KR20210158534A - Field-assembled fiber optic fan out and method of installation the same - Google Patents

Abstract

The present invention relates to a field-assembled fiber optic fan-out and an assembly method. An object of the present invention is a field-assembled fiber optic fan-out and an assembly method, wherein When installing an optical cable, an operator cuts and adjusts the length of the optical cable according to site installation conditions, and at the same time, a connector on both sides is easily facilitated to be assembled and then fused at the site, and thus it is not possible to install because the length is short when installing in the state of being assembled in the past, or there is no problem of remaining excess.

Description

Field-assembled fiber optic fan out and method of installation the same

The present invention enables a worker to adjust the length of an optical cable and then assemble and use it in accordance with the site conditions when installing an optical cable, so that installation is not possible or a problem of excess is not generated because the length is not adjusted. It relates to a type optical fiber fan-out and assembly method.

In the modern information society, the role of communication networks occupies a very important part. In particular, as network communication such as the Internet has developed and a large amount of data such as voice or video is transmitted, an increase in information throughput and processing speed is required. The expansion of the communication network is urgently required.

In order to satisfy this demand, an optical cable is used instead of the existing coaxial cable as a way to process large-capacity information at high speed, and the use of optical cables is rapidly increasing.

Optical communication refers to communication in which a light signal is exchanged through an optical fiber composed of a core of inner glass with a high refractive index and a cladding of outer glass with a low refractive index. The optical fiber used for optical communication is difficult to eavesdrop because there is no interference or crosstalk by external electromagnetic waves, is strong in bending due to its small size and light weight, and can accommodate many communication lines in one optical fiber, so it is strong against changes in the external environment. Have. An optical cable is made by bundling these optical fibers into a cable, and a large amount of information can be exchanged simultaneously through the optical cable.

The multi-channel optical connector is a multi-fiber push-on (MPO) connector at both ends. It consists of an MPO patch cord consisting of 12 optical fibers in one connector and a hybrid patch cord of an individual connector type in which the other end is divided for each channel. include

However, in the case of using a multi-channel optical connector in the form of a finished product, if the total length of the optical cable and connector installation site such as a data center is shorter than the total length of the finished optical connector transported to the site, the installation itself I couldn't do it, so I had to retrieve the installed one and reinstall it with another one,

If the total length of the optical connector assembly of the finished product is longer than the installation length on site, a storage device for storing the finished product had to be installed because the woman's dress remains.

Accordingly, the operator prepares an optical cable of a longer length overall than the previously known installation length of the site, but eventually uses a portion of the woman's clothing that does not need to be used, so there is a problem in that the installation cost is increased.

Republic of Korea Patent Publication No. 10-0393603 (Registered on Aug. 2, 2003) Republic of Korea Patent Publication No. 10-0350966 (Registered on Aug. 20, 2002)

The present invention has been devised to solve the above problems, and an object of the present invention is to install an optical cable in various fields, and when using an optical cable having a certain length in an assembled state in the field, the total length is the field installation condition This is to prevent the problem of being unable to install because it does not fit the standard, or the length is too long to cause crossdressing. After cutting the optical cable according to the site installation conditions, the operator assembles a multi-core type field-assembled optical connector at both ends of the optical cable. , A field-assembled optical fiber fan-out that can be used by assembling a multi-core field-assembled optical connector at one end of the optical cable and a fan-out plug assembly at the other end, and then fusion-sealing the single-core field-assembled optical connector to each optical fiber separated into single cores. And to provide an assembly method.

Other objects and advantages of the present invention will be set forth below and will be learned by way of example of the present invention. Further, the objects and advantages of the present invention may be realized by means and combinations indicated in the claims.

The present invention is a means for solving the above problems,

It is carried and assembled on site where optical cable installation is required.

The optical cable is cut and adjusted as much as the installation length required to install the optical cable in the field (S100);

Assembling the fan-out plug assembly 10 (S200);

The multi-core type on-site assembly optical connector 50 is assembled and fused (S300);

The step of assembling and fusing a plurality of the single-core type on-site optical connector 60 (S400);

A multi-core type field-assembled optical connector 50 on one end of the fan-out plug assembly 10, and a plurality of single-core type field-assembled optical connectors 60 on the other end of the fan-out plug assembly 10 are assembled and completed (S500) );

A step (S600) of individually connecting a plurality of the single-core type on-site assembly optical connector (60) to a plurality of data providers; consists of,

It is characterized in that when the length of the optical cable prepared for the installation length of the optical cable installation site is short, installation is impossible, or when the length of the optical cable prepared for the installation length of the optical cable installation site is long, the problem of excess is not generated.

