KR200482814Y1 - Universal splicing of fiber connector holder - Google Patents

Abstract

The present invention relates to a holder for an optical fiber heat-sealable connector, wherein a holder for an optical fiber heat-sealable connector of the present invention includes a holder body and a holder cover, wherein the holder cover is movably installed in the holder body, And the holder cover includes at least one optical fiber fixing body matched with the optical fiber fixing groove. This holder can realize position fixation of various different types of optical fiber heat-sealable connectors of different standards, and furthermore, optical fibers fixed to different sizes of optical fibers and optical fiber heat- Since the grooves and the optical fiber fusion splicer connector ferrule fixing grooves are further provided, when the optical fiber splicing / fusing operation is performed on the optical fiber fusion splicer connectors of different types and different standards, the operator does not need to replace the holder, The operation is simple, and the working efficiency is greatly improved.

Description

TECHNICAL FIELD [0001] The present invention relates to a holder for a fiber-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fiber fusion splicing technology field, and more particularly to a holder for an optical fiber fusion splice connector.

As the communication technology continues to develop, users' demand for information transmission speed and quality is increasing. Therefore, the advantages of optical communication and the self itself are becoming more and more important, and FTTH (Fiber To The Home) has become a necessary trend. When an optical fiber in the home is installed, an optical fiber connector is usually used to connect the optical cable and the terminal. The connection between the optical fiber connector and the optical cable is a connection between the optical fiber previously embedded in the optical fiber connector and the optical fiber in the optical cable. There are two types of connection method: mechanical connection (cold connection) and arc connection (thermal connection). Compared with the mechanical connection method, the arc connection (thermal fusion splicing) system has a low fusion splicing loss, has high stability, has a long life, does not change with temperature change, and has a low maintenance cost, . In the thermal fusion splicing, first, the end face of the optical fiber (including the optical fiber in the cable to be connected to the pre-buried optical fiber extending from the inside of the connector) is cut by the optical fiber cutting device and the optical fiber cross- And then fused and connected. In order to reach the demand of cutting effect and fusion splicing effect, both cut and fusion splicing processes require a dedicated holder for fixing the optical fiber connector and the optical cable.

The conventional holders for optical fiber heat-sealable connectors are mostly applied to a single-model optical fiber connector. Fiber-optic fusion splicer connectors are generally divided into several types such as FC, SC, ST, and LC, and since different types of fiber-optic fusion splicer connectors manufactured in different factories are also different from each other, When the heat-sealable connector is to be fused and connected, the operator has to select a holder that matches the type and the optical fiber heat-sealable connector of the corresponding standard, so the holder has to be frequently replaced, operation is very inconvenient and operation efficiency is low.

The object of the present invention is to provide a holder for an optical fiber heat-sealable connector, in which a conventional holder can not be matched to various types of optical fiber connectors at the same time, and the holder is frequently replaced. Therefore, operation is very inconvenient, And solves the problem.

According to an aspect of the present invention, there is provided a holder for an optical fiber heat-sealable connector including a holder body and a holder cover, the holder cover being movably installed in a holder body, And a plurality of optical fiber fusion splicing connector position fixing structures of different sizes, and the holder cover includes at least one optical fiber fixing body matched with the optical fiber fixing groove.

Preferably, the holder body further includes at least one standard optical fiber fusion splice connector ferrule fixing groove, and the holder cover includes at least one optical fiber fusion splice connector ferrule fixed to match the optical fiber fusion splice connector ferrule fixing groove Wherein the optical fiber fixing groove and the optical fiber heat fusion connector ferrule fixing groove are arranged at a front end of the holder body in a stepwise shape according to a standard size and correspondingly the optical fiber fixing body and the optical fiber heat- The stagnation is also arranged in a stepped shape on the front end of the holder body.

Preferably, the front end of the holder cover is provided with a plurality of concave grooves of different sizes, and the plurality of concave grooves are arranged in a stepped shape, and the optical fiber fixing body and the optical fiber fusion splice connector ferrule fixing body are formed in the concave groove Respectively.

