JPH02275909A - Fiber clamp for constant polarization optical fiber fusion splicing device - Google Patents

Abstract

PURPOSE:To improve the efficiency of the fusion splicing operation for an optical fiber by providing a cover holding means which holds a cover at two upper and lower stage positions and equalizing the total weight of the clamp, the ball joint, a supporting rod, and a clamping spring to the clamping force of a small-diameter optical fiber. CONSTITUTION:When the cover 8 is lifted to the upper-stage position about the supporting arm 6 and held on the supporting arm 6 by the holding means, the clamping spring 8 becomes free. When the supporting arm 6 is lifted in this state, the tip of the optical fiber is pressed in the V groove of a V block V and clamped with the force of the total weight of the clamp 2, ball joint 3, supporting rod 4, and clamping spring 9. Then the clamp force to the small- sized optical fiber (f) can be optimized by equalizing the total weight of the clamp 2, ball joint 3, supporting rod 4, and clamping spring 9 to the clamping force to the small-diameter optical fiber (f). Consequently, the operation is made extremely easy and what is called one operation is enabled.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a fiber clamp for a fusion splicer for polarization-controlled optical fibers. About what moves
The correspondence to both large diameter fibers (e.g. 1257 zm) and small fiber diameters (e.g. 80 μm) is n
Along with making it into J-Noh.

The clamping force can be adjusted very easily to change the wire diameter.

[Prior art and problems] The tip of a polarized optical fiber is fitted into the V-groove of a block with a ■-shaped groove (hereinafter referred to as "■ block"), and the tip of the optical fiber is held and clamped with a ■-shaped clamp. ,
Rotate the optical fiber in a clamped state to align the rotational direction, and then slide the optical fiber in the axial direction against the V block and clamp and push it out to fuse and join the two optical fibers together. There is.

In this clamp device, while meeting the requirement of gripping and stabilizing the tip of the optical fiber with a clamp,
It makes it possible to allow the optical fiber to rotate and slide in the axial direction within V 1flt of the V block in a clamped state, and also meets the requirement of applying as little force to the optical fiber as possible. for,
It is necessary to reduce the rotational and sliding resistance of this optical fiber as much as possible. The adjustment of these forces is extremely delicate.

The required lamp force for an optical fiber differs depending on the wire diameter. Therefore, it is common to use separate clamps for large diameter and small diameter clamps. When using the same clamp, it is necessary to replace the clamp spring in order to adjust the clamping force, and this replacement of the clamp spring is not simple.

A conventional example of such a lamp device will be explained with reference to FIGS. 3 and 4.

A V-shaped clamp 2 that opens and closes with respect to the V-shaped block 1 is connected to a support rod 4 by pole joints 1 to 3.7 The support rod 4 has a flange 5 at its upper end, and the support rod 4 It is fitted into the vertical hole 7 so as to be vertically movable. The support arm 6 swings vertically in order to raise and lower the V-shaped clamp 2, and a cover 8 is fitted and fixed to its tip. The flange 5 of the support rod 4 and the tip of the support arm 6 are fitted into the cover 8. The support rod 4 is biased downward by a spring 9 interposed between the flange 5 and the top plate of the cover 8, and the flange 5 can move up and down within the cover 8.

When arm 6 is lowered, the tip of clamp 2 and the V of the block
The optical fiber f is held and clamped between the bottom of the groove 10 and the bottom of the groove 10. The gripping force exerted by the clamp 2 at this time is the sum of the weights of the clamp 2, the pole joins 1-3, and the support rod 4, and the downward force exerted by the spring 9. In order to change the clamping force of this clamp as the diameter of the optical fiber changes, the spring 9 is replaced. Replacing this spring is not a simple task. If it is necessary to frequently change the wire diameter of the optical arbor, the work efficiency of the optical fiber fusion splicing work will be significantly reduced due to the work of replacing the springs.

