JP4026742B2 - Optical fiber sheet - Google Patents

Description

[0001]
[Technical field belonging to the invention]
The present invention relates to an optical fiber sheet, and more particularly, to an optical fiber sheet in which an optical fiber cord is formed by protecting an extension portion of an optical fiber wired inside the sheet with a tensile fiber and a protective tube.
[0002]
[Prior art]
As shown in FIG. 4, in the optical fiber sheet 3 in which the optical fiber 2 is wired between the two upper and lower sheets 1 bonded together, the optical fiber 2 is covered with a protective tube 4 on the optical fiber 2. When the optical fiber cord 5 is used, the end portion 4a of the protective tube 4 is inserted into the sheet and secured.
When the optical connector 6 is attached to the optical fiber 2, when the same tensile resistance as that of the optical connector attached to a normal optical fiber cord with a tensile fiber such as Kevlar attached to the optical connector 6 is required, In the optical fiber cord 5 simply covered with the protective tube 4 as described above, the tensile strength of the cord is small, and the tensile strength required for the optical connector 6 cannot be obtained.
[0003]
Therefore, in order to increase the tensile strength of the cord, it is conceivable to use an optical fiber cord 8 in which the optical fiber 2 is housed in a protective tube 4 together with a tensile strength fiber 7 such as Kevlar as shown in FIG.
When the optical fiber cord 8 with the tensile strength fiber is used, the end portion 4a of the protective tube 4 is fastened to the sheet 1 as the structure of the optical fiber sheet 9 shown in FIGS. 4a is inserted into the sheet 1, and the tensile strength fiber 7 exposed from the protective tube 4 is disposed on the lower sheet 1 together with the optical fiber 2, and the upper sheet 1 is bonded thereon.
[0004]
[Problems to be solved by the invention]
In the conventional optical fiber sheet 9, the tensile strength of the cord itself can be secured. However, even if the upper and lower sheets 1 are bonded together by combining the extremely thin tensile strength fibers 7 and the thick optical fibers 2, the upper and lower sheets There is a problem that the adhesive strength cannot be obtained if it is sufficiently firm for one hour.
In addition, when a very large number of the tensile strength fibers 7 and the optical fiber 2 are mixed, the tensile strength fibers 7 are in direct contact with the optical fiber 2 or because of a slight gap generated by the optical fiber 2. 7 is not sufficiently firmly adhered and fixed between the upper and lower sheets 1, and there is also a problem that the tensile strength fibers 7 are not fastened to the sheets, that is, the optical fiber cord 8 is not sufficiently fastened to the sheets.
Further, if the tensile strength fibers 7 are bundled and enter under the optical fiber 2 when the optical fiber 2 is wired, the optical fiber 2 may be bent due to the influence, and the bending loss of the optical fiber 2 may increase.
[0005]
The present invention has been made to eliminate the above-mentioned conventional drawbacks, and the optical fiber cord in which a tensile strength fiber is inserted into the protective tube together with the optical fiber is used as the extension portion of the optical fiber wired inside the sheet. In addition, there is no risk of insufficient adhesive strength between the upper and lower sheets, and the tensile strength fibers can be firmly held inside the sheets to firmly hold the optical fiber cords to the sheets. An object of the present invention is to provide an optical fiber sheet that does not cause problems such as bending.
[0006]
[Means for Solving the Problems]
The present invention for solving the above problems is an optical fiber sheet in which the optical fiber in the optical fiber cord in which the optical fiber is inserted into the protective tube together with the tensile fiber is exposed from the protective tube and wired inside the sheet,
A state where an auxiliary sheet is pasted on the optical fiber wired to the lower sheet, and the distance between the distal end portion of the protective tube and the outer edge of the auxiliary sheet is ensured without overlapping the auxiliary sheet. And fixed to the upper sheet and the lower sheet, the tensile fiber exposed from the protective tube is disposed on the auxiliary sheet, and the upper sheet is bonded thereon.
[0007]
The invention of claim 2 is the optical fiber sheet according to claim 1, characterized in that detained by the tip end of the protective tube of the optical fiber cord is bonded and fixed between sheets vertically inserted inside the seat.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
1 is a partially cutaway plan view of an optical fiber sheet 11 according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, and FIG. 3 is a cross-sectional view taken along line BB in FIG. As shown in FIG. 5 described above, the optical fiber cord 8 has a structure in which the optical fiber 2 is accommodated in the protective tube 4 together with the tensile fiber 7 such as Kevlar, and the optical fiber 2 that is exposed by cutting the protective tube 4 is attached. Wiring is performed between the upper and lower sheets 1 that are combined. The end 4 a of the protective tube 4 of the optical fiber cord 8 is inserted into the sheet, and the internal tensile strength fiber 7 is exposed from the protective tube 4 by an appropriate length. Then, an auxiliary sheet 12 having an appropriate width is attached to the lower sheet 1 from above the optical fiber 2 in the portion where the tensile fiber 7 is exposed, and the tensile fiber 7 is bundled on the auxiliary sheet 12. The upper sheet 1 is bonded to the auxiliary sheet 12 and the lower sheet 1 from above.
[0009]
The sheet 1 is a flexible soft resin sheet coated with an adhesive on one side, and as a material, polyimide, polyethylene terephthalate, polyethylene, polypropylene, polyester, or the like can be used. The auxiliary sheet 12 is a flexible soft resin sheet in which an adhesive is applied on both sides, and the same material as the sheet 1 can be used. However, the auxiliary sheet 12 may be thinner than the upper and lower sheets 1. As the material of the protective tube 4, nylon, hydrorel, or the like can be used.
