JP6749227B2 - Ferrule, ferrule with optical fiber, and method for manufacturing ferrule with optical fiber - Google Patents

Description

The present invention relates to a ferrule, a ferrule with an optical fiber, and a method for manufacturing a ferrule with an optical fiber.

As a ferrule that holds the end of the optical fiber, an adhesive filling section with an opening for filling the adhesive is provided, and the optical fiber is fixed by filling the adhesive filling section with the adhesive. It has been known. In Patent Document 1, the end face of the optical fiber is abutted against the inner wall of the adhesive-filled portion (recess) of the ferrule, the adhesive is filled from the opening of the adhesive-filled portion, and the adhesive is cured to form the optical fiber. Fixing is disclosed.

Patent No. 5564344

Like the ferrule described in Patent Document 1, when an adhesive is filled in an adhesive filling portion (recess) having an inner wall against which the optical fiber is abutted and the adhesive is cured to fix the optical fiber, the coating is performed. Since the optical fiber is fixed at the end (naked optical fiber) of the removed optical fiber, the force for fixing the optical fiber to the ferrule is weak and the force for holding the optical fiber on the ferrule is weak. As a result, when the optical fiber is pulled, the end face of the fiber may be separated from the inner wall of the adhesive-filled portion, which may lead to an increase in transmission loss.

Further, when the adhesive is filled into the adhesive-filled portion (recess) of the ferrule described in Patent Document 1, it becomes difficult for the adhesive to reach the bottom surface of the adhesive-filled portion, and air may remain under the optical fiber. There is. In particular, when a plurality of optical fibers are arranged in parallel inside the adhesive filling section, the plurality of optical fibers serve as a barrier, and the adhesive easily accumulates on the upper side of the optical fiber, and the bottom surface of the adhesive filling section It becomes difficult for the adhesive to reach. As a result, the adhesive is not sufficiently applied between the bottom surface of the adhesive-filled portion and the optical fiber, so that the force for fixing the optical fiber to the ferrule becomes weak and the force for holding the optical fiber in the ferrule is reduced. It may become weak.

Some embodiments of the present invention aim to secure the optical fiber to the ferrule with sufficient retention.

Some embodiments of the present invention are a ferrule for holding an end portion of an optical fiber, wherein a plurality of fiber holes for inserting the optical fiber, an upper wall portion, and a lower wall facing the upper wall portion are provided. An adhesive filling portion surrounded by a wall portion, the adhesive filling for filling an adhesive applied between the optical fiber inserted into the fiber hole and an inner wall surface of the adhesive filling portion. And a plurality of upper openings provided on the upper wall portion for filling the adhesive into the adhesive filling portion, and provided on the lower wall portion outside the adhesive filling portion and the ferrule. and a lower opening multiple for venting between the said lower opening and the upper opening is a ferrule which is characterized in that it is symmetrical and opposed.

Other features of the present invention will be clarified by the description and drawings described later.

According to some embodiments of the present invention, the optical fiber may be secured to the ferrule with sufficient retention.

1A and 1B are overall perspective views of the ferrule 1 of the first embodiment. FIG. 2 is a cut perspective view of the ferrule 1 of the first embodiment. FIG. 3A to FIG. 3C are views showing a state in which the optical fiber 3 is fixed to the ferrule 1 of the first embodiment. FIG. 4A is an explanatory diagram of an optical connector 5 using the ferrule 1 (or the ferrule 1 with an optical fiber) of the first embodiment. FIG. 4B is an explanatory diagram of a state when the ferrules 1 of the first embodiment are connected to each other. FIG. 5 is a cross-sectional view of a first modification of the ferrule 1 of the first embodiment. FIG. 6 is a sectional view of a second modification of the ferrule 1 of the first embodiment. FIG. 7 is a schematic sectional view of the ferrule 1 of the second embodiment.

At least the following matters will be made clear from the description and drawings described below.

A ferrule that holds the end of an optical fiber,
A fiber hole for inserting the optical fiber,
Between the optical wall inserted into the fiber hole and an inner wall surface of the adhesive filling portion, which is an adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion. An adhesive filling section for filling the adhesive applied to the
An upper opening portion provided on the upper wall portion for filling the adhesive into the adhesive filling portion,
A ferrule characterized in that it is provided in the lower wall portion and is provided with a lower opening portion for ventilating between the adhesive filling portion and the outside of the ferrule. According to such a ferrule, the optical fiber can be fixed to the ferrule with a sufficient holding force.

It is preferable that the upper wall portion is provided with the plurality of upper opening portions, and a rib portion is formed between the upper opening portions and the upper opening portions. Thereby, the strength of the ferrule can be increased and the deformation of the ferrule can be suppressed.

It is desirable that the upper opening and the lower opening are arranged to face each other. This can prevent the ferrule from warping when the adhesive contracts.

It is preferable that the ferrule includes a recessed portion that is recessed from an end surface of the ferrule, and a lens portion that is formed in the recessed portion and that is disposed corresponding to each of the fiber holes. Thereby, the transmission loss of the optical signal can be suppressed.

