KR200157680Y1 - Optical fiber splicer unity for multiple optical cable - Google Patents

Abstract

The present invention relates to an optical fiber connector for connecting an optical cable, and more particularly, it is easy to insert and connect an optical cable to the connector when connecting the optical cable, and at the same time, the connection and alignment between the ends of each optical cable can be easily and conveniently connected. The present invention relates to an optical fiber connector. The purpose of the present invention is to facilitate the alignment of the most important optical fibers in multi-core optical fiber connection, to keep the connection securely during the use period, and to connect and disconnect the interconnectors, so that the optical fiber connector is easy to bind and separate. To provide a sieve.

An optical fiber connector for achieving the object of the present invention, in the optical fiber connector for coupling a pair of plugs with a built-in optical cable by a mechanical connection method, the optical fiber plug and the plug 10, the through-hole of the optical fiber is formed It is coupled to the upper end of the cradle-shaped clamper 40 consisting of an elastic snap protrusion 41 and a bent portion 42 fastened to the ferrule 11 of the plug on the bottom surface to combine the optical fiber connector Can be achieved.

Description

Optical Fiber Connector Binder for Ultra-Multi Core Optical Cables

The present invention relates to an optical fiber connector for connecting an optical cable, and more particularly, it is easy to insert and connect an optical cable to the connector when connecting the optical cable, and at the same time, the connection and alignment between the ends of each optical cable can be easily and conveniently connected. The present invention relates to an optical fiber connector.

In general, optical communication is to exchange information by transmitting light through an optical fiber, and can transmit tens of thousands of times more information than electric communication using coaxial cable. In addition, since the influence of radio waves and magnetic fields from the outside can be excluded and the information transmission state is good, it is widely used in the communication field, and its use range is gradually expanding to other fields. In recent years, the rapid recognition of informatization has required more optical cable lines. Recently developed optical cables have been used to process a lot of information by producing ribbon-type multi-core optical cables integrating a single optical fiber in a band shape. Such an optical cable is installed at a distance of several hundred kilometers or more, and thus requires connection and branching of the cable in the middle.

However, since optical fibers made of very small diameters (125㎛) are formed inside the optical cables, it is very difficult to connect the cores of the optical fibers to each other, and in the case of multi-core optical cables, it is necessary to connect a plurality of optical fibers at once. More difficult.

Various methods are used for the connection of optical fibers, and representative examples thereof include a fusion splicing method and a mechanical splicing method. The electronic fusion splicing method is a method of melting and connecting optical fibers and is mainly used for permanent connection.In order to achieve this, expensive precision fusion splicing apparatus must be used and power must be used. There is an advantage of high reliability of optical characteristics.

In addition, the mechanical optical cable connector has various advantages, such as convenience of work and no additional equipment, so that it can be easily connected even without a power source, and the reliability of the optical characteristics is almost the same as that of fusion splicing. In order to fundamentally solve the breakage of the optical fiber, it is useful to prevent the generated torsional tension directly applied to the optical fiber cladding and to perform the second clamping on the optical fiber coating. In addition, in the implementation of the double clamping function has a structure in which the primary clamping and the secondary clamping function is operated at the same time.

The conventional optical fiber connector for optical fiber connection is inconvenient to increase the cost and use of the tool in the optical fiber connection work because a special tool is used for the clamping function that adds the force necessary for maintaining alignment when the optical fiber connection. In addition, in performing the clamping function, when the force acts in the axial direction of the optical fiber, an axial sliding occurs even when the optical fiber is aligned, resulting in a connection failure and an increase in optical loss. As a countermeasure for this, the anti-rolling structure is added to prevent the pressing plate from being pushed in the axial direction. In this case, the additional device for the implementation is small, so it is difficult in terms of manufacturing technology and is weak in structure. It is a challenge that requires great care.

Therefore, according to such a request, various optical cable connection connectors are disclosed in Korean Patent Application Nos. 95-38970 and 95-71047, and Korean Patent Application Publication Nos. 95-007219, 95-021929, and 95-010737. It is disclosed in detail.

Therefore, referring to the connection device of the conventional optical fiber connector, the conventional optical fiber connector is a pair of plugs 10 including a ferrule 11 protruded to a predetermined length on one side of the core wire of the multi-core optical cable 50 is inserted. And a pair of reinforcing members 22 are installed at both sides of the adapter 20 having the through-hole 21 for accommodating the above-described ferrule 11, and both side walls of the body constituting the hollow rectangular shape. A pair of plugs 10 are symmetrically coupled to each other on both end sides thereof, and a casing 30 having an elastic body 31 which couples and fixes the entire connector.

