertion hole 321 into which the bolt 700 is inserted. A spring 800 is installed inside the bolt insertion hole 321.

As shown in FIG. 8, after placing the bracket 200 inside the terminal box main body 100 and inserting the auxiliary protrusion 320 of the optical adapter panel 300 into the auxiliary guide groove of the bracket 200, FIG. 7. As shown in the drawing, the bolt 700 is inserted into the bolt insertion hole 321 and then fastened to the nut 900 installed on the auxiliary protrusion 170 to complete the assembly of the bracket 200 and the optical adapter panel 300. do.

If the bolt 700 is released only a little during the repair or replacement in the future, the bolt 700 is popped out by the elastic force of the spring 800 to facilitate the work. As such, the structure using the spring 800 may be equally applicable to the locking part 140 of the door 110.

In addition, cutouts 210 are formed at both sides of the upper wall of the bracket 200 to easily widen the gap between both side walls of the bracket 200, and thus guide protrusions 310 to the guide groove and the auxiliary guide groove. ) And the auxiliary protrusion 320 can be easily inserted respectively.

Meanwhile, as shown in FIG. 9, when the terminal box is used, a plurality of optical cables are connected to the optical adapter panel 300. Therefore, the space for the work becomes too narrow inside the terminal box main body 100 at a later time for work for repair or replacement.

Therefore, in the present embodiment, the optical adapter panel 300 is slid forward with respect to the terminal box main body 100 and the bracket 200 during a later repair or replacement work. As a result, the worker can work in a large space, thereby facilitating the installation or repair of the cable to the optical adapter 330.

In detail, the bolt adapter 700 is released to allow the optical adapter panel 300 to be slidable, and then the guide protrusion 310 and the auxiliary protrusion 320 are slid forward along the guide groove and the auxiliary guide groove, and then the lower portion thereof. The optical adapter panel 300 is fixed so as not to move forward and backward in the state in which the optical adapter panel 300 is moved forward. As described above, when the operation of the optical adapter panel 300 is fixed, the operator can perform the operation more easily.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims .

DESCRIPTION OF REFERENCE NUMERALS
100: terminal box body 110: door
120: ring 130: protrusion
140: locking unit 150: locking projection
160: hinge 170: auxiliary protrusion
180: inlet and outlet 200: bracket
300: optical adapter panel 400: mounting panel

Claims (2)

A terminal box body;
A bracket formed on the terminal box body;
Optical cable terminal box including an optical adapter panel slidably installed in the front and rear directions on the bracket. The method of claim 1,
A guide groove is formed in the bracket, and a guide protrusion inserted into the guide groove is formed in the optical adapter panel.
The guide groove is an optical cable terminal box including a first guide groove formed in the front and rear direction and a second guide groove formed continuously in the first guide portion and formed in the vertical direction.

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