The ferrule includes a ferrule main body and a prism plate, and the ferrule main body is provided with the fiber hole, the adhesive filling portion, the upper opening and the lower opening, and the prism. It is preferable that the plate has a prism portion arranged to face the lens portion and refracts an optical signal. Thereby, safety can be improved.

The ferrule has a matching agent filling portion for filling a refractive index matching agent, and the matching agent filling portion internally has an opening surface of the fiber hole and an end surface of the optical fiber facing the opening surface. It is desirable to have an abutment surface for abutting. Thereby, the refractive index matching agent can be filled between the end face and the abutting face of the optical fiber, and the transmission loss of the optical signal can be suppressed.

When the direction of the fiber hole is the front-back direction, in a state in which the end face of the optical fiber is abutted against the abutting surface, the step of the step between the bare optical fiber portion and the coating with the coating of the optical fiber removed The position in the front-rear direction is preferably between both edges of the upper opening in the front-rear direction. Thereby, the optical fiber can be fixed to the ferrule with a sufficient holding force.

The matching agent filling section has an upper opening for filling the refractive index matching agent inside, and a lower opening for ventilating between the matching agent filling section and the outside of the ferrule. Is desirable. Thereby, the generation of bubbles can be suppressed, and the transmission loss of the optical signal can be suppressed.

Optical fiber,
A ferrule with an optical fiber having a ferrule for holding the end portion of the optical fiber,
The ferrule is
A fiber hole for inserting the optical fiber,
An adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion,
An upper opening provided in the upper wall portion for filling the adhesive into the adhesive filling portion,
The lower wall portion is provided with a lower opening portion for ventilating between the adhesive filling portion and the outside of the ferrule,
The optical fiber inserted into the fiber hole is fixed to the ferrule by an adhesive applied between the upper opening and the upper wall portion and the lower wall portion. The ferrule with fiber becomes clear. According to such a ferrule with an optical fiber, the optical fiber can be fixed to the ferrule with a sufficient holding force.

A method of manufacturing a ferrule with an optical fiber,
(1) A fiber hole for inserting an optical fiber,
An adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion,
An upper opening provided in the upper wall portion for filling the adhesive into the adhesive filling portion,
Providing a ferrule provided on the lower wall portion and including a lower opening portion for ventilating between the adhesive filling portion and the outside of the ferrule,
(2) Inserting the optical fiber into the fiber hole, and (3) filling the adhesive into the adhesive filling portion through the upper opening to form the optical fiber and an inner wall surface of the adhesive filling portion. A method of manufacturing a ferrule with an optical fiber, in which the adhesive is applied between and the optical fiber is fixed to the ferrule by the adhesive, will be clarified. According to such a manufacturing method, the optical fiber can be fixed to the ferrule with a sufficient holding force.

=== First Embodiment ===
<Structure>
1A and 1B are overall perspective views of the ferrule 1 of the first embodiment. FIG. 2 is a cut perspective view of the ferrule 1 of the first embodiment.

In the following description, each direction is defined as shown in the figure. That is, the direction of the fiber hole 12 is "front-back direction", the end face side of the optical fiber 3 inserted into the fiber hole 12 is "front", and the opposite side is "rear". Further, the direction in which the two guide holes 11 of the ferrule 1 are lined up is referred to as “left-right direction”, the right side when viewed from the rear side to the front side is referred to as “right”, and the opposite side is referred to as “left”. Further, a direction perpendicular to the front-rear direction and the left-right direction is defined as “up-down direction”, the side of the opening (upper side opening 141A) for filling the adhesive in the adhesive filling portion 14 is “upper”, and the opposite side is “upper”. Down”.

The ferrule 1 is a member for holding the end portion of the optical fiber 3 and optically connecting the optical fiber 3 to other optical components. The ferrule 1 has a collar portion 1A protruding outward from the outer peripheral surface of the ferrule 1. The ferrule 1 of the first embodiment has a ferrule body 10 and a prism plate 20. However, as described later, the ferrule 1 may not have the prism plate 20.

The ferrule body 10 includes a guide hole 11, a fiber hole 12, a fiber insertion port 13, an adhesive filling portion 14 (first filling portion), a matching agent filling portion 15 (second filling portion), and a concave portion 16. The lens unit 17 and the light transmitting unit 18 are provided.

The guide hole 11 is a hole for inserting a guide pin (not shown). By inserting the guide pin into the guide hole 11, the ferrules 1 are aligned with each other. The guide hole 11 penetrates the ferrule 1 along the front-rear direction, and two guide holes 11 are opened in the connection end surface of the ferrule 1. The two guide holes 11 are arranged at intervals in the left-right direction so as to sandwich the recess 16 from the left-right direction.

