JPH0213914A - Pre-branch optical fiber cable - Google Patents

Abstract

PURPOSE:To prevent the generation of deterioration of a transmission characteristic by forming the title cable by performing a housing to an aggregate which has twisted and aggregated an optical fiber cord of a single fiber or an optical fiber cable of plural fibers having a branch point, on the outside periphery of a center pipe consisting of plastic or a metal. CONSTITUTION:The title cable is constituted by performing a housing 7 to an aggregate which is twisted and aggregated an optical fiber cord 14 of a single fiber or an optical fiber cable 12 of plural fibers having a branch point, on the outside periphery of a center pipe 6 of plastic or a metal. In the branch point, other optical fiber cable than the optical fiber cable which is to be a branch object is led into a far end side in a state that there is no connecting point. In such a way, an optical loss of the connecting point on the path until the branch point can be decreased to the utmost, and an optical loss level which the optical fiber itself has can be utilized enough.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a pre-branched optical fiber cable that is provided with a branch point for branch connection in the wiring of an optical fiber cable.

[Conventional technology]

Conventionally, there have been examples of copper conductor communication cables as pre-branched cables used for wiring inside buildings, but pre-branched optical cables have not been put into practical use.

For optical cables, if the wiring type has repeated branches, all core wires must be connected at the branch part.

Work will be done to install the junction box.

After the start of service, new wiring space will be secured, such as piping work, for additional wiring to accommodate increased demand or for emergency restoration due to track problems. Alternatively, in the initial plan, it is common to install an appropriate number of backup cables along with the optical cable in order to cope with uncertain future demand and troubleshooting.

[Problem to be solved by the invention]

In conventional optical cables, in the case of a wiring configuration in which branches are repeated, work is performed to connect all core wires other than the optical fiber core wires that are branched and dropped at the branch point and to attach a junction box. Therefore, the closer the actual branch point is to the far end, the more the number of connection points increases, which increases the splice loss and the transmission loss per unit length of the optical fiber at the far end, which limits the transmission distance. There is a problem.

In addition, connecting optical fiber cables requires extra connection length such as extra length for the cable, extra length for the main body, and extra length for the optical fiber core, so pre-branching is implemented by installing a junction box to store this extra connection length. However, there is a problem in that the layered body of the junction box portion becomes an obstacle during the installation work, making the installation difficult.

Furthermore, it is difficult to expand civil engineering facilities such as underground conduits for communications and electric power, and on-premise wiring paths for buildings and factories, etc., and it is often impossible to install additional optical fiber cables. Pull out the existing cable and replace it with an optical cable with more fibers and larger diameter. Therefore, there are economic problems and service problems such as temporary suspension of communication during construction of the existing line.

The present invention solves the above-mentioned conventional problems, and can be used to shorten branch connection time at installation sites in optical fiber cable wiring, and to provide additional wiring after service starts and emergency restoration without causing deterioration of transmission characteristics. The purpose of this project is to provide a prebranched optical fiber cable that secures wiring space and shortens construction time.

[Means to solve the problem]

In order to achieve the above object, the present invention has a single optical fiber cord having a branch point or a pre-branched optical fiber cable which is a collection of multi-core optical fiber cables. The present invention is characterized in that it is constructed by applying an outer sheath to an aggregate of twisted and assembled single-core optical fiber cords or multi-core optical fiber cables.

The present invention also provides for attaching a connector to the end of a single fiber optic cord or a multi-fiber optical fiber cable at a branch point.

Furthermore, the central pipe made of plastic or metal according to the present invention has a connector insertion hole at the branch point for storing the connector portion attached to the single-fiber optical fiber cord or multi-fiber optical fiber cable for branching in the central pipe. It is equipped with

Furthermore, the central pipe made of plastic according to the present invention is
It is effective to configure it by embedding a tensile strength member.

Furthermore, branch position markings to identify the branch points are attached to the sheath applied to the bundle of twisted single-fiber optical fiber cords or multi-fiber optical fiber cables that have branch points on the outer periphery of the central pipe. It is effective to keep it.

[For production]

Since the prebranched optical fiber cable according to the present invention is configured with the above structure, at the branch point, optical fiber cables other than the optical fiber cable to be branched are directed to the far end side without a connection point. Since the optical fiber is introduced, the optical loss at the connection point leading to the branch point can be reduced as much as possible, and the optical loss level of the optical fiber itself can be fully utilized.

Also, the appearance of the cable body at the branch point is the same as the appearance of the rest of the cable, especially the cable outer diameter and flexibility, so special attention should be paid to the branch point. It can be installed using the same installation method as ordinary optical fiber cables.

During installation, the connector attached to the end of the optical fiber, where mechanical strength is a concern at the branch point, is protected in the central pipe inside the optical fiber cable body, so the tension during installation will be reduced. It will not be subjected to lateral pressure.

Furthermore, by peeling off the outer sheath of the branch point after installation, the connector portion of the optical fiber inserted into the central pipe can be easily taken out from the connector insertion hole.

