KR19990032827A - Multicore Fiber Optic Module - Google Patents

Abstract

The present invention relates to a multi-core separation optical fiber module, the inner side of the main body of the rectangular parallelepiped in which the cover is opened and formed with a tube fixing partition and the single-core cord fixing portion, and on one side of the outer surface where the inlet of the main body is formed to form a fixing groove The ribbon optical fiber introduced through the boot inserted into the inlet hole of the main body is separated into a single core optical fiber cord and passes through the tube fixing partition and the single core cord fixing part through a protective tube, and is drawn out to the other side of the main body. Single core optical fiber cord is formed from the outside of the outer shell, the tension line and the tube in a cylindrical shape, the stacking cap is fitted into the fixing groove of the fixing groove of one side in a state that the main body is laminated in multiple layers can be combined securely By using the fixing part, it is possible to prevent the tensile force from being applied directly to the single-core optical fiber. The laminate of one will allow.

Description

Multicore Fiber Optic Module

The present invention relates to a multi-core separation optical fiber module for separating a ribbon optical fiber with a single-core optical fiber cord, and in particular, a multi-core separation optical fiber module which enables stacking in multiple layers by using a fixing part while a tensile force is not directly applied to the single-core optical fiber. It is about.

In general, it is well known that ribbon optical fiber is a package of optical fibers coated with UV acrylate (arcrylate) and arranged in a ribbon form to enable high density mounting.

In addition, since a plurality of optical fibers can be connected together, the construction time of the optical cable can be significantly shortened.

However, in order to connect an optical cable to an optical transmission system or an optical distribution device, various types of optical connectors are used.

The optical connector may be applied differently depending on the optical transmission system and transmission method. However, in the general optical transmission system, since one optical fiber core wire is used on the transmitting side and the receiving side, single cores capable of switching the optical fibers by one core are used. Almost all optical connectors are used, and the optical fiber consisting of a plurality of optical fibers has to be separated into a single core shape.

In addition, optical connectors used in optical transmission systems, optical distribution devices, etc. can be easily attached and detached for light path switching, but optical fibers used mainly have high tensile strength to prevent breakage or damage from external forces. Fiber optic cord with reinforced outer shell is used.

The multi-core separation optical fiber module for separating a conventional ribbon optical fiber into a single-core optical fiber cord has a ribbon optical fiber 104 through an inner circular hole while inserting the boot 102 to one side of the cylindrical body 101 as shown in FIG. 1. After the inflow, the single-core optical fiber cords 105 separated therein were drawn out to the other side where the boot 102 was inserted.

However, in the conventional multi-core separation optical fiber module as described above, the main body 101 is formed in a cylindrical shape, and the manufacturing process is not only complicated, but also difficult to stack due to the difficulty in stacking. The outer diameter of 101) should be thick and in this case, the mounting structure in the light distribution device should be changed.

Accordingly, an object of the present invention is to provide a multi-core separation optical fiber module that allows the multilayer fiber to be laminated in a multi-layer using a fixing part while the tensile force is not directly applied to the single-core optical fiber when the ribbon optical fiber is separated by the single-core optical fiber cord. do.

In order to achieve the above object, the present invention forms a tube fixing partition and a single core cord fixing part on the other inner side of the main body of the rectangular parallelepiped in which the cover is opened and closed, and a fixing groove is formed on one side of the outer surface where the inlet of the main body is formed. The ribbon optical fiber introduced through the boot inserted into the inlet of the main body is separated into the single-core optical fiber cord from the inside, and passes through the tube fixing partition and the single-core cord fixing part through a protective tube, and is drawn out to the other side of the main body. The single-fiber optical fiber cord is formed of a cylindrical, outer sheath, tensile line and tube from the outside, respectively, and in a state in which the main body is laminated in a multi-layered stacking cap that allows a fastening jaw to be fitted into a fixing groove of one outer surface to enable a stable coupling. This prevents the tensile force from being applied directly to the single-core optical fiber by using the fixing part to multi-layer It is one to enable the layer.

1 is a perspective view showing a state of separating a conventional ribbon optical fiber.

Figure 2 is a perspective view showing the configuration of the multi-core separation module of the present invention.

Figure 3 is a perspective view showing the internal configuration of the multi-core separation module of the present invention.

Figure 4 is a perspective view showing the configuration of the cap for fixing of the present invention.