Preferably, the holder body includes a 900um optical fiber fixing groove and a 250um optical fiber fusion splice connector ferrule fixing groove. The 900um optical fiber fixing groove is located at the front end of the 250um optical fiber fusion splice connector ferrule fixing groove, and further includes a 250um optical fiber fusion splice connector ferrule fixing And the first concave groove and the second concave groove are provided at the front end of the holder cover correspondingly and the first concave groove is located at the front end of the second concave groove and is higher than the second concave groove, The optical fiber fixing body and the optical fiber heat fusion connector ferrule fixing body are provided in the first concave groove and the second concave groove, respectively.

Preferably, the optical fiber fixing body and the optical fiber heat fusion connector ferrule fixing body have a rubber structure.

Preferably, the middle portion of the holder main body is a large receiving groove, and the plurality of optical fiber heat sealing connector position fixing structures are located at the front end and the rear end of the large receiving groove.

Preferably, the plurality of fiber optic thermal fused connector location fixation structures include a plurality of fiber optic heat fusion connector location fixation grooves and a plurality of fiber optic fusion splice connector location fixation platforms.

Preferably, the middle portion of the holder cover has a hollow shape matching with the large receiving groove of the holder body, and a plurality of clearance grooves ) Is installed.

Preferably, an elastic structure is further provided in the clearance groove at the rear end of the holder cover, and the elastic structure presses the rear end of the optical fiber heat fusion connector firmly.

Preferably, the holder body and the holder cover are pivotally connected, and the holder body and the holder cover are engaged with each other at the opening.

Preferably, a rotary shaft hole structure is provided on one side of the holder body, and a rotary shaft structure is provided on one side of the holder cover correspondingly, and the rotary shaft structure is operatively connected to the rotary shaft hole structure.

Preferably, the rotating shaft hole structure includes two rotating shaft blocks, the two rotating shaft blocks have a predetermined distance, and coaxial through holes are respectively provided in the two rotating shaft blocks. And the two small cylinders are provided at both ends of the rotating shaft main body, and there is a gap between the two small cylindrical bodies and the rotating shaft main body, and the two small cylindrical bodies are spaced apart from each other, Plastic deformation occurs when the small cylindrical body is engaged in the through-hole.

Compared with the prior art, the present invention has the following technical effect.

The present invention relates to a holder for an optical fiber heat-sealable connector, in which a plurality of different position fixing grooves / platforms and clearance grooves are provided, When the optical fiber cutting / fusion splicing is carried out on the optical fiber heat-sealing connectors of different types and different specifications, the operator does not need to replace the holder, so that the operation is simple and the working efficiency is greatly improved.

In addition, since this holder is further provided with the optical fiber heat-sealing connector ferrule fixing groove for fixing the ferrule at the front end of the optical fiber heat-sealable connector and the optical fiber fixing groove for fixing the optical fiber pre-embedded in the optical fiber heat-sealable connector, Thereby improving the success rate of optical fiber fusion splicing.

This holder can also be matched with a cutting device of a corresponding model and a fusion splicer, so that a series of steps including cutting and fusion splicing to a pre-embedded optical fiber of an optical fiber fusion splicer connector can be easily operated, Thereby improving the working efficiency of the apparatus.

1 is a schematic view of a structure in which a holder for an optical fiber heat-sealing connector according to the present invention is matched with various optical fiber heat-sealing connectors.
2 is a schematic structural view of the holder body of the present invention.
3 is a structural schematic view of the holder cover of the present invention.
4 is a schematic view of the elastic structure when the holder cover of the present invention is opened.
5 is a schematic view of the structure in which the holder cover of the present invention is opened.
6 is a schematic view of the structure in which the holder cover of the present invention is closed.
Fig. 7 is a schematic structural view showing the combination of the present invention and a ST optical fiber heat-sealable connector. Fig.
Fig. 8 is a schematic structural view showing the combination of the present invention and an LC optical fiber heat-sealable connector. Fig.
9 is a schematic view of a first coupling structure of the present invention and a 900 mu SC optical fiber thermal fusion splice connector.
10 is a schematic view of a second coupling structure of the 900 mu SC optical fiber thermal fusion splice connector of the present invention.
11 is a schematic view of a third coupling structure of the 900 mu SC optical fiber thermal fusion splice connector of the present invention.
Fig. 12 is a schematic structural view showing the combination of the present invention and an FC optical fiber heat-sealable connector. Fig.
13 is a structural schematic view showing the combination of the present invention and a 250 mu SC optical fiber thermal fusion splice connector.

