KR101723115B1 - Optical fiber connector having holding element - Google Patents

Abstract

Disclosed is an optical fiber connector having a fixing element, which prevents damage due to excessive tightness when fixing an optical fiber and can be extensively used for various diameters of optical fibers. The optical fiber connector having a first connection member and a second connection member which are connected to each other in an axial direction comprises: a shaft member placed inside the second connection member and screwed to the first connection member; and a flexible jig member placed inside the first connection member and fixing an optical fiber by being compressed as the shaft member is transferred to the inside of the first connection member.

Description

[0001] OPTICAL FIBER CONNECTOR HAVING HOLDING ELEMENT [0002]

The present invention relates to an optical fiber connector, and more particularly, to an optical fiber connector having an element capable of fixing an optical fiber.

In general, an optical fiber connector is used to connect or disconnect two optical fibers or one optical fiber and one light source. Such an optical fiber connector is classified according to the kind of the optical cable used, the polishing method, the type of the ferrule, and the use of the connector housing or the connector.

Specifically, the optical fiber connector includes a fiber transmission system (FC) type connector for connecting to a TV equipment line, a ST (straight type connector) type connector which is formed so as not to be connected once it is connected, a Biconic type connector for use in an optical transmission device, A D4 type connector suitable for optical wiring board mounting, a multi-fiber mechanical (MT) type connector capable of reducing a connection loss for a single mode optical fiber, and the like are conventionally used.

In addition, there is an SMA (Subminiature assembly) type connector mainly used in a high-band electric circuit. In the conventional SMA type connector, the optical fiber protruded from the female connector is inserted into the threaded portion of the male connector, and the plug of the female connector is fastened to the threaded portion of the male connector. At this time, the connection interval of each optical fiber can be precisely adjusted through the adjustment screw when the female connector and the male connector are fastened.

The conventional SMA type connector fastened in this manner has an advantage that the optical fiber can be connected easily by fastening the female connector and the male connector. However, the conventional SMA type connector has a problem in that it is inconvenient to attach the optical fiber to the female connector and the male connector, respectively.

That is, in order to mount the optical fiber to the connector, the optical fiber is inserted into the connector of the connector, and the epoxy is filled in the connector so that the optical fiber can be located at the center.

The center of the optical fiber in the connection is considered to prevent contact failure when the cable is connected, thereby improving the contact performance between the optical fibers.

However, fixing the optical fiber inside the connection part through the epoxy has a problem in that it is inefficient in construction due to complicated work processes, and reliability of durability against the epoxy filled area is low.

 Meanwhile, unlike conventional connectors, large-diameter fiber-optic jumper cords based on SMA connectors for preventing damage are used to eliminate bonding and thermal curing processes using epoxy. For this purpose, fixing elements for fixing large-diameter optical fibers are essential.

Therefore, in the past, metal materials such as copper have been manufactured to have various inner diameters considering the optical fiber diameter, and they have been fastened by using a splicing structure in the assembly process of the SMA assembly. However, due to the nature of the fixing structure for fixing the optical fiber of the metal material, There is a disadvantage that optical fiber breakage and cutting easily occur even in case of slight carelessness in the process.

This excessive splitting leads to destruction of the optical fiber, leading to burning phenomenon, and it is difficult to apply to optical fibers of various diameters, which is a problem in that the versatility is poor.

<Prior Art>

Prior Art 1: Korean Patent Publication No. 2015-0003858 (2015.01.09)

Prior Art 2: Korean Patent Publication No. 2011-0066306 (June 17, 2011)

It is an object of the present invention to provide an optical fiber connector provided with a fixing element which can prevent damage due to excessive splicing when an optical fiber is fixed and can be widely used for optical fibers of various diameters.

According to an aspect of the present invention, there is provided an optical fiber connector in which a first connection member and a second connection member are axially connected to each other, the optical fiber connector being located inside the second connection member, And a flexible jig which fixes the optical fiber by being compressed by being transported to the inside of the first linking member and located inside the first linking member, The present invention provides an optical fiber connector provided with a fixing element including a member.

The first connecting member may have a female screw portion formed in a predetermined length and a tip of the shaft member may be formed with a male screw portion to be screwed to the female screw portion.

The jig member may be hollow and has at least one long hole formed in the circumferential direction of the optical fiber.

The jig member may be composed of a first fixing part having a thread formed at the tip end thereof to be screwed into the first connection member, and a second fixing part supported at an end surface of the shaft member.

The second fixing part may be formed with a plurality of grooves along the circumferential direction.

When the shaft member is rotated to press one end of the jig member, the jig member may be twisted in the axial direction to fix the entire outer peripheral surface of the optical fiber.

According to the present invention, there is an effect that a hollow jig member of a flexible material is mounted inside the optical connector, thereby firmly fixing the optical fibers of various diameters without damage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an outline of an optical fiber connector with a fixing element according to an embodiment of the present invention;
FIG. 2 is a sectional view showing the internal structure of an optical fiber connector with a fixing element according to an embodiment of the present invention;
3 is a perspective view of a state where a first fixing part and a second fixing part of an optical fiber connector with a fixing element according to an embodiment of the present invention are combined,
4 is a perspective view illustrating a jig member of an optical fiber connector having a fixing element according to an embodiment of the present invention.
5 is a perspective view showing a state in which a protective member and a second connecting member of an optical fiber connector with a fixing element according to an embodiment of the present invention are removed, and FIG.
6 is a perspective view illustrating a state in which an optical fiber passes through a jig member of an optical fiber connector having a fixing element according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, the first connector 10 and the second connector 20 of the optical fiber connector with the fixing element of the present invention are connected on the same axis. Further, a protective member (40) is provided on the outside of the second linking member (20) to prevent slipping when gripped and to protect the appearance. Here, the protective member 40 may be made of synthetic resin or rubber material having a certain elastic force.

