KR19980066238U - Binding device of optical connector - Google Patents

Abstract

The present invention relates to a binding device of an optical connector that allows the optical connector to be more easily and easily bound and disassembled, and to maintain a stable state of the optical connector. A boot supporting the ferrule 23, the alignment member 24 provided outside the ferrule 23, and the optical fiber 11 installed at the rear side of the alignment member 24 and extending to the ferrule 23 ( A plug 22 made of 25 and a sleeve 29 for guiding and supporting the ferrule 23 at the same time inside the case 28 to connect the optical fibers 11 of the ferrule 23. An optical connector composed of an adapter 27 for relaying a connector, comprising: a snap fit 32 protruding in both sides of an alignment member 24 of the plug 22 in a connecting direction, and a locking jaw 33 formed at an end thereof; It is characterized in that the locking device for mounting the snap fit 32 of the plug 22 is provided on both sides of the adapter 27 to which the plug 22 is connected. Therefore, the present invention, when the plug 22 of the optical connector is coupled to the adapter 27, the locking device of the adapter 27 is retracted by the pressing force of the snap fit 32 installed in the plug 22 alternately snap fit ( It is easy to combine and separate by locking or unlocking 32), and the connection state of the optical fiber 11 is good as the fastening of the snap fit 32 of the plug 22 to which the locking device is coupled. have.

Description

Binding device of optical connector

The present invention relates to an optical connector, and more particularly, to a binding device of an optical connector that allows the optical connector to be bound and disassembled more easily and easily, and to maintain the bound state stably.

In general, optical communication is to exchange information by transmitting light through an optical cable, and can transmit tens of thousands of times of information compared to current electric coaxial cable, and is not affected by radio waves and magnetic fields from the outside. Due to the good transmission status of, it is widely used in the communication field, and its use range is gradually expanding to other fields.

For this optical communication, the optical cable is installed at a distance of several hundred kilometers or more, and thus requires the connection and branching of the cable in the middle.

However, since a core wire made of a very small diameter (125 μm) is formed inside the optical cable, it is very difficult to connect the core wires of the optical cable to each other.

In the connection of optical fibers, which are difficult to connect in this way, as the representative methods, a fusion splicing method and a mechanical splicing method are mainly used. The fusion splicing method is a method of melting and connecting optical fibers and is mainly used for permanent connection.In order to achieve this, an expensive precision fusion splicing device must be used and a power source must be used. It has the advantage of high reliability.

In addition, as a mechanical connection method, the optical connector is used, and it has various advantages such as convenience of work and no additional equipment, so it can be easily connected even when there is no power supply, and reliability of optical characteristics is almost the same as that of fusion splicing. Indicates.

The present invention relates to an optical connector of the mechanical connection method, first look at the structure of the conventional optical connector as follows.

As shown in FIG. 1, it is comprised by the plug 12 which aligns the edge part of the optical fiber 11, and the adapter 17 which connects this plug 12. As shown in FIG.

The plug 12 includes a ferrule 13 supporting the end circumference of the optical fiber 11 whose end is precisely polished, an alignment member 14 for aligning the ferrule 13, and the alignment member 14 of the A spring 16 installed inside the rear end of the ferrule 13 to protrude in the direction in which the ferrule 13 is connected, and an optical fiber installed on the rear side of the alignment member 14 and extending to the ferrule 13. It consists of a boot 15 supporting 11.

The adapter 17 has a case 18 coupled to the alignment member 14 of the plug 12, and a cylindrical shape having one side cut out inside the case 18, so that the ferrule 13 of the plug 12 is fixed. ) And a sleeve 19 for maintaining the connected state.

By inserting the ferrule 13 from both sides of the adapter 17 to connect the plug 12 by such a structure, the ferrule of the plug 12 is inserted into the sleeve 19 of the adapter 17 as shown in FIG. 13) is fitted. At this time, the ferrule 13 is formed in a cylindrical shape as shown in Figure 1 and the sleeve 19 is formed in a cylindrical shape in which one side is cut. Therefore, the cylindrical sleeve 19 has a diameter at which the ferrule 13 is larger than the inner diameter of the sleeve 19 when the ferrule 13 is fitted, so that the cut end of the sleeve 19 is opened so that the ferrule 13 is fitted. It becomes easy to bear. In this state, when the ferrule 13 is pushed into the adapter 17, the ferrule 13 slides inside the sleeve 19 and the ends of both ferrules 13 are contacted at the center of the sleeve 19. The optical fibers 11 aligned at the center of the ferrule 13 are connected.

