KR101729055B1 - non-fusion type bidirectional splicer - Google Patents

Abstract

A non-fusion type bidirectional connector according to the present invention is characterized in that: both ends are cut to form an insertion port, the insertion port is extended so as to cross the body between both ends, and one side of the body is formed in the longitudinal direction And the other side of the side is integrally connected and the both ends of the optical fiber are inserted and fixed through the opposite ends of the optical fiber, A pair of boots detachably coupled to both ends of the connector body to tightly couple both ends of the connector body; A cover portion which is engaged with an open side of the connector body to cover a space in which the optical fiber is accommodated; And a capillary clamp which is provided inside the connector body through one open side of the connector body before the cover part is coupled to the connector body and fixes a state in which the optical fibers accommodated in the connector body are disposed opposite to each other, And the optical fiber of the optical cable disconnected at both ends of the capillary clamp are connected to each other through the opened one side of the connector body.
Accordingly, it is possible to provide a non-fusion type bidirectional connector capable of facilitating construction by interposing an optical fiber cut in the middle from both sides and being easily connected again in a non-fusion bonding manner.

Description

Non-fusion type bidirectional splicer < RTI ID = 0.0 >

The present invention relates to a non-fusion type bidirectional connector, and more particularly to a non-fusion type bidirectional connector capable of easily reconnecting a cut portion when a drop cable connected from an optical terminal box to a consumer is broken due to an external impact or the like .

In general, optical communication transmits light to exchange information. As a fiber optic fiber is used as an intermediary, it is possible to transmit tens of thousands of times information compared to current electrical communication using a coaxial cable. Such optical fibers are installed at distances of several hundreds of kilometers or more. Therefore, splitter or optical fiber amplifier is used when connection and branching of optical fiber are required in the middle, and optical fiber connection is performed by a general optical code connection method or fusion splicing method Etc. are used.

On the other hand, a drop cable (optical cable for subscribers) connected from the optical terminal box to the subscriber's home may be disconnected due to an external impact or the like.

At this time, in order to recover the disconnection, various types of connection means are used in the field to reconnect the cut parts.

An example of means for such optical fiber connection is disclosed in Korean Utility Model Registration No. 20-0294708 (registered on Oct. 30, 2002, hereinafter referred to as "Patent Document 1").

However, since the optical fiber connecting means according to the related art is a fusion splicing method in which the ends of the optical fiber are broken and connected beforehand, it is difficult to construct and the expensive fusion splicing device must be used separately. And the construction cost can be increased.

Korean Utility Model Registration No. 20-0294708 (registered on October 30, 2002)

It is an object of the present invention to provide a non-fusion type bidirectional connector capable of facilitating the construction of reconnecting an optical fiber broken in the middle.

It is another object of the present invention to provide a non-fusion type bidirectional connector capable of reducing the construction cost.

In order to achieve the above object, a non-fusion type bidirectional connector according to the present invention is characterized in that: both ends are cut to form an insertion port, the insertion port is extended so as to cross the body between both ends, And an optical fiber of the optical cable is inserted and fixed through the opposite ends of the optical fiber, the optical fiber being connected to the other side of the optical fiber; A pair of boots detachably coupled to both ends of the connector body to tightly couple both ends of the connector body; A cover portion which is engaged with an open side of the connector body to cover a space in which the optical fiber is accommodated; And a capillary clamp which is provided inside the connector body through one open side of the connector body before the cover part is coupled to the connector body and fixes a state in which the optical fibers accommodated in the connector body are disposed opposite to each other, And the optical fiber of the optical cable disconnected at both ends of the capillary clamp are connected to each other through the opened one side of the connector body.

Here, the connector body may have a shape of the cover portion such that the insertion port into which the optical cable is inserted is formed in the inside along the longitudinal direction, and the capillary clamp is seated and received in the center in the longitudinal direction, And a plurality of openings formed at both ends of the body so as to be separated from each other along the periphery of the insertion opening, and a jaw protruding toward the insertion opening is formed at an inner side of the plurality of openings. It is preferable to include a gripper.

It is preferable that one of the cover portion and the connector body has a protruding protrusion protruding toward the other and the other protruding protrusion is engaged with the protruding protrusion.

