JP2000258656A - Ferrule for optical fiber connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ferrule for an optical connector adapted to surely adhere and fix an optical fiber near to the front end face of the ferrule. SOLUTION: This ferrule for the optical connector has an optical fiber insertion part 10 extending inward from an optical connection port 5 formed at the front end face 1a. The optical fiber insertion part 10 has an optical fiber positioning hole 4 extending from an optical connection port 5 and an adhesive packing hole 6 which extends backward from the optical fiber positioning hole 4 and has the diameter expanded larger than the diameter of the optical fiber positioning hole 4. The front end of the adhesive packing hole 6 is positioned near the front end face 1a.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ferrule for an optical connector used for connecting optical fibers to each other.

[0002]

2. Description of the Related Art Conventionally, as a technique in such a field, there is Japanese Patent Publication No. 2519748. The ferrule described in this publication has an optical fiber guide hole and an optical fiber core guide hole inside the ferrule, the optical fiber core guide hole is made larger than the optical fiber guide hole, and the optical fiber is inserted into the ferrule. It is easy to insert into.

[0003]

However, the above-described conventional ferrule for an optical connector has the following problems. That is, in the conventional optical connector, after the coating of the optical fiber is removed by a heater or the like, the optical fiber is inserted into an optical fiber ferrule on which the adhesive has been previously dropped, and the adhesive is further dropped. The ferrule for use and the optical fiber were bonded and fixed, and then the end surface of the optical fiber was finished by precision polishing. Therefore, the adhesive spreads sufficiently in the optical fiber positioning hole, and the optical fiber can be fixed in the ferrule. However,
Recently, a new non-polishing type optical connector has been proposed in which the front end surface of an optical fiber cut by an optical fiber cutting machine is directly attached to a ferrule. In such a type of optical connector, the ferrule and the optical fiber must be firmly bonded and fixed over the whole while maintaining stable characteristics, but in the conventional ferrule, an optical fiber having substantially the same diameter as the optical fiber is used. Due to the length of the positioning hole, even if the cut optical fiber is inserted into the ferrule, the adhesive cannot flow into the vicinity of the tip of the optical fiber. There was a problem that fixation was not sufficiently achieved.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. In particular, it is an object of the present invention to provide a ferrule for an optical connector in which an optical fiber is securely adhered and fixed to a position near a front end face of a ferrule. Aim.

[0005]

According to a first aspect of the present invention, there is provided a ferrule for an optical connector having an optical fiber insertion portion extending inward from an optical connection port formed in a front end face. In the optical fiber insertion section,
An optical fiber positioning hole extending from the optical connection port; and an adhesive filling hole extending rearward from the optical fiber positioning hole and having a diameter larger than the diameter of the optical fiber positioning hole. Is located near the front end face.

In this ferrule for an optical connector,
As a result of the adhesive filling hole having a large diameter extending near the front end face of the ferrule, the optical fiber can be fixed to the ferrule with a sufficient amount of adhesive. Further, the optical fiber positioning hole is formed to have substantially the same diameter as the optical fiber in order to achieve the centering of the optical fiber, and in such an optical fiber positioning hole, a free portion where the optical fiber is not bonded is generated. Will be. However, in this ferrule, the optical fiber is positively bonded and fixed to the vicinity of the front end face of the ferrule by the large-diameter adhesive filling hole, so that the non-bonded area of the optical fiber generated in the optical fiber positioning hole is formed. Is extremely reduced. Therefore, when the optical fiber is bonded and fixed to the ferrule, the free portion of the optical fiber, which is extremely susceptible to a temperature change, can be reduced, the characteristic stabilization of the optical fiber is achieved, and high reliability is secured. Becomes possible.

In the second aspect of the present invention, it is preferable that the length of the optical fiber positioning hole is 0.3 mm or less. In this case, the length of the optical fiber positioning hole where the non-bonded area of the optical fiber is formed is 0.3 mm.
It is extremely small as follows. this is,
If the free portion of the optical fiber exceeds 0.3 mm, the position of the tip surface of the optical fiber will change excessively due to temperature changes, and the optical transmission characteristics of the optical fiber will be uncertain. It has been confirmed that, in optical connection between optical connectors, there is a high possibility of adversely affecting the optical connection characteristics of the optical fiber. In particular, when this ferrule is used in an optical connector of a type in which the tip end surface of an optical fiber is buried in an optical connection port of a ferrule, the occurrence of such a problem becomes conspicuous.