The fiber hole 12 is a hole for inserting the optical fiber 3. The fiber hole 12 is a hole for positioning the optical fiber 3. The fiber hole 12 penetrates between the adhesive filling section 14 and the matching agent filling section 15. A bare optical fiber whose coating is removed from the optical fiber core is inserted into the fiber hole 12. The fiber hole 12 is formed along the front-back direction.

A plurality of fiber holes 12 are formed in the ferrule 1. The plurality of fiber holes 12 are arranged side by side in the left-right direction. The optical fibers 3 forming the optical fiber tape (optical fiber ribbon) are inserted into the respective fiber holes 12 arranged in the left-right direction. In this embodiment, there are two rows of fiber holes 12 arranged in the left-right direction. The two rows are arranged side by side in the vertical direction. However, the number of the fiber holes 12 formed in the ferrule 1 may be one or more than two.

Each fiber hole 12 has a taper portion 12A and a fiber fixing portion 12B. The tapered portion 12A is provided at the rear end portion of the fiber hole 12 and has a tapered shape that widens toward the rear side. Since the fiber hole 12 has the tapered portion 12A, it becomes easy to insert the optical fiber 3 into the fiber hole 12. The fiber fixing portion 12B is provided on the front side of the taper portion 12A and has a diameter substantially the same as the diameter of the optical fiber 3. Thereby, the optical fiber 3 inserted in the fiber hole 12 can be positioned.

The fiber insertion port 13 is an opening formed on the rear end surface of the ferrule 1. The optical fiber 3 is inserted into the ferrule 1 from the fiber insertion port 13. The fiber insertion port 13 is formed longer in the left-right direction than the width of the optical fiber tape (optical fiber ribbon). Therefore, the width of the fiber insertion port 13 in the left-right direction is longer than the length in which the plurality of fiber holes 12 are arranged in the left-right direction.

The adhesive filling portion 14 is a hollow portion for filling the adhesive. The adhesive filling section 14 is filled with an adhesive for holding the optical fiber 3 on the ferrule 1. By filling the adhesive filling portion 14 with the adhesive, the adhesive is applied between the inner wall surface of the adhesive filling portion 14 and the optical fiber 3, and the adhesive is cured to make the optical fiber 3 the ferrule 1. Will be fixed to. The adhesive filling section 14 is formed to be longer in the left-right direction than the width of an optical fiber tape (optical fiber ribbon) formed of a plurality of optical fibers 3 inserted into the fiber holes 12 arranged in the left-right direction. Therefore, the width of the adhesive filling portion 14 in the left-right direction is longer than the length in which the plurality of fiber holes 12 are arranged in the left-right direction.

The adhesive filling portion 14 is a hollow portion surrounded by the upper wall portion 14A, the lower wall portion 14B (bottom wall portion), and the pair of side wall portions 14C. The adhesive filling portion 14 is open at the rear end surface of the ferrule 1, and this opening becomes the fiber insertion opening 13. A fiber hole 12 (tapered portion 12A) is opened in the front wall portion of the adhesive filling portion 14.

An upper opening portion 141A and an upper rib portion 142A are formed in the upper wall portion 14A that constitutes the adhesive filling portion 14. The upper opening portion 141A is a through hole formed in the upper wall portion 14A and has a function as an adhesive filling window (opening portion) for filling the adhesive filling portion 14 with the adhesive. A plurality of upper openings 141A are formed in the upper wall 14A, and upper ribs 142A are formed between the upper openings 141A and 141A. Instead of forming the plurality of upper opening portions 141A in the upper wall portion 14A, it is possible to form one upper opening portion 141A that is elongated in the left-right direction. However, in this case, the ferrule 1 becomes weak in strength, and the ferrule body 10 may be deformed when the ferrule body 10 is pulled out from the mold during injection molding. Therefore, in the present embodiment, the upper opening portions 141A are arranged side by side in the left-right direction, and the upper rib portion 142A is arranged between the upper opening portions 141A and 141A to improve the strength of the ferrule 1. I am raising.

The lower wall portion 14B forming the adhesive filling portion 14 is formed with a lower opening portion 141B and a lower rib portion 142B. The lower opening portion 141B is a through hole formed in the lower wall portion 14B and has a function of ventilating between the adhesive filling portion 14 and the outside of the ferrule 1. By providing the lower opening portion 141B, as described later, the adhesive filled in the adhesive filling portion 14 from the upper opening portion 141A reaches the inner wall surface of the lower wall portion 14B (bottom surface of the adhesive filling portion 14). It becomes easy to reach, whereby the adhesive is sufficiently applied between the inner wall surface of the lower wall portion 14B and the optical fiber 3, and the optical fiber 3 can be fixed to the ferrule 1 with sufficient holding force (described later). .. A plurality of lower openings 141B are formed in the lower wall portion 14B, and a lower rib portion 142B is formed between the lower openings 141B and 141B. Instead of forming the plurality of lower openings 141B in the lower wall portion 14B, it is possible to form one lower opening 141B elongated in the left-right direction. However, in this case, the ferrule 1 becomes weak in strength, and the ferrule body 10 may be deformed when the ferrule body 10 is pulled out from the mold during injection molding. Therefore, in the present embodiment, the plurality of lower opening portions 141B are arranged side by side in the left-right direction, and the lower rib portion 142B is arranged between the lower opening portion 141B and the lower opening portion 141B, and the ferrule is formed. The strength of 1 is increased.