The present invention provides a holder for an optical fiber heat fusion connector. The holder includes a holder body and a holder cover, and the holder cover is movably installed in the clip body. That is, the holder cover is openable and closable in the holder main body. The holder main body includes at least one optical fiber fixing groove having a different size from the optical fiber fixing groove and at least one optical fiber fixing groove corresponding to the optical fiber fixing groove and corresponding to the optical fiber fixing groove, And the holder main body further includes at least one size of the optical fiber heat fusion connector ferrule fixing groove and correspondingly the holder cover includes the optical fiber heat fusion connector ferrule fixing body matched with the optical fiber heat fusion connector ferrule fixing groove. In the present invention, the optical fiber heat-sealing connector position fixing structures of different standards act to fix the optical fiber heat-sealing connectors of different types and different standards. The optical fiber fixing bodies of different standards act to fix optical fibers of different sizes and the optical fiber heat fusion connector ferrule fixing bodies of different standards function to fix the optical fiber heat fusion connector ferrules of different standards. That is, when the holder is closed to clamp the optical fiber heat-sealable connector, the optical fiber fixing bodies of different sizes fix the corresponding optical fiber preliminarily embedded in the optical fiber heat-fusion connector, and the optical fiber heat-seal connector ferrules of different sizes are fixed to the corresponding optical fiber heat- When the holder is closed in the fused connector ferrule fixing groove and the holder cover is closed, the corresponding optical fiber fixing body or the optical fiber heat fusion connector ferrule fixing body is fixed to the optical fiber fixing connector or the ferrule of the front end of the optical fiber heat- Fix in the heat-fusible connector ferrule fixing groove to clamp. In the optical fiber heat-sealable connector, the optical fiber can be embedded in the ferrule at the front end of the optical fiber heat-sealable connector in advance. That is, the optical fiber extends from the ferrule at the front end of the optical fiber heat fusion connector.

In the present invention, the optical fiber thermal fusion connector position fixing structure includes an optical fiber heat fusion connector position fixing groove and an optical fiber heat fusion connector position fixing platform.

Since the present invention can be connected to an optical fiber cutting device and an optical fiber fusion splicer of a corresponding model, it is possible to easily operate a series of steps including cutting and fusion splicing to an optical fiber in an optical fiber fusion splicer connector, . However, the present invention is not limited thereto.

