KR101258153B1 - Multi-core ribbon optical fiber cable distribution unit - Google Patents

Abstract

The present invention relates to a unit for converting and distributing an optical fiber cable between a line-side optical cable and a terminal device. As a feature of the configuration, the guide part 11 and the receiving part 12 are formed to have a curvature shape therein. A case 10 having a clip 15 for preventing the connection cable 30 from being flowed or separated from the receiving part 12; A connection module 20 integrally provided with an SC module 25 on one surface and an MPO module 26 on the other surface so as to mechanically connect a cable with optical rays on both sides of the case 10; And a connection cable 30 which is mechanically connected to the connection module 20 to connect and release the optical path cable and change the path. The distribution unit 1 includes a large-capacity ribbon type optical fiber cable. In order to connect using a rack 40 is characterized in that a plurality of arrangement in the longitudinal or transverse direction.
Accordingly, the present invention provides a smooth connection point by introducing a distribution unit between the optical fiber cable and the terminal device, while reducing the costs associated with the optical fiber cable network construction of the subscriber network, connection, disconnection and rerouting between optical fiber cores Efficient control is possible to construct and operate economical fiber optic cable network.

Description

Multi-core ribbon optical fiber cable distribution unit

The present invention relates to a distribution unit of an optical fiber cable, and more particularly, by introducing a distribution unit between the optical fiber cable and the terminal device to provide a smooth connection point while reducing the costs associated with the construction of the optical fiber cable network of the subscriber network, The present invention relates to a distribution unit of a multi-core ribbon optical fiber cable that can efficiently control the connection, disconnection, and rerouting between optical fiber cores to construct and operate an economic optical fiber cable network.

In general, due to the proliferation of FTTH technology and the recent explosive expansion of wireless data services based on iPhones and smartphones, a large amount of optical cables are installed in the subscriber system including the metro area. As the distance between 2Km and 20Km has been expanded, the work of widening the history of national history to integrate existing national history is in progress.

In particular, considering the large amount of optical fiber and wide-ranging national fiber installed in the metro subscriber section, the number of optical fiber lines in one wide-area country ranges from 20,000 to 50,000 cores, which can accommodate 1,000 cores. With 20 to 50 racks, a large number of FDFs of nearly 70 are needed when considering patch FDFs for changing equipment capacity.

Accordingly, domestic telecommunications companies and cable companies including KT have efficiently applied limited infrastructure such as pipelines and manholes, and developed ribbon-type optical cables that can accommodate large-capacity optical fiber, and applied them to the field. Fiber optic distribution boards (FDFs), which act as the connection devices for, have relied on SC optical connectors based on single-core connections.

In this regard, optical cables covering the metro area and the subscriber area basically consist of a large capacity 12-core ribbon optical cable of 144 ~ 432 cores, whereas a single-core connection is required to connect the optical fibers of these optical cables to the device. It can be seen that there is a need for a device capable of converting into a single fiber.

Currently, fiber optic cables consisting of 12-core ribbons are fanned out of Dongdo, Korea, and connected to single-core loose tube optical cables formed by SC optical connectors. It requires a connection process with the sensor, causing an unnecessary optical cable connection process. In addition, three sets of single-core loose tube optical cables are required to connect a large-capacity ribbon type optical cable up to 432 cores using a single-core loose tube optical cable that does not have more than 144 cores. In addition, additional connection losses are increased, and fiber cables and jumper cords are becoming more complex cabling in complex equipment rooms.

Furthermore, when considering the connection between the optical fiber cable and the device, the connection between the optical cable coming from the line side and the terminal device is made in the optical fiber distribution panel (FDF), so that the process of converting the ribbon optical cable into the single-core optical fiber cable is To be solved in the distribution panel, the current optical distribution panel is manufactured based on the single-core optical connector, there is a problem that the single-conversion of the optical ribbon cable is impossible.

