JPH025005A - Method and tool for separating optical fiber tape - Google Patents

Abstract

PURPOSE:To easily and surely separate an optical fiber tape without damaging the optical fiber by fixing a part of the optical fiber tape obtained by coating a plurality of optical fibers en bloc in a tape shape along a longitudinal direction and adding a shearing force to the fixed end part thereof. CONSTITUTION:The optical fiber tape 20 is inserted between 1st and 2nd blades 11 and 12 so that a part of said tape 20 is held between them along the longitudinal direction. Then, a 3rd blade 13 is moved from upside to downside along a blade guiding part 14 in such a state to make the leading edge of the 3rd blade 13 abut on the optical fiber tape 20. Therefore, the shearing force is added to a part shown by broken line (a) in the optical fiber tape 20. Even if the optical fiber tape which is in the middle of transmitting optical signals is separated, the optical fiber tape can be safely and easily separated with a little change of loss without depending on the technique level of an operator.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an optical fiber tape separating method for separating optical fiber tapes using shearing force, and a separating tool therefor.

(Prior Art) Conventionally, a method has been proposed in which a plurality of optical fibers are bundled into a tape and a part of the optical fiber tape coating is peeled off to separate the optical fibers into individual optical fibers. 152
No. 795).

FIG. 2 is an explanatory diagram of this conventional method. In the figure, 1 is an optical fiber tape, 2 is an individual optical fiber in the optical fiber tape, 3 is an optical fiber tape coating, 4 is a plate, and adhesive 5 is applied to a part of each of the two plates 4. After adhering these two plates 4 to the upper and lower surfaces of the optical fiber tape 1 in any longitudinal direction, these plates 4 are separated from the optical fiber tape 1 using a separating member (not shown) or the like. , a part of the optical fiber tape coating 3 is adhered to the plate 4 to form the optical fiber tape 1.
The optical fibers 2 were peeled off to expose individual optical fibers 2, allowing access in units of 16.

In addition, as another method, a method is conventionally known in which the optical fiber tape coating is damaged with a cutter, a pin, etc., and then separated.

(Problems to be Solved by the Invention) However, according to the former method, a large force is applied to the optical fiber tape 1 when the optical fiber tape coating 3 is peeled off, causing the optical fiber 2 to be bent with a large curvature, and the operator Depending on the technical level and the like, the adhesive 5 cannot be applied stably, and furthermore, the adhesive 5 requires a long time to harden.

Furthermore, the latter method has the problem of being less reliable because it may damage the optical fiber 2 itself.

In view of the above-mentioned problems, an object of the present invention is to provide an optical fiber tape separation method that does not depend on the technical level of the operator, has little risk of damaging optical fibers, and can perform simple and reliable separation. The purpose of this invention is to provide a separation tool.

(Means for Solving the Problem) In order to achieve the above object, claim (1) provides that a part of an optical fiber tape formed by collectively covering a plurality of optical fibers in a tape shape is fixed along the longitudinal direction. , a shearing force was applied to the end of this fixed part.

Further, in claim (2), first and second blades that sandwich a part of an optical fiber tape formed by collectively covering a plurality of optical fibers in a tape shape along the longitudinal direction;
and a third blade that applies a shear force to the optical fiber tape by moving parallel to the second blade, the second and third blades having a curvature with respect to the longitudinal direction of the optical fiber tape. The optical fiber tape separation tool has a curved surface with a radius R of the curved surface satisfying R≧10 mm.

Furthermore, in claim (3), the first and second tremors and the third blade are arranged so as to be in contact with the optical fiber tape at a predetermined distance in the longitudinal direction of the optical fiber tape.

Furthermore, in claim (4), a heating mechanism is provided in part or all of the first, second, and third blades of claim (2) or (3).

(Function) According to claim (1), an arbitrary portion of the optical fiber tape is fixed along the longitudinal direction, and in this state, a shearing force is applied to the end of the fixed portion to separate the optical fiber tape.

According to claim (2), any part of the optical fiber tape is held between the first and second blades along the longitudinal direction, and in this state, the first and second blades move in parallel with the first and second blades. A shearing force is applied by blade No. 3 to separate the optical fiber tape. Furthermore, the first and second
and the third brevi has a curved surface having a curvature in the longitudinal direction of the optical fiber tape, and the radius R of the curved surface is R≧10.
Since the separation tool is formed to satisfy the above relationship, loss during the separation operation is reduced, and the separation tool can be smoothly slid in the longitudinal direction of the optical fiber tape.

Furthermore, according to claim (3), any part of the optical fiber tape is held between the first and second blades along the longitudinal direction, and in this state, the first and second blades are connected to the optical fiber tape. A third blade is brought into contact with the contact point at a predetermined distance in the longitudinal direction of the optical fiber tape, and the third blade is slid in the longitudinal direction of the optical fiber tape from this contact point to separate the optical fiber tape. Ru.