However, as described above, the conventional mechanical optical cable connector uses a screw when coupling to the case, so that a separate tool is used for fastening, which is cumbersome for the connection work in the field.

In addition, since the plug 10 is coupled to the adapter 20, the connector and the adapter 20 is configured to be inserted into the case 30 so as to be fixed, so that the connector is kept in a separate state in order to remain bound. Requires 30. Therefore, there is a problem in that the plug 10 is installed in a place for connecting the multi-core optical fiber and the plug 10 is bulkier than necessary in binding the plugs 10 with each other.

The purpose of the present invention is to facilitate the alignment of the most important optical fibers in multi-core optical fiber connection, to keep the connection safely during the use period, and to connect and separate the connectors by binding each other. To provide a sieve.

1 is an exploded perspective view of an optical fiber connector according to the prior art.

2 is an exploded perspective view of the optical fiber connector according to the present invention.

3 is a plan sectional view of an optical fiber connector according to the present invention.

*** Explanation of symbols for main parts of drawing ***

10: Plug 11: Ferrule

12: connector 20: adapter

21: Through hole 22: Reinforcing member

30: Case 31: elastic body

40: clamper 41: snap projection

42: bend part 50: optical cable

The structure of the optical fiber connector for achieving the object of the present invention, in the optical fiber connector for coupling a pair of plugs in which the optical cable is built by a mechanical connection method,

An optical fiber plug having a through hole formed in the optical fiber;

An elastic snap protrusion coupled to an upper end of the plug and having a bottom surface;

The side may be configured by a clamp-type clamper consisting of a bent portion that is fastened to the ferrule of the plug can be achieved by coupling the optical fiber connector.

Looking at the preferred embodiment according to the object of the present invention by the accompanying drawings as follows.

As shown in FIG. 2, the ultra multi-fiber optical cable 50 in the plug 10 is inserted into both insertion holes at the rear of the plug 10. In addition, an optical fiber connector coupling clamper 40 is fastened to the upper part of the optical fiber connector. The coupling clamper described above has a bent portion 42 formed so that the upper part is sealed and the side is fastened to the plug 10. And an elastic snap protrusion 41 is formed on the bottom of the clamper to be fastened to the plug.

3 shows an optical fiber connector according to the present invention in a cross-sectional view, wherein a pair of plugs 10 having optical cables inserted therein are symmetrically coupled to each other, and an elastic snap protrusion for coupling and fixing the entire connector ( The clamper 40 with 41 is fastened.

Therefore, the operation of the present invention configured as described above is as follows.

First, the ultra multi-fiber optical cable 50 in the plug 10 is inserted into both insertion holes in the rear of the plug 10. The optical cable 50 inserted into the plug 10 is aligned with an insertion hole formed at the front center of the plug 10.

The aligned optical fiber bundle is again matched with the optical fiber aligned with the plug on the other side, and the optical fiber connector coupling clamper 40 covers the upper part of the plug 10, and a snap protrusion makes the entire optical fiber connector uniform in all directions. Pressurized by. This coupling clamper 40 is formed with a plug and a coverable area so that it has an elastic snap protrusion 41 on its slope and is resistant to torsional pressure which affects the optical fiber connector from the outside.

In addition, the clamper 40 can be removed manually when removing the optical fiber connector.

Therefore, in the present invention, the optical fiber connector coupling clamper 40 having the elastic snap protrusion 41 on the slope has a uniform optical fiber connector in all directions in order to improve the connection state of the multi-core optical cable 50 of several tens or more. Pressurized by pressure to have a resistance to the torsional pressure affecting the optical fiber connector from the outside it is possible to prevent the connection failure and optical loss of the optical cable 50 when the axial sliding occurs.

Claims (1)

In the optical fiber connector which combines a pair of plugs in which an optical cable is built by a mechanical connection method, An optical fiber plug having a through hole 12 formed in the optical fiber; An elastic snap protrusion 41 coupled to an upper end of the plug 10 and having a bottom surface; The optical fiber connector for the ultra-concentric optical cable 50 is characterized in that the optical fiber connector is coupled to the side by a clamp-type clamper 40 composed of a bent portion 42 fastened to the ferrule 11 of the plug. sieve.