Therefore, it is an object of the present invention to make it possible to change the clamping force in two stages without replacing the clamping spring 9 in the prior art.

[Means taken to solve the problem] The measures taken to solve the above problem are the following elements (a) ~
It is composed of (c).

Regarding the above conventional technology.

(a) The cover 8 is made vertically movable relative to the support arm 6; (b) cover holding means is provided to hold the cover relative to the arm in two positions, upper and lower; (c) a clamp; The sum of the weights of the ball joint, support rod, and clamp spring is made equal to the clamping force of the small diameter optical fiber.

[Function] When the cover is fixed to the support arm by the holding means in the lower position, the clamp spring is in a compressed state, and the clamp is urged downward by the clamp spring. Therefore, when the support arm 6 is lowered to a predetermined position, the clamp 2 presses the tip of the optical fiber inside the V block by the sum of the weight of the clamp, ball joint, support rod, and clamp spring, and the spring force of the clamp spring. ,
Clamp this.

When the cover is lifted to an upper position with respect to the support arm and held by the support arm at that position by the holding means, the cover is separated from the upper end of the clamp spring and the clamp spring becomes free. Therefore, the force of i<1 on the clamp by the clamp spring becomes zero. When the support arm is lowered in this state, the clamp presses and clamps the tip of the optical fiber in the V-groove of the block by the force of the sum of the weights of the clamp, ball joint, support rod, and clamp spring. Needless to say,
When the tip of the clamp is holding down the optical fiber, the flange of the support rod is floating above the upper surface of the support arm 11. By making the sum of the weights of the clamp, ball joint, support rod, and clamp spring equal to the required ramp force for the small diameter optical fiber, the effectiveness of the clamp spring is nullified and the clamping force for the small diameter optical fiber is made appropriate. It is possible.

Regarding the cover, it is also possible to separate a part of the cover that covers the tip of the support arm and the flange of the support rod and a spring holding part that presses the clamp spring, and then combine them to form a cover. This is one embodiment of the cover in the means, in which a portion of the cover is fixed to a support arm, and a coil spring presser portion is held movably up and down relative to the support arm.

[Example] A first embodiment will be described with reference to FIG.

Parts corresponding to the prior art are given the same reference numerals. Explanation regarding this point will be omitted.

The cover 8 is movable up and down relative to the support arm 6, and the guide pins 11 protruding from two sides of the support arm 6 are fitted into holes in the top plate of the cover 8, and the regulation pins 12 are inserted into the top of the cover 8. It is fitted into the hole in the plate, and both pins guide the downward movement of the cover.

The regulating pin 12 is fitted into the vertical hole of the support arm 〇 so as to be able to move up and down, and has a stub head 13 at its two ends, and a stub head 14 at its lower end. . A spring 16 for the rift 1 fitted into the hole 15 on the upper surface of the support arm 6 is loosely fitted to the regulating pin 12, and the spring 16 for the rift 1 biases the cover 8 in the direction. The regulation pin 12 is the riff 1-
In the depressed position against the spring 16, the support arm 6
It is fixed by a set screw 17 screwed into a screw hole on the side.

At this time, the cover 8
3 is pressed against and fixed to the upper surface of the support arm A6.

The guy 1 to the pin 11 are fitted into the protrusion of the support arm 6, and are fixed by a set screw 18 screwed into a tapped hole on the side surface of the support arm.

When the set screw 17 for the guide pin 12 is loosened, the regulating pin becomes free, so the cover 8 and the guide I are pulled by the rift 1-spring J6 until the pin 12 at the end comes into contact with the bottom surface of the support arm 6. I'm good at pushing up.

At this time, the lower surface of the cover 8 is separated from the upper end of the clamp spring 9 by 1°.The second embodiment will be described with reference to FIG. .

In this row 19, the cover is covered with so-called cover part 2.
1 and a spring holding part 22 having a cross-sectional opening shape.

