JPWO2010001954A1 - Optical fiber cable branching tool and optical fiber cable branching method - Google Patents

Abstract

A branching device for an optical fiber cable, comprising: a fixing portion fixed to the cable core; and an extension holding portion extending from the fixing portion. A holding groove for holding the optical fiber is formed in the extending holding portion along the extending direction. By peeling off a part of the sheath of the optical fiber cable to expose the cable core, fixing the fixing part of the branching tool to the cable core, and holding the optical fiber taken out from the cable core in the holding groove of the extension holding part Branch off.

Description

The present invention relates to a branching tool used for intermediate post branching of an optical fiber cable and a branching method using the same, and more particularly to a branching tool and a branching method used for branching an optical fiber cable installed indoors.
This application claims priority based on Japanese Patent Application No. 2008-173618 for which it applied to Japan on July 2, 2008, and uses the content here.

In an optical transmission line using an optical fiber, for example, to construct an optical fiber network, an intermediate post branching technique is required in which an optical fiber cable is laid and then the optical fiber cable is branched halfway (for example, Patent Document 1). reference).
For branching the optical fiber cable, a case-like branching tool that can be attached to the branching part may be used (see, for example, Patent Document 2).

JP-A-8-220390 JP 2001-116968 A

However, in the above optical fiber cable branching method, the branching operation is not easy particularly when a large number of optical fiber cables are densely arranged due to the large size of the branching tool.
The present invention has been made in view of the above circumstances, and an object thereof is to provide a branching tool that facilitates branching of an optical fiber cable and a branching method using the branching tool.

An optical fiber cable branching device according to the present invention is an optical fiber cable branching device for taking an optical fiber from an optical fiber cable capable of peeling a sheath from a cable core to form a branched optical fiber, and is fixed to the cable core. And an extending holding portion extending from the fixing portion, and a holding groove that accommodates the optical fiber is formed in the extending holding portion along the extending direction. It is a branching tool for cables.
It is preferable that the fixing portion has a fixing surface having a substantially arc-shaped cross section corresponding to the outer surface shape of the cable core.
It is preferable that the extension holding portion is inclined with respect to the cable core in a state where the fixing portion is fixed to the cable core, and can support the optical fiber in the holding groove in an inclined state.
It is preferable that the holding groove is formed so as to reach a surface of the fixing portion on the cable core side.
The cable core is preferably formed with a slot groove in which the optical fiber is accommodated, and the fixing portion preferably has a positioning protrusion inserted into the slot groove.
On the surface opposite to the fixing surface of the fixing portion to the cable core, there is formed a movement preventing convex portion that prevents movement of the fixing tool when the fixing portion is fixed to the cable core by the fixing tool. Preferably it is.
It is preferable that the fixing portion includes a fixing portion main body and holding pieces extending from both side portions of the fixing portion main body, and the holding piece can be held by sandwiching the cable core.
It is preferable that a convex portion for preventing slippage of the protective tube that can be attached to the extended holding portion is formed on the outer peripheral surface of the extended holding portion.
The extension holding portion may be substantially parallel to the cable core in a state where the fixing portion is fixed to the cable core.
It is preferable that the distal end portion of the extended holding portion is formed so that the outer diameter gradually decreases toward the distal end.

An optical fiber cable branching method of the present invention is an optical fiber cable branching method in which an optical fiber is taken out from an optical fiber cable capable of peeling a sheath from a cable core and branched using an optical fiber cable branching tool, The optical fiber cable branching tool includes a fixing portion that is fixed to the cable core, and an extension holding portion that extends from the fixing portion, and the holding groove that holds the optical fiber in the extension holding portion. Is formed along the extending direction, the sheath is peeled off in a predetermined length range of the optical fiber cable to expose the cable core, and the fixing portion of the branching tool is fixed to the cable core, Branching optical fiber extending in the extending direction by accommodating the optical fiber taken out from the cable core in the holding groove of the extending holding portion Characterized in that it.
In the present invention, it is preferable that a protection tube is placed on the branched optical fiber, and an end portion of the protection tube is placed on the extension holding portion.
In the present invention, the sheath is partitioned into a first portion that is a part in the circumferential direction and a second portion that is the other part by a pair of weakened portions extending in the cable length direction, and the cable core is A slot groove for accommodating the optical fiber, and in peeling the sheath, the first portion is separated from the second portion along the weakened portion, and the optical fiber is taken out from the cable core, It is preferable to cover the slot groove by covering the cable core with the second portion of the peeled sheath.
In the present invention, a plurality of the optical fiber cable branching devices can be attached to the cable core at different positions in the length direction.