In this embodiment, the upper opening 141A and the lower opening 141B are arranged so as to face each other. In other words, in the present embodiment, the upper opening 141A and the lower opening 141B are arranged vertically symmetrically. As a result, the strengths of the upper wall portion 14A and the lower wall portion 14B of the ferrule 1 become approximately the same, so that even if the adhesive filled in the adhesive filling portion 14 shrinks during curing, the ferrule 1 is deformed so as to warp. Can be suppressed. If the upper opening 141A and the lower opening 141B are asymmetrically arranged, the ferrule 1 may warp and deform when the adhesive filled in the adhesive filling portion 14 contracts. is there.

The matching agent filling portion 15 is a hollow portion for filling the refractive index matching agent. The matching agent filling portion 15 is filled with an adhesive having a function as a refractive index matching agent, but it may not be an adhesive as long as it is a refractive index matching agent. The matching agent filling portion 15 is formed to be longer in the left-right direction than the width of an optical fiber tape (optical fiber ribbon) composed of a plurality of optical fibers 3 inserted into the fiber holes 12 arranged in the left-right direction. Therefore, the width of the matching agent filling portion 15 in the left-right direction is longer than the length in which the plurality of fiber holes 12 are arranged in the left-right direction.

The matching agent filling portion 15 has a fiber hole opening surface 15A and an abutting surface 15B. The fiber hole opening surface 15A is an inner wall surface on the rear side of the matching agent filling portion 15. A plurality of fiber holes 12 are opened side by side in the left-right direction on the fiber hole opening surface 15A. The abutting surface 15B is an inner wall surface on the front side of the matching agent filling portion 15, and is an opposing surface that faces the fiber hole opening surface 15A. The abutting surface 15B faces the opening of the fiber hole 12 in the fiber hole opening surface 15A and serves as a surface for abutting the end surface of the optical fiber 3.

The matching agent filling portion 15 has an upper opening 151A and a lower opening 151B. The upper opening 151A is a portion that is opened on the upper surface of the ferrule body 10, and has a function as a filling window for filling the matching agent filling portion 15 with the refractive index matching agent. The lower opening portion 151B is a portion that opens to the lower surface of the ferrule body 10, and has a function of ventilating between the matching agent filling portion 15 and the outside of the ferrule 1. The matching agent filling portion 15 may be opened only by the upper opening 151A without providing the lower opening 151B. However, in this case, the refractive index matching agent easily accumulates on the upper side of the optical fiber 3, and as a result, the refractive index matching agent does not easily reach the bottom surface of the matching agent filling portion 15, and bubbles are formed in the matching agent filling portion 15. It will be easier. Further, if there are bubbles in the matching agent filling portion 15, an air layer (bubbles) is likely to be formed on the end surface of the optical fiber 3, and the loss of optical signals may increase.

The recessed portion 16 is a portion that is recessed with respect to the front end surface of the ferrule body 10. The recess 16 is provided between the two guide holes 11 on the front end surface of the ferrule body 10. The recess 16 is formed in a rectangular shape elongated in the left-right direction so as to correspond to the plurality of fiber holes 12.

The lens portion 17 is provided on the bottom surface (rear surface) of the recess 16. The lens section 17 is arranged corresponding to each of the plurality of optical fibers 3 (in other words, the plurality of fiber holes 12), and an optical signal is input/output through the lens section 17. The lens unit 17 is formed so as to function as a collimator lens, for example. The transmission loss of the optical signal can be suppressed by inputting and outputting the optical signal whose diameter is enlarged by the lens unit 17.

The light transmitting portion 18 is a portion (a portion where an optical path is formed) that transmits an optical signal between the front end surface (specifically, the lens portion 17) of the ferrule body 10 and the abutting surface 15B of the matching agent filling portion 15. is there. In the present embodiment, the ferrule body 10 is integrally molded with a transparent resin that transmits an optical signal, but it is sufficient that at least the light transmitting portion 18 serving as an optical path can transmit an optical signal. The other parts may be made of another material (a material that does not transmit an optical signal).

The prism plate 20 is an optical member for refracting an optical signal. The prism plate 20 has a prism portion 21 and a flat surface portion 22. The prism portion 21 is a portion configured by an inclined surface that is inclined with respect to the front-rear direction, and is a portion that refracts an optical signal. The inclined surface forming the prism portion 21 is arranged to face the lens portion 17 in the front-rear direction. In the present embodiment, the prism portion 21 has inclined surfaces that are inclined in mutually opposite directions, and the central portion (top portion) in the vertical direction of the prism portion 21 projects rearward. The flat surface portion 22 is a portion formed by a flat surface perpendicular to the front-rear direction and serves as a surface for inputting and outputting optical signals. As shown in FIG. 4A, which will be described later, an optical signal emitted from the lens portion 17 in parallel with the front-rear direction is refracted by the prism portion 21 and emitted from the flat portion 22 in a direction inclined with respect to the front-rear direction. .. In addition, as shown in FIG. 4B described later, an optical signal that is incident on the plane portion 22 from a direction inclined with respect to the front-rear direction is refracted by the prism portion 21 in parallel in the front-rear direction and is incident on the lens portion 17. Become.