Accordingly, the present invention is to fundamentally solve the conventional problems as described above, by introducing a distribution unit between the optical fiber cable and the terminal device to provide a smooth connection point while reducing the cost associated with the optical fiber cable network construction of the subscriber network In addition, the purpose of the present invention is to provide a distribution unit for a multi-core ribbon optical fiber cable that can efficiently control the connection, disconnection, and rerouting between optical fiber cores to construct and operate an economic optical fiber cable network.

In order to achieve the above object, the present invention provides a unit for converting and distributing an optical fiber cable between a line optical cable and a terminal device, comprising: a guide part and a receiving part formed to have a curvature shape therein, and connected to the receiving part. A case having a clip to prevent the cable from flowing or falling off; A connection module integrally provided with an SC module on one side and an MPO module on the other side so as to mechanically connect a cable with optical lines on both sides of the case; And a connection cable mechanically connected to the connection module to perform connection, disconnection, and rerouting of the optical fiber cable, wherein the distribution unit uses a rack to connect a large-capacity ribbon optical fiber cable in the longitudinal direction. Or plurally disposed in the transverse direction.

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It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described in the above configuration and operation, the distribution unit according to the present invention introduces a distribution unit between the optical fiber cable and the terminal device to provide a smooth connection point while reducing the cost associated with the optical fiber cable network construction of the subscriber network, Efficient control of connection, disconnection, and rerouting between furnace cores provides the effect of constructing and operating an economical fiber optic cable network.

1 and 2 are a perspective view showing the overall structure of the distribution unit according to the present invention.
3 and 4 is a configuration diagram showing an application state of the distribution unit according to an embodiment of the present invention.

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

The present invention relates to a unit for converting and distributing an optical fiber cable between a line optical cable and a terminal device, and receiving a multi-core ribbon optical cable composed of a 12-core ribbon and converting it into a single-core optical jumper cord. By introducing a fiber cable distribution unit, it provides a smooth connection point between a large-capacity ribbon fiber cable and a device, and reduces the costs associated with constructing an optical cable network in the subscriber area of the metro area. The distribution unit 1 of the present invention includes a case 10, a connection module 20, and a connection cable 30 as main components.

According to the present invention, the case 10 includes a guide part 11 and a receiving part 12 to be formed in a curvature form therein. Case 10 is formed using a synthetic resin material as shown in Figures 1 and 2, but has a guide portion 11 and the receiving portion 12 therein. Guide portion 11 is formed in the form of curvature therein to guide the cable (multi-core ribbon optical cable consisting of a ribbon of 12 cores), the receiving portion 12 is formed in the form of curvature by the guide portion 11 to be described later The cable 30 and the clip 15 are incorporated.

At this time, the case 10 according to the present invention further includes a clip 15 for preventing the connection cable 30 from flowing or detached on the receiving portion 12. Clip 15 is provided with at least one, that is, 12, on the receiving portion 12, as shown in Figures 1 and 2 to prevent the flow or separation of the connection cable 30. This is formed in the same number as the number of cables branched from the connection module 20, that is, the SC module 25 formed on one surface of the case 10. The clip 15 is formed so that the connection cable 30 is bifurcated so as to prevent the flow and the separation is so elastic that the cable is not separated.

In addition, according to the present invention, the connection module 20 is respectively installed on both sides of the case 10, so as to mechanically connect the cable in the optical fiber. The connection module 20 is installed on both sides of the case 10 as shown in FIGS. 1 and 2 to mechanically connect the optical fiber connection cable 30 between the line-side optical cable and the terminal device. The connection module 20 is the SC module 25 and the MPO module 26 are respectively installed and mechanically connected. Detailed description thereof will be described later.

At this time, the connection module 20 according to the present invention includes an SC module 25 on one surface of the case 10 and an MPO module 26 on the other surface. The connection module 20 is composed of an SC module 25 and an MPO module 26. An input side is provided with an SC module 25 and an output side with an MPO module 26. The SC module 25 and the MPO module 26 are each formed as a connector or an adapter to mechanically connect the connection cable 30 with a light beam.