Furthermore, the first, second, and third blades have curved surfaces having a curvature in the longitudinal direction of the optical fiber tape, and are formed such that the radius R of the curved surfaces satisfies the relationship R≧10+n+n, and the blades are separated. Loss during operation is reduced, and the separation tool can be smoothly slid in the longitudinal direction of the optical fiber tape.

Furthermore, according to claim (4), the above claim (2)
Or in claim (3), the optical fiber tape coating is heated and softened by a heating mechanism provided in part or all of the first, second, and third blades, and then,
A shearing force is applied by the third blade to separate the optical fiber tape.

(Embodiment) FIG. 1 is a diagram showing a first embodiment of the present invention.
a) is a perspective view showing a state in which the optical fiber tape is held between the optical fiber tape separating tool in the first embodiment, and FIGS. 1(b) and (c) are enlarged views of part 0 of FIG. 1(a). FIG. In the figure, 10 is an optical fiber tape separation tool (hereinafter referred to as
(simply a separation tool), the main body] is arranged in an arc shape in the vertical middle of the side surface of the optical fiber tape 20 so that it faces each other and has a curved surface having a curvature with respect to the longitudinal direction of the optical fiber tape 20 at its tip end. The first and second blades 11.12 are formed, and the radius R of the curved surface thereof is selected to satisfy R≧10 mm for the reason described later.

13 is a third blade whose radius R of the curved surface is selected similarly to the first and second blades 11 and 12, and whose one end is formed into an arc shape.
This is the blade 13. This third blade 13
and the second blade 11 ] 2 and vertically to the coating surface of the optical fiber tape 20 (in the vertical direction in the figure).

Further, the distance Ω between the apex of the tip of the first blade 11 and the apex of the tip of the second blade 12 is determined by the thickness of the optical fiber tape 20 and the distance between the paths, as shown in FIG. 1(b). A part of the optical fiber tape 20 can be held between the first and second plays 1'' 1112 along the longitudinal direction.

Next, the first. Regarding the method of selecting the radius R of the curved surface of the second blade 11.12 and the third blade 13, the third
This will be explained based on the diagram.

Figure 3 is a diagram showing the relationship between the bending radius and loss increase of an optical fiber, where the horizontal axis is the bend radius (+++m) and the vertical axis is the loss increase (d
B/m). The increase in loss due to bending of an optical fiber varies greatly depending on the refractive index distribution shape of the optical fiber, refractive index difference, wavelength, etc. In the figure, the curve shown by solid line A is for a single mode optical fiber with a wavelength of 1.3 μm. , the curve shown by the solid line B shows the bending radius and loss increase when the wavelength is 1.55 μm for a single mode optical fiber, and the curve shown by the -dotted chain line C shows the bending radius and loss increase for the wavelength of 1.3 μm for the great index type optical fiber. It shows a relationship.

As described above, it can be seen from FIG. 3 that there is a risk of increased loss when the bending radius is less than 10 mm, and in order to prevent increased loss during separation of the optical fiber tape 20,
R≧10mm is required, which allows each blade 1
It is desirable to select the radius R from 1 to 13.

Next, a method for separating the optical fiber tape 20 using the separating tool 10 having the above configuration will be explained.

First, the optical fiber tape 20 is inserted between the first and second blades 11 and 12, and a part of the optical fiber tape 20 is sandwiched along the longitudinal direction.

Next, in this state, move the third blade 13 from top to bottom along the blade guide part 14 to remove the third blade 13.
3 is brought into contact with the optical fiber tape 20 as shown by the two-dot chain line in FIG. 1(b).

As a result, the optical fiber tape 20 shown in FIG.
A shearing force is applied to the portion indicated by the broken line a, and the optical fiber tape can be separated.

Next, slide the optical fiber tape separation tool 10 in the longitudinal direction of the optical fiber tape to separate the third
By moving the blade 13 of the optical fiber tape 20 and applying shearing force to the optical fiber tape 20 to perform separation, the desired length of separation is achieved.

As described above, according to the embodiment of this section 1, optical fiber tape 2 can be safely and easily installed without depending on the technical level of the operator.
In addition, the curved surfaces of the tips of the first, second and third blades 11, 12 and 13 have a curvature with respect to the longitudinal direction of the optical fiber tape 20, and the radius R of the curved surface is formed so that R≧10+n+n is satisfied, so the optical fiber tape separation tool 10 can be smoothly slid in the longitudinal direction of the optical fiber tape 20, and the required length can be easily separated, and there is no loss during separation work. We have created a separation tool that does not have the risk of increase.

Further, as shown in FIG. 4, the optical fiber tape 20 is
If the material of the sheathing 21' in the portion that requires separation is made of a material having a lower compressive elastic modulus than the material of the other sheathing 21 in advance, it is possible to further separate the containers.