As described above, the present invention can carry an optical cable and a connector for assembly and installation in the field, and has the effect that it can be installed accurately and easily according to the installation distance of the field.

In addition, the present invention has an effect that, when the installation distance of the site and the overall length of the finished product to be used are different, the problem of generating residual cables that cannot be installed or that cannot be used and discarded does not occur at all.

1 is a view showing an embodiment before and after assembly of a multi-core type on-site assembly optical connector according to the present invention.
2 is a view showing an embodiment before and after assembling the fan-out plug assembly according to the present invention.
3 is a view showing an embodiment before and after assembling of the single-core type on-site assembly optical connector according to the present invention.
4 is a view of an embodiment showing a state in which a multicore type field-assembled optical connector, a fan-out plug assembly, and a single-core type field-assembled optical connector according to the present invention are sequentially assembled and fused to complete a field-assembled optical fiber fan-out.
5 is a view of an embodiment showing a state of use of a field-assembled optical fiber fan-out according to the present invention.
6 is a view showing an embodiment of the multi-core type on-site assembly optical connector according to the present invention.
7 is a process flow chart according to an embodiment of a field-assembled optical fiber fan-out and assembly method according to the present invention.

Before describing various embodiments of the present invention in detail, it will be understood that the application is not limited to the details of the construction and arrangement of components described in the following detailed description or shown in the drawings. The invention is capable of being embodied and practiced in other embodiments and of being carried out in various ways. Also, device or element orientation (eg, “front”, “back”, “up”, “down”, “top”, “bottom”) The expressions and predicates used herein with respect to terms such as ", "left," "right," "lateral," etc. are used merely to simplify the description of the invention, and the associated apparatus Or it will be appreciated that it does not simply indicate or imply that an element must have a particular orientation. Also, terms such as “first” and “second” are used in this application and the appended claims for the purpose of description and are not intended to indicate or imply relative importance or spirit.

In order to achieve the above object, the present invention has the following features.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

Hereinafter, a field-assembled optical fiber fan-out and assembly method according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7 .

In the field-assembled optical fiber fan-out 100 according to the present invention, in the field-assembled optical fiber fan-out, the outer sheath of the Kevlar 24 and the optical cable 21 built into the optical cable 21, the crimping ring 22 and the stop It is pressed and fixed in the ring 23 and accommodated in the fan-out housing part 40 , and the fan-out housing part 40 is assembled by the engaging protrusion 41 .

In addition, the assembling method of the field-assembled optical fiber fan-out 100 according to the present invention is carried in a field requiring optical cable installation and assembled on-site by an operator. , it is not possible to install, or if the length of the prepared optical cable is long at the optical cable installation site, the problem of excess is not generated.

1. In the field, the length of the optical cable is cut and adjusted as much as the installation length required to install the optical cable (S100):

After the operator confirms the installation length of the optical cable at the site, the optical cable is cut to a length suitable for the site, and each optical fiber is prepared to be inserted into the branch tube part 30 at one end of the fan-out plug assembly 10 .

2. Assembling the fan-out plug assembly 10 (Fanout Plug Assy) (S200):

Of course, in the present invention, for convenience of explanation, the fan-out plug assembly 10, the multi-core type optical connector 50, and the single-core type optical connector 60 were assembled in the order, respectively, but the user's embodiment Accordingly, a step (S200) of assembling the fan-out plug assembly (10), a step (S300) of assembling a multi-core type field-assembled optical connector (50) to be described later (S300), and a single-core type field-assembly optical connector (60) are a plurality The step of assembling the dogs ( S400 ) is a part that does not cause a problem even if the order is changed in the order desired by the user.

As described above, assembling the fan-out plug assembly 10 of the optical cable cut to a length suitable for field installation, the optical fiber branch 20 and the branch tube part 30 constituting the fan-out plug assembly 10 ) (Sub Assy) and the fan-out housing part 40 (Housing) are sequentially correspondingly assembled to form a single unit.

This fan-out plug assembly 10 is a component in which both ends of a multi-core type field-assembled optical connector 50 and a single-core type field-assembled optical connector 60 to be described later are fusion-bonded, and a single ribbon type multi-core type field-assembled optical connector 60 . It is a device that allows the data transmitted to the connector 50 to be individually transmitted by branching it to a plurality of uses (suppliers) through the single-core type on-site assembly optical connector 60 .

