KR100878022B1 - Optical patch cord - Google Patents

Abstract

The present invention relates to an optical jumper cord.

According to the present invention, an optical jumper code for emitting light identifiable by an external light source is coated on an outer surface of the outer skin portion of the optical jumper cord, and a plurality of incidence portions of the semicircular grooves are formed in the longitudinal direction at regular intervals on the outer circumference thereof, A final outer skin in which a plurality of light emitting portions of the uneven groove are formed between the incident portion and the incident portion; An external light source for injecting light into the final outer skin; Characterized in that provided. Therefore, by applying an external light source to the corresponding optical jumper code among the plurality of optical jumper cords installed in the optical distribution panel, the connection information can be easily seen, and the desired optical jumper code can be easily separated.

Description

Optical jumper cord {OPTICAL PATCH CORD}

1 is a view showing the structure of a conventional optical jumper cord,

2 is a cross-sectional view showing the structure of an optical jumper cord according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: optical jumper cord 12: optical fiber core wire

14: fiber core protective coating 16: outer skin

20: final skin 22: incident part

24: light emitting unit 30: external light source

The present invention relates to an optical jumper cord connecting an optical cable and an optical distribution box, an optical distribution box to a square ratio, and more particularly, to an optical jumper code that can be identified from a bundle in which several optical jumper codes are mixed.

With the development of optical communication technology, optical fibers are used in various fields. In general, such as telephone facilities, optical fibers are manufactured in the form of cables and buried in the ground. Where small amounts of fiber are needed, optical jumper cords are used to connect the devices.

Fig. 1 is a cross-sectional view of a conventional optical jumper cord, in which the optical jumper cord 1 primarily covers the optical fiber core wire 2 at the center thereof, and the optical fiber core protective coating 3 is covered with a kevlar 4 around the optical fiber core wire 2. It will be placed to provide tension and inner core protection. Finally, it consists of the outer skin part 5 of an optical connector jumper wire.

However, in general, the optical distribution panel is composed of a plurality of distribution shelves, each consisting of 72 or 144 connectors are connected to each optical jumper cord. Therefore, several optical jumper cords are mixed. Among them, when dismantling the optical jumper cord, the start and end can be checked by the management ledger or separate management method, but it is very important to identify which optical jumper wire is to be removed. it's difficult. This is because the optical connector jumper wires are very complicated in the separate optical jumper cord storage box or the filtering processing unit. Therefore, it was very difficult to separate the desired optical jumper cord from the bundle of several optical jumper cords.

Therefore, the present invention is to solve such a conventional problem, by applying an external light source to the corresponding optical jumper code of the plurality of optical jumper cords installed in the optical distribution panel to emit a identifiable light, it is easy to know the connection information It is an object of the present invention to provide an optical jumper code that can easily separate the desired optical jumper cord.

In order to achieve the above object, the present invention provides an optical jumper code for emitting light identifiable by an external light source, which is coated on the outside of the outer skin portion of the optical jumper cord, and the incident portion of the semicircular groove at a predetermined interval on the outer circumference thereof is long. A final outer skin portion formed in a plurality of directions and having a plurality of light emitting portions of the uneven groove formed between the incident portion and the incident portion; An external light source for injecting light into the final outer skin; It provides an optical jumper cord, characterized in that provided.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

2 is a cross-sectional view showing the structure of an optical jumper cord according to the present invention.

As shown in FIG. 2, the optical jumper cord 10 according to the present invention primarily covers the optical fiber core wire 12 in the central optical fiber core 12, and covers the outer skin portion 16 to the outside thereof. ) Is placed to provide tension and inner core protection.

In addition, according to the present invention, the final skin 20 is coated to the outside of the outer skin 16, and the external light source 30 for injecting light into the final skin 20 is provided.

The final skin 20 is formed at the outer periphery of the incidence portion 22 of the semi-circular groove, a plurality of the incidence portion 22 is formed at regular intervals in the longitudinal direction, the incidence portion 22 and the incidence portion A plurality of light emitting portions 24 of the uneven grooves are formed between the 22.

The final skin 20 is made of a PVC material capable of waveguided light, the surface light emission is implemented as an external leakage of the waveguided light.

The external light source 30 uses a semiconductor laser or a laser diode having a wavelength of 650 nm.

The method of using the optical jumper cord according to the present invention configured as described above is as follows.                     

Referring back to FIG. 2, 72 or 144 connectors are provided for each distribution shelf (not shown) and connected to each optical jumper cord 10. Therefore, several optical jumper cords 10 are mixed, among which the start and end of the optical jumper cord 10 can be checked by a management book or a separate management method.

Therefore, the external light source 30 is incident on either the beginning or the end of the optical jumper cord 10 to be removed.

The incident light of the external light source 30 is incident on one of the incident parts 22 formed at regular intervals. Since the incident part 22 has a semicircular shape, the incident part 22 may be used by freely adjusting the incident angle of the external light source 30.

Incident light which has passed through the incident part 22 is guided. The guided light leaks into the light emitting part 24 of the uneven groove formed in the entire outer shell, thereby emitting light that is identifiable from the outside.

In this manner, light is incident on the incident part 22 through the external light source 30 at any part outside the optical jumper cord 10, and light is leaked to the light emitting part 24 while being guided inside. .

In the above description, it should be understood that those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention as merely illustrative of a preferred embodiment of the present invention.

As described above, the functional optical jumper code according to the present invention makes it possible to easily recognize connection information by applying an external light source to a corresponding optical jumper code among a plurality of optical jumper codes installed in the optical distribution panel. And the desired optical jumper cord can be easily separated.

Claims (4)

In the optical jumper cord which emits light which can be distinguished by an external light source, The outer skin is coated on the outside of the outer skin of the optical jumper cord, the outer skin is formed with a plurality of incidence of the semi-circular groove in the longitudinal direction at regular intervals, the final outer skin formed with a plurality of light emitting portions of the uneven groove between the incidence and the incidence Wow; An external light source for injecting light into the final outer skin; Optical jumper cord characterized in that provided. The method of claim 1; The final skin portion, the optical jumper cord, characterized in that made of a material capable of waveguide of light. The method of claim 1; The surface light emission of the final outer skin portion is characterized in that the optical jumper code is implemented by the external leakage of light to be guided. The method of claim 1; The external light source, the optical jumper code, characterized in that using a semiconductor laser or a laser diode having a wavelength of 650nm.

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