KR20180015349A - Branch type optical cable assembly including protruded adaptor - Google Patents

Abstract

The present invention relates to a branch type optical cable assembly having a protruding adaptor which comprises: a tube having an opening for receiving a plurality of optical cables therein, and drawing out at least one optical cable to the outside; a sealing member for sealing the opening of the tube; a sealing unit for receiving the sealing member to enable the lengthwise direction of the tube received in the sealing member to be in parallel with the lengthwise direction of the drawn out optical cable; and a terminal box receiving at least a part of the tube, the sealing member, and the sealing unit therein. An adaptor which can be connected to a terminal or an external optical cable is connected to the end of the drawn out optical cable, and the terminal box has a through-hole protruding from the terminal box since the adaptor partially passes through the terminal box. According to the present invention, the branch type optical cable assembly has excellent waterproof properties and durability since a branch operation of the optical cable is simple, and a branch part is sealed.

Description

[0001] The present invention relates to a branch type optical cable assembly including a protruded adapter,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a branch-type optical cable assembly, and more particularly, to a branch-type optical cable assembly including a protruding adapter for separately supplying optical cables to buildings such as apartments and multi-family houses.

Optical network technology has been rapidly developed due to the demand of the customers who want to send and receive large amount of data at a higher speed. As a typical example, the data transmission speed of the Internet communication network has already changed from a conventional mega level to a giga level.

In order to overcome the functional limitations of conventional copper cables, an optical fiber cable has been developed. FIG. 1 is a cross-sectional view of a prior art branch optical cable. A plurality of optical cables 10 are accommodated in the inside of the branch type optical cable so that each optical cable 10 can be supplied to a multi-generation house or the like. In order to compensate the strength of the tube 20, the wire 30, which is a lubricious material, may be fixed or attached to the outer surface of the tube 20 as shown in FIG. 1, May be disposed in the interior of the tube 20.

In order to separate one of the optical cables 10 from the inside of the tube 20 and draw it out and supply it to the household, the tube 20 is cut out using a special equipment such as a nipper, the optical cable 10 is taken out to the outside, Seal the incision to protect it. In the process of branching the optical cable, there is a risk of damaging a plurality of optical cables disposed inside the tube in the process of pressing the tube for incision as well as troublesome due to the necessity of an incision device such as a nipper for cutting the tube. It drops significantly. In addition, when the optical fiber cable is disconnected and disconnected in order to stop the service to the household where the optical fiber cable subscription is terminated, the disconnected optical fiber cable is exposed to the outside as it is, which may cause problems in stability and waterproofness. Not good.

In order to solve such a problem, Korean Patent Laid-Open Publication No. 10-2015-0114641 discloses forming a draw-out hole for drawing an optical cable into a tube. More specifically, FIG. 2 is a conventional branched optical cable assembly shown in Korean Patent Laid-Open Publication No. 10-2015-0114641, which draws out one optical cable 10 from the inside of the tube 20 through the drawing hole 40, The optical cable 10 drawn out by the fixing clip 30 is fixed and stored. Korean Patent Laid-Open Publication No. 10-2015-0114641, on the other hand, uses the molding part 50 to cover the cut portion to pull the optical cable out of the tube.

However, in consideration of the structure of the molding part 50 and the take-out hole 40 for sealing an incision part of Korean Patent Laid-Open Publication No. 10-2015-0114641, a tube has to be incised in order to take out one optical cable . Therefore, a separate nipper-like equipment is required, and the problem of damaging the optical cable inside the tube during the incision process and the problem of poor waterproofing can not be solved at all. In addition, although the optical cable drawn out to the outside of the tube can be arranged and the noise generated by the optical cable and the tube drawn by the wind etc. can be removed through the fixing clip 30, There is a problem that appearance problems, water resistance and durability are inferior. Korean Patent Laid-Open Publication No. 10-2015-0114641 discloses a method of connecting an optical cable with a terminal such as a modem or an adapter of a terminal by using an optical fiber splicer The optical fusing equipment is expensive, and its volume and weight are so large that it is very inconvenient to carry.

Korean Patent Laid-Open Publication No. 10-2015-0114641 (branch type optical cable assembly)

The present inventors have conducted various studies to solve the above problem. As a result, the present inventors have found that a notch capable of easily pealing off a part of a tube accommodating a plurality of optical cables is formed in advance, It has been found that when the sealing member and the sealing member and the sealing portion for pressing the tube are used, the waterproof property and the durability of the optical cable are excellent and the branching operation of the optical cable can be simplified, and the end of the drawn optical cable can be connected to the external connector When connecting the adapter, it was found that the optical fiber branching operation can be easily performed without a separate optical splicing operation in the field.

