KR101237516B1 - Ribbon unite - Google Patents

Abstract

PURPOSE: A multi core optical cable ribbon unit is provided to improve productivity by reducing the number of works according to the connection of an optical connector. CONSTITUTION: A cassette casing(20) has a first side wall part(21) and a second side wall part(22). First adaptors(31) are installed in the first side wall part of the cassette casing and are combined with a single core optical cable connector(42). A second adaptor(32) is installed in the second side wall part and is combined with a multiple core optical cable connector(41). A multiple core optical cable(200) is combined with the second adaptor. Unit optical cables(50) connect each of the single core optical cable connectors with the multiple core optical cable connector. An extension arranging part(60) is installed in the cassette casing and arranges the extension of unit optical cables.

Description

Multi-core Optical Cable Ribbon Unit {ribbon unite}

The present invention relates to a multi-core optical cable ribbon unit, and more particularly to a multi-core optical cable ribbon unit that can arrange the single-core optical cables branched from the multi-core optical cable to reduce the transmission loss.

At present, optical communication network is being constructed with optical subscriber network using optical cable in subscriber line section for the construction of ultra high-speed information communication network, construction of general cable operators and various communication services such as CATV. Due to the spread of high speed and large capacity, a large number of optical cables are required.

Optical Fiber Distribution (OFD) is used to perform the function of connecting and distributing the incoming and outgoing beams so as to freely change and register the optical paths, that is, the optical subscriber network. The optical distribution panel is a distribution enclosure in which an adapter mounting plate and an optical fiber connecting plate are integrated to interconnect and switch the optical distribution panel, the optical station device, and the optical relay device, and the remaining optical cables are introduced into the distribution panel during such connection work. It will house the jumper cords and store them in an optical fiber storage (OFS) that organizes and protects the optical cables.

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 optical cable is designed with a sharp increase in capacity, and it is necessary to stack additional optical distribution boxes with existing optical distribution boxes to accommodate them. In addition, the conventional optical distribution box is composed of only a stack of ribbon optical cable support plate, so it is not easy to store the sheathed fiber for use in the future. There was a lot of inconvenience in the work such as the connection of optical fiber and the change of subscriber. In addition, the light distribution box is in the form of a single case, and thus, there is an inconvenience in the work of disassembling all the stacked distribution boxes for the work of any one distribution box.

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

Korean Patent Application Publication No. 2004-1012376 discloses an optical distribution box for ribbon optical fiber. The posted optical distribution box consists of a fixed self for stacking fixed keys in a rack and a mobile self housed in the fixed self. A ribbon optical fiber protective support having a plurality of plate-shaped ribbon optical fiber connection protection supporting plates stacked therein; and a multi-core optical fiber having a plurality of multi-core optical fiber branching branches which discharge the ribbon optical fibers from the ribbon optical fiber connection protective supporting substrates into a plurality of single-core optical fibers. And a guide for adjusting the curvature of the single-fiber fibers branched from the multi-fiber fiber branching portion; and a guide-coupling portion in which a plurality of drums for arranging and fixing the guides of the single-fiber fibers past the guide are stacked. do.

The conventional optical distribution box configured as described above has a relatively complicated structure, severe bending and deformation of the optical cable, causing a large amount of strain, and thus an increase in transmission loss.

Korean Utility Model Registration No. 0237993 discloses a modular optical distribution board with a built-in rearranging board.

The present invention is to solve the problems described above, it is possible to align the single-core optical cable branching from the multi-core optical cable, multi-core optical cable that can prevent the optical transmission loss caused by the strain due to the bending of the single-core optical cable The purpose is to provide a ribbon unit.

Another object of the present invention is to provide a multi-core optical cable ribbon unit that can significantly reduce the labor of the optical connector connection of the single-core optical cable (unit optical cable) branched from the multi-core optical cable, and can improve the productivity.

Multi-core optical cable ribbon unit of the present invention for achieving the above object

A cassette casing having a first side wall portion and a second side wall portion, first adapters provided at the first side wall portion of the cassette casing to which a single-core optical cable connector is coupled, and installed at the second side wall portion and coupled to a multi-core optical cable connector A second adapter, a multi-core optical cable coupled to the second adapter, a single-core optical cable connector coupled to each of the first adapters, unit optical cables connecting the multi-core optical cable connector to each of the single-core optical cable connectors, and It is characterized in that it is provided in the cassette casing and provided with a dressing arrangement for organizing the unit optical cables.

In the present invention, the second side wall portion is installed side by side or inclined with respect to the first side wall portion, the second side wall portion is formed with a plurality of mounting holes for coupling the second adapter. And a unitary optical fiber arranged inline, and having an integral ribbon optical cable, and a single core optical cable branched from the ribbon optical cable and connected to a single optical fiber connector.