  The branching structure of the optical fiber cable of the present invention is a branching structure of an optical fiber cable branched using the optical fiber cable branching tool, and is fixed to the cable core in a portion exposed by peeling of the sheath. The optical fiber cable branching tool is attached by fixing the portion, and the optical fiber taken out from the cable core is supported by the extended holding portion in a state of being accommodated in the holding groove. It is characterized by.

In this invention, the branch tool provided with the fixing | fixed part fixed to a cable core and the extended holding | maintenance part which has a holding groove which accommodates an optical fiber is used. This branching tool has a simple structure, and the overall size can be reduced as compared with the case-like branching tool, so that space can be saved.
Therefore, even when a large number of optical fiber cables are densely arranged and the empty space is reduced, the intermediate rear branch is facilitated.
Further, since the fixing part is fixed to the cable core and the optical fiber is held in the holding groove of the extension holding part, the branching work can be performed, so that the work is simple. Further, the branched optical fiber can be easily processed.
In the branching tool of the present invention, since the holding groove for accommodating the optical fiber is formed in the extending holding part, the optical fiber at the branching portion can be protected and can be prevented from being damaged.
In addition, since the extending direction of the optical fiber can be defined by the extending holding portion, the extending direction is within a range suitable for connection to other devices, etc., without excessive bending of the optical fiber. Can be set to Therefore, the optical connection of the optical fiber can be maintained satisfactorily.

It is a perspective view which shows an example of the branch tool concerning this invention. It is the side view seen from the one side of the branch tool shown in FIG. It is the side view seen from the other side of the branch tool shown in FIG. It is a top view of the branch tool shown in FIG. It is a front view of the branch tool shown in FIG. It is a rear view of the branch tool shown in FIG. It is a bottom view of the branch tool shown in FIG. It is sectional drawing which shows schematic structure of an example of the optical fiber cable which can apply the branching method of this invention. It is explanatory drawing which shows an example of the taking-out method of the optical fiber from an optical fiber cable. It is explanatory drawing explaining an example of the branching method of this invention. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is explanatory drawing of the branch method following a previous figure. It is a figure which shows the other usage example of the branch tool of this invention. It is a figure which shows the other example of the branch tool of this invention. It is a perspective view which shows the further another example of the branch tool concerning this invention. It is the side view seen from the one side of the branch tool shown in FIG. It is the side view seen from the other side of the branch tool shown in FIG. It is a top view of the branch tool shown in FIG. It is a front view of the branch tool shown in FIG. It is a bottom view of the branch tool shown in FIG. It is a rear view of the branch tool shown in FIG. It is a side view which shows the usage example of the branch tool shown in FIG.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a perspective view showing an optical fiber cable branching tool 1 (hereinafter sometimes simply referred to as a branching tool 1) which is an example of an optical fiber cable branching tool according to the present invention. FIG. 2 is a side view of the branching tool 1 as seen from one side. FIG. 3 is a side view seen from the other side of the branching tool 1. FIG. 4 is a top view of the branching tool 1. FIG. 5 is a front view of the branching tool 1. FIG. 6 is a rear view of the branching tool 1. FIG. 7 is a bottom view of the branching tool 1.

FIG. 8 is a cross-sectional view showing a schematic configuration of an optical fiber cable 21 which is an example of an optical fiber cable to which the branching method of the present invention can be applied.
The optical fiber cable 21 has a configuration in which a sheath 23 is formed on the outer periphery of a cable core 22 (cable body).
The cable core 22 of this example includes a slot member 22 b in which a slot groove 24 (optical fiber accommodation groove) is formed, and a plurality of optical fibers 22 a accommodated in the slot groove 24. Reference numeral 22c is a tensile body. The slot groove 24 is formed along the cable length direction.
A pair of groove-shaped notches 23c and 23c (weakened portions) along the cable length direction are formed on the outer surface of the sheath 23 so as to be spaced apart from each other in the circumferential direction, and the sheath 23 is circumferentially formed by the notches 23c and 23c. It is divided into two parts 23a and 23b. The first portion 23a is a portion having a relatively small distance between the notches 23c, and the second portion 23b is the other portion, and has a substantially C-shaped cross section.
The optical fiber 22a is preferably an optical fiber ribbon, but is not limited thereto, and any single or multi-core optical fiber, an optical fiber, or the like can be used.