In addition, according to the present invention, the connection cable 30 is mechanically connected to the connection module 20 to perform connection, disconnection, and path change of the optical fiber cable. 1 and 2, the connection cable 30 is a multi-core ribbon optical cable composed of a ribbon of 12 cores, and is connected in a fan-out manner and mechanically connected to the connection module 20, the input side, and the output side. The connection cable 30 is formed by a connector or an adapter, respectively, to be mechanically connected to the connection module 20 at both ends and is mechanically connected. That is, the connection cable 30 is guided in the form of curvature along the guide part 11 while being embedded in the receiving part 12 of the case 10, and is connected by the clip 15 so that the connection cable 30 flows and escapes. This is avoided.

At this time, the distribution unit 1 according to the present invention is arranged in a plurality of longitudinal or transverse directions utilizing the rack 40 to connect the cable with a large-capacity ribbon-type optical fiber. The distribution unit 1 converts and distributes the optical fiber cable between the line-side optical cable and the terminal device. The distribution unit 1 is disposed on the case 10 as shown in FIGS. 1 and 2 as described above. The connection module 20 and the connection cable 30 is installed. The distribution unit 1 utilizes the rack 40 to increase its utilization, and the rack 40 combines a plurality of distribution units 1 in a sliding manner. Of course, the rack 40 and the distribution unit 1 is formed with a binding piece (not shown in the figure) to prevent the separation from each other to maintain the separation and binding in a detachable manner.
Such a rack 40 is installed in a horizontal or vertical arrangement as shown in Figs. 3 and 4, which is connected to a large-capacity ribbon type optical fiber cable via a plurality of distribution units (1) in the longitudinal or transverse direction, the line-side optical cable Make a mechanical cable connection between the cable and the terminal device.

1 to 4, in the use of the present invention, first, the distribution unit 1 is installed between the line-side optical cable and the terminal device as shown in Figs. The dispensing unit 1 guides the 12-core multi-core ribbon optical cable in the form of curvature by the guide part 11 and the receiving part 12 on the case 10, and thus, the clip 15 of the connection cable 30. Prevents flow or breakaway The dispensing unit 1 is provided with an SC module 25 and an MPO module 26 on both sides of the case 10 so as to mechanically connect the optical fiber connection cable 30 between the line-side optical cable and the terminal device.
Thus, the distribution unit 1 formed as described above is to increase the utilization through the rack 40 as shown in Figures 3 and 4, the rack 40 is a plurality of distribution units (1) to be removable detachable. In this way, a large-capacity ribbon-type optical fiber cable is connected through the longitudinal or transverse direction, and the optical fiber cable is mechanically connected between the optical fiber side of the line and the terminal device. Accordingly, the distribution unit 1 receives a multi-core ribbon optical cable composed of 12-core ribbons and converts it into a single-core optical jumper cord, providing a smooth connection point between a large-capacity ribbon optical cable and a device, and constructing an optical cable network in a metro area subscriber section. To reduce the costs involved.

As such, the distribution unit of the present invention introduces a distribution unit between the optical fiber cable and the terminal device to provide a smooth connection point, while reducing the cost associated with the optical fiber cable network construction of the subscriber network, connection, disconnection and Efficient control of route changes, etc. enables the construction and operation of economical fiber optic cable networks.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: dispensing unit 10: case
11: guide 12: receiver
15: Clip 20: connection module
25: SC module 26: MPO module
30: connection cable 40: rack

Claims (4)

In the unit that converts and distributes the optical fiber cable between the optical fiber side and the terminal equipment:
A case having a guide portion 11 and a receiving portion 12 to be formed in a curvature shape therein, and a clip 15 for preventing the connection cable 30 from flowing or escaping on the receiving portion 12. 10;
A connection module 20 integrally provided with an SC module 25 on one surface and an MPO module 26 on the other surface so as to mechanically connect a cable with optical rays on both sides of the case 10; And
And a connection cable 30 which is mechanically connected to the connection module 20 to connect and release the optical fiber cable and change the path. The distribution unit 1 is connected to a large-capacity ribbon optical fiber cable. In order to utilize the rack 40 in order to distribute the multi-core ribbon type optical fiber cable, characterized in that it is arranged in a plurality of longitudinal or transverse direction. delete delete delete

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