The optical fiber branch 20 has one end protected by a cable 21 (Cable) and connected to the fan-out plug assembly 10, and a crimp ring 22 (Crimp Ring) and a stop ring (Crimp Ring) and a stop ring ( 23) (Stop Ring) is inserted, the Kevlar 24 (kevlar) and the optical cable sheath are positioned between the crimp ring 22 and the stop ring 23, and then pressed with a crimp tool to fix it, The stop ring 23 and the crimp ring 22 to which the optical cable sheath and the Kevlar 24 are pressed and fixed are seated inside the housing 40 . The optical fiber 25 (Fiber) is branched into a plurality of strands, and the branch tube part 30 has a branch tube 32 (Furcation Tube) in which a plurality of optical fibers 25 strands on the other end of the aforementioned optical fiber branch part 20 are each branched. ) constitutes a fan-out plug 31 forming a plurality of holes at one end to be inserted into the (Fanout Plug), and the optical fiber 25 is branched into the branch tube 32 through each hole, and thus the branch tube 32 is a part that is branched to multiple data providers so that data can be transmitted individually.

The fan-out housing part 40 is a part that serves as a fixing part for integrally coupling and fixing the branch tube part 30 to the other end of the optical fiber branch part 20, and is composed of two upper and lower housings to enable assembly/disassembly. can be configured.

3. The step of assembling and fusion bonding the multi-core type on-site assembly optical connector 50 (MPO Connector) (S300):

As described above, when the assembly of the fan-out plug assembly 10 is completed through step S200, the step of assembling the multi-core type field-assembled optical connector 50 is to configure the multi-core type field-assembled optical connector 50 Components: screw cap 51 (Screw Cap Assy), spring push (52), spring (53) (Spring), sleeve (54) (Sleeve), fiber stub (55) (Fiber Stub) , the housing assembly 56 (Housing Assy), and the protective cap 57 (Cap Protection) are sequentially correspondingly assembled and fusion spliced with the optical cable 21 to be integrally formed.

At this time, with the screw protection cap 57 removed, an end of the housing assembly 56 is connected to the data device, and the screw cap 51 is connected to one end of the fan-out plug assembly 10 .

4. The step of assembling and fusion of a plurality of the single-core type on-site optical connector 60 (LC Connector) (S300):

As described above, when the assembly of the multi-core type field-assembled optical connector 50 is completed through step S300, the step of assembling the single-core type field-assembled optical connector 60 is the multi-core type field-assembled optical connector 50. Components: Boot 61 (Boot), Screw Cap 62 (Crew Cap), Frame 63 (Frame), Sleeve 64 (Sleeve), Single Core Housing 65 (Housing Assy) , the protective cap 66 (Dust Cap) is sequentially correspondingly assembled and fusion spliced with the optical fiber 25,

In the fan-out plug assembly 10, for each of the plurality of branch tubes 32 into which the optical fiber 25 is inserted, the single-core type field-assembled optical connector 60 is connected.

In addition, the components constituting the fan-out plug assembly 10 in step S200, the components constituting the multicore type field assembly optical connector 50 in step S300, and the single core type field assembly optical connector 60 in step S400 Each of the constituent components corresponds to each other, such as screw fastening, interference fit fastening, corresponding fastening by groove/protrusion form, and insertion fastening to be inserted into a hole, etc. The connection method may vary according to the user's embodiment.

5. A multi-core type field-assembled optical connector 50 on one end of the fan-out plug assembly 10 and a plurality of single-core type field-assembled optical connectors 60 on the other end of the fan-out plug assembly 10 are assembled and completed. (S500):

As described above, when steps S200, S300, and S400 are completed, a multi-core type field-assembled optical connector 50 at one end of the fan-out plug assembly, and a single-core type field-assembled optical connector 60 at the other end are fusion spliced (fan) A single-core type field-assembled optical connector 60 is connected to each branch tube 32 of the out-plug assembly 10, respectively.). Of course, it will be natural that the portion to which the optical cable is fused should be connected through a separately portable fusion device or various fusion means.