FIG. 9A to FIG. 9D are diagrams illustrating an example of a procedure for taking out the optical fiber 22 a from the optical fiber cable 21.
As shown in FIGS. 9A and 9B, after the sheath 23 is cut in the circumferential direction by the cutter 27, the first portion 23a is secondly cut from the cut portion by the notch 23c. The cable core 22 is exposed by separating from the portion 23b.
Next, as shown in FIGS. 9C and 9D, a part of the plurality of optical fibers 22 a in the slot groove 24 of the cable core 22 can be cut and taken out from the slot groove 24. The other optical fiber 22 a is left in the slot groove 24.
By covering the slot groove 24 again with the second portion 23b of the peeled portion covering the cable core 22, it is possible to prevent the optical fiber 22a in the slot groove 24 from coming out.

As shown in FIG. 1, the branching tool 1 includes a fixing portion 2 that is fixed to the outer surface of the cable core 22 of the optical fiber cable 21 and an extension holding portion 3 that extends obliquely from the fixing portion 2. Yes.
The fixing portion 2 includes a plate-like fixing portion main body 4 having a substantially arc-shaped cross section, a positioning convex portion 5 formed on a fixing surface 4a that is an inner surface (surface on the cable core side) of the fixing portion main body 4, and a fixing portion It has the base part 6 formed in the outer surface 4b upper part of the part main body 4, and the movement prevention convex parts 7a and 7b formed in the outer surface 4b.
In the following description, “upper and lower” refers to the upper and lower sides of the branching tool 1 shown in FIGS. 2 and 3, and one end side in the axial direction of the fixing portion main body 4 having a substantially arc-shaped cross section and the other. Corresponds to the end side. Further, the radial direction is the radial direction of the fixed portion main body 4.

It is preferable that the fixing surface 4 a of the fixing portion main body 4 has a substantially arc shape in cross section corresponding to the outer shape of the cable core 22 because the posture of the fixing portion 2 with respect to the cable core 22 can be stabilized. For example, the fixed portion main body 4 can have a width approximately equal to the outer diameter of the cable core 22.
As shown in FIGS. 4, 5, and 7, the positioning convex portion 5 has a substantially rectangular cross section and is formed from the upper end to the lower end of the fixing portion main body 4 at a substantially central position in the circumferential direction of the fixing surface 4 a. .
It is preferable that the positioning convex portion 5 be formed so as to be inserted into a slot groove 24 described later, since the posture of the fixing portion 2 with respect to the cable core 22 can be stabilized.

As shown in FIG. 1, the base portion 6 is formed on the outer surface 4 b of the fixed portion main body 4 so as to protrude radially outward. The base portion 6 is formed so as to gradually increase the protruding height toward the upper end, and the upper surface 6a is an inclined surface.
The movement prevention convex portions 7a and 7b are formed below the base portion 6 on the outer surface 4b with a vertical interval.
The movement preventing convex portions 7a and 7b are each formed perpendicular to the vertical direction and reach both side edges of the fixed portion main body 4 as shown in FIG.

As shown in FIG. 1, the extended holding portion 3 includes a rod-shaped main body portion 9 extending from the upper surface 6 a of the base portion 6 and a distal end portion 10 formed at the distal end thereof.
The main body 9 is formed in a columnar shape and is inclined outwardly upward. For this reason, the extending direction of the extending holding portion 3 is a direction inclined with respect to the axial direction of the fixed portion main body 4 (the axial direction of the cable core 22 in a state where the fixed portion main body 4 is fixed to the cable core 22).
On the outer peripheral surface of the main body 9, a non-slip convex portion 9 a which is one or a plurality of protrusions is formed along the circumferential direction.
The tip portion 10 has a truncated cone shape whose outer diameter gradually decreases toward the tip. By setting the shape of the distal end portion 10 so that the outer diameter decreases toward the distal end, the protection tube 14 can be easily attached to the extended holding portion 3.
It is preferable that the maximum outer diameter of the distal end portion 10 be approximately the same as or slightly larger than the outer diameter of the anti-slip convex portion 9a.
Although the inclination angle of the extension holding part 3 with respect to the vertical direction (the axial direction of the fixed part main body 4) is not particularly limited, the optical fiber 22a is not excessively bent and is suitable for connection to other devices. Set by range.