In addition, when the adapter is housed by using a terminal box having a through hole formed therein and the adapter is inserted into the through hole to protrude the adapter from the terminal box, the adapter is protected from external impact, It is possible to easily perform the connection operation with the external connector.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a branch-type optical cable assembly including a protruding adapter that has high waterproofness and stability of an optical cable and can be easily branched.

In order to achieve the above object, a branching type optical cable assembly according to an embodiment of the present invention includes:

A plurality of optical cables;

A tube having an opening for accommodating the plurality of optical cables and for drawing out at least one optical cable to the outside;

A sealing member sealing the opening of the tube;

A sealing part for receiving the sealing member and storing the sealing member such that the longitudinal direction of the tube accommodated in the sealing member and the drawn optical cable are parallel to each other; And

At least a portion of the tube, a terminal box housing the sealing member therein,

An adapter capable of being connected to a terminal or an external optical cable is connected to the end of the drawn-out optical cable, and the terminal box may have a through hole protruding from the terminal box through a part of the adapter.

The adapter may be inserted into the through-hole of the terminal box to be fixed in position.

The tube may have a cut in a longitudinal direction and a part of the tube may be detached by an external force to form the opening, and the cutout may be formed inside the tube accommodating the optical cable.

INDUSTRIAL APPLICABILITY The branching type optical cable assembly according to the present invention can easily perform the optical cable branching operation without a separate optical fusing connection device, and the optical fiber drawn out after the branching operation and the built-in optical cable located inside the tube are excellent in water resistance and durability. In addition, the branch type optical cable assembly of the present invention can easily connect an external connector connected to a terminal by connecting an adapter to a lead-out optical cable, and can easily perform a cutting operation of an optical cable in the future if necessary.

1 is a cross-sectional view of a prior art branch optical cable.
2 is a side view of a prior art branched optical cable assembly.
3 is an exploded perspective view of a branching optical cable assembly according to a first embodiment of the present invention.
4 is an exploded perspective view illustrating the internal structure of the tube and the sealing member shown in FIG.
5 is an internal cross-sectional view of the tube shown in Fig.
6 is a view showing a state where an optical connector is connected to the end of the drawing optical cable shown in FIG.
7 is a view for explaining a structure of an adapter connected to the optical connector shown in FIG.
8 is an exploded perspective view of a branching optical cable assembly according to a second embodiment of the present invention.
FIG. 9 is a state in which the branching optical cable assembly shown in FIG. 8 is combined.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, the specific shapes, structures, and characteristics described in this specification may be modified and changed from one embodiment to another without departing from the spirit and scope of the present invention. It is also to be understood that the position or arrangement of the individual components in each embodiment may be varied without departing from the spirit and scope of the present invention. Therefore, the following detailed description is not intended to be construed in a limiting sense, and the scope of the present invention should be construed as encompassing the scope described in the claims and all ranges equivalent thereto. In the drawings, like reference numbers designate the same or similar components throughout the several views.

Hereinafter, various embodiments of the branching optical cable assembly of the present invention will be described in detail with reference to the drawings.

FIG. 3 is an exploded perspective view of a branching optical cable assembly according to a first embodiment of the present invention, and FIG. 4 is an exploded perspective view illustrating the internal structure of the tube and the sealing member shown in FIG.

3 and 4, a branching optical cable assembly 100 according to an embodiment of the present invention includes a plurality of optical cables 110, a tube 120, a sealing member 150, a sealing portion 160, (170).

For example, a plurality of optical cables 110 may be formed of a very thin glass or a core made of plastic, a glass or a core of the core may be formed of an outer A clad for holding a strong force, and a jacket layer which is covered on the outer surface of the clad to prevent moisture, abrasion, and breakage. The outer surfaces of the plurality of optical cables 110 may be coated with different colors or stripes so that they can be distinguished from each other, or a number may be displayed.

The tube 120 is formed with an opening for accommodating a plurality of optical cables 110 therein and for pulling out the optical cable. In order to supply the optical cable to one generation, at least one optical cable 112 among a plurality of optical cables 110 accommodated in the tube 120 must be drawn out of the tube. A separate cutting means such as a nipper and a knife is required to pull out one optical cable 112 to the outside of the tube 120. In this cutting process, a problem that a plurality of optical cables 110 are broken may occur, The branching type optical cable assembly 100 according to the present invention solves this problem.