The rearranging unit is arranged in a circular shape on the case casing and has supporting protrusions for supporting the single-core optical cable in a predetermined circular state. In addition, the rearranging unit is a curved support portion formed to support the bending state of the unit optical cable on one side of the cassette casing, and formed on the extension line of the curved surface of the curved support portion unit support for supporting single-core optical cables by forming a circular trajectory With protrusions.

The multi-core optical cable ribbon unit according to the present invention can reduce the optical transmission loss due to misalignment of the single-core optical cable branched from the multi-core optical cable, it is possible to improve the productivity by reducing the labor maneuver due to the connection of the optical connector.

1 is a perspective view showing an embodiment of a distribution panel,
Figure 2 is an exploded perspective view showing a multi-core optical cable ribbon unit according to the present invention,
3 is a perspective view showing an extract of a unit optical cable,
4 is a perspective view showing the support protrusions,
5 is a plan view showing another embodiment of the multi-core optical cable ribbon unit according to the present invention,
Figure 6 is a perspective view showing another embodiment of the multi-core optical cable ribbon unit according to the present invention.

In the present invention, the multi-core optical cable ribbon unit aligns and organizes the single-core optical cables branched from the multi-core optical cable, and minimizes the optical transmission loss due to the bending. The exemplary embodiment is illustrated in FIGS. 1 to 5.

Referring to the drawings, a plurality of multi-core optical cable ribbon unit 10 according to the present invention is arranged in a plurality of distribution boxes (100). In the distribution box 100, a plurality of multi-core optical cable ribbon units 10 may be stacked and installed, and the distribution box 100 may be stacked and installed as necessary. However, it is not limited thereto.

The multi-core optical cable ribbon unit 10 can arrange the single-core optical cable branched from the multi-core optical cable 200 in a branched state, and has a cassette casing 20 having at least a first side wall portion 21 and a second side wall portion 22. ). The first side wall portion 21 and the second side wall portion 22 are installed so as to correspond to each other or the second side wall portion 22 with respect to the first side wall portion 21 in order to minimize interference due to deformation of the single-core optical cable described later. ) Is installed at a predetermined angle inclined or side by side. The second side wall portion 22 may be formed in multiple stages in the second side wall portion.

First adapters 31 to which the single-core optical cable connector 42 is coupled are installed in the first side wall portion 21 of the cassette casing 20 at predetermined intervals, and the second side wall portion 22 has a multi-core optical cable ( A second adapter 32 connected to the 200 is installed. The second side wall portion 22 is provided with a plurality of mounting holes 33 in which the second adapters 32 are installed at predetermined intervals. The mounting holes 33 enable the installation of the second adapter 32 in a position where the interference can be minimized when supporting the single-core optical cable described below or in a position where interference does not occur when the distribution box 100 is mounted.

The second adapter 32 is coupled to the multi-core optical cable connector 41 to which the multi-core optical cable 200 to be coupled is connected. The first adapters 31 are each provided with a single fiber optic cable adapter 42. The multi-fiber cable connector 41 and the single fiber optic cable adapters 42 are connected by unit optical cables 50, and the unit optical cable ( 50 is connected to the single-fiber optical cable connector 41, which is arranged inline as shown in FIG. 3, and is branched from the ribbon optical cable 51 and the ribbon optical cable 51, which are integrally bonded to each other. It may be made of a single-core optical cable (52). An end of the e single fiber cable 52 is connected to the single fiber cable connector 42 which is coupled to the first adapter 31, respectively, to protect the core, and tubes of different colors are installed. The unit optical cable 50 may be composed of respective single-core optical cables. The ribbon optical cable 51 may be joined so that the optical cables are not arranged inline but have a circular or polygonal cross section. The ribbon optical cable 51 is connected to the multi-core optical cable connector 41. The unit optical cable 50 may be manufactured separately by connecting the multi-core optical cable connector 41 to the ribbon optical cable 51 and connecting the single-core optical cable connector 42 to the single-core optical cable 52.

On the other hand, the cassette casing 20 is a unit optical cable 50 that connects the multi-core optical cable connector 41 and the single-core optical connector 42, that is, the ribbon optical cable 51 is arranged inline, bonded to each other integrally and And a dressing arrangement section 60 for arranging the length of the unit optical cable 50 including the single-core optical cable 52 branched from the ribbon optical cable 51, respectively.

The dressing arrangement 60 may minimize transmission loss of the optical fiber when bending the unit optical cable 50 for alignment, and is arranged in a circular shape on the inner surface of the cassette casing 20 and spaced apart at predetermined intervals. Protrusions 61 are provided. The support protrusions 61 may have circular curvatures on the inner surface thereof, and shelf protrusions 62 for supporting the unit optical cables 50 may be formed to support the optical cables not to be tangled with each other.