A holding groove 11 for accommodating and holding the optical fiber 22a is formed over the entire length on the fixed portion 2 side (optical fiber cable 21 side) of the extended holding portion 3.
The holding groove 11 has a substantially rectangular cross section, and is formed along the axial direction of the extended holding portion 3, that is, the extending direction.
As shown in FIGS. 1 and 5, the holding groove 11 is preferably formed so as to reach the surface of the fixed portion 2 on the cable core 22 side. In the illustrated example, the holding groove 11 is formed to reach the protruding surface 5 a of the positioning convex portion 5 through the base portion 6 and the fixed portion main body 4.

Next, an example of a method for branching an optical fiber cable using the branch tool 1 having the above configuration will be described with reference to FIGS.
The branching method of the present invention is preferably used for branching an optical fiber cable installed indoors.
As shown in FIG. 10, the sheath 23 of the optical fiber cable 21 is cut with a cutter or the like. The cut portion is indicated by reference numeral 23d.

Next, as shown in FIG. 11, a cut in the cable length direction is made in the sheath 23 of a predetermined length from the cut portion, the sheath 23 of this portion is peeled off, and the cable core 22 is exposed.
For example, as shown in FIG. 8, by separating the first portion 23a from the second portion 23b along the notch 23c, the sheath 23 can be peeled off from the cable core 22 and the cable core 22 can be exposed.
The peeled portion of the sheath 23 is preferably temporarily fixed to the portion of the sheath 23 not involved in the work so as not to interfere with the work.

Next, as shown in FIG. 12, a part of the plurality of optical fibers 22 a in the slot groove 24 of the cable core 22 is cut and taken out from the slot groove 24.
Next, as shown in FIG. 13, the branching tool 1 is disposed on the outer surface of the cable core 22.
At this time, the fixing surface 4a of the fixing portion main body 4 is directed to the cable core 22, and the positioning convex portion 5 is inserted into the slot groove 24 (see FIG. 1). In this state, the axial direction of the fixing portion main body 4 coincides with the axial direction of the cable core 22. As a result, the holding groove 11 is directed to the slot groove 24, and the optical fiber 22a is easily guided into the holding groove 11.
Further, when the positioning convex portion 5 is inserted into the slot groove 24, the posture of the fixing portion 2 with respect to the cable core 22 can be stabilized.
Since the holding groove 11 is formed along the extending direction of the extending holding portion 3, the optical fiber 22a disposed in the holding groove 11 is inclined from the cable core 22 and extends outward. It is supported by the extended holding part 3.

Next, as shown in FIG. 14, the fixing portion 2 is fixed to the cable core 22 using a band-shaped fastening fixture 13.
As the fastening fixture 13, a locking portion 13b having a locking hole 13a is provided at one end of the band 13c, and the band 13c can be locked at an arbitrary position through the locking hole 13a (for example, so-called Insulok ties can be used.
In the illustrated example, the band 13c of the fastening fixture 13 is collectively wound around the fixing portion 2 and the cable core 22, and the band 13c is locked by the locking portion 13b in a state where the fixing portion 2 is fastened and fixed to the cable core 22. Has been.
At this time, by wrapping the band 13c so as to pass between the movement-preventing convex portions 7a and 7b of the outer surface 4b of the fixing portion main body 4, the vertical movement of the fastening fixture 13 is restricted, and the branching tool 1 is prevented from falling off. It can be surely prevented.
The fixing tool for fixing the branching tool to the cable core is not particularly limited as long as the fixing part 2 can be fixed to the cable core 22.

Next, as shown in FIG. 15, the protective tube 14 is placed over the optical fiber 22a. The protective tube 14 can be installed by passing it through the optical fiber 22a from the distal end side.
The protective tube 14 protects the optical fiber 22a, and is preferably made of a synthetic resin and has flexibility. By providing the protective tube 14 over the length of the optical fiber 22a, the optical characteristics of the optical fiber 22a can be maintained well.
It is preferable that the protective tube 14 has an inner diameter into which the extended holding portion 3 can be inserted, and is fixed in a state where the end portion 14 a is put on the extended holding portion 3. The protective tube 14 is preferably attachable to the extended holding portion 3 due to its elasticity.
The protective tube 14 is difficult to be removed from the extended holding portion 3 by the non-slip convex portion 9 a formed on the outer peripheral surface of the main body portion 9.

