JPS6365410A - Structure of optical fiber lens assembly - Google Patents

Abstract

PURPOSE:To improve the accuracy of optical axis aligning between a fiber holder and a lens by abutting the lens inserted into a lens hole of the holder upon the edge part of the holder hole opened to a thin bottom part of the lens hole to make the optical axis of the lens coincide with the axis of the holder hole. CONSTITUTION:An optical fiber 12 is accurately arranged so as to be coaxial with the holder hole 15 by accurately engaging the fiber holder 11 with the holder hole 15 of the holder 11. Since a part, e.g. the 1st part 15a, of the holder hole 15 of the holder 14 is expanded up to the thin bottom part 16a of the lens hole 16 and opened to the thin bottom part 16a, the optical axis of the lens 13 can be made to coincide with the axis of the holder hole 15 by abutting the spherical part of the lens 13 inserted into the lens hole 16 of the holder 14 upon the edge part of the 1st part 15a of the holder hole 15 opened to the thin bottom part 16a of the lens hole 16. Consequently, the common holder hole 15 is used as a reference and the lens 13 and the fiber holder 11 can be accurately and coaxially arranged.

Description

[Detailed Description of the Invention] [Summary] The present invention has a non-adjustable optical fiber/lens assembly structure that includes a fiber holder holding an optical fiber in the center and a lens having a larger diameter than the fiber holder. In a non-adjustable fiber optic lens assembly structure with a holder for the holder, the holder is provided with a lens hole having a shallow bottom and a deep bottom, and a portion of the holder hole that receives the fiber holder is located at the shallow bottom of the lens hole. By opening the lens, the lens and the fiber holder can be arranged coaxially with respect to the common holder hole.

[Industrial application field]

The present invention relates to an optical fiber lens assembly structure, and more particularly to an improvement in a non-adjustable optical fiber lens assembly structure for coaxially positioning and holding a fiber holder that holds an optical fiber in the center and a lens.

[Prior art and its problems]

FIG. 7 shows an example of a conventional assembly structure of a fiber holder and a lens. In this assembly structure, a cylindrical fiber holder 2 having an optical fiber 1 coaxially fixed to the center thereof is fitted into a holder hole a opened at one end surface of the holder 3. On the other hand, a cylindrical lens holder 5 with a lens 4 fixed therein is loosely fitted into a lens hole 3b opened on the other end surface of the holder 3 and fixed to the holder 3 with an adhesive 6. The holder hole 3a has a smaller diameter than the lens hole 3b, and the holder hole 3a opens at the bottom of the lens hole 3b. A ring-shaped holder stopper 7 having an inner diameter smaller than that of the holder hole 3a is screwed onto the bottom of the lens hole 3b.

In the case of the above assembly structure, after adjusting the position of the lens holder 5 with respect to the holder 3 so that the lens holder 5 and fiber holder 2 are in the optimal position, it is necessary to fix the lens holder 5 to the holder 3 with the adhesive 6. There is. Therefore, there are disadvantages in that the adjustment work is troublesome and a holding jig is required for adjustment. Moreover, there is a drawback that the number of parts is large and the manufacturing cost is high.

On the other hand, FIG. 8 shows a conventional non-adjustable optical fiber lens assembly structure. In this assembly structure, a cylindrical fiber holder 2 having an optical fiber 1 coaxially fixed to the center thereof is fitted into a holder hole a opened at one end surface of the holder 3. On the other hand, a hole 3c having the same diameter as the holder hole 3a is opened at the bottom of a lens hole 3b opened on the other end surface of the holder 3, and a lens 4 having spherical surfaces at both ends is loosely fitted into the lens hole 3b. The spherical portion is brought into contact with the edge of the hole 3c and fixed to the holder 3 with an adhesive 6. A holder stopper portion 8 having an inner diameter smaller than the holder hole 3a is formed integrally with the holder 3 between the hole 3c and the holder hole 3a.

In the case of the above assembly structure, the spherical part of the lens 4 is inserted into the hole 3c.
By abutting the edge of the holder hole 3a and the hole 3c, the optical axis of the lens 4 can be made to align with the axis of the hole 3c, so there is no need to adjust the position of the lens 4.
It is extremely difficult to process these coaxially. In other words, since the holder 3 is generally small with an outer diameter of several millimeters, it is manufactured by integral molding. It is necessary to arrange the core having a diameter coaxially with each other within the mold. However, in reality, it is difficult to improve the accuracy of optical axis alignment between the optical fiber 1 and the lens 4 because positional deviations tend to occur.

In view of the above problems, an object of the present invention is to provide a non-adjustable optical fiber/lens assembly structure that can improve the accuracy of optical axis alignment between a fiber holder and a lens.