According to the present invention, it is possible to provide a non-fusion type bidirectional connector capable of facilitating installation by interposing an optical fiber cut in the middle from both sides and connecting them easily by non-fusion bonding method.

Further, it is possible to provide a non-fusion type bidirectional connector capable of reducing the construction cost by connecting the cut parts of the optical fiber by the non-fusion bonding method without expensive fusion welding equipment.

1 is an external perspective view of a non-fusion type bidirectional connector according to the present invention,
Fig. 2 is an exploded perspective view of the non-fusion type bidirectional connector of Fig. 1,
3 is an enlarged perspective view of the splice body of Fig. 2, Fig.
FIG. 4 is a top plan view of a state in which a capillary clamp for connecting an optical fiber cut in a coupling groove of the connector body of FIG. 3 is provided,
Fig. 5 is an enlarged perspective view of the cover portion of Fig. 2,
6 is a view showing a configuration of a capillary clamp according to the present invention,
FIG. 7 is a front cross-sectional view of FIG. 1 illustrating a state in which a capillary clamp according to the present invention is seated inside a splice body.

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

1 and 2, a non-fusion type bidirectional connector according to the present invention includes a connector body 100, a pair of boots 200, a cover portion 300, a capillary clamp 400, .

As shown in Figs. 2 and 3, the connector body 100 is composed of an optical cable 1 whose both ends are elastically clamped so that the mutually-disconnected optical cables 1 are inserted and fixed through both ends, 1 is formed such that the space in which the optical fiber 5 peeled off from the end thereof is received is opened laterally.

2 to 4, the connector body 100 is cut at both ends to form an insertion opening 101 into which the optical cable 1 is inserted, and the insertion opening 101 is connected to the body 110 And one side of the body body 110 is opened in the longitudinal direction so as to form the same axis with the insertion ports 101 at both ends and the other side of the body body 110 is integrally connected to the body body 110 The optical fiber 5 of the optical cable 1 is inserted and fixed through both ends of the body 110 when the both ends of the body 110 are elastically broken.

The optical fibers 5 of the mutually disconnected optical cables 1 are connected to both ends of the capillary clamp 400 so that the optical fibers 5 can be seen and coupled through one side of the open side formed in the connector body 100 The capillary clamp 400 is mounted in the connector body 100 and then the cover part 300 is coupled to the connector body 100 and then the optical cable 100 is cut off from the insertion port 101 of the connector body 100 The optical fiber 5 of the optical cable 1 disconnected at both ends of the capillary clamp 400 may be connected to the connector body 100 by fastening both ends of the connector body 100 with a pair of boots 200, The capillary clamp 400 and the optical fiber 5 are placed inside the connector body 100 through one side of the open side of the connector body 100 and then the cover part 300 and the pair of boot 200 ) To obtain a non-fusion type sheath The optical fiber 5 is connected to the capillary clamp 400 when confirming that the optical fiber 5 is connected to the capillary clamp 400 when reconnecting the optical fiber 1 disconnected by the fragrance connector and the reconnection operation of the optical fiber 5 is performed quickly and easily . In addition, by simplifying the structure of the connector body 100, the connector body 100 can be manufactured easily and at a low cost.

As shown in FIGS. 2 to 4, in the connector body 100, the insertion port 101 is formed along the longitudinal direction and the capillary clamp 400 is formed at the center in the longitudinal direction A body 110 formed at the center of one side of the side of the cover 300 where the cover 300 is opened and the cover 300 is opened and the cover 300 is engaged with the side of the opened side of the cover 300, And a gripper 120 provided at both ends of the body 110 to divide into a plurality of portions along the periphery of the insertion opening 101 and having a jaw 121 protruding toward the insertion opening 101 on the inside of the plurality of divided portions. .

Accordingly, when the optical cable connected from the optical terminal box to the subscriber's cradle is disconnected due to an external impact or the like, and each optical cable 1 broken by the insertion port 101 at both ends of the body 110 is inserted The inserted optical cable 1 can be easily inserted into both ends of the connector body 100 by inserting the gripper 120 after being slightly widened. After the insertion, the pair of boots 200 are gripped by grippers (120) so that the optical cable (1) can be firmly coupled to the connector body (100).