More specifically, FIG. 5 is an internal sectional view of the tube shown in FIG. Referring to FIGS. 5 and 4, the tube 120 may be formed with a cutout Z so that a part of the tube 120 can be removed by an external force. The cutout portion Z is formed by cutting an outer surface of the tube 120 in which the cutout portion Z is formed or cutting a portion of the cutout gear tube 120 from the tube 120 The opening can be formed by evacuating. It is preferable that the cutout Z of the tube 120 is formed in the longitudinal direction of the tube 120 so that the worker can easily partly remove the tube 120. [

One cable 112 of the plurality of optical cables 110 can be drawn out through the opening of the molten tube 120 and supplied to an individual generation. Meanwhile, the built-in optical cable 111 accommodated in the tube 120 can be supplied to another generation. The material of the tube 120 is not particularly limited as long as it is a material having high water resistance, elasticity, and durability. For example, the tube 120 can use an LSZH (Low Smoke Zero halogen) tube which is environmentally friendly and has high flame retardancy and durability.

In addition, the branching optical cable assembly 100 according to the present invention may include a bundle line 130. The wire 130 may be fixed or attached to the outer surface of the tube 120 with a flexible wire embedded therein to supplement the strength of the tube 120. Alternatively, As shown in FIG. The wire bundle 130 may be coupled along the longitudinal direction of the tube 120 or the built-in optical cable 111.

If the cut-out portion Z of the tube 120 is easily peeled off, the plurality of optical cables 110 may be inadvertently damaged by the external environment. The cutout Z of the tube 120 is formed on the inner side of the tube 120 in which the plurality of optical fibers 110 are received and the cutout Z is formed on the outer surface of the tube 120 so that the minimum It is preferable that a groove is formed. For example, the incision Z includes an inner groove formed from the inner side of the tube 120 to 6/10 to 9/10 of the thickness of the tube 120, but is not limited thereto. If the thickness of the tube 120 is 3 mm, it is preferable that the cut-out portion Z is formed with a depth of 1.8 mm to 2.7 mm from the inner surface of the tube 120.

Since the outer surface of the tube 120 has the same shape, the operator can not easily find the incision Z. It is therefore desirable to fix and attach the wire bundle 130 to the outer surface of the tube and to form the cutout Z in the opposite direction of the tube to which the wire bundle 130 is coupled. The operator can easily break the incision Z of the tube 120 by pressing and pulling the position of the tube 120 in the direction opposite to the tangent line 130 to form the opening.

Since the opening formed in the tube 120 exposes an optical cable (hereinafter, referred to as a "built-in optical cable") accommodated in the tube 120 directly to the outside, moisture and dust of the outside can be introduced into the tube 120 have. As described above, the optical cable 112 drawn out from the tube 120 is covered with a jacket layer for preventing moisture, abrasion, and breakage from being formed on the outer surface of the optical cable, like the ordinary optical cable. However, since the jacket layer of the optical fiber cable 112 has a thin thickness of 0.1 mm or less, it can be easily broken or worn by an external impact, and thus it is vulnerable to waterproofness.

In order to solve such a problem, the sealing member 150 can cover the opening of the tube 120 and seal it. The sealing member 150 can protect the built-in optical cable 111 from moisture and dust that may enter through the opening. The sealing member 150 may be made of a material such as silicone, which is elastic and flexible, and the operator can cover the outer surface of the tube 120 by opening the sealing member 150. On the other hand, the sealing member 150 can cover the tube 120 and the bundle line 130 integrally and can cover a part of the lead-out optical cable 112.

For example, the sealing member 150 may include a body 151 and a protruding tube 152 protruding from the body 151. The body 151 covers the tube 120 and the wire 130 formed with openings and the lead-out optical cable 112 can be inserted into the protruding tube 152. 4, the protruding tube 152 protrudes vertically from one side of the body 151, but the protruding tube 152 may have a bent or inclined shape with respect to one side of the body 151 .

In addition, the branch-type optical cable assembly 100 according to the present invention may further include a sealing layer (not shown) for sealing an opening formed in the tube 120 to prevent moisture and dust from entering through the opening . For example, an operator performing the branching operation of the optical cable pulls out the drawing optical cable 112 through the opening of the tube 120, and then fills the opening of the tube 120 with the liquid curing material. When the hardening material is filled up to the height of the outer surface of the tube 120, the operator stops supply of the hardening material and hardens the hardening material by applying heat or UV to make a buried layer. Thereafter, the operator can cover the outer surface of the tube 120 with the sealing member 150. On the other hand, the curing material is a liquid or viscous gel-like material including, for example, liquid silicone, but is not limited thereto.