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

1, a holder for an optical fiber heat fusion connector includes a holder body 1 and a holder cover 2, and the holder cover 2 is movably installed in the holder body 1. As shown in Fig. That is, the holder cover 2 is openable and closable to the holder main body 1. The present invention is not limited to the specific connection method of the holder main body 1 and the holder cover 2. In this embodiment, the holder main body 1 and the holder cover 2 are pivotally connected, And the holder cover 2 are engaged with each other. The holder main body 1 includes a plurality of optical fiber fixing grooves of various sizes, a plurality of optical fiber heat fusion connector ferrule fixing grooves of various sizes, and a plurality of optical fiber heat fusion connector position fixing grooves / Includes a plurality of optical fiber fixing bodies matched with the optical fiber fixing grooves and a plurality of optical fiber heat fusion connector ferrule fixing bodies matched with the optical fiber heat fusion connector ferrule fixing grooves. In the present invention, when the holder cover 2 is first opened and the optical fiber heat-sealing connector is placed in the holder body 1, the matching optical fiber heat-sealing connector position fixing groove / platform fixes the optical fiber heat- The corresponding optical fiber fixing groove fixes the optical fiber or the corresponding optical fiber heat fusion connector ferrule fixing groove fixes the ferrule at the front end of the optical fiber heat fusion connector (one of the optical fiber fixing groove and the optical fiber heat fusion connector ferrule fixing groove is selected When the holder main body 2 is closed, the corresponding optical fiber fixture fixes the optical fiber, or the corresponding optical fiber fusion splice connector ferrule fixture fixes the ferrule at the front end of the optical fiber fusion splice connector. In the present invention, the optical fiber heat-sealable connector position fixing grooves / platforms of different sizes are used for fixing different types of optical fiber heat-sealable connector bodies of different types, and optical fiber fixing grooves of different sizes are used for different models of optical fibers And the ferrule fixing grooves of different sizes are used for fixing the ferrules of the front ends of the optical fiber heat fusion connectors of different models and the optical fiber fixing bodies of different sizes are used for fixing the optical fiber fixing grooves And the ferrules of the different types of optical fiber fusion splice connectors are matched with the optical fiber fusion splice connector ferrule fixing grooves of different standards so that the ferrules of the front ends of the optical fiber fusion splice connectors of different models are fixed . Therefore, in order to match with more types and more models of optical fiber heat-seal connectors, the present invention relates to an optical fiber heat-sealable connector position fixing groove / platform, an optical fiber fixing groove, an optical fiber fixture, Fusion Connector The number, size, and installation location of the ferrule fixture is not specifically limited, but can be specifically designed to meet the requirements for matching with more types and more models of fiber optic fusing connectors have. In this embodiment, the holder includes at least nine types of optical fiber heat fusion connectors such as an FC optical fiber heat fusion connector, an SC optical fiber heat fusion connector, an ST optical fiber heat fusion connector, an LC optical fiber heat fusion connector, and an FTTH exclusive SC optical fiber heat fusion connector . Fiber ferrules The ferrules on the front end of a connector include two models, one is a 900um fiber optic splice connector ferrule, the pre-embedded fiber inside the ferrules of this model is an optical fiber with a diameter of 900um and the other is a 250um fiber fusion splice Connector ferrule, and the pre-embedded optical fiber inside the ferrule of this model is 250um optical fiber, but the present invention is not limited thereto.

Referring to FIG. 2, the holder main body 1 includes optical fiber fixing grooves of various different sizes and optical fiber heat-sealing connector ferrule fixing grooves of various different sizes, and a plurality of optical fiber fixing grooves and a plurality of optical fiber heat- The connector ferrule fixing grooves are arranged on the front end of the clamp main body 1 in a stepwise manner according to the standard size. The middle portion of the holder main body 1 is a large receiving groove 115 and the plurality of optical fiber heat sealing connector position fixing grooves / platforms are located at the front end and the rear end of the large receiving groove 115, And the optical fiber heat fusion connector position fixing grooves / platforms located at the rear end are arranged in a stepped shape, respectively. In the present invention, the center of a plurality of optical fiber fixing grooves, a plurality of optical fiber thermal fusion connector fixing grooves and a plurality of optical fiber heat fusion connector position fixing grooves / platforms lies on the same straight line. In this embodiment, the large receiving groove 115 in the middle portion of the holder main body 1 is a through groove. That is, the holder body 1 is hollow and the through-hole is also for fixing the optical fiber heat-sealable connector main body.

In this embodiment, the holder main body 1 includes one optical fiber fixing groove and one optical fiber heat fusion connector ferrule fixing groove, the optical fiber fixing groove is a 900um optical fiber fixing groove 111, and the optical fiber heat fusion connector ferrule fixing groove And the 900um optical fiber fixing groove 111 is located at the front end of the 250um optical fiber heat fusion connector ferrule fixing groove 112 and is connected to the 250um optical fiber heat fusion connector ferrule fixing groove 112 high. That is, the size of the 900um optical fiber fixing groove 111 is smaller than the size of the 250um optical fiber heat-fusible connector ferrule fixing groove 112 because the diameter of the 900um optical fiber is smaller than the diameter of the 250um optical fiber heat-sealing connector ferrule. In the present embodiment, these two fixing grooves are all V-shaped grooves.