In the ferrule for an optical connector according to the third aspect, it is preferable that the length of the optical fiber positioning hole is 1.0 mm or less. When the length of the optical fiber positioning hole in which the non-adhesion region of the optical fiber is formed is set to 1.0 mm or less, the non-adhesion region is filled with a sufficient refractive index matching agent, or the GI fiber has In some cases,
It is suitable when the movement of the tip surface of the optical fiber is slightly large and does not significantly affect the optical characteristics.

In the ferrule for an optical connector according to the present invention, it is preferable that the adhesive filling hole is connected to the optical fiber positioning hole via a funnel-shaped filling part which forms a part of the hole. When such a configuration is employed, the funnel-shaped filling portion is used as a guide hole for the optical fiber, and the optical fiber is easily inserted into the optical fiber positioning hole.

In the ferrule for an optical connector according to the present invention, it is preferable that the adhesive filling hole is connected to the optical fiber positioning hole through a step-like filling portion which forms a part of the hole. When such a configuration is adopted, the step-like filling portion makes it easy to insert the optical fiber into the optical fiber positioning hole, and at the filling portion, the adhesive easily flows toward the front end face of the ferrule.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a ferrule for an optical connector according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a plan view showing a ferrule for an optical connector according to the present invention, and FIG. 2 is a front view of the ferrule. Ferrule 1 for optical connector shown in these drawings
Is used for an MT connector, and is integrally formed of resin. The ferrule 1 is fixed to the distal end portion of a tape-shaped optical fiber core (also referred to as a “tape core”) 2 having eight (eight cores) optical fibers 3 made of glass. This is a component that enables optical connection. The optical connector 30 is constituted by attaching the tape core 2 to the ferrule 1 (FIG. 6).
reference).

As shown in FIGS. 1 to 3, on the front end face 1a of the ferrule 1, eight optical connection ports 5 having a diameter of 126 μm to 127 μm with respect to an optical fiber 3 having a diameter of 125 μm are arranged in a horizontal line. It is formed so as to be aligned. Further, inside the ferrule 1, there is provided an optical fiber insertion portion 10 extending from each optical connection port 5 toward the inside. Each optical fiber insertion portion 10 has the same diameter as each optical connection port 5 and extends linearly from each optical connection port 5, and linearly extends rearward from each optical fiber positioning hole 4. It has an adhesive filling hole 6 which extends and has a diameter larger than the diameter of each optical fiber positioning hole 4. Also,
The optical fiber positioning hole 4 has substantially the same diameter as the optical fiber 3 in terms of positioning the distal end portion of the optical fiber 3 and achieving centering. The adhesive filling hole 6 is expanded to a diameter of 250 μm to 400 μm with respect to the optical fiber positioning hole 4 having a diameter of about 126 μm.

Further, inside the ferrule 1, an optical fiber inlet 11 for fixing a rubber boot B (see FIG. 6) attached to the covering portion F of the optical fiber core wire 2 is provided at a rear portion thereof. Have been. Between the optical fiber inlet 11 and the optical fiber positioning hole 4, there is provided an optical fiber bonding recess 7 for accommodating an adhesive R having a low viscosity (for example, about 1000 cps).
An adhesive filling window 8 forming a rectangular opening for pouring the adhesive is formed at the top of the substrate. The recess 7 is formed inside the ferrule 1 toward the front end face 1a.
Has an inner hole 7A that enlarges the volume of the hole. The middle hole portion 7 </ b> A enlarges the area filled with the adhesive R while maintaining the warpage strength of the entire resin ferrule 1.

Eight optical fiber alignment grooves 9 are formed on the bottom surface 7a of the concave portion 7 and extend over substantially the entire length thereof.
Each optical fiber alignment groove 9 is located on an extension of the optical fiber positioning hole 4 and extends between the optical fiber positioning hole 4 and the optical fiber inlet 11. In the front end surface 1a of the ferrule 1, guide pin insertion holes 12 for inserting guide pins (not shown) are formed on both sides of the eight optical connection ports 5 (see FIG. 2).

