JPH0651158A - Method for curing adhesive for optical connector - Google Patents

Abstract

PURPOSE:To improve the characteristics, reliability and workability of a connector by inserting optical fibers into the fiber holes of an optical connector ferrule before a UV curing type adhesive starts curing, then curing the adhesive. CONSTITUTION:The front ends of the optical fibers 8 from which coverings are removed are inserted into the central part of V-grooves 3. A small amt. of the UV curing type adhesive 6 is then dropped to a connector window part 2 and is applied to the front end of the optical fibers 8. The connector window part 2 is preirradiated with UV rays for several seconds. The optical fibers 8 from which the coatings are removed are pushed down to the last before the adhesive 6 starts curing after preirradiation with UV rays. As a result, the optical fibers 8 are pushed, by which the UV curing type adhesive 6 is packed between the fiber holes 4 and the optical fibers 8 as well. The adhesive 6 is then packed into the connector window part 2 and is applied on the end face of the optical connector ferrule as well. The connector window part 2 and the end face of the optical optical fiber ferrule are irradiated again with the UV rays, by which the adhesive is cured and solidified.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of curing an adhesive for fixing an optical fiber and an optical connector ferrule when assembling an optical connector for connecting an optical fiber.

[0002]

2. Description of the Related Art Currently, in order to provide broadband services such as CATV and high-definition television, the construction of a subscriber optical line network connecting a telephone station and a subscriber is being actively promoted. To construct this subscriber optical line network, optical fiber cables and optical fiber connection technology are important.

This optical fiber cable uses an optical fiber tape in which a plurality of optical fiber element wires are collectively covered, and further, a multi-core optical connector for connecting these at the same time has been developed so that it can be connected all at once. Work efficiency has improved dramatically.

FIG. 3 is a cross-sectional view of the coated optical fiber, and FIG. 4 is a cross-sectional view of a four-core optical fiber tape in which the four optical fibers shown in FIG.

3 and 4, 8 is an optical fiber, and 9 is
Is an optical fiber coating, and 10 is a collective coating.

Methods for connecting optical fibers include fusion splicing and connector connection.

The fusion splicing is a method of connecting optical fibers by electric discharge, and the connector connection is performed by inserting and fixing the optical fibers in a connector plug made with high precision, and using these two plugs with fitting pins or the like. It is a method of connecting by adjusting the axes.

FIG. 5 is a perspective view of a connection example of a multi-fiber optical connector. In FIG. 5, 1 is an optical connector ferrule, 2 is a connector window portion, 3 is a V groove, 4 is a fiber hole, 5 is a fitting pin hole, 7 is an optical fiber tape, 11 is a fitting pin, and 12 is a connector clip. , V-grooves are provided according to the number of optical fibers in the optical fiber tape.

As shown in FIG. 5, a plurality of optical fibers can be collectively connected by abutting the optical connector ferrule 1 in the direction of the arrow through the fitting pin 11 and fastening it with the connector clip 12.

To assemble this optical connector, the optical fiber coating is removed, the optical fiber is inserted into the optical connector ferrule 1,
There are four steps: adhesion and edge polishing. In the bonding process among them, there is filling of the adhesive and curing of the adhesive, which is the most time-consuming process in the optical connector assembly. This uses a thermosetting adhesive as the adhesive and takes 1
This is because it takes about 0 minutes.

In the bonding step, the optical fiber 8 from which the optical fiber coating 9 and the collective coating 10 have been removed is inserted into the optical connector ferrule 1 and the adhesive is filled in the connector window portion 2 and the fiber hole 4 and then heated for about 10 minutes. Let it harden. The filling of the adhesive into the fiber hole is performed by pressing the optical fiber with the adhesive removed and the coating removed in the connector window.
An adhesive is put in the gap between the inner wall of the fiber hole and the optical fiber.