Next, as shown in FIG. 16, the sheath 23 (second portion 23b) of the peeled portion described above is put on the cable core 22 of the exposed portion. At this time, it is preferable that a portion having a predetermined length is removed from the distal end of the sheath 23 so that the sheath 23 does not cover the branching tool 1.
The sheath 23 placed on the cable core 22 can be fixed to the cable core 22 with a tape-shaped fixture 25 or the like.
As shown in this figure, the branching tool 1 is attached to a portion of the cable core 22 exposed by removing a part of the sheath 23, and the optical fiber 22 a taken out from the cable core 22 is supported by the extension holding portion 3. Branching optical fiber extending.
As shown in FIG. 17, the optical fiber 22a can be connected to a connection part (not shown) inside the connection box 26 such as a rosette.

The sheath 23 (second portion 23 b) that covers the cable core 22 functions to prevent the optical fiber 22 a in the slot groove 24 from coming out of the slot groove 24.
When it becomes necessary to take out the optical fiber 22a in the slot groove 24, the sheath 23 of this portion can be detached from the cable core 22 again. The operation of removing the sheath 23 can be easily performed by opening the sheath 23 with a finger or the like and removing it from the cable core 22.

Since the branching tool 1 is configured to include the fixing portion 2 fixed to the cable core 22 and the extending holding portion 3 having the holding groove 11 for holding the optical fiber 22a, the structure is simple and the case-like shape Compared with the branching tool, the overall size can be reduced, and the space can be saved.
Therefore, even when a large number of optical fiber cables are densely arranged and the empty space is reduced, the intermediate rear branch is facilitated.
In addition, since the fixing portion 2 is fixed to the cable core 22 and the optical fiber 22a is held in the holding groove 11, a branching operation can be performed, so that the operation is simple. In addition, processing of the branched optical fiber 22a is facilitated.

In the branching tool 1, since the holding groove 11 that accommodates the optical fiber 22a is formed in the extended holding part 3, the optical fiber 22a at the branching portion can be protected and damage can be prevented.
In addition, since the extending direction of the optical fiber 22a can be defined by the extending holding portion 3, the extending direction is not applied to the optical fiber 22a, and connection to other devices is performed. A suitable range can be set. Therefore, the optical connection of the optical fiber 22a can be maintained satisfactorily.

In the present invention, the number of branches can be increased by adding the branching tool 1.
FIG. 18 shows a configuration in which the second branching tool 1 is installed adjacent to the branching tool 1 shown in FIG.
That is, the optical fiber 22a can be branched in the same procedure by installing the second branching tool 1B in the cable core 22 adjacent to the first branching tool 1A in the cable length direction.
Similarly, if the branching tool 1 is added, the number of branches can be further increased.
Thus, by attaching a plurality of branching tools 1 to the cable core 22 in different positions in the length direction, it is possible to easily cope with an increase in the number of branches according to the number of users.

In the above-described example, the branching tool 1 is arranged so that the extension holding part 3 faces obliquely upward, but may be arranged upside down so that the extension holding part 3 faces obliquely downward. Good.
In the illustrated example, the holding groove 11 for accommodating the optical fiber 22a is formed in the extension holding part 3, but the structure for holding the optical fiber in the extension holding part is not limited to this, and the extension holding part has Further, it may be an insertion hole (holding hole) formed along the extending direction.

In this invention, the function to hold | maintain the cable core 22 can also be given to the fixing | fixed part of a branch tool. For example, the cable core 22 can be locked by a holding piece, a locking claw, a clip portion, or the like.
FIG. 19 shows an example in which the fixing portion 2 has a function of holding the cable core 22. In the branching tool 31 shown here, the fixing portion 2 extends from the fixing portion main body 4 and both sides of the fixing portion main body 4. The holding pieces 32 and 32 having an arcuate cross section are provided. The holding pieces 32, 32 can hold the cable core 22 in between. In this case, since the fixing portion 2 is fixed to the cable core 22 by the holding pieces 32, 32, the fixing tool 13 is unnecessary.