On the other hand, when the connection of the ferrule 13 is completed, the alignment member 14 installed on the outside of the ferrule 13 is rotated and screwed to the case 18 of the adapter 17. By this operation, the ferrule 13 is maintained in a connected state, and a good connection state can be maintained by the elastic force of the spring 16 installed at the rear side of the ferrule 13, and the sleeve 19 has self-elasticity. Thereby, the ferrule 13, which is fitted by pressing the outer circumferential surface of the ferrule 13, can be fixed to maintain a more positive connection state.

However, as described above, when the plug of the conventional optical connector is coupled to the adapter, the alignment member of the plug is rotated to bind to the case of the adapter by screwing, thereby making the operation very cumbersome and time consuming. In addition, a twisting phenomenon occurs in the optical fiber connected when the alignment member is screwed, there was a problem that the optical fiber may be damaged.

The present invention has been devised to solve such a problem, and an object of the present invention is to bind and disassemble the optical connector, and to install the binding device in the adapter for relaying both plugs connected to the plugs in which the optical fibers are aligned. It is an object of the present invention to provide an optical connector binding device that makes the connection and disassembly of a connector simple and easy.

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

2 is a cross-sectional view of the coupling of the optical connector according to the prior art,

3 is an exploded perspective view of the optical connector with a binding device according to the present invention,

4 is a cross-sectional view of the optical connector coupled by the binding device according to the present invention.

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

11: optical fiber 22: plug

23 ferrule 24 alignment member

25: boot 27: adapter

28: case 29: sleeve

32: Snap Fit 33: Hanging Jaw

34: locking device 35: hole

36: clasp 37: rod

38: elastic piece 39: locking jaw

The optical connector binding device of the present invention for achieving the above object is a ferrule aligning the polished optical fiber in the center, the alignment member provided on the outside of the ferrule, and the light installed on the rear side of the alignment member to extend into the ferrule In the optical connector comprising a plug consisting of a boot for supporting the fiber, and an adapter for guiding the ferrule and supporting at the same time inside the case to relay the connection of the optical fiber of the ferrule,

A snap pit protruding in a connecting direction on both sides of the alignment member of the plug and having a locking jaw at an end thereof;

A locking device for locking the snap fit of the plug is provided on both sides of the adapter to which the plug is connected.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 3, FIG. 3 is an exploded perspective view of an optical connector in which a binding device according to the present invention is installed. The optical connector of the present invention includes a plug 22 and a plug 22 in which an optical fiber 11 to be connected is aligned. And an adapter 27 for precisely connecting the aligned optical fibers 11, and a locking device is provided between the adapter 27 and the plug 22.

The plug 22 is mounted on the ferrule 23 for aligning and supporting the end of the optical fiber 11, the alignment member 24 surrounding the outside of the ferrule 23, and the rear side of the alignment member 24. And a boot 25 for supporting the optical fiber 11 exposed to the rear side of the ferrule 23, and the adapter 27 inserts and fixes the ferrule 23 of the plug 22 to the optical fiber ( It consists of a sleeve 29 which guides 11 to be correctly connected and a case 28 installed around the sleeve 29. The above-mentioned binding device is provided at the tip of the alignment member 24 of the plug 22. A locking device for attaching the plurality of protruding snap fit 32 and the rod 37 of the clasp 36 to be described later, which is installed at a position corresponding to the snap fit 32 in the case 28 of the adapter 27. Consists of.

The snap fit 32 provided at the tip of the alignment member 24 protrudes in the direction in which the plug 22 is connected to the adapter 27, and the locking jaw 33 is formed at both ends thereof.