In the present embodiment, the holder main body 1 is provided with the SC optical fiber heat fusion connector position fixing groove 113, the optical fiber heat fusion connector common position fixing groove 114, the first optical fiber heat fusion connector rear position fixing platform 116, A second optical fiber heat fusion connector rear position fixing platform 117 and a third optical fiber heat fusion connector rear position fixing platform 118. The SC optical fiber heat fusion connector position fixing groove 113 is an SC optical fiber heat fusion connector And the optical fiber heat sealing connector common position fixing groove 114 is applied to an SC optical fiber heat sealing connector, an LC optical fiber heat sealing connector, an ST optical fiber heat sealing connector, and an FC optical fiber heat sealing connector, The second position fixing platform 116 is applied to the ST optical fiber heat fusion connector and the SC optical fiber heat fusion connector and the second optical fiber heat fusion connector rear position fixing platform 117 is a FC optical fiber heat fusion connector Is applied to the third fiber optic connector, the welded tail portions fixed location platform 118 is applied to an LC optical fiber thermally fused connector. In this embodiment, the optical fiber heat fusion connector position fixing groove is an arcuate groove, and the position fixing platform is two separation platforms, and two of the first optical fiber heat fusion connector rear position fixing platform 116 An arc-shaped clearance groove 125 is further provided between the separation platforms, and this arc-shaped clearance groove 125 has a clearance forming function and is provided between the two separation platforms of the third optical fiber heat fusion connector rear position fixing platform 118 An arc-shaped position fixing groove 126 is further provided, and this arc-shaped position fixing groove 126 can be used for fixing the 250 mu SC optical fiber thermal fusion connector. In the present invention, the platform is also a single groove structure recessed in the holder main body 1.

The SC optical fiber heat fusion connector position fixing groove 113 and the optical fiber heat fusion connector common position fixing groove 114 are located at the front end of the large receiving groove 115 in the middle portion of the holder main body 1, The radius of the SC optical fiber heat fusion connector position fixing groove 113 is smaller than that of the optical fiber heat fusion connector common position fixing groove 114 and is located at the rear end of the heat fusion connector ferrule fixing groove 112, The 250 mu m optical fiber heat fusion connector ferrule fixing groove 112, the SC optical fiber heat fusion connector position fixing groove 113 and the optical fiber heat fusion connector common position fixing groove 114 are arranged stepwise in order.

In this embodiment, the first fiber optic heat fusion connector rear position fixing platform 116, the second optical fiber heat fusion connector rear position fixing platform 117, and the third optical fiber heat fusion connector rear position fixing platform 118 The arc-shaped clearance groove 125, the second optical fiber heat fusion connector rear fixing position platform 117 and the arc-shaped position fixing groove 126 are located in the rear end of the large receiving groove 115 in the middle of the holder main body 1 Are arranged in a step-like manner.

The arcuate position fixing groove 119 is further provided at the rear end of the holder main body 1. The arcuate position fixing groove 119 is located at the rear end of the third optical fiber heat fusion connector rear position fixing platform 118, Is larger than the radius of the arc-shaped position fixing groove 126. An opening hole 120 is provided at the rear end of the arc-shaped position fixing groove 119. A large cylindrical hole 121 is further provided in the arc-shaped position fixing groove 119, and the large cylindrical hole 121 serves as a screw mounting hole for connecting the optical fiber fusion splicer. A plurality of small cylindrical holes 122 are further provided at both ends of the third optical fiber thermal fusion splice connector rear position fixing platform 118. That is, one small cylindrical hole 122 is provided on one side of the third optical fiber thermal fusion splice connector rear position fixing platform 118, and the small cylindrical hole 122 is formed by two pillars extending from the optical fiber fusion splicer And acts as a matching position fixing hole.

A rotary shaft hole structure is provided on one side of the holder main body 1. The rotary shaft hole structure includes two rotary shaft blocks 123 corresponding to each other and a distance between the two rotary shaft blocks 123 is constant And a coaxial rotation axis hole 1231 is provided at the intermediate portion. The holder body 1 is provided with a latching portion 124 on the other side thereof, and the upper end of the latching portion 124 is an inverted hook type.

The plurality of concave grooves are arranged in a stepped shape on the front end of the holder cover 2. The concave grooves are provided with optical fiber fixing grooves and optical fibers The fixture and the fiber-optic fusion splice connector ferrule fixture are installed. A plurality of optical fiber fixing bodies and a plurality of optical fiber heat fusion connector ferrule fixing bodies have different specifications and are arranged in a stepped shape. Fixed bodies located at the first edge of the front end of the holder cover 2 protrude most in correspondence to the optical fiber fixing grooves and the optical fiber heat-sealable connector ferrule fixing grooves, and are gradually lowered in order after that. In this embodiment, the number of concave grooves is equal to the number of fixing grooves, but the present invention is not limited thereto.