[Means for solving problems]

According to the present invention, the above object includes a holder for holding a fiber holder holding an optical fiber in the center and a lens having a larger diameter than the fiber holder, and one end surface of the holder receives the fiber holder. A cylindrical holder hole is opened on the other end surface of the holder, and a cylindrical lens hole for receiving a lens is opened on the other end surface of the holder.
diametrically opposed portions of the holder hole each open into the shallow bottom of the lens hole, and the remaining portions of the holder hole each open into the shallow bottom of the lens hole. A light having a deep bottom part and a bottom part spaced apart from each other, and a holder stopper part having an inner surface smaller in diameter than the holder hole is formed between the bottom part of the holder hole and the deep bottom part of the lens hole. This is achieved through a fiber lens assembly structure.

[For production]

In the optical fiber lens assembly structure according to the present invention, by precisely fitting the fiber holder into the holder hole of the holder, the optical fiber can be arranged coaxially with the holder hole. On the other hand, since the holder hole of the holder partially extends to the shallow end of the lens hole and opens at the shallow end, the holder hole allows the lens inserted toward the lens of the holder to open at the shallow bottom of the lens hole. By bringing the lens into contact with the end edge of the lens, the optical axis of the lens can be aligned with the axis of the holder hole. Therefore, the lens and the fiber holder can be coaxially arranged with the common holder hole as a reference.

The holder of the optical fiber lens assembly structure according to the present invention uses a combination of a core having an outer circumferential surface corresponding to the inner circumferential surface of the lens hole and a core having an outer circumferential surface corresponding to the inner circumferential surface of the holder hole. Therefore, integral molding is possible and manufacturing is easy. Furthermore, since the inner circumferential surface of the holder hole can be formed with high precision using a single core, there is no possibility that the optical axes of the fiber holder and the lens will be misaligned.

〔Example〕

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 to 5 show one embodiment of the present invention. First, referring to FIG. 1, an optical fiber 12 is held coaxially at the center of a fiber holder 11 having a cylindrical outer peripheral surface. Both end surfaces of a drum-shaped lens 13 having a larger diameter than the fiber holder 11 form a common spherical surface.

A holder 14 for holding the fiber holder 11 and the lens 13 has a cylindrical holder hole 15 for receiving the fiber holder 11 and a cylindrical lens hole 16 for receiving the lens 13 in a loosely fitted state. The holder hole 15 opens at one end surface of the holder 13, and the lens hole 16 opens at the other end surface of the holder 13. Although the holder hole 15 and the lens hole 16 are formed substantially coaxially, high coaxial precision is not required.

As can be seen from FIGS. 1 and 2, the lens hole 16 has two shallow bottoms 16a facing each other in the diametrical direction, and these shallow bottoms 16a are 1/4 of the circumferential direction of the lens hole 16. They each occupy an area. Also, lens hole 16
has two deep bottoms 16b each occupying a circumferential quarter section between the two shallow bottoms 16a.

On the other hand, as shown in Figures 1 and 3, the holder hole 1
5 includes two first portions 15a that are diametrically opposed and each occupy a quarter section in the circumferential direction, and two second portions 15b that occupy a quarter section in the circumferential direction between the first portions 158. Each of the first portions 15a of the holder hole 15 opens into a shallow bottom portion 16a of the lens hole 16. Also,
The second portion 15b of the holder hole 15 has a bottom portion 15c spaced apart from the deep bottom portion 16b of the lens hole 16, and a holder hole is provided between the bottom portion 15c of the holder hole 15 and the deep bottom portion 16b of the lens hole 16, respectively. A holder stopper portion 17 having an inner diameter smaller than that of holder stopper portion 15 is formed.

Furthermore, a hole 18 is formed in the holder 14 and opens into the outer peripheral surface of the holder 14 and the lens hole 16.

In the optical fiber lens assembly structure having the above configuration, by precisely fitting the fiber holder 11 into the holder hole 15 of the holder 14, the optical fiber 12
can be arranged precisely coaxially with respect to the holder hole 15. On the other hand, since a part of the holder hole 15 of the holder 14, that is, the first portion 15a extends to the shallow bottom 16a of the lens hole 16 and opens into the shallow bottom 16a, the holder 1
By bringing the spherical part of the lens 13 inserted into the lens hole 16 of No. 4 into contact with the edge of the first portion 15a of the holder hole 15 that opens into the shallow bottom 16a of the lens hole 16, the optical axis of the lens 13 It can be made to coincide with the axis of the holder hole 15. Therefore, the lens 13 and the fiber holder 11 can be precisely arranged coaxially with the common holder hole 15 as a reference.

Thereafter, preferably the solder 19 is applied from the hole 18 to the lens hole 16.
The lens 13 is firmly soldered to the holder 14.

The holder can be manufactured by integral molding.

4 to 6 show the shape of a core 20, 21 placed in a mold (not shown) for forming the holder 14. FIGS. As shown in FIGS. 4 and 6, one core 20 has an outer peripheral surface 20 corresponding to the inner peripheral surface of the lens hole 16 of the holder 14.
a, and also has a shallow bottom 16a of the lens hole 16.
and an end surface portion 20c for forming the deep bottom 16b of the lens hole 16.