[0010]
In the optical fiber sheet 11 described above, the optical fiber cord 8 has a structure in which the tensile strength fiber 7 such as Kevlar is attached to the protective tube 4 and thus has a sufficient tensile strength.
Since the tensile strength fiber 7 and the optical fiber 2 exist in different layers, a large number of extremely thin tensile strength fibers (for example, about 12 μm in outer diameter in the case of Kevlar) 7 and an optical fiber sufficiently thicker than that (for example, a nylon core wire) In the case of 0.9 mm) 2, there is no problem that the upper and lower sheets 1 are not sufficiently firmly adhered.
Further, since the tensile strength fiber 7 is adhesively fixed between the auxiliary sheet 12 and the upper sheet 1 separately from the optical fiber 2, a gap generated by the tensile strength fiber 7 directly contacting the optical fiber 2 or by the optical fiber 2. Therefore, the problem that the tensile strength fibers 7 are not firmly and firmly fixed between the upper and lower sheets 1 does not occur, and the tensile strength fibers 7 are firmly and firmly fixed. Therefore, the optical fiber cord 8 is firmly attached to the sheet 1.
Further, the end 4a of the protective tube 4 is inserted and fixed inside the seat as in the conventional case, so that the protective tube 4 is prevented from coming off. Also in this respect, the optical fiber cord 8 is firmly attached to the sheet 1.
Therefore, when the optical connector 6 is attached to the optical fiber cord 8 in the same manner as in FIG. 4, the tensile strength required for the optical connector 6 attached to the cord can be sufficiently satisfied.
Further, since the tensile fiber 7 is arranged on the auxiliary sheet 12 after the optical fiber 2 is wired, there is a problem that the optical fiber 2 is bent due to the influence of the tensile fiber 7 when the optical fiber 2 is wired. Does not occur.
[0011]
In the above-described embodiment, the end 4a of the protective tube 4 of the optical fiber cord 8 is inserted and fixed inside the sheet, but the protective tube 4 is not inserted into the sheet, for example, the end surface of the protective tube 4 is bonded and fixed to the end surface of the sheet. Such a structure is also conceivable. Even in this case, the tensile strength fiber 7 is firmly adhered and fixed inside the sheet, so that a sufficient holding force to the sheet can be secured.
[0012]
Moreover, although the above-mentioned embodiment is a case where there is only one optical fiber 2 in the protective tube 4, the optical fiber cord having a structure in which a plurality of optical fibers are inserted into the protective tube 4 together with the tensile fibers 7. Can be applied.
In this case as well, a plurality of optical fibers are wired on the lower sheet 1, an auxiliary sheet is pasted thereon, the tensile fiber 7 is disposed on the auxiliary sheet, and then the upper sheet 1 is pasted. Match.
[0013]
【The invention's effect】
According to the optical fiber sheet of the present invention, since the tensile fiber and the optical fiber exist in different layers, there is no problem that the upper and lower sheets are not sufficiently firmly adhered by mixing the tensile fiber and the optical fiber. .
In addition, since the tensile strength fiber is adhesively fixed between the auxiliary sheet and the upper sheet separately from the optical fiber, sufficiently strong adhesive fixing inside the tensile strength fiber sheet is possible, and the optical fiber cord is attached to the sheet. Detention is a solid source.
[0014]
Since the tensile strength fiber is held in a layer different from the optical fiber, there is no possibility of problems such as bending of the optical fiber due to the tensile strength fiber when the optical fiber is wired.
[0015]
According to claim 2, since the end portion of the protective tube is inserted and fixed inside the sheet, the protective tube is effectively prevented from coming off, and the optical fiber cord is firmly secured to the sheet together with the tensile fiber. Become.
[Brief description of the drawings]
FIG. 1 is a partially cutaway plan view of an optical fiber sheet according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along the line AA of FIG.
3 is a cross-sectional view taken along the line BB in FIG.
FIG. 4 is a plan view for explaining an optical fiber sheet having a structure in which an extension portion of the optical fiber sheet is protected by a protective tube.
FIG. 5 is a diagram for explaining the structure of an optical fiber cord in which a tensile strength fiber such as Kevlar is inserted into a protective tube together with the optical fiber.
FIG. 6 is a partially cutaway plan view of a conventional optical fiber sheet.
7 is a cross-sectional view taken along the line CC of FIG.
[Explanation of symbols]
1 Sheet 2 Optical Fiber 4 Protective Tube 4a End 7 Tensile Fiber (Kevlar, etc.)
8 Optical fiber cord 11 Optical fiber sheet 12 Auxiliary sheet

Claims (2)

An optical fiber sheet in which an optical fiber in an optical fiber cord inserted into a protective tube together with a tensile fiber is exposed from the protective tube and wired inside the sheet,
A state where an auxiliary sheet is pasted on the optical fiber wired to the lower sheet, and the distance between the distal end portion of the protective tube and the outer edge of the auxiliary sheet is ensured without overlapping the auxiliary sheet. The optical fiber sheet is fixed to the upper sheet and the lower sheet, the tensile fiber exposed from the protective tube is disposed on the auxiliary sheet, and the upper sheet is bonded thereon. Optical fiber sheet according to claim 1, wherein the a-edge portion of the protective tube of the optical fiber cord is inserted inside sheet detained and adhere between the upper and lower sheets.

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