3, a first concave groove 211 and a second concave groove 212 are provided at the front end of the holder cover 2 in this embodiment, and the first concave groove 211 is formed in the second concave groove 211 The first concave groove 211 is provided with a 900um optical fiber fixing body 217 and the second concave groove 212 is provided with a 250um optical fiber heat fusion connector ferrule A stagnant body 218 is provided and a 900um optical fiber fixing body 217 is used to fix a 900um optical fiber that is matched with a 900um optical fiber fixing groove 111 and extended from various connectors and a 250um optical fiber heat fusion connector ferrule fixing body 218 And the height of the 900um optical fiber fixing body 217 is higher than that of the 250um optical fiber heat fusion connector ferrule fixing body 218. The 250um optical fiber fusion splicing connector ferrule 217 has a height equal to that of the 250um optical fiber heat fusion connector ferrule fixing groove 218. [ In this embodiment, the fixture is a rubber structure, which is connected to the holder cover 2 using an adhesive system.

In the present embodiment, the V-type 900um optical fiber fixing groove 111 and the V-type 250um optical fiber heat fusion connector ferrule fixing groove 112 can be used to clamp the ferrule at the rear end of the 900um optical fiber and the 250um optical fiber through matching with the fixing rubber on the cover have. In the present embodiment, the height of the V-type 900-μm optical fiber fixing groove 111 and the V-type 250-μm optical fiber heat fusion connector ferrule fixing groove 112 are designed so that the V-type 900-μm optical fiber fixing groove 111, The optical fiber extending after being fixed by the connector ferrule fixing groove 112 is placed directly in the groove bottom of the V-type optical fiber fixing groove on the optical fiber fusion splicer (i.e., to enter the correct fusion splitting orbit), and at the same time, And 250um optical fiber fusion splicer connector ferrules are clamped to prevent the fused optical fibers from moving upward or downward or deviating from the correct fusion splicing trajectory.

The middle portion of the holder cover 2 is a hollow shape matching with the large receiving recess 115 of the holder main body 1. A plurality of clearance grooves 213 are formed around the middle portion of the hollow shape, And the purpose of providing the clearance groove 213 is to allow the holder to be used in various models and fused connectors of various standards. 4, in the present embodiment, the elastic structure 218 is further provided in the clearance groove at the rear end of the holder cover 2, and the elastic structure 218 presses the rear end of the optical fiber heat fusion connector firmly. That is, since the elastic structure 218 is additionally provided in the clearance groove at the rear end of the holder cover 2 that matches with the rear portion of the optical fiber heat fusion connector, and the elastic structure 218 has a very large contraction space, So that the optical fiber heat-sealable connector can be more stably fixed in the holder cover 2. The material of the elastic structure 218 is preferably a sponge, but is not limited to the sea surface, and may have other elastic structures, and the present invention is not limited thereto. In the present invention, the length of the holder cover 2 is smaller than the length of the holder main body 1. That is, the rear portion of the holder cover 2 is located at the center and rear portions of the holder main body 1. Therefore, when the holder cover 2 covers the holder main body 1, the elastic structure 218 can press the rear end of the optical fiber heat-sealing connector firmly to fix the rear end of the optical fiber heat-sealing connector.

3 and 5, in the present embodiment, the holder body 1 and the holder cover 2 are pivotally connected, a rotary shaft hole structure is provided on one side of the holder body 1, and a holder cover 2 is provided with a rotary shaft structure, and the rotary shaft structure is operatively connected to the rotary shaft hole structure. The rotating shaft hole structure includes two rotating shaft blocks 123. The two rotating shaft blocks 123 are spaced apart from each other by a predetermined distance and coaxial rotating shaft holes 1231 are respectively provided in the two rotating shaft blocks 123, The structure includes a rotating shaft main body 214 and two small cylindrical bodies 215. The two small cylindrical bodies 215 are provided at both ends of the rotating shaft body 214 and are provided with two small cylindrical bodies 215, Plastic deformation occurs when the two small cylinders 215 are engaged in the rotation shaft hole 1231 and the connection portion between the holder main body and the holder cover is formed by plasticity The connection is made through the transformation method, so that the operation is simple and the cost can be reduced. In the present invention, a pivotal connection between the holder cover 2 and the holder main body 1 can be realized by using a common integral type rotary shaft, and the present invention is not limited to this.