5 is a cross-sectional view showing the configuration of a single-core optical fiber cord of the present invention.

6 is an exploded perspective view of the present invention.

7 is a perspective view showing a combined state of the present invention.

<Explanation of symbols on the main parts of the drawing>

1, 1a, 1b: body 2: cover

3: tube fixing partition 4: single core cord fixing part

6: fixing groove 7: boot

9: lamination cap 10: fixed jaw

2 and 3 illustrate the configuration of the multi-core separation optical fiber module, wherein the tube fixing partition 3 and the single-core cord fixing part 4 are provided on the other side of the main body 1 of the rectangular parallelepiped module in which the cover 2 is opened and closed. ), A fixing groove 6 is formed at the periphery of one side on which the inlet hole 5 of the body 1 is formed, and the boot 7 inserted into the inlet hole 5 of the body 1. The ribbon optical fiber 11 introduced through) is separated into the single-core optical fiber cord 12 from the inside, and then passes through the tube fixing partition 3 and the single-core cord fixing part 4 through the protective tube 8 to the single-fiber optical fiber. It is to be drawn out to the code (13).

FIG. 4 illustrates a configuration of a stacking cap. When stacking the main body 1 in multiple layers, the stacking cap 9 having a plurality of fixing jaws 10 fitted into the fixing grooves 6 on the outer surface thereof is formed up and down. It is to enable a stable bond.

5 shows the configuration of the single-core tube fiber cord, wherein the single-fiber optical fiber cord 13 drawn out to the other side of the main body 1 has an outer sheath 14 of the single-fiber optical fiber cord from the outside, and a tensile line of the single-fiber optical fiber cord. 15 and the protective tube 16 are each formed in a cylindrical shape.

The multi-core separation optical fiber module of the present invention configured as described above has an inlet hole (2) for forming a tube fixing partition (3) and a single core cord fixing portion (4) inside the main body (1) of the rectangular parallelepiped module in which the cover (2) is opened and closed. Since the fixing groove 6 is formed on the outer surface where 5) is formed, the ribbon optical fiber 11 is introduced through the inlet hole while inserting the boot 7 into one inlet hole 5 of the main body 1. .

The ribbon optical fiber 11 is separated into a single fiber optic cord 12 inside the main body 1 and then passes through a tube fixing partition 3 and a single core cord fixing portion 4 through a protective tube 8. The single fiber optic cord 13 is drawn out.

In the state where the main body 1, 1a, and 1b, which is a rectangular parallelepiped, are stacked in a multi-layered state, both sides of the stacking cap 9 are formed in which a plurality of fixing jaws 10 fitted in the fixing grooves 6 of the outer surface are formed up and down. When combined, a plurality of fixing jaws 10 of the fixing grooves 6 are stably fitted, thereby achieving a stable coupling.

Therefore, according to the multi-core separation optical fiber module of the present invention, a tube fixing partition and a single core cord fixing part are formed in the main body of the rectangular parallelepiped in which the cover is opened and closed, and a fixing groove is formed at one side where the inlet hole is formed, and the boot in the inlet hole. The ribbon optical fiber introduced through the cable is separated into a single fiber optical cord and passes through a tube fixing partition and a single core cord fixing portion through a protective tube. By allowing a stable coupling with a stacking cap to be fitted in, it is possible to stack in multiple layers by using a fixing part while not directly applying a tensile force to the single-core optical fiber.

Claims (2)

Inner side of the main body 1 of the rectangular parallelepiped module in which the cover 2 is opened and closed, the tube fixing partition 3 and the single core cord fixing part 4 are integrally formed, and the inlet hole 5 of the main body 1 is formed. On one side of the outer surface is formed with a fixing groove (6) in the periphery, the ribbon optical fiber 11 flowing through the boot 7 into the inlet hole 5 of the main body 1 is a single-fiber optical fiber cord 12 After separating into a through the tube fixing partition (3) and the single-core cord fixing portion (4) through the protective tube (8) to be drawn out to the single-fiber optical fiber cord (13), and the main body (1) to be stacked up and down When the multi-core separation optical fiber module, characterized in that configured to be coupled to the stacking cap (9). The multi-core separation optical fiber module according to claim 1, wherein the stacking cap (9) has a plurality of fixing jaws (10) to be fitted into the outer fixing groove (6) of the main body (1) up and down to enable stable coupling.