If extra length of the branch optical fiber cable is required at the branch point, the length of the outer sheath to be stripped is, for example, 1 inch from the connector insertion hole position to the branch optical fiber cable side.
．． If the length is 5 m, an extra length of 1.5 m can be taken out. The optical fiber cable is exposed at the part where the outer sheath is stripped off, but since each optical fiber cable has a cable outer sheath, it has sufficient characteristics even without special protective measures such as wrapping with tape. can be retained.

Furthermore, after installation and removal of the connector portion at each branch point, a straight hollow central pipe remains in the center of the cable body. This hollow center pipe can be effectively used as an additional extension cable or a new cable lead-in conduit for failure recovery. Examples will be described below based on the drawings.

〔Example〕

FIG. 1 is a sectional view of one embodiment of a prebranched optical fiber cable of the present invention. 1 is a two-core optical cable in which two optical fiber cores 2 are inserted into grooves of a grooved PE spacer 4 having a central tensile strength member 3, and a cable jacket 5 is provided. 6 is a central pipe made of plastic or metal, and a plurality of two-core optical cables 1 are connected to the outer circumference of the central vibro.
In this embodiment, a plastic sheath 7 is applied around the outer periphery of an aggregate of ten twisted wires to protect the entire structure.

FIG. 2 is a diagram showing the configuration of the branch part of the embodiment shown in FIG.
Only the two-core optical cable to be branched is shown. 1st
The same reference numerals as in the figure indicate the same parts. Reference numeral 8 denotes a connector insertion hole in the branch portion, into which the part where the connector 9 is attached to the end of the optical fiber core 2 of the two-core optical cable 1 to be branched is inserted into the central vibro, and 10 is the two-core optical cable to be branched. This is a gap-embedding string made of plastic that fills the gap corresponding to the area where the two-core optical cable is arranged after the first branch point. Further, numeral 11 indicates a branch position indication provided on the outer sheath 7 to indicate the position of a branch point.
, 151M, etc.

A prebranched optical fiber cable having the structure shown in FIGS. 1 and 2 was prototyped. The outer diameter of the central vibro is approximately 15m.
A vinyl pipe with a diameter of 1.2 mm is used for the twin-core optical cable 1, and a grooved PE spacer 4 having four grooves is formed by molding and extruding polyethylene around the outer periphery of a steel wire with a diameter of 1.2 mm as a central tensile strength member 3. One nylon-coated optical fiber core 2 is inserted into each of two of the grooves, and after winding the upper winding, a black polyethylene cable sheath 5 is applied to the two cores with a diameter of approximately 6.5 mm. Optical cable 1 was used.

Ten twin-core optical cables 1 are twisted together at a long pitch around the outer periphery of the central vibro, roughly wound with a commonly used appropriate tape or thread, and then covered with a black polyethylene jacket 7.
A pre-branched optical fiber cable with an outer diameter of approximately 31 mmφ and a length of 500 m was fabricated.

In this prototype example, the configuration was such that one two-core optical cable was branched every 50 m. FIG. 2 corresponds to the configuration of a branch portion of a two-core optical cable that branches at a position of 150 m.

At the branch part, a connector is attached to each end of the optical fiber core of the two-core optical cable to be branched, and the optical fiber core is inserted into the center pipe from the connector insertion hole provided in the center pipe. When installing the connector, insert the part to protect the branch part of the two-core optical cable with the connector. Furthermore, in the branch part of the two-core optical cable to be branched, after the optical fiber core wire with connector is inserted into the center pipe from the connector insertion hole and taken in, the gap created on the outer periphery of the center pipe is filled with the internal structure of the entire cable. A gap-embedding string 10 made of plastic is embedded to hold the space and prevent it from being affected by external pressure.

FIG. 3 is a sectional view of another embodiment of the prebranched optical fiber cable of the present invention. As a central vibro, the outer diameter is approximately 1
A 2 mmφ vinyl pipe is used as an optical fiber cable, and the optical fiber cable is made by twisting four nylon-coated optical fiber cores 2 together with a tensile strength member 13 made of, for example, Kevlar.
A four-core optical cable 12 was used. In this embodiment, 10 four-core optical cables 12 are twisted at long pitches around the outer periphery of a central vibro, loosely wound with a commonly used appropriate tape or thread, and then covered with a black vinyl jacket 7. A pre-branched optical fiber cable with a diameter of approximately 25 mmφ has a configuration in which one 4-core optical cable is branched every 20 m, similar to the first example, which was prototyped based on the structure shown in Figures 1 and 2. So, we made a prototype with a length of 200m.

Regarding this prototype example, as illustrated in Figure 2, a connector is attached to each end of the optical fiber core of the 4-core optical cable to be branched, and the connector is attached into the center pipe from the connector insertion hole. Insert the 4-core optical cable to protect the connector-equipped branch part of the 4-core optical cable. Furthermore, to attach the connector, after inserting and protecting the connector into the center pipe, a plastic gap-embedding cord was embedded in the gap around the outer circumference of the center pipe to prevent it from being affected by external pressure.