The prism plate 20 is fixed to the front end surface of the ferrule body 10 so that the prism portion 21 faces the rear side (the side of the ferrule body 10) (see FIG. 2 ). In the present embodiment, the top of the prism portion 21 enters the recess 16 of the ferrule body 10. Thereby, the prism portion 21 and the lens portion 17 can be brought as close as possible to each other, and the ferrule 1 can be downsized.

<Fixing method of optical fiber 3>
FIG. 3A to FIG. 3C are views showing a state in which the optical fiber 3 is fixed to the ferrule 1 of the first embodiment. In these figures, sectional views of the ferrule 1 of the first embodiment are shown. The ferrule 1 with an optical fiber is shown in FIG. 3C.

First, as shown in FIG. 3A, the ferrule 1 is prepared. Then, the ferrule 1 is set on a jig (not shown). It should be noted that this jig is configured so as not to block the lower opening 141B and the lower opening 151B of the lower surface of the ferrule 1 for ventilation.

Next, the pretreatment of the optical fiber 3 is performed. Specifically, the coating of each optical fiber 3 (optical fiber core wire) of the optical fiber tape is removed, and the end portion of the optical fiber 3 is adjusted so that the bare optical fiber with the coating removed has a predetermined length. Be cut.

Next, as shown in FIG. 3B, each optical fiber 3 is inserted into the fiber hole 12, and the end face of the optical fiber 3 is abutted against the abutting face 15B. At this time, after the end surface of the optical fiber 3 is projected from the fiber hole opening surface 15A and before it is abutted on the abutting surface 15B, the matching agent filling portion 15 is washed with air to wash the end surface of the optical fiber 3. Is desirable. This makes it possible to remove dust and the like attached to the end surface of the optical fiber 3 when the optical fiber 3 is passed through the fiber hole 12.

In the present embodiment, when the end surface of the optical fiber 3 is abutted against the abutting surface 15B, as shown in FIG. 3B, the end portion of the coating of the optical fiber 3 (between the bare optical fiber portion with the coating removed and the coating). 3A) is arranged below the upper opening 141A of the adhesive filling portion 14. In other words, in the present embodiment, the front edge of the upper opening 141A is located on the front side of the stepped portion 3A of the optical fiber 3 whose end face abuts the abutting surface 15B, and the rear edge of the upper opening 141A is a front edge. The upper opening 141A is formed so as to be located on the rear side of the stepped portion 3A of the optical fiber 3 whose end face abuts on the abutting face 15B. That is, when the end surface of the optical fiber 3 is abutted against the abutting surface 15B, the position of the step portion 3A of the optical fiber 3 in the front-rear direction is the upper opening 141A of the adhesive filling portion 14 as shown in FIG. 3B. It is between the front and rear edges. If the front edge of the upper opening 141A is located rearward of the stepped portion 3A of the optical fiber 3, only the optical fiber 3 in the portion below the upper opening 141A and having the coating is provided. Since there is almost no gap between the optical fibers 3 on the lower side of the upper opening 141A, a bare optical fiber having many gaps (this bare optical fiber is located on the front side of the upper opening 141A). Since it becomes difficult for the adhesive to reach the upper surface of the plurality of optical fibers 3, the adhesive easily accumulates on the upper side of the plurality of optical fibers 3. It becomes difficult to reach the bottom surface of the agent filling portion 14). Further, if the rear edge of the upper opening 141A is located in front of the stepped portion 3A of the optical fiber 3, only the bare optical fiber should be arranged below the upper opening 141A. Therefore, since the gap between the optical fibers 3 below the upper opening 141A is too large, the adhesive easily leaks from the lower opening 141B.

Next, as shown in FIG. 3C, while the adhesive filling portion 14 is filled with the adhesive from the upper opening 141A, the matching agent filling portion 15 is filled with the refractive index matching agent from the upper opening 151A.