In addition, the locking device forms a hole 35 in the tip end of the adapter case 28 corresponding to the snap fit 32, and is installed therein. The locking fit is alternately settled by the pressing operation of the snap fit 32. A clasp 36 for locking or unlocking 32 is provided, and an actuating means for enabling the clasp 36 to move in and out alternately is provided inside the hole 35. The clasp 36 is comprised of the rod 37 inserted in the inside of the hole 35, and the elastic piece 38 integrally formed in the both ends of the rod 37. As shown in FIG. The elastic piece 38 has a locking jaw 39 corresponding to the locking jaw 33 of the snap-fit 32 at the inner end thereof, and has an elastic force to open toward the bar so that the elastic piece 38 is exposed to the outside of the hole 35. At the time of opening, both sides are opened, and the snap fit 32 is mounted while the space is caught at both ends of the narrow hole 35 when inserted into the hole 35.

When the optical fiber 11 is connected by such an optical connector structure, the ferrules 23 of both plugs 22 to be connected are inserted and pushed into both sleeves 29 of the adapter 27. The plug 22 is brought into close contact with the adapter 27, and the snap fit 32 provided at the tip of the plug 22 pushes the center portion of the elastic piece 38 of the locking device of the adapter 27. By this operation, the rod 37 of the clasp 36 is retracted into the hole 35, and the rod 37 is fixed to the inside of the hole 35 by an operating device installed inside the hole 35. The elastic piece 38, which has been opened to both sides, is caught by the tip of the hole 35 by the space narrowed while being inserted into the hole 35. When the elastic piece 38 is retracted, the locking jaw 33 formed at the end of the snap fit 32 of the plug 22 and the locking jaw 39 of the elastic piece 38 are caught with each other, so that the snap fit 32 is locked. Secured by the device, the plug 22 is in turn bound to the adapter 27.

On the other hand, when it is necessary to remove the connected optical connector, the plug 22 is pushed back to the adapter 27 and then released. At this time, the snap fit 32 installed at the tip of the plug 22 advances and pushes the locking device, and the operating means installed in the hole 35 is operated again to release the latch 36 fixed. By the force of the spring 35 that has been extruded by this operation, the clasp 36 protrudes forward of the hole 35, and the elastic piece 38, which is enclosed inside the hole 35, also has the Exposed to the outside. The exposed elastic piece 38 is opened by its own elastic force, and the snap fit 32 corresponding to the latching jaw 39 of the elastic piece 38 is released to free the plug 22 from the adapter 27. Easily separated from

As described above, when the plug 22 of the optical connector is coupled to the adapter 27, the locking device of the adapter 27 is retracted by the pressing force of the snap fit 32 installed in the plug 22. By alternately locking and snapping the snap fit 32, there is an advantage in that the coupling and separation is simple, and the fastening of the snap fit 32 of the plug 22 to which the locking device is coupled firmly of the optical fiber 11 The connection state is good.

Claims (2)

A ferrule 23 having the optical fibers 11 polished at the center thereof, an alignment member 24 provided outside the ferrule 23, and a rear side of the alignment member 24 provided to the ferrule 23. A plug 22 formed of a boot 25 for supporting the optical fiber 11 that extends; and a sleeve 29 for guiding and supporting the ferrule 23 at the same time inside the case 28. In the optical connector which consists of the adapter 27 which relays the connection of the optical fiber 11 of the ferrule 23, A snap fit 32 protruding in both directions of the alignment member 24 of the plug 22 and having a locking jaw 33 formed at an end thereof; And a locking device for attaching a snap fit (32) of the plug (22) to both sides of the adapter (27) to which the plug (22) is connected. The locking device of claim 1, wherein the locking device has a hole (35) formed on the surface of the case (28) of the adapter (27), and is inserted into the hole (35) to provide a snap fit (32) of the plug (22). A rod 37 which is sunk by; An elastic piece 38 which is integrally formed at the end of the rod 37 and is mounted and snapped by the space of the hole 35 when being indented and mounted, and which snaps 32 of the plug 22 are mounted. and; Bonding device of the optical connector, characterized in that composed of the operating means for alternately operating the rod 37 by the pressing operation of the snap fit (32).