JPH05224073A - Reinforcement structure of optical fiber fusion type device - Google Patents

Abstract

(57) [Abstract] [Purpose] Concerning the reinforcing structure of the optical fiber fusion type device for branching / coupling or multiplexing / demultiplexing light in the optical communication circuit, shrinkage during curing of the adhesive for fixing the device to the reinforcing member The purpose is to prevent shrinkage and expansion of the adhesive due to temperature and humidity from adversely affecting the characteristics of the device. [Structure] A device 2 in which the coatings of the optical fiber cable 1 are removed and the exposed optical fiber core wires are aligned in parallel and heat-fused to stretch and integrate them, and the coating portions 2a on both sides of the device 2 are inserted through the device. And a reinforcing member 3 composed of a tubular body having a length that covers the fusion-bonded portion 2b and divided into two parts by an axial center, and the both side covering portions of the device inserted through the axial center of the reinforcing member have an adhesive around the entire outer periphery thereof. It is fixed to the reinforcing member with 4a, and both sides of the fusion-bonded portion are fixed to the reinforcing member with the adhesive 4b in a part of the cross section.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an optical communication circuit,
The present invention relates to a reinforcing structure of an optical fiber fusion-type device that splits, combines, or multiplexes light.

An optical fiber fusion type device (hereinafter abbreviated as a device) is formed by aligning and fusing two optical fibers in parallel, and the fused portion is fixed to a reinforcing member with an adhesive to reinforce it. There is. Since it is fixed by an adhesive, there is a demand for a reinforcing structure that does not adversely affect the characteristics of the device due to curing shrinkage of the adhesive and contraction and expansion in an environment of high temperature and high humidity.

[0003]

2. Description of the Related Art As shown in the side sectional view of FIG. 6, a conventional reinforcing structure of a device is to remove the coating of the optical fiber cable 11 and align the exposed optical fiber cores in parallel and heat-bond them. And a device 12 integrally formed by stretching, and a reinforcing member 13 composed of a cylindrical body of quartz glass material, which is inserted into the device 12 and covers the both side covering portions 12a and the fusion-bonding portion 12b and is divided into two by an axial center. The device 12 is inserted and held in the axial center of the reinforcing member 13, and the space excluding the central portion inside is
That is, the adhesive 14 is filled and fixed so as to wrap both ends of the fusion-bonded portion 12b and both-side coating portions 12a.

[0004]

However, according to such a reinforcing structure as described above, the adhesive for fixing the device to the reinforcing member is filled in the inner space wrapping both ends of the fusion-bonded portion and both side coating portions. Therefore, the amount of displacement of the adhesive itself is large when the adhesive cures and when the adhesive contracts and expands due to temperature and humidity.In the case of contraction, the optical fiber is pulled, and in the case of expansion, it is displaced in the radial direction. Without this, there is a problem that the reinforcing member is displaced in the axial direction, that is, the axial direction of the optical fiber, and the interface separation of the optical fiber fixing portion occurs, causing internal stress in the optical fiber and adversely affecting the device characteristics.

In view of the above problems, the present invention provides an optical fiber fusion device that does not adversely affect the characteristics of the device due to shrinkage during curing of the adhesive for fixing the device to the reinforcing member and shrinkage and expansion of the adhesive due to temperature and humidity. An object is to provide a reinforcing structure for a wearable device.

[0006]

In order to achieve the above object, in the reinforcing structure of the optical fiber fusion type device of the present invention, the coating of the optical fiber cable is removed to expose the exposed optical fiber cores in parallel. It is composed of a device that is aligned and heat-fused to stretch and integrate them, and a reinforcing member that is a cylindrical body that is divided into two parts with an axial center with a length that penetrates the device and covers the fusion-bonded part and both side covering parts. , The both side covering portions of the device inserted through the axis of the reinforcing member have their entire outer peripheries fixed to the reinforcing member with an adhesive, and both sides of the fusion-bonded portion have a part of their cross section fixed to the reinforcing member with an adhesive. Then configure.

[0007]

[Function] On both sides of the device, fully filled adhesive,
By fixing with a half-filled adhesive on only one side of the reinforcing member on both sides excluding the central portion of the fused portion, the adhesive at the fused portion is interrupted at the center and the filling amount of the adhesive decreases,
Tension due to contraction during curing of the adhesive and axial displacement due to contraction and expansion of the adhesive due to temperature and humidity are reduced, and internal stress generated in the device due to contraction and expansion of the adhesive is almost eliminated, which adversely affects the device characteristics. You can choose not to give.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The gist of the present invention will be described in detail below with reference to the embodiments shown in the drawings. As shown in the side cross-sectional view of FIG. 1 and the exploded perspective view of FIG. 2, the reinforcing structure of the optical fiber fusion-type device has a structure in which the coatings of the two optical fiber cables 1 are removed and exposed. Device 2 in which 1a are aligned in parallel, and they are heat-fused and stretched and integrated.
And a reinforcing member 3 made of a quartz glass cylindrical body having a length that covers the both sides of the covering portion 2a and the fusion-bonding portion 2b through the device 2 and is divided into two parts along the axis (the split surface of the reinforcing member 3 is shown in the figure. The device 2 which is placed horizontally and is viewed from the side surface thereof and is inserted through the axis of the reinforcing member 3 is fixed by an epoxy resin adhesive 4. That is, both sides of the device 2
2a is a full-filled adhesive 4a, and both sides of the fusion-bonded portion 2b excluding the central portion are fixed by the same adhesive 4b which is half-filled only on one side of the reinforcing member 3 (the lower reinforcing member 3a).