Here, as shown in FIG. 4, the tip end of the adhesive filling hole 6 having a large diameter is located near the front end surface 1a of the ferrule 1. The optical fiber positioning hole 4 is formed in the ferrule 1 with a length of 0.3 mm from the front end face 1a.
Is provided so as to be continuous. This adhesive filling hole 6
Is provided with a funnel-shaped filling portion 13 in consideration of the ease of insertion of the optical fiber 3.
Is formed longer than the optical fiber positioning hole 6. Then, except for the filling portion 13, the adhesive filling hole 6
Is formed to be about 2 to 4 times larger than the diameter of the optical fiber positioning hole 6, so that a sufficient amount of the adhesive R can be secured and the optical fiber 3 can be securely fixed to the ferrule 1.

With such a configuration, FIGS.
As shown in (1), after the optical fiber 3 was inserted into the optical fiber insertion portion 10 so that the distal end face 3a of the optical fiber 3 was buried in the optical connection port 5 of the ferrule 1, it was injected from the adhesive filling window 8. Even when the adhesive R is filled in the optical fiber insertion section 10, the inside of the optical fiber insertion section 10
The adhesive R can be poured into the vicinity of the front end face 1a of the ferrule 1. At this time, as shown in FIG. 5, the distal end surface 3a of the optical fiber 3 is located in the optical fiber positioning hole 4, and a free portion 3A where the optical fiber 3 is not bonded occurs in the optical fiber positioning hole 4. By making the optical fiber positioning hole 4 as small as possible, the non-bonded area of the optical fiber 3 becomes extremely small. As a result, when the optical fiber 3 is bonded and fixed to the ferrule 1, the free portion 3A of the optical fiber 3, which is extremely susceptible to a change in temperature, is reduced, and the characteristic stabilization of the optical fiber 3 is achieved. Can be ensured.

The length of the optical fiber positioning hole 4 in which the non-bonded area of the optical fiber 3 is formed is extremely small, such as 0.3 mm or less. This is the optical fiber 3
When the free portion 3A exceeds 0.3 mm, the amount of expansion and contraction of the optical fiber 3 due to temperature change becomes excessive, and the position of the distal end face 3a of the optical fiber 3 in the optical fiber positioning hole 4 is difficult to stabilize. Therefore, if the end face interval between the end face of the optical fiber in the ferrule (not shown) on the other side and the end face 3a of the optical fiber 3 in the ferrule 1 in FIG. Needless to say, For example, in the ferrule 1 used in an environment where a temperature change of several tens degrees occurs, the free portion 3A of the optical fiber 3 is inserted into the optical fiber positioning hole 4
The length of the optical fiber positioning hole 4 becomes a problem due to the arrangement in the inside.

When the refractive index matching agent K is sufficiently filled in the optical fiber positioning hole 4, or when the GI
In the case of a fiber or the like, the distal end face 3 of the optical fiber 3
Since the optical characteristics are not significantly affected even if the amount of movement of “a” is slightly large, the length of the optical fiber positioning hole 4 is 1.0 mm.
mm or less. However, when the refractive index matching agent K is not sufficiently filled, the refractive index matching agent K also moves with the movement of the optical fiber 3, and the larger the amount of movement of the optical fiber 3, the larger the refractive index matching agent K. In this case, the optical fiber positioning hole 4 is 0.3 mm
The following is preferred.

Here, the reason why the length of the optical fiber positioning hole 4 is set to 0.3 mm or less is that the linear expansion coefficient of the ferrule 1 (10 to 15 × 10 ⁻⁶ ) and the linear expansion coefficient of the optical fiber 3 (0 to 10 × 10 ⁻⁶ ). .2 × 10 ⁻⁶ ), considering the temperature range of ± 50 ° C., the amount of movement of the distal end face 3 a with respect to the temperature change of the optical fiber 3 is 0.3 to 0.5 μm in length. It is possible to have stable optical characteristics.

In the optical connector of the type in which the distal end surface 3a of the optical fiber 3 is drawn into the ferrule 1, the connection between the optical connectors is taken into consideration, and the refractive index matching agent is provided in the optical connection port 5 of the ferrule 1. K is filled. However, the refractive index matching agent K may be used after being cleaned and removed as necessary.

