KR20100006978A - Fiber management box - Google Patents

Abstract

PURPOSE: A fiber management box is provided to minimize the volume of fiber management box while keeping the diameter required the flexural modulus of the optical fiber. CONSTITUTION: The lower case(100) is connected to the single ferrule fiber provided from outside. And the lower part outer shape is formed. The upper case(200) is fixed and combined with the lower case. And the top outer shape is formed. The optical fiber connector mounting bracket(300) is between the lower case and upper case the interposition. A plurality of optical fiber bundles in which the single ferrule fiber is branched is reeled and it mounts. One side protrusion(210) of the upper case passes through the lower part of one side holder(310) of the optical fiber connector mounting bracket and is fitted and combined in the fixation part at one side(110) of the lower case.

Description

Optical distribution box for optical fiber {Fiber Management Box}

The present invention relates to an optical fiber distribution box for optical fibers used for connection, distribution, and storage of single-core cords between optical cables and equipment when the optical fiber cables are introduced into a relay station and connected to a system or equipment.

At present, optical communication network is being constructed in subscriber line for the construction of high-speed information communication network, the construction of fiber optic communication network of general communication operators and the provision of various communication services such as CATV / IP TV. With the increase of optical subscriber networks and the expansion of services at high speed and high capacity, a large number of optical fibers are required.

Such an optical fiber has a structure in which a thick bundle of fibers extending from a transmitting side reaches a receiver side and is divided into several branches and transmitted. To this end, the receiver side requires optical distribution to which a fiber optic connector is mounted to separate one thick fiber bundle into several branches.

The fiber optic connector usually includes a polished end face received by a ferrule, which enables the position change of the optical fiber received by the connector to transmit and receive a signal to another optical fiber or an optical light source. do. The structure or principle of such an optical fiber connector is already known in a variety of known techniques.

On the other hand, the optical distribution box formed on the receiving side is installed in a subscriber line, a central station, a relay station and a telephone station, etc., and is designed to perform the function of protecting the connector of the optical fiber cable introduced from the external optical path and the optical fiber length fixing function. The distribution box is fixed to the rack and installed.

Conventional optical distribution boxes have been developed around the functions of connecting, distributing and storing single-core optical fibers, with capacities up to 144C (144core). However, the ribbon fiber cable is designed to have a capacity of at least 288C or 320c, and to accommodate this, it was necessary to stack additional optical distribution boxes with existing optical distribution boxes.

In addition, the conventional optical distribution box is composed of only a plurality of ribbon optical fiber protective support plate is not easy to store the sheathed optical fiber (spared cord) in case it is used in the future, and the inside of the distribution box is complicated There was a lot of inconvenience in connection with optical fiber to the system and repair work required when changing subscribers.

In addition, the stacking of the additional light distribution box causes an increase in unnecessary stacking space, and there is a problem that a lot of working time is required because the optical fiber connection work must be performed for each distribution box.

Nevertheless, in the related art, information on a minimum bending rate of an optical fiber for ensuring smooth communication is insufficient, and a distribution box structure capable of mounting the optical fiber cable in an optimal space has not been disclosed.

Therefore, the development of the optical distribution box for the optical fiber that can solve the above problems is greatly required.

The present invention devised to solve the above problems is to provide an optical distribution box for optical fibers used for connection, distribution, and storage of single-core cords between optical cables and equipment when the optical fiber cable is connected to a relay station or the like. In particular, the purpose of minimizing the volume occupied by the optical distribution box is to maintain the optimum diameter required for data transmission and directly support the optical connector of each home, by maintaining the bending rate of the optical fiber wound inside the optical distribution box. It is done.

The present invention for achieving the above object is connected to a single-fiber optical fiber supplied from the outside, the lower case forming a lower appearance of the light distribution box; An upper case fixedly coupled to the lower case and forming an upper shape of a light distribution box; And an optical fiber connector mounting bracket interposed between the lower case and the upper case and wound and mounted with a plurality of optical fiber bundles in which the single-core optical fiber is branched.

Preferably, the lower case and the upper case is a protrusion of one side of the upper case passes through the bottom of one side of the mounting bracket of the optical fiber connector is fitted to one side fixing portion of the lower case, formed on the other side of the upper case A fixing member penetrating the fixing hole and the other holder of the mounting bracket of the optical fiber connector may be inserted into and fixed to the fixing hole of the lower case.

The lower case may include an optical fiber input unit formed at one side of the lower case and separating the single-core optical fiber introduced from the outside into a plurality of optical fiber bundles, and formed at an inner lower surface of the lower case to separate the optical fiber bundles from the lower case. A first guide member for guiding to the side, a first winding member formed on the other side of the inner lower surface of the lower case to wind the optical fiber bundle with a predetermined curvature along the outer surface, the optical fiber bundle wound along the first winding member inside It may include a second guide member for guiding to one side of the lower case by passing through, and a fixing holder is formed on the outer lower surface of the lower case to fix the light distribution box to the outside.