6, the opening portion of the holder (one side opposite to the pivot connection side is the opening portion of the holder) uses a latching method. That is, the holder body 1 is provided with the latching portion 124, and the holder cover 2 is provided with the latching body correspondingly. The latching portion 124 is of the reverse hooking type, So as to fix the optical fiber heat fusion connector.

The present invention can be matched with various types of optical fiber heat-sealing connectors, and the following description explains the use of various optical fiber heat-sealing connectors in combination with the present holder.

7, the holder cover 2 is opened and the ST fiber-optic heat-sealing connector 3 is fixed to the optical fiber heat-sealing connector common position fixing groove 114 on the holder main body 1 and the rear end of the first optical fiber heat- The 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed by fixing the ST fiber optical fiber fusion splice connector 3. [

8, the holder cover 2 is opened and the LC optical fiber heat-sealing connector 4 is fixed to the optical fiber heat-sealing connector common position fixing groove 114 on the holder main body 1 and the rear end of the third optical fiber heat- The 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed to fix the LC optical fiber heat fusion connector 4. [

9, the holder cover 2 is opened, and the 900um SC optical fiber heat-sealing connector 5 of the first size is fixed to the SC optical fiber heat fusion connector position fixing groove 113 on the holder body 1 and the first optical fiber heat- The 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed to fix the SC optical fiber heat fusion connector .

10, the holder cover 2 is opened, and the 900um SC optical fiber thermal welding connector 6 of the second standard is inserted into the SC optical fiber heat fusion connector position fixing groove 113 on the holder main body 1 and the first optical fiber heat- The 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed to fix the SC optical fiber heat fusion connector .

11, the holder cover 2 is opened, and a 900um SC optical fiber thermal welding connector 7 of the third standard is inserted into the optical fiber heat-sealing connector common position fixing groove 114 on the holder body 1 and the first optical fiber heat- The 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed to fix the SC optical fiber heat fusion connector .

12, the holder cover 2 is opened and the FC optical fiber heat-sealing connector 8 is fixed to the optical fiber heat-sealing connector common position fixing groove 114 on the holder main body 1 and the rear end of the second optical fiber heat- Is placed on the fixed platform 117 and the 900um optical fiber extending from the optical fiber heat fusion connector is fixed by the 900um optical fiber position fixing groove 111 and the holder cover 2 is closed to fix the FC optical fiber heat fusion connector 8 .

13, the holder cover 2 is opened and the 250um SC optical fiber thermal fusion connector 9 is placed on the first optical fiber heat fusion connector rear fixing platform 116 on the holder body 1, The optical fiber heat fusion connector ferrule is fixed by the fusion connector ferrule fixing groove 112 and the holder cover 2 is closed to fix the SC optical fiber heat fusion connector.

The above-mentioned optical fiber heat-sealable connectors of several sizes and models are only a few specific embodiments of the present invention, but the present invention is not limited thereto.

The present invention relates to a connector for an optical fiber connector which can be fixed to an optical fiber cutting device so as to advance the cutting of an optical fiber pre-embedded in an optical fiber heat-sealing connector, The optical fiber heat-sealing connector may be mounted on the fusion splicer, or the holder may be mounted on the optical fiber splicing device and the optical fiber fusion splicer, respectively, but the present invention is not limited thereto. Hereinafter, the case of one fusion splicing connection will be described and described.

In the present invention, the operation procedure is as follows when the optical fiber fusion splicing is connected.

In the first step, the holder is mounted on the cutting device.

In the second step, the coating layer on the optical fiber of the optical fiber heat-sealing connector is removed.

In the third step, the optical fiber heat-sealable connector is inserted into the holder and the end face of the optical fiber is cut.

In the fourth step, the optical fiber heat-sealed connector in which the optical fiber is cut is placed in a holder pre-mounted on the optical fiber fusion splicer, and fusion splicing operation is performed.