FIG. 20 is a perspective view showing an optical fiber cable branching device 41 (hereinafter simply referred to as a branching device 41), which is another example of the optical fiber cable branching device according to the present invention. FIG. 21 is a side view of the branching tool 41 as seen from one side. FIG. 22 is a side view of the branching tool 41 as viewed from the other side. FIG. 23 is a top view of the branching tool 41. FIG. 24 is a front view of the branching tool 41. FIG. 25 is a bottom view of the branching tool 41. FIG. 26 is a rear view of the branching tool 41.
In the following description, “upper and lower” refers to the upper and lower in FIGS. 20 to 22 and 24, and corresponds to one end side and the other end side in the axial direction of the fixing portion main body 44 having a substantially arc-shaped cross section. The radial direction is the radial direction of the fixed portion main body 44.

As shown in FIGS. 20 to 22 and 24, the branching tool 41 includes a fixing portion 42 that is fixed to the outer surface of the cable core 22 of the optical fiber cable 21, and an extension holding portion 43 that extends from the fixing portion 42. It has.
The fixing portion 42 includes a plate-like fixing portion main body 44 curved in a substantially arc shape in cross section, a base portion 46 formed at the upper end portion of the outer surface 44b of the fixing portion main body 44, and a lower portion of the outer surface 44b of the fixing portion main body 44. The movement prevention convex portions 47 a and 47 b formed on the holding portion 48 and the holding pieces 48 and 48 extending from both side portions of the fixed portion main body 44 are provided.

On the upper portion of the outer surface 44b of the fixed portion main body 44, a raised portion 49, which is a protrusion protruding outward in the vertical direction, is formed at the center position in the width direction. The raised portion 49 is formed by integrating the upper end portion with the base portion 46.
One or a plurality of plate-like protrusions 52 are formed on both sides of the raised portion 49 on the outer surface 44 b of the fixed portion main body 44.
As shown in FIGS. 23 and 26, a positioning convex portion 45 that can be inserted into the slot groove 24 is formed on the inner surface (fixed surface 44 a) of the fixed portion main body 44.

The base portion 46 is formed in a plate shape, and is formed on the outer surface of the upper end portion of the fixed portion main body 44 so as to protrude radially outward.
The movement preventing convex portions 47a and 47b are formed below the outer surface 44b of the fixed portion main body 44 with an interval in the vertical direction.
As shown in FIGS. 20 to 23, the holding pieces 48 are configured so as to hold the cable core 22 therebetween.

The extension holding portion 43 can be formed in a rod shape that extends upward from the upper surface 46 a of the base portion 46. The extending direction of the extending holding portion 43 is substantially parallel to the axial direction of the fixing portion main body 44 (the axial direction of the cable core 22 in a state where the fixing portion main body 44 is fixed to the cable core 22). By setting the extending direction of the extended holding portion 43 to this direction, it is possible to save the space at the branch portion.
As shown in FIGS. 20, 23, and 26, a holding groove 51 that accommodates the optical fiber 22 a is formed on the inner surface side of the extended holding portion 43. The holding groove 51 is formed so as to reach the fixing surface 44 a of the fixing portion main body 44 through the inside of the base portion 46 and the raised portion 49.
The distal end portion 50 of the extended holding portion 43 has a truncated cone shape whose outer diameter gradually decreases toward the distal end. Reference numeral 49a is a non-slip convex portion.

As shown in FIG. 27, in order to perform a branching operation using the branching tool 41, the branching tool 41 is arranged on the outer surface of the cable core 22, the optical fiber 22 a is guided into the holding groove 51, and Derived from the tip.
The branching tool 41 is fixed to the cable core 22 using the fastening fixture 13. The fastening fixture 13 can be wound between the movement preventing convex portions 47a and 47b.
The optical fiber 22 a led out from the extended holding portion 43 can be inserted into the protective tube 14. The protective tube 14 can be put on the extended holding portion 3.

  The present invention is particularly preferably applied to an intermediate post branching operation of an optical fiber cable installed indoors.