The adhesive filled from the upper opening portion 141A of the adhesive filling portion 14 first penetrates between the inner wall surface of the upper wall portion 14A and the optical fiber 3 and is applied. The adhesive filled from the upper opening 141A of the adhesive filling portion 14 reaches the inner wall surface of the lower wall portion 14B (bottom surface of the adhesive filling portion 14) through the gap of the bare optical fiber. At this time, since the lower opening 141B of the adhesive filling portion 14 functions as a ventilation hole, the adhesive is less likely to accumulate on the upper side of the plurality of optical fibers 3, and the adhesive is less likely to accumulate on the inner wall surface of the lower wall 14B. It becomes easy to reach the bottom surface of the agent filling portion 14, and thus, the adhesive is sufficiently applied between the inner wall surface of the lower wall portion 14B and the optical fiber 3. In addition, since the lower opening portion 141B of the adhesive filling portion 14 functions as a ventilation hole, the adhesive easily reaches the lower side, so that the adhesive is provided between the inner wall surface of the lower wall portion 14B and the optical fiber 3. There is also an advantage that the time until the adhesive is sufficiently applied can be shortened.

In the present embodiment, since the lower opening 141B of the adhesive filling portion 14 functions as a ventilation hole, the adhesive easily reaches the lower side, so that it is possible to use an adhesive having a viscosity of about 50 cp. If the lower opening 141B is not provided, the adhesive does not easily reach the lower side, so that it is necessary to use an adhesive having a viscosity of 5 cp or less, for example. Therefore, in this embodiment, the adhesive with which the adhesive filling section 14 is filled preferably has a viscosity of 50 cp or less.

The refractive index matching agent filled from the upper opening 151A of the matching agent filling section 15 is filled in the matching agent filling section 15 through the gap of the optical fiber 3 and is provided between the end surface of the optical fiber 3 and the abutting section. Penetrate into the gap. At this time, since the lower opening 151B of the matching agent filling portion 15 functions as a ventilation hole, it becomes difficult for the refractive index matching agent to collect on the upper side of the plurality of optical fibers 3, and bubbles are formed on the lower side of the optical fibers 3. Is less likely to occur (air is less likely to remain below the optical fiber 3). Further, since the lower opening 151B of the matching agent filling portion 15 functions as a ventilation hole, the refractive index matching agent easily reaches the lower side of the optical fiber 3, so that the filling time of the refractive index matching agent can be shortened. There are also advantages.

After the adhesive is filled in the adhesive filling portion 14 as shown in FIG. 3C, the ferrule 1 is heated to cure the adhesive. In the present embodiment, since the adhesive is sufficiently applied between the inner wall surface of the adhesive filling portion 14 (in particular, the inner wall surfaces of the upper wall portion 14A and the lower wall portion 14B) and the optical fiber 3, After curing, the optical fiber 3 can be fixed to the ferrule 1 with a sufficient holding force. When the refractive index matching agent is made of an adhesive, the refractive index matching agent is also cured when the adhesive of the adhesive filling portion 14 is cured. The adhesive (and the refractive index matching agent) may be an ultraviolet curable resin instead of the thermosetting resin. In this case, when curing the adhesive, ultraviolet rays are irradiated instead of heating. By thus curing the adhesive and fixing the optical fiber 3 to the ferrule 1, the ferrule with optical fiber 1 is manufactured.

FIG. 3D is an explanatory diagram of a comparative example. In the comparative example, the lower opening 141B is not formed in the lower wall portion 14B of the adhesive filling portion 14. For this reason, the plurality of optical fibers 3 act as a barrier, and the adhesive filled from the upper opening 141A easily accumulates on the upper side of the plurality of optical fibers 3, and the inner wall surface of the lower wall 14B (the adhesive filling portion 14). It becomes difficult to reach the bottom). Further, in the comparative example, the lower opening 151B is not formed in the matching agent filling portion 15. Therefore, the plurality of optical fibers 3 act as a barrier, and the refractive index matching agent filled from the upper opening 151A is likely to accumulate on the upper side of the plurality of optical fibers 3, leaving air below the optical fibers 3. Therefore, an air layer is likely to be formed between the end surface of the optical fiber 3 and the abutting surface 15B, which may increase the loss of the optical signal.

<Optical connector 5 using ferrule 1>
FIG. 4A is an explanatory diagram of an optical connector 5 using the ferrule 1 (or the ferrule 1 with an optical fiber) of the first embodiment.

The optical connector 5 includes the ferrule 1 and the housing 7 described above. The housing 7 is a member that accommodates the ferrule 1 described above. The wall surface of the housing 7 is formed so as to project to the front side of the ferrule 1.

The optical signal emitted from the end surface of the optical fiber 3 becomes collimated light whose diameter is enlarged by the lens portion 17 of the ferrule 1, and is emitted from the lens portion 17 toward the lens plate parallel to the front-rear direction. An optical signal emitted from the lens unit 17 in parallel with the front-rear direction is refracted by the prism unit 21 and emitted from the plane unit 22 in a direction inclined with respect to the front-rear direction. The optical signal emitted from the flat surface portion 22 is applied to the wall surface (inner wall surface) of the housing 7 to prevent the optical signal from leaking to the outside of the optical connector 5. As a result, it is possible to prevent the optical signal from being emitted to the human eye, and to provide the safe optical connector 5.

