KR900008881Y1 - Opticl filoer connector - Google Patents

Abstract

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Description

Fiber optic cable cluster

1 is a plan view of the present invention.

2nd is a front elevation view.

3 is a perspective view of a cable core end fixing member.

4 is a diagram illustrating a coupling structure between the female treatment plate and the holder.

* Explanation of symbols for main parts of the drawings

1 cable fixing part 2 hole

4: holder of (dressing plate) 5: holder of core wire

6: insertion hole 7: dressing plate

7a, 7b: Fitting 8: Compression coil spring

The present invention relates to a cable connecting device as an enclosure for connecting an optical fiber cable, and in particular, to protect the safety of the connection part connecting the optical fiber cable and the optical fiber port and to protect the fragile optical fiber cable from the external impact, The present invention relates to a star splice device of a fiber optic cable of a new structure effective for reducing the time required for processing work with reduction of losses.

Here, the length means the length of the extra optical fiber cable.

Conventional star splice connecting device for optical fiber cable has a cylindrical shape, which is fixed with an elastic member and then covered with a rubber spacer, and a core wire connecting sleeve is inserted into the center guide for the dressing process and then the dressing process of the connected optical fiber is performed. After that, the fiber optic protective sheet was wrapped around the rubber spacers, and then the aluminum fixing plate was fixed. Then, the rubber spacers were fitted and the connecting portions were overlapped 2-3 times with PVC tape.

However, the star splice materials of such conventional fiber optic cables are extremely poor in workability, inefficient, and easily inferior to work. It can be entangled and processed, which makes it difficult to separate cores and slows down working hours. In addition, the capacity of the incoming cable (12 cores per trillion) was reduced in one interconnect material.

In order to solve the above problems of the present invention, the workability, the speed and accuracy of the dressing process, and the loss of optical fiber are reduced to achieve the effect of greatly increasing the capacity of the incoming cable. The invention will be described in more detail according to the accompanying drawings prepared on the basis of examples.

A plurality of optical cable entry holes 2 of the cable fixing part 1 are formed, and on the substrate 3 between the fixing part 1 and the filter board holder 4 on the same center line as the insertion hole 2. A fixed number of core wire holders 5 are fixedly installed so that the core wire insertion holes 6 can be placed thereon, and the holders 4 are fitted to each of the fitting pieces 7a and 7b protruding from the lower sides of the female treatment plate 7. It is assembled to be rotatable, but by mounting the compression coil spring (8) on one side fitting piece (7b) to remove the dressing treatment plate (7) to the holder (4) is combined to be able to attach.

In the present invention configured as described above, the inlet cable 9 is primarily supported by the inlet hole 2 of the cable fixing part 1, and then the core wire 10 which peels off the outer shell of the line is exposed to the cable ( 9) and the center of the holder (5) is inserted into the insertion hole (6), the end of the second stage is supported by the fixed support process, so that the shaking of the incoming cable during the optical fiber dressing process Completely prevented.

After fixing to the holder (5) of the core wire 10 as described above to fix the extra cable to the carding treatment plate (7), each of the core wire is to be fixed by winding one of the carding destination plate (7).

The core wire is fixed by the above process and is sequentially fixed to a plurality of dressing treatment plates in a sequential manner as described above. In this case, each dressing treatment plate 7 is fitted with a lower piece 7a, 7b) can be rotated left and right in the holder (4), and if you want to separate the dressing treatment plate, push the dressing treatment plate 7 to one side by pushing to the spring (8) side, the other side fitting piece (7a) This holder (4) is to go out to be able to separate the dressing processing plate (7).

In addition, it is possible to easily rotate the panel to be repaired during the maintenance work because it can be rotated to the left and right of the female treatment plate (7).

In addition, a plurality of inlet holes (2) are formed on the cable fixing part (1), and the diameter can also be freely selected within the range of 12-20 mm according to the embodiment. You have the ability to

Furthermore, after the fiber optic connection, the sheet curvature radius of the optical fiber can be expanded because the fiber structure can be separated and separated from the holder 4 by the coupling structure of the sheet processing plate 7 shown in FIG. In this way, the concerns about optical fiber loss during the dressing process are completely solved, and the dressing process is also very easy by the amount of spare.

In addition, this advantage is very easy to identify and separate the core according to the maintenance of the after-treatment plate, and there is also an economical advantage that can be recycled according to the prefabricated configuration of the plate.

Claims (1)

In the optical cable connecting device which is supported by the cable fixing and allows extra optical cables to be stored in the dressing plate, protrusions 7a and 7b are formed on both sides of the bottom side of the dressing plate 7 so that they can be rotated using the holder 4. It is assembled so that, one side (7b) of the protruding portion of the optical fiber cable, characterized in that it is supported by a spring (8).