It is to be understood that the foregoing disclosure is only one specific embodiment of the present application, and the present application is not limited thereto, and all changes that can be made by a person skilled in the art are within the scope of the present application.

1: holder body
2: Holder cover
113: SC optical fiber heat fusion connector position fixing groove
114: Fiber optic heat fusion connector Common position fixing groove
115: large receiving groove
116: first optical fiber heat fusion connector rear position fixing platform
117: second optical fiber heat fusion connector rear position fixing platform
118: Third optical fiber heat fusion connector rear position fixing platform

Claims (12)

Comprising a holder body and a holder cover,
Wherein the holder cover is movably installed in the holder main body, and the holder main body includes at least one optical fiber fixing groove and a plurality of optical fiber fusion splicing connector position fixing structures of different sizes, At least one optical fiber fixture matching the groove,
The holder body further includes at least one standard optical fiber fusion splice connector ferrule fixing groove, and the holder cover includes at least one optical fiber fusion splice connector ferrule fixing body matched with the optical fiber heat fusion connector ferrule fixing groove Wherein the optical fiber fixing grooves and the optical fiber heat fusion connector ferrule fixing grooves are arranged at the front end of the holder body in a stepwise manner according to a standard size and correspondingly the optical fiber fixing body and the optical fiber heat- And is arranged at a front end of the holder body in a shape of a circle,
A plurality of concave grooves of different sizes are provided on the front end of the holder cover, a plurality of the concave grooves are arranged in a stepped shape, and the optical fiber fixing body and the optical fiber heat fusion connector ferrule fixing body are respectively provided in concave grooves ,
Holder for optical fiber heat fusion connector. The method according to claim 1,
The holder main body includes a 900um optical fiber fixing groove and a 250um optical fiber fusion splice connector ferrule fixing groove. The 900um optical fiber fixing groove is located at the front end of the 250um optical fiber fusion splice connector ferrule fixing groove and is higher than the 250um optical fiber fusion splice connector ferrule fixing groove Correspondingly, a first concave groove and a second concave groove are provided at the front end of the holder cover, the first concave groove is located at the front end of the second concave groove and is higher than the second concave groove, And the second concave groove is provided with the optical fiber fixing body and the optical fiber heat fusion connector ferrule fixing body, respectively. 3. The method of claim 2,
Wherein the optical fiber fixing body and the optical fiber heat fusion connector ferrule fixing body have a rubber structure. The method according to claim 1,
Wherein the middle portion of the holder main body is a large receiving groove and the plurality of optical fiber heat sealing connector position fixing structures are located at the front end and the rear end of the large receiving groove. 5. The method of claim 4,
Wherein the plurality of optical fiber heat sealing connector position fixing structures include a plurality of optical fiber heat sealing connector position fixing grooves and a plurality of optical fiber heat sealing connector position fixing platforms. 5. The method of claim 4,
Wherein the middle portion of the holder cover has a hollow shape that matches the large receiving groove of the holder body and a plurality of clearance grooves matching with various sizes of the thermally fusible connectors are provided around the hollow center portion, Holder for. The method according to claim 6,
Wherein an elastic structure is further provided in the clearance groove at the rear end of the holder cover, and the elastic structure firmly presses the rear end of the optical fiber heat sealing connector. The method according to claim 1,
Wherein the holder main body and the holder cover are pivotally connected and the holder main body and the holder cover are engaged with each other at an opening portion. The method according to claim 1,
Wherein the holder has a rotating shaft hole structure on one side of the holder body and correspondingly a rotating shaft structure is provided on one side of the holder cover and the rotating shaft structure is operatively connected to the rotating shaft hole structure. 10. The method of claim 9,
Wherein the rotary shaft hole structure includes two rotary shaft blocks, the two rotary shaft blocks have a predetermined distance, and coaxial through holes are respectively provided in the two rotary shaft blocks, Wherein the two small cylinders are provided at both ends of the rotating shaft main body, and there is a gap between the two small cylindrical bodies and the rotating shaft main body, and the two small cylinders are spaced apart from each other, Wherein a plastic deformation occurs when the cylindrical body is engaged in the through hole. delete delete

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