One of the cover part 300 and the connecting body 100 is provided with a locking protrusion 301 protruding toward the other and a locking protrusion 301 engaging with the locking protrusion 301, .

As shown in FIG. 3, the engagement groove 111, which is engaged with the engagement protrusion 301 of the cover part 300, is engaged with the engagement groove 111, do.

Accordingly, the capillary clamp 400 detachably coupled to one side of the open side of the connector body 100 by the engaging engagement between the engagement protrusion 301 and the engaging groove 113 prevents the capillary clamp 400, The cover part 300 which covers and supports can be quickly and easily combined without any additional operation such as sliding.

3 and 4, an optical cable 1 inserted into a gripper 120 is provided with a binding support 123 in addition to a jaw 121, Supports insertion and binding.

2, the pair of boots 200 are detachably coupled to both ends of the connector body 100 to tightly couple both ends of the connector body 100 together.

A male thread is formed on the outer side of the portion adjacent to the body body 110 in the gripper 120 and a female thread is formed on the inner side of the boot 200 so that the boot 200 has the contact body 100 To be detachably coupled by a screw fastening method.

The pair of boots 200 are coupled to the gripper 120 so that the both ends of the connector body 100 and the body 110 are tightly tightened so that the mutually disconnected optical cables 1 And can be easily connected through the non-fusion type bidirectional connector.

The side surface of the grip body 120 which is in line with the side surface of the side surface of the body 110 where the insertion port 101 is opened is concavely curved so that the boot 200 is screwed to the gripper 120, So that both ends of the connector body 100 can be easily broken by tightening of the boot 200. [0051] As shown in FIG.

1 and 2, the boot 200 is provided with an optical cable 1 in which a through hole 201 is perforated and inserted at a position corresponding to the center line of the insertion port 101 of the connector body 100 To be passed.

As shown in FIG. 2, the cover part 300 is provided so as to cover a space in which the optical fiber 5 is received by being engaged with one side of the open side of the connector body 100.

As shown in FIG. 5, on both sides of the cover part 300, the engaging grooves 113 are engaged with the engaging grooves 113 formed in the engaging grooves 111 when the engaging grooves 111 are fitted into the engaging grooves 111, The engaging projections 301 are formed to protrude.

It is described that the engagement protrusion 301 is formed on both sides of the cover part 300 and the engaging groove 113 is formed inside the engaging groove 111 of the connector body 100 as an embodiment of the present invention, 7, a bite groove 113 is formed on both sides of the cover part 300 and a bite protrusion 301 (see FIG. 7) is formed on the inside of the coupling groove 111 of the connector body 100, ) May be formed.

The capillary clamp 400 may be positioned within the connector body 100 through one side of the open side of the connector body 100 before the cover portion 300 is coupled to the connector body 100, And the optical fibers 5 received and accommodated in the connector body 100 are fixed to face each other.

More specifically, the capillary clamp 400 is provided in the shape of a substantially circular bar, and as shown in FIG. 6, a connecting groove 401 into which the optical fiber 5 is inserted is formed, The capillary inlet portion 403 is formed to be recessed in such a manner that the inner diameter of the capillary inlet portion 403 is reduced from the outside to the inside so that the introduction of the optical fiber 5 is facilitated.

As shown in Fig. 4, the optical fiber 5 fitted to both ends of the capillary clamp 400 is primarily peeled off from the end of the optical cable 1 (for example, a drop cable) having a diameter of about 3 mm Is a fiber having a diameter of about 0.0125 mm which is formed by releasing the jacket (1 ') having a diameter of 0.9 mm from the end of the jacket.

7, in order to mount the capillary clamp 400 on the bottom of the coupling groove 111 of the body body 110, the lower receiving groove (corresponding to the shape of the lower half of the capillary clamp 400) A capillary clamp 400 is formed on the lower surface of the cover part 300 so as to cover the capillary clamp 400 together with the body 110 when the cover part 300 is coupled to the coupling groove 111. [ The upper receiving groove 305 is formed so as to correspond to the shape of the upper half of the receiving groove.

The capillary clamp 400 is tightly supported in the interior of the connector body 100 by the lower receiving groove 115 of the body body 110 and the upper receiving groove 305 of the cover portion 300, .