The ferrule for an optical connector of the present invention is not limited to the embodiment described above. For example, in the ferrule 20 according to another embodiment, as shown in FIG. 7, two-stage cylindrical filling portions 15 having different diameters may be formed at the tip of the adhesive filling portion 6. As described above, when the tip portion of the adhesive filling portion 6 is configured to be squeezed stepwise,
The adhesive R flows easily at the filling portion 15, and the adhesive R can be reliably fed to the vicinity of the front end surface 1a of the ferrule 1 (see FIG. 8).

[0023]

Since the ferrule for an optical connector according to the present invention is constituted as described above, the following effects can be obtained. That is, in an optical connector ferrule having an optical fiber insertion portion extending inward from an optical connection port formed on the front end face, the optical fiber insertion portion includes an optical fiber positioning hole extending from the optical connection port, With an adhesive filling hole extending rearward from the optical fiber positioning hole and having a diameter larger than the diameter of the optical fiber positioning hole, the tip of the adhesive filling hole is located near the front end face. The optical fiber can be securely bonded and fixed to the vicinity of the front end face of the ferrule.

[Brief description of the drawings]

FIG. 1 is a plan view showing an embodiment of a ferrule for an optical connector according to the present invention.

FIG. 2 is a front view of the ferrule shown in FIG.

FIG. 3 is a sectional view of the ferrule shown in FIG. 1;

FIG. 4 is an enlarged sectional view of a main part of the ferrule according to the present invention.

FIG. 5: Insert an optical fiber into the optical fiber insertion section,
It is sectional drawing which shows the state which adhered and fixed.

FIG. 6 is a cross-sectional view showing an optical connector completed by attaching an optical fiber to the ferrule according to the present invention.

FIG. 7 is an enlarged sectional view of a main part showing another embodiment of the ferrule for an optical connector according to the present invention.

8 is a cross-sectional view showing a state in which the optical fiber is bonded and fixed in the optical fiber insertion section shown in FIG.

[Explanation of symbols]

1, 20: ferrule, 1a: front end face, 3: optical fiber, 4: optical fiber positioning hole, 5: optical connection port, 6: adhesive filling hole, 10: optical fiber insertion portion, 13, 15: filling portion, R: adhesive.

Continued on the front page (72) Inventor Tomohiko Ueda 1 Tayacho, Sakae-ku, Yokohama-shi, Kanagawa Prefecture Inside Sumitomo Electric Industries, Ltd. (72) Inventor Toshiaki Kakii 1-Tagamachi, Sakae-ku, Yokohama-shi, Kanagawa Sumitomo Electric Industries Co., Ltd. (72) Inventor Masaaki Takaya 3-19-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo Japan Telegraph and Telephone Corporation (72) Shinji Nagasawa 3-192-2, Nishi-Shinjuku, Shinjuku-ku, Tokyo Japan F-term in Telegraph and Telephone Corporation (reference) 2H036 JA02 LA03 LA07 QA12 QA23 QA49

Claims (5)

[Claims] 1. A ferrule for an optical connector having an optical fiber insertion portion extending inward from an optical connection port formed on a front end face, wherein the optical fiber insertion portion includes a light extending from the optical connection port. A fiber positioning hole, and an adhesive filling hole extending rearward from the optical fiber positioning hole and having a diameter larger than the diameter of the optical fiber positioning hole, wherein a tip of the adhesive filling hole is the front end. A ferrule for an optical connector, wherein the ferrule is located near a surface. 2. The optical fiber positioning hole has a length of 0.
2. The ferrule for an optical connector according to claim 1, wherein said ferrule is 3 mm or less. 3. The optical fiber positioning hole has a length of 1.
The ferrule for an optical connector according to claim 1, wherein the ferrule is set to 0 mm or less. 4. The optical fiber positioning hole according to claim 1, wherein the adhesive filling hole is connected to the optical fiber positioning hole via a funnel-shaped filling portion forming a part of the hole. The ferrule for an optical connector according to the item. 5. The optical fiber positioning hole according to claim 1, wherein the adhesive filling hole is connected to the optical fiber positioning hole through a step-like filling part that forms a part of the adhesive filling hole. The ferrule for an optical connector according to the item.