FIG. 4B is an explanatory diagram of a state when the ferrules 1 of the first embodiment are connected to each other. In the figure, the ferrules 1 arranged so as to face each other are shown. Here, the planar portions 22 of the prism plate 20 are shown to be in contact with each other, but the planar portions 22 of the prism plate 20 may not be in contact with each other.

An optical signal emitted from the flat surface portion 22 of one ferrule 1 in a direction inclined with respect to the front-back direction is incident on the flat surface portion 22 of the other ferrule 1 and is parallel to the front-back direction by the prism portion 21 of the other ferrule 1. The light is refracted and enters the lens unit 17. The optical signal (collimated light) incident on the lens unit 17 is converged by the lens unit 17 and is incident on the end face of the optical fiber 3.

As described above, even when the optical signal is obliquely emitted from the ferrule 1 shown in FIG. 4A and the side wall of the housing 7 is irradiated with the optical signal, as shown in FIG. By arranging the ferrules 1 to face each other, the optical fibers 3 can be optically connected to each other.

<Modification>
FIG. 5 is a cross-sectional view of a first modification of the ferrule 1 of the first embodiment. In the above-described embodiment, the ferrule 1 is composed of the ferrule main body 10 and the prism plate 20, but the ferrule 1 of the first modified example does not include the prism plate 20 (is composed of only the ferrule main body 10). ..

FIG. 6 is a sectional view of a second modification of the ferrule 1 of the first embodiment. In the above-described embodiment, the ferrule 1 has the matching agent filling portion 15 for filling the refractive index matching agent, and the optical fiber 3 is provided on the abutting surface 15B which is the inner wall surface of the matching agent filling portion 15. It was hit. On the other hand, the ferrule 1 of the second modified example does not include the matching agent filling portion 15 and therefore does not include the abutting surface 15B, and the end face of the optical fiber 3 is exposed from the front end face of the ferrule 1. It is configured. In the ferrule 1 of the second modification, the end faces of the ferrule 1 are abutted against each other, and the end faces of the optical fiber 3 are physically brought into contact with each other for optical connection.

In the first modified example and the second modified example as well, the ferrule 1 includes the fiber hole 12, the adhesive filling portion 14, the upper opening 141A for filling the adhesive filling portion 14 with the adhesive, and the lower opening. Section 141B. Also in the first modification and the second modification, the adhesive filled from the upper opening portion 141A of the adhesive filling portion 14 first permeates between the inner wall surface of the upper wall portion 14A and the optical fiber 3, Will be applied. Further, at this time, since the lower opening portion 141B of the adhesive agent filling portion 14 functions as a ventilation hole, it becomes difficult for the adhesive agent to collect on the upper side of the plurality of optical fibers 3, and the adhesive agent does not accumulate on the inner wall surface of the lower wall portion 14B. It easily reaches the (bottom surface of the adhesive filling portion 14 ), whereby the adhesive is sufficiently applied between the inner wall surface of the lower wall portion 14 B and the optical fiber 3. Therefore, also in the first modified example and the second modified example, sufficient adhesive is provided between the inner wall surface of the adhesive filling portion 14 (in particular, the inner wall surfaces of the upper wall portion 14A and the lower wall portion 14B) and the optical fiber 3. The optical fiber 3 can be fixed to the ferrule 1 with sufficient holding force.

=== Second Embodiment ===
The ferrule 1 of the second embodiment has a reflection part 19. Then, the reflection section 19 reflects the optical signal to transmit the optical signal.

FIG. 7 is a schematic sectional view of the ferrule 1 of the second embodiment. The same components as those in the first embodiment are designated by the same reference numerals.

In the second embodiment, the optical element is provided on the substrate or the photoelectric conversion module, and the ferrule 1 is fixed via a holder (not shown) so as to face the optical element. Examples of the optical element include a light emitting element such as a semiconductor laser or a light receiving element such as a photodiode.

The ferrule 1 of the second embodiment is formed of a resin that transmits an optical signal, like the ferrule body 10 of the first embodiment. In the second embodiment, the lower surface of the ferrule 1 is the ferrule end surface, and optical signals are input and output through the lower surface of the ferrule 1. The light transmitting portion 18 is provided with a reflecting portion 19. The reflecting portion 19 has an inclined surface that approaches the matching agent filling portion 15 from the lower surface side toward the upper surface side.

When the optical element is a light emitting element, the reflecting section 19 reflects the light incident from the ferrule end surface toward the end surface of the optical fiber 3. When the optical element is a light receiving element, the light emitted from the end face of the optical fiber 3 is reflected toward the optical element. In this way, the reflector 19 reflects the optical signal in order to change the optical path.