6, a refractive index matching agent 410 is provided at the center of the capillary clamp 400 in the longitudinal direction, and an optical fiber 5 coupled to the inside of the capillary clamp 400 is inserted into the capillary clamp 400, The refractive index matching material 410 may be disposed to be spaced apart from each other with the refractive index matching material 410 provided therebetween.

As the refractive index matching agent 410, for example, a matching gel including aliphatic hydrocarbons may be used.

Thus, even if the optical fibers 1 cut in the middle are inserted from both sides through the insertion port 101 of the connector body 100 so that the optical fibers 5 of the optical cable 1 are not in contact with each other or the center lines are slightly matched, The optical signal transmitted through the optical fiber 5 cut off by the non-fusion type bidirectional connector according to the present invention, which is provided to be able to receive the same optical cable 1 itself, can be transmitted without being disconnected.

With reference to FIG. 1 through FIG. 7, a description will be made of a process of reconnecting the optical cables 1 cut off by the non-fusion type bidirectional connector according to the present invention.

First, the capillary clamp 400 is mounted on the coupling groove 111 of the connector body 100 and then the cover 300 is inserted into the coupling groove 111 so that the capillary clamp 400 contacts the inside of the connector body 100 .

Next, one optical cable 1 cut in one of the pair of boots 200 is sandwiched, and the other optical cable 1 cut in the other is raised.

The grippers 120 on both sides are opened so that the respective optical cables 1 are inserted into both sides of the connector body 100 through the insertion opening 101 of the connector body 100. Then the optical cable 1 is inserted and the both side optical cables The optical fiber 5 of the capillary clamp 400 is advanced through the capillary inlet 403 of the capillary clamp 400 through the connecting groove 401 until the optical fiber 5 comes into contact with the refractive index matching agent 410.

Finally, a pair of boots 200 are respectively fitted to both sides of the connector body 100 to be engaged with the male threads formed on the gripper 120.

Thus, according to the present invention, it is possible to provide a non-fusion type bidirectional connector capable of facilitating construction by interposing an optical fiber cut in the middle from both sides and being easily connected again by a non-fusion bonding method. In addition, it is possible to reduce the construction cost by connecting the cut parts of the optical fiber by the non-fusion bonding method without expensive fusion welding equipment.

While the invention has been described in connection with what is presently considered to be practical exemplary 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 as defined in the appended claims.

100: Contact body 110: Body body
120: gripper 200: boot
300: cover part 400: capillary clamp
410: refractive index matching agent

Claims (3)

And the insertion port is extended so as to cross the body between the opposite ends of the body so that one side of the body is open in the longitudinal direction so as to form the same axis with the insertion ports at both ends, A connector body integrally formed with the body so that the optical fibers of the optical cables are inserted and fixed through both ends when the ends of the optical fibers are elastically contracted;
A pair of boots detachably coupled to both ends of the connector body to tightly couple both ends of the connector body;
A cover portion which is engaged with an open side of the connector body to cover a space in which the optical fiber is accommodated; And
A capillary clamp mounted within the splice body through one open side of the splice body to fix a state in which optical fibers received in the splice body are disposed opposite to each other before the cover part is coupled to the splice body;
Including,
Wherein the optical fiber of the optical cable is connected to both ends of the capillary clamp through an open side of the connector body,
The accessory body corresponds to the shape of the cover portion so that the insertion port into which the optical cable is inserted is formed inside along the longitudinal direction, and the capillary clamp is seated and received in the center in the longitudinal direction, A grip body which is provided at both ends of the body body and is divided into a plurality of pieces along the periphery of the insertion body and has a jaw protruding toward the insertion opening on the inner side of the plurality of divided parts, Lt; / RTI >
Wherein one of the cover portion and the connector body is formed with a boss protruding toward the other and the other boss is formed with a recessed boss to engage with the boss protrusion,
The capillary clamp includes a coupling groove into which an optical fiber is inserted, a refractive index matching agent injected into the center of the capillary clamp for optical coupling of the optical fibers inserted into the coupling groove, and an inlet formed in the capillary clamp to inject the refractive index matching agent Welded type bidirectional connector. delete delete

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