In addition, the optical fiber connector mounting bracket is formed on a lower surface of the optical fiber connector mounting bracket and is formed on a lower surface of the second winding member for winding the optical fiber bundle extending from the lower case to have a predetermined curvature, and the optical fiber connector mounting bracket. A third guide member for aligning the bundled optical fiber bundle through the second winding member, and a plurality of distributions formed in a predetermined portion of the optical fiber connector mounting bracket to distribute a path of the optical fiber bundle aligned through the third guide member; A hole may include a plurality of optical fiber connector holders formed in an oblique line on an upper surface of the optical fiber connector mounting bracket and coupled to the optical fiber bundles distributed along a path.

In addition, the upper case may include a protruding portion protruding on one side of the upper case and fitted to the lower case, and a fixing hole formed at the other side of the upper case to insert the fixing member.

More preferably, the diameter of the optical fiber wound on the first or second winding member may be 3cm.

As described above, according to the present invention, the cable can be protected by limiting the degree of freedom of the cable within the limited free space, and the cable can be satisfied by satisfying the bending rate of the optical fiber required for data transmission in the limited space inside the optical distribution box. It can be arranged to minimize the space occupied by the light distribution box.

In order to fully understand the present invention, the advantages of the operability of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is an exploded perspective view of an optical distribution box for optical fibers according to an embodiment of the present invention.

Referring to Figure 1, the optical distribution box for the optical fiber of the present invention is largely connected to the single-core optical fiber supplied from the outside, and fixed to the lower case 100, the lower case 100 forming the lower appearance of the optical distribution box An optical fiber connector coupled and mounted between the upper case 200 and the lower case 100 and the upper case 200 and forming a plurality of optical fiber bundles in which the single-core optical fiber is branched to form an upper shape of the light distribution box. The mounting bracket 300 is included.

In more detail, the lower case 100 and the upper case 200 has the one side protrusion 210 of the upper case 200 passes through the lower portion of the one side holder 310 of the optical fiber connector mounting bracket 300 to the lower portion. Screws which are fitted to one side fixing part 110 of the case 100 and penetrate the fixing holes 220 formed on the other side of the upper case 200 and the other side holder 311 of the optical fiber connector mounting bracket 300. The fixing member 400 of the back is inserted into and fixed to the fixing hole 120 of the lower case 100.

The single-core optical fiber supplied from the outside is separated into a plurality of optical fiber bundles through the optical fiber input unit 130 formed at one side of the lower case and connected to the optical distribution box, and the optical fiber bundle is a guide member of the lower case 100. It is supplied to the guide member and the like formed on the lower surface of the optical fiber connector mounting bracket 300 through. The optical fiber bundle is wound on the lower surface of the connector mounting bracket 300 and arranged, and then distributed and coupled to the plurality of optical fiber connector holders 320 formed on the upper surface of the optical fiber connector mounting bracket 300.

Hereinafter, the configuration of each part will be described in more detail with reference to FIGS. 2 to 7.

2 and 3 are perspective views showing the lower case of the optical distribution box for the optical fiber according to an embodiment of the present invention.

2 and 3, one side of the lower case 100 is formed with an optical fiber input unit 130 through which the single-core optical fiber is introduced from the outside, and the single-core optical fiber is a plurality of optical fibers while passing through the optical fiber input unit 130. Separated into bundles. The separated optical fiber bundle extends to the other side through the first guide member 140 formed on the inner lower surface of the lower case 100, and an outer surface of the first winding member 150 formed on the other side of the lower case 100. It is wound with a constant curvature along. After the optical fiber bundle is wound along the first winding member 150, the optical fiber bundle penetrates through the inside of the second guide member 160 formed at a portion adjacent to the first guide member 140 and extends to one side again.

Meanwhile, a fixing holder 170 may be formed on the outer lower surface of the lower case 100 to fix the light distribution box to the distribution box. The fixing holder 170 may be fixedly coupled to the distribution box through a fixing member such as a screw. In particular, the conventional optical distribution box is too large to be mounted inside the distribution box, etc., but a separate mounting space was required, but in the case of the optical distribution box according to the present invention, the winding radius of the optical fiber is theoretically required to form the minimum required for the distribution box. It can be mounted, which is advantageous for space utilization, and the manufacturing cost can also be reduced due to the compact size.

4 and 5 are perspective views showing the optical fiber connector mounting bracket of the optical distribution box for the optical fiber according to an embodiment of the present invention.