DESCRIPTION OF SYMBOLS 1,41 Optical fiber cable branching tool 2,42 Fixing part 3,43 Extension holding part 4a, 44a Fixing surface (surface on the cable core side)
4b, 44b Outer surface 5, 45 Positioning convex part 9a, 49a Non-slip convex part 10, 50 Tip part 11, 51 Holding groove 13 Tightening fixture 14 Protective tube 14a End part 21 Optical fiber cable 22 Cable core 22a Optical fiber (branch) Optical fiber)
23 Sheath 23a First part 23b Second part 23c Notch (weakened part)
24 Slot groove 32 Holding piece

Claims (15)

A branching device for an optical fiber cable for taking an optical fiber from an optical fiber cable capable of peeling a sheath from a cable core to form a branched optical fiber,
A fixing portion fixed to the cable core, and an extension holding portion extending from the fixing portion,
A branching device for an optical fiber cable, wherein a holding groove that accommodates the optical fiber is formed in the extending holding portion along the extending direction.   2. The optical fiber cable branching device according to claim 1, wherein the fixing portion has a fixing surface having a substantially arc-shaped cross section corresponding to an outer surface shape of the cable core.   The extension holding portion is inclined with respect to the cable core in a state where the fixing portion is fixed to the cable core, and the optical fiber can be supported in an inclined state in the holding groove. Item 10. An optical fiber cable branching tool according to item 1.   The optical fiber cable branching device according to claim 1, wherein the holding groove is formed so as to reach a surface of the fixing portion on the cable core side. A slot groove for accommodating the optical fiber is formed in the cable core,
The optical fiber cable branching device according to claim 1, wherein the fixing portion has a positioning convex portion that is inserted into the slot groove.   On the surface opposite to the fixing surface of the fixing portion to the cable core, there is formed a movement preventing convex portion that prevents movement of the fixing tool when the fixing portion is fixed to the cable core by the fixing tool. The optical fiber cable branching device according to claim 1, wherein The fixed portion includes a fixed portion main body and holding pieces extending from both side portions of the fixed portion main body,
The optical fiber cable branching device according to claim 1, wherein the holding piece is capable of holding the cable core in between.   The branch for an optical fiber cable according to claim 1, wherein a convex portion for preventing slippage of a protective tube that can be attached to the extension holding portion is formed on an outer peripheral surface of the extension holding portion. Ingredients.   The branching device for an optical fiber cable according to claim 1, wherein the extension holding portion is substantially parallel to the cable core in a state where the fixing portion is fixed to the cable core.   2. The optical fiber cable branching device according to claim 1, wherein a distal end portion of the extension holding portion is formed so that an outer diameter gradually decreases toward the distal end. An optical fiber cable branching method in which an optical fiber is taken out from an optical fiber cable capable of peeling a sheath from a cable core and branched using a branching device for an optical fiber cable,
The optical fiber cable branching tool includes a fixing portion that is fixed to the cable core, and an extension holding portion that extends from the fixing portion, and the holding groove that holds the optical fiber in the extension holding portion. Is formed along the extending direction,
The sheath is peeled off within a predetermined length range of the optical fiber cable to expose the cable core, the fixing portion of the branching tool is fixed to the cable core, and the optical fiber taken out from the cable core is extended to the extension A branching method for an optical fiber cable, wherein the branching optical fiber extends in the extending direction by being accommodated in a holding groove of a holding portion.   The method of branching an optical fiber cable according to claim 11, wherein a protection tube is put on the branched optical fiber, and an end of the protection tube is put on the extended holding portion. The sheath is partitioned into a first part that is a part in the circumferential direction and a second part that is the other part by a pair of weakened parts extending in the cable length direction,
The cable core has a slot groove in which the optical fiber is accommodated;
In the sheath peeling, the first part is separated from the second part along the weakened part,
The optical fiber cable branching method according to claim 11, wherein after the optical fiber is taken out from the cable core, the slot groove is covered by covering the cable core with the second portion of the peeled sheath.   12. The method of branching an optical fiber cable according to claim 11, wherein a plurality of the optical fiber cable branching devices are attached to the cable core at different positions in the length direction. A branching structure of an optical fiber cable branched using the optical fiber cable branching tool according to claim 1,
By fixing the fixing portion to the cable core of the portion exposed by the peeling of the sheath, the optical fiber cable branching tool is attached,
An optical fiber cable branching structure, wherein an optical fiber taken out from the cable core is supported by the extended holding portion in a state of being accommodated in the holding groove.

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