FIG. 6 is a view illustrating a state where an optical connector is connected to the end of the drawing optical cable shown in FIG. 3, and FIG. 7 is a diagram illustrating a structure of an adapter connected to the optical connector shown in FIG. 6 and 7, the branch-type optical cable assembly of the present invention can easily perform an optical cable branching operation without a separate optical fusing operation in the field. To this end, the branch-type optical cable assembly includes a light- A connector 113 and an adapter 114. [

The optical connector 113 can use optical connectors well known in the field of optical communication for connecting ordinary optical cables to each other. However, the optical connector 113 has an SC (subscriber connector) type in which a connection type is square and a push type connection is possible, a connection loss is small, and a contact interface type is APC (angled physical contact ) Type, it is preferable to use an SC / APC optical connector having a locking structure in connection with an external adapter and having a small light reflection loss. When the SC / APC optical connector is connected to the end of the fiber optic cable, there is no need for a separate optical splicing operation when the fiber optic cable is branched. When a household receiving the optical fiber cable needs to be disconnected due to moving or the like, By disconnecting the adapter connected to the terminal, it is possible to easily perform the wire cutting operation. An optical cable connected to the optical fiber connector 112 and the optical connector 113 is fused and pigtail-connected to connect the optical connector 113 to the optical fiber cable 112, It can be wrapped with a shrinking protection tube (Y).

The adapter 114 can connect the optical fiber 113 to the optical connector 113 connected to the end of the optical fiber 112. Adapters 114 may use adapters well known in the art of optical communication as long as they can couple a plurality of optical connectors to each other. For example, as shown in Fig. 7, the optical connector 113 can be inserted into one side of the adapter 114. Fig. The adapter 114 may use a shutter adapter that automatically blocks and seals the optical transmission when the inserted optical connector 113 is detached from the adapter 114. However, An external optical connector may be inserted into the other side of the adapter 114.

The sealing portion 160 prevents the moisture and dust from entering the inside of the tube 120 together with the sealing member surrounding the outer surface of the tube 120 having the opening. The sealing portion 160 may be formed of a material having elasticity so as to press a part of the sealing member 150 and to seal the outer surface of the tube 120, . As another example, an adhesive may be applied to the inside of the sealing portion 160 facing the tube 120, and the sealing portion 160 may be fused to the outer surface of the tube 120 by shrinking the sealing portion 160 by applying heat have.

Referring to FIG. 3, the terminal box 170 includes a lower housing 171 and an upper housing 172. The lower housing 171 and the upper housing 172 are coupled to each other to form a framework of the terminal box 170. [ For example, the lower housing 171 mounts the tube 120 wrapped with the sealing portion 160. The upper housing 172 covers the upper portion of the lower housing 171. [ That is, the tube 120 enclosed by the sealing part 160 is fitted between the upper housing 172 and the lower housing 171, thereby fixing the position of the terminal box 170.

A through hole may be formed in the lower housing 171 so that the adapter 114 can protrude to the outside of the lower housing 171. That is, the adapter 114 is fitted and fixed to the lower housing 171, and the through hole of the lower housing 171 is fixed to the lower surface of the adapter 114 so that a part of the adapter 114 can protrude to the outside of the lower housing 171 And may have a shape corresponding to the outer surface. 3, one through hole through which one adapter 114 can protrude outward is illustrated in the lower housing 171, but a plurality of through holes are formed in the lower housing 171, And can be projected to the outside.

The branched optical cable assembly 100 of the present invention may further include a cover 180 for protecting the adapter 114 protruding from the terminal box 170. The lid 180 can be engaged with and separated from one side of the lower housing 171 of the terminal box 170. On the other hand, the terminal box 170 includes a molding integrated type in which the lower housing 171 and the upper housing 172 are coupled and not separated.

FIG. 8 is an exploded perspective view of a branch-type optical cable assembly according to a second embodiment of the present invention, and FIG. 9 is a state in which the branch-type optical cable assembly shown in FIG. 8 is coupled.

Since the branching optical cable assembly 200 according to the second embodiment of the present invention uses the same name for the same configuration as the branching optical cable assembly 100 described in the first embodiment, And the remainder of the layout relationship shall be construed in the same sense.

The branching type optical cable assembly 200 according to the second embodiment has an adapter accommodated in the terminal boxes 271 and 272 and a two branching type optical cable assembly with two optical connectors 213. Therefore, two outgoing optical cables 212 from the sealing member 250 can be branched.

The sealing portion 260 is disposed between the lower housing 271 and the upper housing 272 to fix the position of the tube 220 and improve the waterproofness of the branching optical cable assembly 200. Therefore, the sealing portion 260 may have a shape corresponding to the shape in which the lower housing 271 and the upper housing 272 are coupled. The sealing portion 260 is not particularly limited as long as it is made of a material having waterproof property and elasticity, but silicon can be preferably used. The sealing portion 260 is disposed between the lower housing 271 and the upper housing 272 to prevent moisture, water, dust, and the like from being introduced from the outside.

