KR200448848Y1 - Optical connector - Google Patents

Abstract

The present invention discloses an optical connector. The optical connector comprises a cover structure made of stainless steel, and forms an adhesive layer in the cover structure, thereby preventing failure of the optical fiber in the optical connector to be broken even when an external impact is applied to the optical connector. Prevention ensures stable connection of optical fibers.

Optical connector, cover, adhesive layer, optical fiber, optical cable

Description

Optical connector

The present invention relates to an optical connector, and more particularly to an optical connector that can prevent the flow of the optical fiber due to the connection of the optical connectors, while preventing the bending of the optical fiber.

In general, optical connectors have been developed around the world as a basic component used in the construction of optical communication systems, and the performance of such optical connectors is generally characterized by insertion loss and return loss. Product development is being pursued.

On the other hand, in order to minimize the insertion loss of the optical fiber, the factors that can be controlled in the optical connector design are the deviation (Sateral Offset), the gap between the fibers (Gap), and the angular misalignment between the optical fiber side, etc. The control of these factors depends on the alignment method and production technology.

Accordingly, in the related art, the connection is made by the sleeve and the ferrule which are processed with high precision so as to reduce the insertion loss of the optical fiber.

However, the conventional optical connector structure has a disadvantage in that the cover structures for protecting the optical fiber are mostly made of a synthetic resin material, so that bending occurs easily from an external impact, resulting in poor connection of the optical fiber.

In addition, although the conventional optical connector aims to stabilize the connection of optical fibers by using a sleeve and a ferrule, in the case of the sleeve and the ferrule, the optical connector is not a structure for fixing the optical fiber but a structure for the alignment of the optical fiber. The sleeve and the ferrule for aligning the optical fiber in the cover structure of the do not maintain a firm fixed state, there is a problem that the flow in the front and rear direction, thereby resulting in poor connection of the optical fibers.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and the cover structure of the optical connector is made of stainless steel to prevent the occurrence of bending failure of the optical fiber from external impact, and also protect the optical fiber This is to prevent the flow of the inner cover to ensure that the connection of the optical fiber is made stable.

The present invention optical connector for achieving the above object is a multi-stage inner cover is inserted into the optical fiber stripped of the optical cable; A first cover part to protect the inner cover; A second cover part coupled to one end of the first cover part; A connecting portion coupled to the other end of the inner cover and guiding the connection of the optical fiber; It comprises a, wherein the first and second cover parts are made of adhesive fixing by the adhesive layer to prevent flow.

In addition, the first and second cover parts are made of stainless steel to prevent bending of the optical fiber from external impact.

In addition, the adhesive layer is formed by filling any one of the instant adhesive, narrowing adhesive, UV adhesive, epoxy adhesive.

Thus, the present invention, the cover structure constituting the optical connector made of stainless steel, while forming an adhesive layer in the cover structure, thereby preventing the failure of the optical fiber in the optical connector bending even if an external impact is applied to the optical connector. In addition, there is an effect that the connection of the optical fiber is made stable through the flow prevention of the optical fiber.

Hereinafter, an embodiment of the present invention by the accompanying drawings as follows.

1 is a schematic cross-sectional view showing the structure of an optical connector according to an embodiment of the present invention.

Referring to FIG. 1, an optical connector according to an embodiment of the present invention includes an inner cover 10, a first cover part 20, a second cover part 30, a connection part 40, and an adhesive layer 50. Include.

The inner cover 10 is a multi-stage structure in which holes (not shown) are formed so as to penetrate the optical fiber 101 with the cover of the optical cable 100 peeled off, and the first cover part 20 is the inner cover 10. It is constructed of stainless steel to prevent bending of the inner cover 10 and the optical fiber 101 thereby protected from external impact.

The second cover part 30 is a structure that protects one end of the first cover part 20 and is made of stainless steel so that the inner cover 10 in the first cover part 20 is not bent by an external impact. It is composed.

The connection part 40 guides the connection of the optical fiber 101 in a state where it is located at the front end of the inner cover 10, and enables the insertion of the optical fiber 101 passing through the second cover part 30. It is configured to.

The adhesive layer 50 prevents the inner cover 10 that protects the optical fiber 101 from flowing back and forth in a connection operation state of the optical fiber 101, and the first and second cover parts 20 ( The adhesive is filled between 30), and the filled adhesive is any one of an instant adhesive, an anaerobic adhesive, a UV adhesive, and an epoxy adhesive.

Here, when filling of such adhesives is made, the adhesives are allowed to promote curing from the addition of a primer.

That is, in the optical connector according to the embodiment of the present invention, as shown in FIG. 1, the first and second cover parts 20 and 30 are made of stainless steel, and the optical connector is connected to the optical connector in a state where the optical connector is connected. Even if an external impact is applied, the first and second cover parts 20 and 30 made of stainless steel are prevented from being bent, and thus the inner cover is protected by the first and second cover parts 20 and 30. (10) and one technical feature to prevent the bending of the optical fiber 101 is thereby protected.

In addition, the optical connector of the present invention to form the adhesive layer 50 formed by the filling of the adhesive between the first and second cover parts 20 and 30, the first cover part to protect the inner cover 10 By preventing the flow of the (20), the inner cover 10 is prevented from flowing in the front and rear direction during the connection operation of the optical connector, accordingly, the optical fiber 101 is a connection operation can be made in a stable state without flow. .

Hereinafter, the present invention is not limited to the above-described specific preferred embodiments, and any person skilled in the art without departing from the gist of the present invention claimed in the claims may have various modifications. Of course, such changes are within the scope of the claims.

1 is a schematic cross-sectional view showing the structure of an optical connector according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10; Inner cover 20; 1st cover part

30; Second cover portion 40; Connection

50; Adhesive layer 100; Optical cable

101; Fiber optic

Claims (3)

A multi-stage inner cover into which the optical fiber stripped of the optical cable is inserted; A first cover part protecting the inner cover; A second cover part coupled to one end of the first cover part; A connecting portion coupled to the other end of the inner cover and guiding the connection of the optical fiber; And including An adhesive layer for preventing flow of the second cover part between the first and second cover parts; Optical connector, characterized in that for forming. The method of claim 1, And the first cover portion and the second cover portion are made of stainless steel to prevent bending of the optical fiber from external impact. The method of claim 1, The adhesive layer is an optical connector, characterized in that formed by filling any one of the instant adhesive, narrowing adhesive, UV adhesive, epoxy adhesive.

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