FIG. 4 is a sectional view of still another embodiment of the prebranched optical fiber cable of the present invention. A stainless steel pipe with an outer diameter of approximately 3 mmφ was used as the central vibro, and a nylon-coated optical fiber core 2 was used as the optical fiber cable.
A single-core optical cord 14 having an outer diameter of about 3 mm and covered with a vinyl cable sheath 5 was used together with the tensile strength member 13.

In this embodiment, 10 single-core optical cords 14 are twisted at a long pitch around the outer periphery of the central vibro, loosely wound with a commonly used appropriate tape or thread, and then covered with a black vinyl jacket 7. A pre-branched optical fiber cable with an outer diameter of approximately 17 mmφ has a configuration in which single-core optical cords are branched every 10 m, similar to the example shown earlier, and the cable length is 100 m.
I made a prototype of the long one.

In this example as well, for each single-core optical cord to be branched, a connecting connector is attached to each end at the branching point, and the connector attachment part is inserted into the center pipe from the connector insertion hole. The branch section with connector is protected. A plastic gap-embedding cord was embedded in the gap on the outer periphery of the center pipe after the branching point to make it resistant to external pressure.

Although each of the above-mentioned embodiments is an example in which 10 fiber optic cables or optical cords are twisted around the outer circumference of a central pipe, the present invention is not limited to these embodiments, and multi-core optical cables in which a larger number of fiber cables are bundled are shown. The present invention is applicable to In addition, when vinyl is used for the center pipe, steel wire or FR material can be used as a tensile strength member to share the tension during installation.
It is effective to embed P.

〔Effect of the invention〕

As explained above, the prebranched optical fiber cable of the present invention consists of optical fiber cords or optical fiber cables having branch points twisted around the outer periphery of a central pipe, and connector insertion holes provided in the central pipe for each branch point. Therefore, when attaching a connector to the end of an optical fiber cord or optical fiber cable to be branched, the part is inserted and protected, and the excess length of the optical fiber and the excess length of the optical fiber cable can be stored within the outer diameter of the cable body. Since the optical fiber cable can be installed within the same cable, it can be installed using the same installation method as for ordinary optical fiber cables, and there is no need to pay special attention to branch points.

In addition, once the optical fiber cord or optical fiber cable to be branched at the branch point has been pulled down, a hollow pipe remains in the center of the cable body, which can be used to install additional cables or to install optical fiber cables when emergency restoration is required. Reserved as space.

Furthermore, by attaching a branch position indication to the outer sheath of the cable body, it becomes effective for branching work.

Therefore, the prebranched optical fiber cable according to the present invention can be used for communication lines using optical fiber cables, such as in-building or in-plant wiring for optical LAN, ITV monitoring of expressways and railway lines, and information collection and distribution. Intended wiring, especially in tunnels, or C
Number 1, such as wiring in ATV and telephone subscriber systems, etc.
It is effective when applied to communication lines that require withdrawal every 0 m or every 10 m.

[Brief explanation of the drawing]

1 and 2 are a sectional view and branch partial configuration diagram of Example 1 of the prebranched optical fiber cable of the present invention,
3 and 4 are cross-sectional views of embodiments 2 and 3 of prebranched optical fiber cables of the present invention. 1... 2-core optical cable, 2... optical fiber core wire, 3
... Central tensile strength member, 4... Grooved PE spacer, 5.
・・Cable jacket, 6・Center pipe, 7・Outer cover, 8・Connector insertion hole, 9・Connector, 10・
...Gap filling string, 11...Branch position display, 12.
...4-core optical cable, 13...tensile strength body, 14...
Single-fiber optical cord patent applicant Sumitomo Electric Industries Co., Ltd. Agent Patent attorney Tama Mushi Kugobe Wr side view of the pre-branched fiber cable implementation example 1 of the present invention Figures 1, 2, and 6 2. Cross section 7 of the pre-flanched optical fiber cable according to the present invention. Cross section 7 Figure 4

Claims (5)

[Claims] (1) An optical fiber cord with a center of gravity having a branch point or a prebranched optical fiber cable that is a collection of optical fiber cables with multiple cores, an optical fiber cord with a center of gravity with a branch point or a prebranched optical fiber cable with a center of gravity having a branch point or A pre-branched optical fiber cable is characterized in that it is formed by applying a sheath to an aggregate of twisted and assembled multi-core optical fiber cables. (2) The pre-branched optical fiber cable according to claim 1, wherein the optical fiber cord or multi-core optical fiber cable at the center of gravity at the branch point has a connector attached to an end. (3) The central pipe made of plastic or metal is provided with a connector insertion hole at the branch point for accommodating a connector portion attached to the single-fiber optical fiber cord or multi-fiber optical fiber cable within the central pipe. The prebranched optical fiber cable according to claim 1, characterized in that the prebranched optical fiber cable comprises: (4) The prebranched optical fiber cable according to claim 1, wherein the central pipe made of plastic has a tensile strength member embedded therein. (5) The pre-branched optical fiber cable according to claim 1, wherein the jacket is provided with a branch position indication for identifying the branch point.