4 and 5, a second winding member 330 and a third guide member 340 are formed on the lower surface of the optical fiber connector mounting bracket to guide the optical fiber bundle. The second winding member 300 is wound to have a predetermined curvature of the optical fiber bundle extending through the second guide member 160 formed on the inner lower surface of the lower case 100, the second guide member The optical fiber bundle wound therethrough is aligned along the third guide member 340. The optical fiber bundle aligned through the third guide member 340 is distributed along a distribution hole 350 formed in a predetermined portion of the optical fiber connector mounting bracket 300 according to a destination, so that an upper surface of the optical fiber connector mounting bracket 300 is provided. Extends. The optical fiber bundles distributed to the upper surface of the optical fiber connector mounting bracket 300 are respectively coupled to the corresponding optical fiber connector holder 320.

The connector holder 320 is formed in a plurality of diagonal lines to minimize the space occupied by the upper surface of the optical fiber connector mounting bracket 300.

On the other hand, when the optical fiber cable is used as the signal transmission path, it is necessary to satisfy the curvature limitation of the optical fiber cable, and in particular, in the case of a large number of optical fiber cables laid in a narrow space, satisfying the curvature limitation is the greatest problem for smooth communication. Becomes The first and second winding members 150 and 330 are preferably formed to maintain the minimum winding radius of the optical fiber as described above. Preferably, the first and second winding members 150 and 330 are formed of the optical fibers wound around the first and second winding members 150 and 330. The diameter is required to be 3 cm or more.

6 and 7 are perspective views showing the upper case of the optical distribution box for the optical fiber according to an embodiment of the present invention.

6 and 7, the upper case 200 is coupled to the lower case 100 to open the periphery of an inner part of an optical distribution box in which an optical fiber bundle for mounting an optical signal is mounted. It is a module to protect the optical fiber bundle and prevent damage to the optical fiber bundle.

A protrusion 210 may be formed at one side of the upper case 200 and a fixing hole 220 into which the fixing member 400 is inserted at the other side to be coupled to the lower case 100. The coupling process of the case through the protrusion 210 and the fixing hole 220 is as described with reference to FIG. 1, and may be fixed through any fixing member within a range apparent to those skilled in the art.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is an exploded perspective view of an optical distribution box for optical fibers according to an embodiment of the present invention.

2 and 3 are a perspective view showing a lower case of the optical distribution box for the optical fiber according to an embodiment of the present invention.

4 and 5 are perspective views showing the optical fiber connector mounting bracket of the optical distribution box for the optical fiber according to an embodiment of the present invention.

6 and 7 are a perspective view showing an upper case of the optical distribution box for the optical fiber according to an embodiment of the present invention.

Claims (6)

A lower case connected to the single-core optical fiber supplied from the outside and forming a lower outline of the light distribution box; An upper case fixedly coupled to the lower case and forming an upper shape of a light distribution box; And And an optical fiber connector mounting bracket interposed between the lower case and the upper case and wound and mounted with a plurality of optical fiber bundles in which the single-core optical fiber is branched. The method of claim 1, The lower case and the upper case is one projection of the upper case is passed through the lower portion of the one side of the mounting bracket of the optical fiber connector mounting bracket is fitted to one side of the lower case, And a fixing member penetrating the fixing hole formed at the other side of the upper case and the other holder of the mounting bracket of the optical fiber connector is inserted into and fixed to the fixing hole of the lower case. The method of claim 2, The lower case, An optical fiber input unit formed at one side of the lower case to separate the single-core optical fiber introduced from the outside into a plurality of optical fiber bundles, A first guide member formed on an inner lower surface of the lower case to guide the optical fiber bundle to the other side of the lower case; A first winding member formed on the other side of the lower surface of the lower case and winding the optical fiber bundle at a predetermined curvature along the outer surface; A second guide member for guiding the optical fiber bundle wound along the first winding member to the inside of the lower case by penetrating therein; It is formed on the outer lower surface of the lower case optical distribution for the optical fiber comprising a fixing holder for fixing the optical distribution box to the outside. The method of claim 3, wherein The optical fiber connector mounting bracket, A second winding member formed on a lower surface of the optical fiber connector mounting bracket and winding the optical fiber bundle extending from the lower case to have a predetermined curvature; A third guide member formed on a lower surface of the optical fiber connector mounting bracket to align the optical fiber bundles wound through the second winding member; A plurality of distribution holes formed in a predetermined portion of the optical fiber connector mounting bracket to distribute the paths of the optical fiber bundles aligned through the third guide member; And a plurality of optical fiber connector holders, each of which is formed in an oblique line on an upper surface of the optical fiber connector mounting bracket and is coupled to the optical fiber bundle distributed along a path. The method of claim 4, wherein The upper case, A protrusion protruding from one side of the upper case and fitting to the lower case, and It is formed on the other side of the upper case optical distribution for the optical fiber including a fixing hole into which the fixing member is inserted. The method of claim 5, Optical fiber distribution for the optical fiber, characterized in that the diameter of the optical fiber wound on the first or second winding member is 3cm.

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