The assembling of the reinforcing structure of this optical fiber fusion type device is carried out as follows. As shown in FIG. 2, first, one of the reinforcing members 3, that is, the lower reinforcing member 3a, has an upper reinforcing member.
When combined with 3b, the range of the region L ₁ where the adhesive 4 (ie, 4b) can be fixed to both sides of the covering portion 2a and the fusion-bonding portion 2b excluding the center without being contacted with the intermediate inner surface of the upper reinforcing member 3b. Adhesive 4, that is, 4a and 4b, is applied to.

On the other hand, the upper reinforcing member 3b is applied in the range of the region L ₂ so that the adhesive 4a comes into contact with only the covering portion 2a.
Then, the device 2 is placed on the upper surface of the adhesive 4 (4a, 4b) of the lower reinforcing member 3a so that the Y-shape in plan view of the fusion bonding portion 2b is parallel to the split surface, and the upper reinforcing member 3b is combined from above. The adhesive 4 (4a, 4b) is cured. At that time, device 2
The adhesive 4a of the both-side covering portion 2a is in a fully filled state, and the adhesives 4b of both side portions except for the center of the fusion-bonded portion 2b are in a semi-filled state and are fixed to each other. The completed state of assembly is as shown in the side sectional view of FIG.

As described above, the both side covering portions of the device are sandwiched between the upper and lower reinforcing members and the inner space thereof is filled with the adhesive, and the adhesive is filled only in the lower reinforcing member on both sides except the center of the fused portion. Since it is filled and fixed and not fixed to the upper reinforcing member at all, the pulling due to contraction during curing of the adhesive and the axial displacement due to contraction and expansion of the adhesive due to temperature and humidity are reduced, and the adhesive contracts or expands. By doing so, it is possible to reduce the internal stress generated in the device and prevent the device characteristics from being adversely affected.

FIG. 3 is a side sectional view of another embodiment. This is a structure in which the upper reinforcing member of the above embodiment is omitted and internal stress is prevented from being generated due to expansion or the like. That is, the both-side covering portions 2a of the device 2 are wrapped around the outer periphery of the reinforcing member 3c made of an elongated quartz glass plate, and both sides except the center of the fusion-bonded portion 2b are in contact with each other.
Alternatively, the adhesives 4c and 4d, which are slightly covered, are used for fixing.

The assembling method is as follows. First, apply the adhesives 4c and 4d to the reinforcing member 3c to such an extent that the both-side covering portion 2a of the device 2 wraps the outer periphery and that both sides except the center of the fusion-bonding portion 2b contact each other. Then, it is applied from below the device 2 so that both side coating portions 2a of the device 2 are embedded in the adhesive 4c, and both sides except the center of the fusion bonding portion 2b are in contact with or slightly covered with the adhesive 4d. Hold on and stick.

As described above, in this embodiment, the device is fixed to the reinforcing member made of an elongated quartz glass plate, so that in the previous embodiment, the both side coating portions of the device are sandwiched between the upper and lower reinforcing members and filled. However, since the upper reinforcing member is omitted, the adhesive is not constrained in the vertical direction (radial direction), and the axial displacement due to contraction and expansion due to temperature and humidity of the adhesive is further reduced. The internal stress generated in the device due to the contraction and expansion of the adhesive can be further reduced.

Still another embodiment is shown in the perspective view of the main part of FIG. As shown in the drawing, the optical fiber fusion-bonding type device 2 is housed in a reinforcing member 3-1 (not vertically divided into two as in the above embodiment) made of a cylindrical glass tube, and a syringe 5 is used.
Adhesive 4, that is, 4e is injected by the above method. When injecting the adhesive 4e, a part of the coating-side end cross section of the fusion-bonded portion 2b is a reinforcing member.
Inject so that it sticks to 3-1. Further, the adhesive 4f is injected into the covering portions 2a on both sides so that the whole covering portion 2a is fixed to the reinforcing member 3-1.

Each of the above embodiments is shown in the perspective view of FIG. 5 (the embodiment of FIG. 3 shows a case of being fixed to a metal pipe).
It is desirable that the reinforcing member 3 to which the device is fixed is inserted and held in the axial center of the other metal pipe 5 and both ends are sealed by the sealing material (not shown). By doing so, reinforcement is further strengthened to prevent moisture and dust. You can

[0017]

As described above in detail, according to the present invention,
Since it is possible to reduce the internal stress of the device due to the contraction and expansion of the adhesive, the characteristics of the device are not adversely affected, and it is possible to provide an optical fiber fusion type device having excellent temperature characteristics and moisture resistance. It has extremely useful effects in industry.

[Brief description of drawings]

FIG. 1 is a side sectional view of an embodiment according to the present invention.

FIG. 2 is an exploded perspective view showing the assembly of FIG.

FIG. 3 is a side sectional view of another embodiment according to the present invention.

FIG. 4 is a perspective view of a main part of still another embodiment according to the present invention.

FIG. 5 is a perspective view when FIG. 3 is fixed to a metal pipe.

FIG. 6 is a side sectional view according to the related art.

[Explanation of symbols]

 1 is an optical fiber cable 1a is an optical fiber core wire 2 is a device (optical fiber fusion type device) 2a is a covering portion 2b is a fusion portion 3,3c is a reinforcing member 4,4a, 4b, 4c, 4d, 4e, 4f Is an adhesive

Claims (1)

[Claims] 1. A device (2) in which the coating of the optical fiber cable (1) is removed and the exposed optical fiber core wires (1a) are aligned in parallel and they are heat-fused and stretched and integrated, Insert the device (2) through both sides of the cover (2a) and fusion (2b)
A reinforcing member (3) having a length covering up to
Both sides of the device (2) inserted in the axis of (3) (2
In (a), the entire outer periphery is fixed to the reinforcing member (3) with an adhesive (4a).
A reinforcing structure for an optical fiber fusion-bonding device, characterized in that it is fixed to the reinforcing member (3) in b).