6. In the field-assembled optical fiber fan-out 100 in which the multi-core field-assembled optical connector 50, fan-out plug assembly 10, and single-core field-assembled optical connector 60 are integrally assembled, multi-core field assembly A step (S600) of connecting the optical connector 50 to the data device, and each of a plurality of single-core type field-assembled optical connectors 60 are individually connected to a plurality of data providers:

When the above-described step S700 is completed, it is a step to connect and use both ends of the field-assembled optical fiber fan-out 100 of the present invention in which length adjustment and connector assembly on both sides have been completed, respectively, to a data device and a provider.

In addition, according to the user's embodiment,

The multi-core type field-assembled optical connector 50, which is carried and assembled in the field where optical cable installation is required, can be used by being installed at both ends of the optical cable after cutting the optical cable so that the optical cable is not short or leftover.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. Of course, various modifications and changes are possible within the scope of equivalents of the claims to be described.

10: fan-out plug assembly 20: fiber optic branch
21: cable 22: crimp ring
23: stop ring 24: Kevlar
25: optical fiber 30: branch tube part
31: fan-out plug 32: branch tube
40: fan-out housing part 41: engaging jaw
50: multi-core type field assembly optical connector 51, 62: screw cap
52: spring push 53: spring
54, 64: sleeve 55: fiber optic stub
56: housing assembly 57, 66: protective cap
60: single core type field assembly optical connector 61: boot
63: frame 65: single-core housing

Claims (6)

In the field-assembled optical fiber fan-out,
The outer sheath of the Kevlar 24 and the optical cable 21 embedded in the optical cable 21 is press-fixed at the crimp ring 22 and the stop ring 23, and is accommodated in the fan-out housing part 40, the fan-out housing part 40 ) field-assembled optical fiber fanout, characterized in that it is assembled.
It is carried and assembled on site where optical cable installation is required.
The optical cable is cut and adjusted as much as the installation length required to install the optical cable in the field (S100);
Assembling the fan-out plug assembly 10 (S200);
The multi-core type on-site assembly optical connector 50 is assembled and fused (S300);
The step of assembling and fusing a plurality of the single-core type on-site optical connector 60 (S400);
A multi-core type field-assembled optical connector 50 at one end of the fan-out plug assembly 10 and a plurality of single-core type field-assembled optical connectors 60 on the other end of the fan-out plug assembly 10 are assembled and completed (S500) );
A step (S600) of individually connecting a plurality of the single-core type on-site assembly optical connector (60) to a plurality of data providers; consists of,
When the length of the optical cable prepared for the installation length of the optical cable is short, installation is impossible Type of fiber optic fan-out assembly method.
3. The method of claim 2,
In step S200,
The fan-out plug assembly 10 is
an optical fiber branching part 20 having one end protected by a cable 21 and connected to the fan-out plug assembly 10, and the other end of which the optical fiber 25 is branched into multiple strands;
A plurality of optical fibers 25 strands on the other end of the optical fiber branch 20 are respectively inserted into a branch tube 32 and branched, and the branch tube 32 is branched and connected to a plurality of data providers so that data can be transmitted individually. branch tube portion 30;
a fan-out housing unit 40 for integrally coupling and fixing the branch tube part 30 to the other end of the optical fiber branch part 20; is made up of
A field-assembled optical fiber fan-out assembly method, characterized in that the optical fiber branch (20), the branch tube part (30), and the fan-out housing part (40) are sequentially assembled to form an integral body.
3. The method of claim 2,
In step S300,
The multi-core type on-site assembly optical connector 50 is
The screw cap 51, the spring push 52, the spring 53, the sleeve 54, the optical fiber stub 55 (stub), the housing assembly 56, and the protective cap 57 are sequentially assembled and connected to each other. made integrally,
With the protective cap (57) removed, an end of the housing assembly (56) is connected to the data device, and the screw cap (51) is connected to one end of the fan-out plug assembly (10). How to assemble the fan-out.
3. The method of claim 2,
In step S400,
The single-core type on-site assembly optical connector 60 is
The boot 61, the screw cap 62, the frame 63, the sleeve 64, the single-core housing 65, and the protective cap 66 are sequentially assembled and connected to form an integral body,
For each of the plurality of branch tubes 32 into which the optical fiber 25 is inserted in the fan-out plug assembly 10, the single-core field-assembled optical connector 60 is fusion spliced and the protective cap 66 is removed. Field assembly type optical fiber fan-out assembly method, characterized in that the single core type field assembly optical connector (60) part is connected to a data provider.
Field-assembled optical fiber fan-out, characterized in that it is installed at both ends of the optical cable after cutting the optical cable so that the optical cable is short or does not remain female assembly method.

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