A hole 21' through which the clamp spring 9 passes is provided in the top plate of the cover portion 2L, and the lower end of the clamp spring 9 is held down by the head 23T of the spring holder.

Three vertical holes are provided in the arm 11 portion 24 of the spring presser 22, and guide pins 25 are fitted into the left and right holes, and a presser pin 26 is fitted into the central vertical hole. These three pins are all fitted into vertical holes on the upper surface of the support arm 6, and the guide pin 25 is fixed by a set screw 27. The guide pin 25 has a stop head 28 against the spring presser 22 at the top end.

The presser pin 26 has a presser l\rad 9 for the spring presser, and is fixed by a set screw 27 in the position where the rift 1 is pushed down against the spring 16.

In the illustrated state, the clamp spring 9 is attached to the head 2 of the spring presser 22.
3 It is pressed and compressed by the lower surface.

This is a suitable state for clamping large diameter optical fibers.

When the set screw 27 for the presser pin 26 is loosened, the presser pin 26 becomes free, and the spring presser 22 moves between the rift 1 and the spring 1 until it comes into contact with the stub head 28 of the guide pin 25.
6 and is pushed up together with the presser pin 26. In this state, the lower surface of the head 23 of the spring presser 22 is separated from the upper end of the clamp spring 9, and the clamp spring becomes free. This is a state suitable for clamping small diameter optical fibers.

In the second embodiment, the upper and lower two stages of holding means for the cover are constituted by the pin attached to the spatula 1, the rift 1, the spring, and the set screw. A locking mechanism (a mechanism in which a spring-loaded latch ball engages with a recess on the surface of the pin), the pin is automatically locked by pushing in, and the lock by the latch ball is released by pulling up the cover. It is also possible to do so. This method is simpler to operate. Furthermore, adjust the head pin to a certain height and fix it, then cover it.
(1-) may be directly locked by a locking mechanism, and the lock may be released and the cover may be pushed to the upper position by a lift spring.

The specific mechanism of this two-stage position holding mechanism itself is as follows.
Various conventionally known mechanisms can be employed.

[Effect] The above problem is new. Therefore, solving the above problems and eliminating the problems in the prior art is itself an effect unique to the present invention.

In addition, the holding means that holds the cover in two positions (upper and lower) allows the clamping force to be changed to either large or small simply by selectively switching the cover position to either the upper or lower position. It is extremely simple and allows so-called one-touch operation.

[Brief explanation of drawings]

FIG. 1 is a front sectional view of the first embodiment, FIG. 2 is a front sectional view of the second embodiment, FIG. 3 is a side sectional view of the prior art, and FIG. 4 is a front sectional view of the prior art. In the figure, 1...■-type block, 2...■-type clamp,
3... Pole joint 1-14°°° support rod, 5
...Flange, 6...Support arm, 7...Vertical hole, 8...Cover, 9...Clamp spring, 10...
V groove, 11...Guide pin, 12...Regulation pin, J
3...S1-Brim head, 14...S1-Brim, 1
5... hole, 16... riff] ~ spring, 17.18.
... Set screw, 21 ... Part of cover, 21' ...
Hole, 22... Spring holding part, 23... Head, 24...
... Arm part, 25 ... Guide pin, 26 ... Presser pin, 27 ... Set screw, 28 Stop head, 29
...pressing head, f...optical fiber.

Claims (1)

[Claims] A cover fitted to the tip of the support arm, a support rod that can move up and down on this cover, a V-shaped clamp connected to the lower end of the support rod via a ball joint, and a clamp spring interposed between the support rod and the cover. The cover is movable up and down relative to the support arm, and includes a cover holding means for holding the cover relative to the arm at two positions above and below, and includes a clamp, a pole joint,
A fiber clamp for a constant polarization optical fiber fusion splicer in which the sum of the weights of a support rod and a clamp spring is equal to the clamping force of a small diameter optical fiber.