In addition, the branching optical cable assembly 200 may additionally include a band ring 290. When the terminal boxes 271 and 272 and the tube 220 are installed on the outer wall, it is possible to prevent a fricative sound from being generated by colliding with the outer wall. The band ring 290 is made of a material having elasticity and can wrap the outer surface of the lower housing 271 and the upper housing 272 and can couple the lower housing 271 and the upper housing 272 together. The band ring 290 may be made of silicon.

The lid portion 280 of the branch optical cable assembly 200 can receive at least a part of the adapter or optical connector 213. [ The inside of the lid part 280 may be coated with a waterproof material to improve the waterproof property. For example, the waterproof material includes silicone.

As described above, the branching type optical cable assembly according to the present invention can easily perform the optical cable branching operation without separately performing the optical fusing operation, and the adapter can be easily connected to the external connector including the protruded terminal box, ) Operation can also be performed easily.

Further, the branching type optical cable assembly according to the present invention has a sealing structure of the buried layer, the sealing member, and the sealing portion, so that the built-in optical cable and the outgoing optical cable inside the tube are excellent in water resistance and durability. In addition, the present invention relates to a method of connecting a lead-out optical cable, which can not be exposed to the external environment, to a fiber-optic cable connected to an optical connector 113 by a pig- The waterproof property and the durability of the fused portion of the drawn optical cable are also excellent. In the present invention, the incision part is formed in the tube, so that the operator can easily draw the optical cable by forming an opening in the tube without a separate incision device.

100, 200: Branch type optical cable assembly
110: multiple optical cables 111, 211: built-in optical cable
112, 212: optical fiber cables 113, 213: optical connector
114: Adapter
120, 220: tube
130:
150, 250: sealing member 151: body
152: projecting tube
160, 260: sealing part
170: terminal box 171, 271: lower housing
172, 272: upper housing
180, 280:
290: Band ring
Y: Heat shrinking protection tube
Z: incision

Claims (11)

A plurality of optical cables;
A tube having an opening for accommodating the plurality of optical cables and for drawing out at least one optical cable to the outside;
A sealing member sealing the opening of the tube;
A sealing part for receiving the sealing member and storing the sealing member such that the longitudinal direction of the tube accommodated in the sealing member and the drawn optical cable are parallel to each other; And
At least a portion of the tube, a terminal housing for housing a sealing member therein,
An adapter capable of being connected to a terminal or an external optical cable is connected to an end of the drawn optical cable,
Wherein the terminal box has a through-hole formed through a part of the adapter so as to protrude from the terminal box. The method according to claim 1,
Wherein the adapter is fixed in position by being inserted into the through-hole of the terminal box. The method according to claim 1,
The branch-type optical cable assembly
And a lid portion covering the protruded adapter to protect the adapter from external impact, wherein the lid portion is engaged with and separated from a side surface of the terminal box. The method according to claim 1,
The terminal box
A lower housing for mounting at least a part of the tube wrapped around the sealing part; And
And an upper housing covering an upper portion of the lower housing,
Wherein the lower housing and the upper housing are integrally molded together so as not to be separated from each other. The method according to claim 1,
Wherein the tube has a cut-out in the longitudinal direction, and a part of the tube is released by an external force to form the opening. 6. The method of claim 5,
Wherein the cut-out portion is formed inside the tube housing the optical cable. 6. The method of claim 5,
The branch-type optical cable assembly
Wherein the tube is coupled to the outer surface of the tube along a longitudinal direction of the tube,
Wherein the cut-out is formed in a direction opposite to the tube to which the bundle is joined. The method according to claim 1,
The optical cable assembly
Further comprising a buried layer for curing the liquid curable material to seal the opening of the tube. ≪ Desc / Clms Page number 16 > The method according to claim 1,
The terminal box comprising: a lower housing for mounting at least a part of the tube; And
And an upper housing covering an upper portion of the lower housing,
Wherein the sealing portion is disposed between the lower housing and the upper housing to prevent foreign matter from entering the terminal box from the outside. The method according to claim 1,
At least two through-holes are formed in the terminal box,
And an adapter corresponding to the number of the through holes is protruded from the terminal box through the through hole. The method according to claim 1,
The terminal box comprising: a lower housing for mounting at least a part of the tube; And
And an upper housing covering an upper portion of the lower housing,
The branch-type optical cable assembly
Further comprising a resilient band ring for enclosing the lower housing and the upper housing.

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