[0012]

However, even if the adhesive is hardened by thermosetting in the bonding step,
It took about a minute and the workability was poor. This is because a thermosetting adhesive is used in consideration of the adhesive strength and reliability of the optical fiber and the optical connector ferrule, and the thermosetting adhesive that satisfies the above requirements and cures in a short time. This is because there is no mold adhesive. That is,
For the type that cures in a short time, the adhesive strength between the optical fiber and the optical connector ferrule is weak, or the adhesive strength decreases when a long-term high temperature and high humidity test assuming the environment in which the optical connector is used, This is because there is a problem in reliability such as an increase in light loss. Therefore, even if the time is sacrificed, a thermosetting adhesive having high adhesive strength and high reliability is used.

On the other hand, as an adhesive other than the thermosetting adhesive, there is an ultraviolet curable adhesive. What is this UV curable adhesive?
It is cured in a short time by irradiating with ultraviolet rays. However, when the optical connector is assembled by using the ultraviolet curing type, there is a drawback that the adhesive filled in the fiber hole is not cured and the optical fiber in that portion is not fixed. That is, since the optical connector ferrule is used outdoors, it is made of black plastic in consideration of weather resistance and the like, and the optical fiber outer diameter and the fiber hole inner diameter are 1 to 2 μm.
This is because the adhesive agent that has entered the gap portion is not exposed to ultraviolet rays and the portion is uncured. If there is this uncured portion, the transmission characteristics and reliability of the optical connector will be significantly deteriorated.
Therefore, for the above reason, the UV curable adhesive was not used.

In order to solve the above two problems, an object of the present invention is to provide a method for curing an adhesive which can cure an optical fiber in a fiber hole of an optical connector ferrule with a fast curing time. It is in.

[0015]

According to the present invention, an ultraviolet curable type which is cured by irradiation of ultraviolet rays is used as an adhesive, and the adhesive is preliminarily applied to a portion to be inserted into a fiber hole of an optical connector ferrule of an optical fiber. The optical fiber is inserted into the fiber hole of the optical connector ferrule and cured before the adhesive is applied and irradiated with ultraviolet rays to start the curing of the adhesive.

[0016]

According to the method for curing an adhesive for an optical connector of the present invention, an ultraviolet curable adhesive which is cured in an extremely short time by irradiating with an ultraviolet ray is used and is inserted into a fiber hole of an optical connector ferrule of an optical fiber. The adhesive is applied to the part to be cured, and curing is initiated by irradiating with ultraviolet light for a short time.Therefore, if the optical fiber is inserted into the fiber hole before completely curing, the adhesive will be cured in the fiber hole. The optical fiber can be fixed in the fiber hole.

[0017]

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a bonding process diagram in the optical connector assembly, and the work is carried out in the order of (1), (2), (3) and (4).

In FIG. 1, 1 is an optical connector ferrule, 2 is a connector window portion, 3 is a V groove, 4 is a fiber hole, and 5 is a fiber hole.
Is a fitting pin hole, 6 is an adhesive, 7 is an optical fiber tape, 8
Is an optical fiber.

FIG. 2 is a sectional view taken along the line AA 'in FIG. 1 (2). There is a gap of about 1 to 2 μm between the outer diameter of the optical fiber 8 and the inner diameter of the fiber hole 4. Is filled with the adhesive 6 and the optical fiber 8 is fixed.

(1) The tip of the optical fiber from which the coating has been removed is inserted to the central portion of the V groove portion (central portion of the connector window portion). Next, a small amount of the ultraviolet curable adhesive 6 is dropped on the connector window portion 2 and applied to the tip of the optical fiber. After application, the connector window portion 2 is preliminarily irradiated with ultraviolet rays for several seconds (hereinafter referred to as pre-irradiation).