FIG. 5 is a diagram showing a second embodiment of the present invention. The difference between the embodiment of the second embodiment and the first embodiment is that the position where the first and second blades 11 and 12 contact the optical fiber tape 20 is The reason is that the contact position C is only a predetermined distance ΔL in the longitudinal direction 2o of the optical fiber tape 20. In such a structure, the optical fiber tape 20 cannot be separated only by the shearing force generated by the vertical movement of the third blade 3, and the separation can only be performed by sliding the separation tool 10 in the longitudinal direction of the optical fiber tape 20. Thus, in addition to the effects of the first embodiment, smoother separation is possible.

Further, it is preferable that the predetermined distance ΔL is 10 mm or less, and by providing this degree of deviation, the optical fiber tape 20 can be separated by sliding the separating tool 10 due to its rigidity as described above.
Shear force will be applied to 0.

FIG. 6 is a diagram showing a third embodiment of the present invention. The difference between the embodiment of Sui-Tei 3 and the first embodiment is as follows. The heater 30 is provided inside the tip of each of the second and third blades 11, 12 and 13. In such a structure, by applying a shearing force to the optical fiber putty sheath 21 after softening it with the heater 30, it becomes possible to separate it more easily than in the first embodiment.

In addition, in the embodiment of Sui-Tei 3, the heater 30 is connected to each Brevi 11,
12 and 13, but it may of course be installed throughout.

It goes without saying that the same effect can be obtained even if the heater 3o shown in the third embodiment is provided in the first, second, and third tremors 11, 12, and 13 in the second embodiment. do not have.

(Effect of the invention) As explained above, according to claim (1), a part of an optical fiber tape formed by collectively covering a plurality of optical fibers in a tape shape is fixed along the longitudinal direction, and the fixed Since shearing force is applied to the edge of the part, it does not depend on the skill level of the operator.
The present invention has the advantage that it is possible to separate optical fiber tapes safely, easily, and with little change in loss even when separating optical fiber tapes that are transmitting optical signals.

Further, according to claim (2), the separation work can be performed safely and easily without depending on the technical level of the worker, and the first
．． The second and third blades have curved surfaces with a curvature in the longitudinal direction of the optical fiber tape, and are formed so that the radius R of the curved surfaces satisfies the relationship R≧10 mm, so that the light The present invention has the advantage of providing an optical fiber tape separating tool that can slide the separating tool smoothly in the longitudinal direction of the fiber tape, easily separate the required length, and eliminates the risk of increased loss during separating work.

Furthermore, in claim (3), by sliding the separation tool in the longitudinal direction of the optical fiber tape, shearing force is applied to the optical fiber tape and separation can be started for the first time; In addition to the effect - a smooth separation of the layers is possible.

Furthermore, according to claim (4), the heating mechanism can apply heat to the optical fiber tape coating to soften the coating, so compared to claim (2) or claim (3), - The layers can be easily separated.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing a first embodiment of the present invention, and FIG.
) is a perspective view showing a state in which an optical fiber tape is held between the optical fiber tape separation tool according to the first embodiment, and FIGS. 1(b) and 1(e) are enlarged cross-sectional views of the negative part of FIG. 1(a). ,
Fig. 2 is an explanatory diagram of the conventional method, Fig. 3 is a diagram showing the relationship between the bending radius of an optical fiber and loss increase, Fig. 4 is a diagram showing another structural example of an optical fiber tape, and Fig. 5 is a diagram of the present invention. FIG. 6 is a diagram showing a third embodiment of the present invention. In the figure, 10...optical fiber tape separation tool, ]1...
First plate, 12...Second blade, 13...
- Third blade, 20... optical fiber tape, 21
...Optical fiber tape coating, 30...Heater. Patent Applicant Nippon Telegraph and Telephone Corporation Agent Patent Attorney Yoshi 1) Prefecture 1] 1,000 clouds (mm) Optical fiber ゛の Boat■Dingi yi y-J%I circle) Zeng's T4
Figure 3 showing AII thread F

Claims (4)

[Claims] (1) An optical fiber tape separation method characterized by fixing a part of an optical fiber tape formed by collectively covering a plurality of optical fibers in a tape shape along the longitudinal direction and applying a shearing force to the end of this fixed part. . (2) first and second blades that sandwich a part of an optical fiber tape formed by collectively covering a plurality of optical fibers in a tape shape along the longitudinal direction; and parallel to these first and second blades. a third blade that applies a shearing force to the optical fiber tape by moving, and the first, second, and third blades have curved surfaces having a curvature with respect to the longitudinal direction of the optical fiber tape. An optical fiber tape separation tool characterized in that the radius R of the curved surface satisfies R≧10 mm. (3) The optical fiber tape separation tool according to claim (2), wherein the first and second blades and the third blade are arranged so as to be in contact with the optical fiber tape at a predetermined distance in the longitudinal direction of the optical fiber tape. . (4) The optical fiber tape separation tool according to claim (2) or claim (3), wherein a part or all of the first, second, and third blades are provided with a heating mechanism.