On the other hand, as shown in FIGS. 4 to 6, the other core 2
1 has an outer circumferential surface 22 corresponding to the inner circumferential surface of the holder hole 15, and this outer circumferential surface 22 corresponds to the first portion 15 of the holder hole 15.
It consists of a first part 22a corresponding to the holder hole 15 and a second part 22b corresponding to the second part 15b of the holder hole 15. The first portion 22a and the second portion 22b are each 1 in the circumferential direction.
occupies 4 sections. Further, as shown in FIG. 5, the core 21 has an end surface portion 23 for forming the end portion 15C of the holder hole 15, and an end surface portion 24 that comes into contact with the end surface portion 20b of the core 20. ing. Furthermore, the core 21 has a groove 25 for forming the inner surface of the holder stopper part 17, and this groove 25 extends to the end face part 23. The core 20 is formed to be able to engage with the groove 25.

FIG. 6 shows a state in which two cores 20 and 21 are combined, and between the end surface portion 20c of the core 20 and the end surface portion 23 of the core 21, a holder stopper portion 17 is formed. A recess is secured.

When the holder 14 is integrally molded using such two cores 20 and 21, the entire inner peripheral surface of the holder hole 15 can be formed with high precision by a single core 21, so that the fiber holder There is no possibility that the optical axes of lens 11 and lens 13 will be misaligned.

Although the illustrated embodiments have been described above, the present invention is not limited to only the embodiments of the above embodiments, and changes may be made to the shapes etc. of each component within the scope of the invention described in the claims. For example, the ratio of the lengths of the shallow bottom and deep bottom in the circumferential direction of the lens hole may be changed. Further, the lens may be a perfect spherical body.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, by bringing the lens inserted into the lens hole of the holder into contact with the edge of the holder hole that opens at the shallow bottom of the lens hole,
The optical axis of the lens can be made to coincide with the axis of the holder hole, and the lens and the fiber holder can be precisely arranged coaxially with the common holder hole as a reference. Moreover, the holder can be easily integrally molded by using a combination of a core having an outer circumferential surface corresponding to the inner circumferential surface of the lens hole and a core having an outer circumferential surface corresponding to the inner circumferential surface of the holder hole. In addition, since the inner peripheral surface of the holder hole can be formed with high precision using a single core, there is no risk of misalignment of the optical axis between the fiber holder and the lens, resulting in an optical fiber/lens assembly structure. can be provided.

[Brief explanation of drawings]

1 is a sectional view taken along line A-A in FIG. 2 of an optical fiber lens assembly structure showing an embodiment of the present invention; FIG. 2 is a left end view of the holder shown in FIG. 1; The figure is the first
Figure 4 is an exploded perspective view of the two cores used when integrally molding the holder; Figure 5 is a perspective view of one of the cores shown in Figure 4 from a different direction. FIG. 6 is a perspective view showing a state in which the two cores shown in FIG. 4 are joined together, and FIGS. 7 and 8 are sectional views showing a conventional optical fiber lens assembly structure, respectively. In the figure, 11 is a fiber holder, 12 is an optical fiber, 13 is a lens, 14 is a holder, 15 is a holder hole, 15
a is the first part, 15b is the second part, 15c is the bottom, 16
is the lens hole, 16a is the shallow bottom, 16b is the deep bottom, 1
7 indicates a holder stopper portion, and 20.21 indicates a core.

Claims (1)

[Claims] 1. A fiber holder (11) holding an optical fiber (12) in the center and a lens (
A holder (14) for holding a fiber holder (13) and a cylindrical holder hole (15) for receiving a fiber holder (11) is opened at one end surface of the holder (14). A cylindrical lens hole (16) for receiving the lens (13) is opened at the end surface, and the lens hole (16)
has two shallow bottoms (16a) diametrically opposed to each other and two deep bottoms (16b) between the shallow bottoms, and a part (15a) of the holder hole (15) is connected to the shallow bottom (16b) of the lens hole. 16a), the remainder (15b) of the holder hole (15) having a bottom (15c) spaced apart from the deep bottom (16b) of the lens hole, and the bottom (15c) of the holder hole and the lens hole deep bottom (16
An optical fiber lens assembly structure characterized in that a holder stopper portion (17) having an inner surface smaller in diameter than the holder hole (15) is formed between the holder hole (15) and the holder stopper portion (17). 2. The shallow bottom (16a) and deep bottom (16b) of the lens hole (16) each occupy 1/4 section in the circumferential direction, and the 1/4 section in the circumferential direction opposite to the diametrical direction of the holder hole (15) 2. The optical fiber lens assembly structure according to claim 1, wherein each of the /4 section portions (15a) opens into a shallow bottom portion (16a) of the lens hole.