Also in the second embodiment, the ferrule 1 includes the fiber hole 12, the adhesive filling portion 14, the upper opening 141A for filling the adhesive filling portion 14 with the adhesive, and the lower opening 141B. ing. Also in the second embodiment, the adhesive filled from the upper opening portion 141A of the adhesive filling portion 14 first permeates between the inner wall surface of the upper wall portion 14A and the optical fiber 3 and is applied. Become. Further, at this time, since the lower opening portion 141B of the adhesive agent filling portion 14 functions as a ventilation hole, it becomes difficult for the adhesive agent to collect on the upper side of the plurality of optical fibers 3, and the adhesive agent does not accumulate on the inner wall surface of the lower wall portion 14B. It easily reaches the (bottom surface of the adhesive filling portion 14 ), whereby the adhesive is sufficiently applied between the inner wall surface of the lower wall portion 14 B and the optical fiber 3. Therefore, also in the second embodiment, it is possible to sufficiently apply the adhesive between the inner wall surface of the adhesive filling portion 14 (in particular, the inner wall surfaces of the upper wall portion 14A and the lower wall portion 14B) and the optical fiber 3. Therefore, the optical fiber 3 can be fixed to the ferrule 1 with a sufficient holding force.

=== Others ===
The above embodiments are for facilitating the understanding of the present invention and are not for limiting the interpretation of the present invention. It goes without saying that the present invention can be modified and improved without departing from the spirit thereof and that the present invention includes equivalents thereof.

1 ferrule, 1A collar part,
3 optical fiber, 3A step,
5 optical connectors, 7 housing,
10 ferrule body, 11 guide hole,
12 fiber hole, 12A taper part, 12B fiber fixing part,
13 fiber insertion port, 14 adhesive filling section,
14A upper wall,
141A upper opening, 142A upper rib,
14B lower wall portion (bottom wall portion),
141B lower opening, 142B lower rib,
14C side wall,
15 Matching agent filling section,
15A fiber hole opening surface, 15B abutting surface,
151A upper opening, 151B lower opening,
16 concave parts, 17 lens parts,
18 light transmitting part, 19 reflecting surface,
20 prism plate,
21 prism part, 22 flat part,

Claims (8)

A ferrule that holds the end of an optical fiber,
A plurality of fiber holes for inserting the optical fiber,
Between the optical wall inserted into the fiber hole and an inner wall surface of the adhesive filling portion, which is an adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion. An adhesive filling section for filling the adhesive applied to the
A plurality of upper openings provided in the upper wall portion for filling the adhesive in the adhesive filling portion,
Provided in the lower wall portion, and a lower opening multiple for venting between the outside of the ferrule and the adhesive filling unit,
The ferrule, wherein the upper opening and the lower opening are arranged symmetrically and opposite to each other . The ferrule according to claim 1 , wherein
Ferrule, wherein a rib is formed between the before and SL upper opening upper opening. The ferrule according to claim 1 or 2 , wherein
A recessed portion from the end surface of the ferrule,
A ferrule, comprising: a lens portion formed in the recess and arranged corresponding to each of the fiber holes. The ferrule according to claim 3 ,
The ferrule includes a ferrule body and a prism plate,
The ferrule body is provided with the fiber hole, the adhesive filling portion, the upper opening and the lower opening,
The ferrule, wherein the prism plate has a prism portion arranged to face the lens portion and refracts an optical signal. The ferrule according to any one of claims 1 to 4 ,
The ferrule has a matching agent filling portion for filling a refractive index matching agent,
The matching agent-filled portion has therein an opening surface of the fiber hole and an abutting surface for abutting the end surface of the optical fiber facing the opening surface. The ferrule according to claim 5 ,
The matching agent filling section has an upper opening for filling the refractive index matching agent inside, and a lower opening for ventilating between the matching agent filling section and the outside of the ferrule. Ferrule characterized by. Optical fiber,
A ferrule with an optical fiber having a ferrule for holding the end portion of the optical fiber,
The ferrule is
A plurality of fiber holes for inserting the optical fiber,
An adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion,
A plurality of upper openings provided in the upper wall portion for filling the adhesive into the adhesive filling portion;
A plurality of lower opening portions provided on the lower wall portion for ventilating between the adhesive filling portion and the outside of the ferrule ,
The upper opening and the lower opening are arranged symmetrically and oppositely,
The optical fiber inserted into the fiber hole is fixed to the ferrule by an adhesive applied between the upper opening and the upper wall portion and the lower wall portion, the light characterized in that Ferrule with fiber. A method of manufacturing a ferrule with an optical fiber,
(1) A plurality of fiber holes for inserting an optical fiber,
An adhesive filling portion surrounded by an upper wall portion and a lower wall portion facing the upper wall portion,
A plurality of upper openings provided in the upper wall portion for filling the adhesive into the adhesive filling portion;
Provided in the lower wall portion, it said and a lower opening multiple for venting between the adhesive filling part and the outside of the ferrule, the lower opening and the upper opening is symmetrical and providing a ferrule that is opposed,
(2) Inserting the optical fiber into the fiber hole, and (3) filling the adhesive into the adhesive filling portion through the upper opening to form the optical fiber and an inner wall surface of the adhesive filling portion. A method of manufacturing a ferrule with an optical fiber, comprising applying the adhesive between the ferrule and the ferrule, and fixing the optical fiber to the ferrule with the adhesive.

Images