On the other hand, a shaft member 60 is inserted into the second connecting member 20, a male screw portion 61 is formed on one side of the shaft member 60, and a female screw portion 11 are formed in a predetermined length. The male screw portion 61 of the shaft member 60 is screwed to the female screw portion 11 of the first connecting member 10 and the body of the shaft member 60 is turned, (It is possible to move in the axial direction according to the screw movement).

A housing member 30 is rotatably mounted on the outside of the first connecting member 10 and a fastening screw portion 31 for connecting the connectors is formed in a certain portion of the housing member 30.

A jig member 50 is accommodated in the first connection member 10 and the jig member 50 has a hollow portion 53 formed therein in the axial direction An optical fiber 70 is passed through the hollow portion 53 and the jig member 50 is an element provided for fixing the optical fiber 70.

 The jig member 50 is compressed by the shaft member 60 screwed to the first connecting member 10 in a state of being accommodated in the first connecting member 10 so that the optical fiber 70 can be fixed have.

4, the jig member 50 has a hollow portion 53 formed therein in the axial direction and an optical fiber 70 is passed through the hollow portion 53 6). At the tip of the jig member (50), a first fixing part (51) with a constant width of thread is formed. Here, the first fixing part 51 is fixed to the inside of the female screw part 61 formed inside the first connecting member 10 by screwing.

Accordingly, the first fixing portion 51 is fixed to prevent the first fixing portion 51 from being screwed and rotated inside the first connection member 10. In addition, in the second fixing part 52, a groove 57 is formed at regular intervals without forming a thread. As a result, the second fixing portion 52 is formed with the groove portion 57 in four directions so as to have a substantially '+' shape when viewed from the front.

On the other hand, a plurality of long holes 56a, 56b, 56 are formed in the body 55 of the jig member 50. Here, the long holes 56a, 56b, 56 are obtained through a sorting process and are provided so that the second fixing part 520 can be easily twisted by a twisting force applied by the pressing and rotation of the shaft member 60. [

The jig member 50 is fixed to the entire inside of the jig member 50 so that the outer circumferential surface of the optical fiber 70 passing through the hollow portion 53 is twisted spirally by compression and twisting by the shaft member 60 Lt; / RTI &gt; Therefore, the jig member 50 may be made of a flexible material such as synthetic resin, rubber, silicone, or the like.

2 and 3, the present invention is provided so that the optical fiber 70 penetrates the shaft member 60 and the jig member 50 and penetrates the first connecting member 10. [

3, when the shaft member 60 is tightened, the male screw portion 60 of the shaft member 60 moves along the female screw portion 11 of the first connecting member 10 to press the jig member 50 .

3, the first fixing part 51 is fixed to the female screw part 11 of the first connecting member 10 by screws and the second fixing part 52 is fixed The jig member 50 is contracted in the axial direction in a spirally twisted state by being pressed and rotated by the tip of the male screw portion 61 of the shaft member 60 formed. As a result, the outer surface of the optical fiber 70 can be closely attached to the inner surface of the jig member 50 to which the optical fiber 70 abuts.

In the present invention constructed as described above, the flexible jig member 50 mounted inside the first linking member 10 is pressed by the shaft member 60 and spirally twisted, thereby moving the inside of the jig member 50 The outer peripheral surface of the penetrating optical fiber 70 can be fixed through the entirety of the jig member 50. Accordingly, the optical fiber can be fixed through the entirety of the jig member 50 having a predetermined length, so that a firm fixing force can be secured, and the jig member 50 of a flexible material is twisted in a helical shape to fix the outer peripheral surface of the optical fiber The structure of the optical fiber can be prevented from being damaged or burned.

The optical fiber 70 is fixed to the jig member 50 so that the fixing range can be adjusted according to the length of the jig member 50. The optical fiber 70 can be fixed to the male member 61 of the shaft member 60, The degree of compression and the limit of the jig member 50 can be specified.

As described above, according to the present invention, the optical fiber can be fixed easily and firmly through the flexible jig member, and the optical fiber can be prevented from being damaged even though it is firmly fixed regardless of the diameter of the optical fiber.

While the present invention has been particularly shown and described with reference to the particular embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: first connecting member
11: female thread
20: second connecting member
30: housing member
31:
40:
50: jig member
51: First fixing part
52:
53: hollow part
55:
56: Long hole
57: Groove
60: shaft member
61: male thread
70: Optical fiber

Claims (6)

In the optical fiber connector in which the first connecting member and the second connecting member are axially connected to each other,
A shaft member located inside the second connecting member and screwed to the first connecting member, and
And a flexible jig member which is located inside the first connection member and fixes the optical fiber by being compressed by the shaft member being transferred into the first connection member,
Wherein the jig member is hollow and has at least one long hole formed in a circumferential direction of the optical fiber,
Wherein the jig member is composed of a first fixing part having a thread formed to be screwed into the inside of the first connecting member at a tip thereof and a second fixing part coming into contact with an end surface of the shaft member, connector. The method according to claim 1,
A female thread portion is formed in the first connection member by a predetermined length,
Wherein an end of the shaft member is formed with a male screw portion to be screwed to the female screw portion. delete delete The method according to claim 1,
And a plurality of grooves are formed along the circumferential direction on the second fixing part. The method according to claim 1,
Wherein when the shaft member is rotated to press one end of the jig member, the jig member is twisted in an axial direction so that the entirety of the outer circumferential surface of the optical fiber is pressed to fix the optical fiber connector.

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