The guiding protrusion 60 is not limited to the above-described embodiment, and as shown in FIG. 5, one side of the cassette casing 20 may support the unit optical cable 50, that is, the bending state of the single-core optical cables. And a unit support protrusion (66) formed on the extension line of the curved surface of the curved support portion (65) to form a circular trajectory to support the single core optical cables. Lathe protrusions 62 are formed on the inner surfaces of the unit support protrusion 66 and the curved support part 65 as described above.

In the above embodiment, the support protrusion 61 and the unit support protrusion 66 may be made by lance processing when the cassette casing 20 is made of a metal plate. In this case, the shelf protrusion 62 may be manufactured separately to support the unit support protrusion. It is preferable to be able to support it at (66).

In the cassette casing 20, the single-core optical cable 52 of the unit optical cable 50, that is, the single-core optical cable 52 to which the single-core optical cable connector 42 is connected, has a circular trace or curved support part 65 by the support protrusion 61. The auxiliary support protrusion 67 may be separated from the circular trace made by the unit support protrusion 66 and guided to the first adapter side.

The cassette casing 20 may be made of a metal plate, aluminum or synthetic resin, but is not limited thereto. It is preferable to be made of aluminum in consideration of the heat dissipation characteristics, the door 25 may be installed in the cassette casing 20 as shown in FIG.

Although not shown in the drawings, a ribbon connector for connecting the multi-core optical connector and the ribbon optical cable of the unit optical cable may be installed between the multi-core optical table connector and the single-core optical cable connector.

The multi-core optical cable ribbon unit according to the present invention configured as described above is to minimize the optical loss due to the bending of the single optical fiber 50, that is, the unit optical cable 50 is not protruded to the outside, the unit optical cable 50 branched from the multi-core optical cable Can be. Since the second side wall portion 22 of the cassette casing 20 is inclined with respect to the first side wall portion 21, a plurality of mounting holes 33 are formed in the second side wall portion 22. It is easy to adjust the coupling angle of the multi-core optical cable connector 41 is coupled to the second adapter 32, and furthermore, to prevent the sharply changing the pulling angle to the rearranging unit 60, according to the bending of the unit optical cable 50 Light loss can be minimized.

In particular, since the lathe protrusion 62 is formed in the support protrusion 61 and the unit support protrusion 66 of the traveling arrangement, unit optical cables, that is, single-core optical cables can be prevented from being tangled with each other. In addition, since the curved support part 65 is formed by a part of the side surface of the cassette casing, and the unit optical cable 50 is supported by this, the curvature radius according to the support of the unit optical cable can be increased, resulting in poor optical loss due to bending. Can be minimized.

The multi-core optical cable ribbon unit according to the present invention described above has been described with reference to one embodiment shown in the drawings, but this is merely exemplary and various modifications and equivalent embodiments of the present invention may be obtained by those skilled in the art. I understand that it is possible.

Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: Multi-core optical cable ribbon unit
20; Cassette casing 21; First side wall part
22; Second side wall portion 31; 1st adapter
32; 2nd adapter 33; mounting hole
50; Module optical cable
60; Dressing Department

Claims (5)

The cassette casing 20 having the first side wall portion 21 and the second side wall portion 22 and the first side wall portion 21 of the cassette casing 20 are provided to which the single-core optical cable connector 42 is coupled. First adapters 31, a second adapter 32 installed on the second side wall portion 22 and coupled to a multi-core optical cable connector 41, and a multi-core optical cable coupled to the second adapter 32 ( 200, the single optical fiber connector 42 coupled to each of the first adapters 31, the unit optical cable 50 connecting the multi-core optical cable connector 41 and each of the single optical fiber cable connectors 42, It is provided in the cassette casing 20, and provided with a dressing arrangement section 60 for arranging the pieces of unit optical cables,
The dressing arrangement part 60 is a curved support portion 65 formed to support the bending state of the unit optical cable on one side of the cassette casing 20, and the cassette casing 20 on the curved extension line of the curved support portion 65 Formed in the unit support protrusions 66 for supporting single-core optical cables by forming a circular trajectory, and are separated from the circular trajectory formed by the curved support portion 65 and the unit support protrusion 66 to the first adapter 31. An auxiliary support protrusion 67 provided on the cassette casing 20 so as to guide the single-core optical cable to the side, wherein the unit optical cable 50 is arranged inline and integrally formed with the ribbon optical cable 51 and the ribbon It is provided with a single-core optical cable 52 which is branched from the optical cable and connected to the single-core optical cable connector, respectively,
The second side wall portion 22 is installed side by side or inclined with respect to the first side wall portion 21, and the plurality of mounting holes 33 for coupling the second adapter 32 to the second side wall portion 22. A multi-core optical cable ribbon unit, characterized in that formed. delete delete delete delete

Images