JPS5991407A - Optical fiber holder - Google Patents

Abstract

PURPOSE:To guide an optical fiber in the center of a hollow groove by forming a V-shaped hollow groove in a high trapezoidal surface part, and forming adjacently to each other a V-shaped press part to fit contrapositively in the hollow groove in the high trapezoidal surface part and a guide projecting part to superpose contrapositively on the low trapezoidal surface part on the bottom surface of a retaining member. CONSTITUTION:V-shaped hollow grooves 6, 7, 8 are formed straightly in one array on a high trapezoidal surface part 3 and low trapezoidal surface parts 4, 5 on the top surface of a support base. A V-shaped press part 9 to be fitted into the hollow groove 6 in the part 3 and guide projecting parts 10, 11 which position adjacently to the part 9 and are used to be projected onto both parts 4, 5 are respectively formed on the bottom surface of a retaining member 2. An optical fiber A removed of covering is fitted across the grooves 6, 7, 8 of the support base 1 and thereafter the member 2 is put on the base 1 and the part 9 is fitted into the groove 6 of the part 3 and superpose the parts 10, 11 on the parts 4, 5. The press part 9 projecting longer than the parts 10, 11 press the fiber A into the groove 6. The fiber A is guided to the center of the groove 6 by the parts 10, 11.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an optical fiber holding device used for fusion splicing of optical fibers.

When fusion splicing optical fibers, a support base having a V-shaped groove on its upper surface is often used, and a holding member having a V-shaped push part is also used together with the support base.

In other words, the concave groove of the support base can be machined with high precision, and the end of the optical fiber has good stability when inserted into the concave groove, and the ability to align the mutual axis of the optical fibers during fusion splicing is high. .

On the other hand, the holding member prevents the end of the optical fiber fitted into the groove from unintentionally coming out of the groove, and firmly presses the end of the optical fiber into the groove.

However, since both the groove of the support base and the pressing portion of the presser member are V-shaped, the following problems frequently occur.

This will be briefly explained below using the first drawing.

In the case of Fig. 1 (A), the optical fiber (especially the end part) A is fitted into the groove C of the support base B in a normal state, and the pressing part E of the presser member is in the groove C. However, this condition can only be obtained when the optical fiber A is settled at the center of the groove C. For example, when the optical fiber A is pressed down from the center of the groove C, If it springs up to the out-of-position position, when the pusher E of the presser foot member is inserted into the groove C, the slope of the pusher E' and the slope of the groove C' will be distorted as shown in Figure 1 (b). The optical fiber A will be caught between them, making it impossible to obtain a proper axis alignment position for the optical fiber A.

The main cause of the bounce is distortion of the coating near the end of the optical fiber, and this distortion occurs when the optical fiber is clamped through a holder for butt movement.

Of course, if a situation like that shown in FIG. 1(b) occurs, it will be a major bottleneck since correction work will have to be carried out many times using a microscope until the proper state is obtained.

The present invention has been made to solve the above problems, and its configuration will be explained below with reference to illustrated embodiments.

In FIGS. 2 and 3, (1) is a support base for fitting and receiving an optical fiber, and (2) is a holding member for holding down the optical fiber.

The upper surface of the support base (1) in the above is formed with an elevated surface portion (3) at the center in the longitudinal direction.
) are formed on both sides of the low base surface portions (41+51 (V)).

Furthermore, in these high base surface part (3) and low base surface part (41+51), each ■-shaped groove t61 +71 +81 is formed in a straight line.
The bottoms of the grooves are at the same height, and the elevated surface part (3)
The concave groove (6) is the concave groove (71+
Compared to No. 81, the groove width and groove depth are larger.

On the other hand, the lower surface of the holding member (2) has a V-shaped push part (9) for fitting into the groove (6) of the elevated surface part (3), and a V-shaped push part (9) on both sides of the push part (9). Guide convex portions 0ω (111) are formed to protrude above both low base portions (41+5), and the width of these guide convex portions QOIαD is larger than the width of the groove (6).

When the present invention comprises the above-described embodiment, the end portion of the optical fiber from which the coating has been removed (hereinafter simply referred to as optical fiber A) is inserted into each groove (6) (71+) of the support base (1) as shown in FIG.
81, cover the support base (1) with the presser part cover (2), fit the presser part (9) into the groove (6) of the elevated surface part (3), and then press the guide convex part 00. )αD is the low base part (
41+51, and in this case, the pushing part (9), which has a longer protrusion length than the guide convex part 001a11, presses the optical fiber A into the concave groove (6). Meanwhile, the guide protrusion α0) (lυ) guides the optical fiber A appropriately to the center of the groove (6).