(2) After the pre-irradiation with ultraviolet rays, the optical fiber from which the coating is removed is pushed to the end before the adhesive starts to cure. As a result, the ultraviolet curable adhesive is filled between the fiber hole 4 and the optical fiber 8 so as to be pushed by the optical fiber 8. The state at this time is shown in FIG. 2, and the ultraviolet curable adhesive enters into a small gap between the outer diameter of the optical fiber and the inner diameter of the fiber hole. The UV-curable adhesive used here has a characteristic that it starts a chemical reaction even if it is irradiated with UV light for a short period of time, and then the reaction proceeds even if UV light does not hit, so that UV light does not directly hit the fiber hole. The chemical reaction proceeds and the adhesive cures.

(3) Next, the adhesive is filled in the connector window portion 2 and is also applied to the end face of the optical connector ferrule, and the connector window portion 2 and the end face of the optical connector ferrule are again irradiated with ultraviolet rays to cure and cure. Fix it.

(4) After completely cured, the optical fiber 8 projecting from the end face of the optical connector ferrule is cut at the boundary with the adhesive to complete the bonding process.

After the above-mentioned bonding process is completed, the end face of the optical connector ferrule is polished.

The results of experiments using the method of the present invention will be described. First, the experiment was conducted using a method using an ultraviolet curable adhesive and not performing pre-irradiation. At that time, the adhesive in the connector window was cured and fixed in 2 minutes on average. However, when this sample was cut along the line AA ′ in FIG. 1 (2), the uncured UV-curable adhesive oozed out from the fiber hole. This is because, as described above, the ultraviolet rays do not reach the gap between the optical fiber and the fiber hole, and the resin is uncured. Further, the connector window was irradiated with ultraviolet rays for 10 minutes, but the ultraviolet ray curable adhesive still oozes out from the fiber hole portion and is not cured.

On the other hand, pre-irradiation of ultraviolet rays was carried out for 5 seconds by the pre-irradiation method of the present invention, and the same experiment as described above was carried out. The adhesive in the connector window portion was on average 2 minutes as in the previous experiment. Cured and fixed. Also, as in the previous experiment, A
The UV curable adhesive that has entered the fiber hole is cured when cut between -A ', and there is no phenomenon that the adhesive oozes out, and the optical fiber in the fiber hole can be obtained by the method of the present invention. It was confirmed that can be cured and fixed.

In general, the reaction rate of an ultraviolet-curable adhesive is increased by heat, so that the curing / fixing time can be shortened by carrying out the method of the present invention while heating.

[0029]

As described in detail above, according to the present invention, when the ultraviolet curable adhesive is used, it is cured in an extremely short time by irradiating with ultraviolet rays, and the optical fiber is the fiber of the optical connector ferrule. By performing pre-irradiation before inserting into the hole, the optical fiber can be surely fixed in the fiber hole of the optical connector ferrule, so that the characteristics, reliability, and workability of the connector are significantly improved. It has a great effect.

Further, the effect that the working time can be further shortened can be expected by performing the heating steps in parallel.

[Brief description of drawings]

FIG. 1 is a bonding process diagram in optical connector assembly.

FIG. 2 is a sectional view taken along the line AA ′ in FIG.

FIG. 3 is a sectional view of an optical fiber.

FIG. 4 is a cross-sectional view of a 4-fiber optical fiber tape.

FIG. 5 is a perspective view of a connection example of an optical connector.

[Explanation of symbols]

 1 Optical Connector Ferrule 2 Connector Window 3 V Groove 4 Fiber Hole 5 Fitting Pin Hole 6 Adhesive 7 Optical Fiber Tape 8 Optical Fiber 9 Optical Fiber Coating 10 Collective Coating 11 Fitting Pin 12 Connector Clip

Claims (1)

[Claims] 1. A method of curing an adhesive for fixing an optical fiber in a fiber hole of an optical connector ferrule by applying an ultraviolet curable adhesive to a portion of the optical fiber to be inserted into the fiber hole. Before irradiating with ultraviolet rays to start the curing of the adhesive, the optical fiber is inserted into the fiber hole and cured, and the optical fiber is fixed in the fiber hole of the optical connector ferrule. A method for curing an adhesive for an optical connector.