Figure 4 shows the situation in which optical fiber A is guided to the center of the groove (6). Even if it is located at point 21 in Figure 4, the guide convex portion Qt)0. As υ decreases, the optical fiber A is pushed down to the lower part of the groove (6), and at the time of this pushing, the optical fiber A is pushed along the ■-shaped slope of the groove (6). It will shift to the center P2 side of the groove.

Therefore, when the holding member (2) is placed on the support base (1) and the holding member (2) is pressed down using the holding member (9) to press the optical fiber A into the groove (6), the optical fiber A is pushed into the guide convex portion (10) 01.
), so that the optical fiber A can be accurately held at the center of the groove (6).

In addition, in the above embodiment, two low base surface parts (41 (51) are formed on the upper surface of the support base (11);
Either one of 41+51 may be omitted, and correspondingly both guide openings (101 (111
One of them is also omitted.

In addition, the depression groove (7) +81 of the low base surface part +41 (51) may be omitted, and furthermore, in the case of illustration, the push part (9
) has a larger protrusion length than the guide protrusion 00)■, but the protrusion lengths of these champions +91 +lotαυ may be considered to be the same.

FIGS. 5 and 6 show an example in which the presser member (2) placed above the support base (1) is attached to the lifting mechanism. To briefly explain this, the presser member (2) A shaft 03) is erected on the upper surface of the vessel by a universal joint configuration via a sphere 07J, and the upper end of the shaft 03 is internally movable into the vessel aΦ. A downward elastic force is applied to the container via a spring a, and the container a is attached to an elevating arm IJQ of an elevating mechanism (not shown).

When the holding member (2) is attached to the elevating mechanism in this way, it is elastically pressed against the support base (1), and the optical fiber A is prevented from being damaged by an impactful holding force. It disappears.

As explained above, the present invention includes a support base for fitting and receiving an optical fiber, and a holding member for pressing the optical fiber, and a high base surface portion and a low base surface portion are adjacent to each other on the upper surface of the support base. These elevated surfaces,
A V-shaped groove is formed in at least the elevated surface of the low surface, and a V-shaped push portion that fits in and pairs with the groove in the elevated surface is formed on the lower surface of the holding member. It is characterized in that guide convex portions having a width larger than the concave groove and overlapping with the low base surface portion to form a pair are formed adjacent to each other, so that the optical fiber can be inserted into the concave groove on the high base surface portion. When pressing this with the pressing part of the pressing member,
The optical fiber can be guided to the center of the concave groove through the guide protrusion, and therefore, in the case of the present invention, the optical fiber can be held by the support base and the holding member without requiring any skill. Work efficiency is improved by always being able to perform the work properly and without failure.

[Brief explanation of the drawing]

Fig. 1 ((A) and (B) are explanatory diagrams of the conventional example, Fig. 2 is a perspective view of the support stand and presser member in the device of the present invention, and Figs. 3 and 4 are explanatory diagrams showing an example of use of the same as above. Figure, Figure 5, Figure 6
The figures are a front view and a sectional view of a main part showing an example of mounting the presser foot in the same as above. (1) ...Supporting stand (2) ...Press member (3) ...High surface section +41 +51 ...Low surface section (6) ...High surface section Concave groove (71+81... Concave groove (9) on the low base part...
...Pushing part θ01 (Ill...Guiding convex part A...1, Optical fiber 3: Trace 1MJ (A) (B) No. 5m Figure 6 Continued from page 1 0 Inventor Masaharu Haibara Ibaraki Ibaraki Telecommunications Research Institute, Nippon Telegraph and Telephone Public Corporation, 162 Shirakata Shirane, Tokai-mura, Naka-gun, Prefecture 0 Author: Masao Tatsuzo ■Applicant Nippon Telegraph and Telephone Public Corporation -A-

Claims (4)

[Claims] (1) Consisting of a support base for fitting and receiving an optical fiber and a holding member for holding down the optical fiber, a high base surface portion and a low base surface portion are formed adjacent to each other on the upper surface of the support base. A V-shaped groove is formed on at least the high surface of the high and low surfaces, and a V-shaped groove is formed on the lower surface of the presser member to form a mating pair with the groove on the high surface. and a guiding protrusion having a width larger than the concave groove width of the high base surface part and overlapping with the low base surface part to form a pair are formed adjacent to each other. (2) Low base surface portions are formed on the upper surface of the support base on both sides of the high base surface portion, and guide convex portions are formed on both sides of the press portion on the lower surface of the presser member. Optical fiber holding device as described in . (3) Claim 1, in which V-shaped grooves are formed in a straight line across the high base surface portion and the low base surface portion.
The optical fiber holding device according to item 1 or 2. (4) The optical fiber holding device according to claim 3, wherein the concave groove on the high base surface portion has a groove width larger than that on the low base surface portion.