KR101181518B1 - Double bundling method of optical fibers for pump beam combiners - Google Patents

Abstract

PURPOSE: An optical fiber double bundle forming method for a pump light source coupler is provided to determine the number of optical fiber strands of an optical fiber bundle according to the need of a user by controlling the outer diameter of a first optical fiber bundle reduced through first melting tapering. CONSTITUTION: A plurality of optical fibers is commutatively circumscribed while being arranged into a radial symmetry type(S10). A first optical fiber bundle is loaded in an optical fiber chuck. The first optical fiber bundle is melted while being extended along a longitudinal direction. The external diameter of the first optical fiber bundle is reduced and an optical fiber bundle is formed(S20). A plurality of second outer optical fibers is commutatively circumscribed with the first optical fiber bundle as the center(S30). The plurality of second outer optical fibers is melted. The external diameter of the plurality of second outer optical fibers is reduced and an optical fiber bundle is formed(S40).

Description

DOUBLE BUNDLING METHOD OF OPTICAL FIBERS FOR PUMP BEAM COMBINERS}

The present invention relates to a method for forming an optical fiber double bundle for a pump light source coupler, and more particularly, after forming a bundle of optical fibers by first melt-tapping a bundle of first optical fibers that are mutually circumscribed and stably stacked in geometry, The outer diameter of the first optical fiber bundle that is reduced by primary melt tapering by arranging a plurality of optical fibers in addition to the first optical fiber bundle whose outer diameter is reduced and mutually circumferentially melt melting tapering, i.e., forming a bundle of optical fibers in duplicate. The present invention relates to a method for forming an optical fiber double bundle for a pump light source coupler, which can determine the number of optical fiber strands of the optical fiber bundle finally formed by controlling the optical fiber bundle.

The pump light source coupler is used to obtain high power by increasing the excitation light source injected from the fiber laser. The pump light source combiner combines the pump light sources output from several laser diodes into one of the gain medium optical fibers.

In the classical rod type laser, the rod itself acts like a convex lens due to the temperature difference between the inside and the surface of the rod, causing unstable phenomena such as the beam quality and the output degradation of the laser. Cooling of the medium is key. Therefore, in order to facilitate the cooling of the medium, a method of increasing the cooling efficiency by increasing the surface area-to-volume ratio by reducing the diameter and length of the rod has been studied. This is the origin of the fiber laser.

One of the key technologies required for the development of high power fiber lasers is the efficient incidence of excitation light sources from the pump laser into the optical fiber. Must be gathered into one. To this end, a pump light coupler having a plurality of optical fiber strands having an input function of gathering the multimode light sources output from the pump laser into one is required.

The pump light source coupler generally bundles a plurality of optical fibers in a radially symmetrical arrangement so as to circumscribe each other around a center, and then mounts the plurality of bundled optical fibers bundle F to the optical fiber chuck C as shown in FIG. 1. By applying heat (H) to melt and at the same time increasing in the longitudinal direction is reduced by the outer diameter so that the increased end area is the same as one optical fiber is produced by a fused tapering (fused tapering) method to form a photonic bundle.

However, in the related art, the number of optical fiber strands of the optical fiber bundle manufactured for the pump light source coupler is limited to 7, 19, or 3 due to the characteristics of the optical fiber stacking structure.

That is, Figure 2 shows a cross-sectional structure of the optical fiber bundle for the pump light source coupler according to the prior art, in order to take a geometrically stable structure of a plurality of optical fibers having the same diameter as shown in the drawing, the number of optical fiber strands must be 1 + 6 Phosphorus 7 (a), 1 + 6 + 12 19 (b) or three (c) is a problem that is limited.

Therefore, there was an unreasonable problem in selecting the number of the input fiber of the pump light source coupler, even if the number of optical fiber strands required for use, for example, 16 optical fibers are required, must adopt a bundle of more than 19 optical fibers.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to first melt taper the first optical fiber bundles that are circumscribed mutually and stably stacked in geometric structure to reduce the outer diameter and form an optical fiber bundle Then, the first optical fiber is reduced by primary melt tapering by arranging a plurality of optical fibers in the outer circumference of the first optical fiber bundle having a reduced outer diameter and fusion tapering secondly, that is, by forming a bundle of optical fibers in duplicate. The present invention provides a method for forming a fiber bundle double bundle for a pump light source coupler that can determine the number of optical fiber strands of the optical fiber bundle finally formed by adjusting the outer diameter of the bundle according to the user's needs and needs.

In order to achieve the above object, the optical fiber double bundle forming method for a pump light source coupler according to the present invention may be any number of three, seven, or nineteen such that a plurality of optical fibers having the same outer diameter are stably stacked in geometry. A first bundle step of preparing and bundling the first optical fiber bundles which are circumscribed to each other and arranged radially symmetrically about a center thereof; A first tapering to mount the first optical fiber bundle to an optical fiber chuck, apply heat to the first optical fiber bundle to melt, and at the same time increase the length of the first optical fiber bundle to reduce the outer diameter of the first optical fiber bundle to form an optical fiber bundle. And an optical fiber bundle forming step; A second bundle step of preparing a second bundle of optical fibers arranged around the first bundle of optical fibers whose outer diameter is reduced through the first tapering and forming the bundle of optical fibers, the second bundle of optical fibers arranged to surround and surround each other; A second tapering and optical fiber bundle forming step of reducing the outer diameter of the second optical fiber bundle and forming an optical fiber bundle by applying heat to the second optical fiber bundle and melting the same and increasing the length in the longitudinal direction; .

In addition, according to the present invention, a method of forming a double bundle of optical fibers for a pump light source coupler, wherein the first bundle of optical fibers in the first bundle step is composed of a total of seven optical fibers centered on one central optical fiber disposed in the center Six first outer optical fibers are arranged to surround each other and surround, and the outer diameter of the first optical fiber bundle, which is reduced through the first tapering and optical fiber bundle forming step, is determined according to the outer diameter and the number of the second outer optical fibers as defined. It is determined, but the number of the second outer optical fiber is composed of 6 to 11, characterized in that the second optical fiber bundle has a total of 13 to 18 optical fibers.

In addition, the optical fiber double bundle forming method for a pump light source coupler according to the present invention, the optical fiber constituting the first optical fiber bundle and the second outer optical fiber is characterized in that the aberration is formed different from each other.

According to the above configuration, the optical fiber double bundle forming method for a pump light source coupler according to the present invention is formed by first melting and tapering a bundle of first optical fibers circumscribed to each other and stably stacked in geometry, thereby reducing the outer diameter to form an optical fiber bundle, In addition to the first optical fiber bundle having a reduced outer diameter, a plurality of optical fibers are arranged to be externally circumscribed and melt-tapered secondly, that is, when more than seven optical fibers are required by forming a double fiber bundle, as in the prior art. It is not necessary to use 19 optical fibers, but the optical fiber bundle that is finally formed by adjusting the outer diameter of the first optical fiber bundle that is reduced through primary melt tapering using an optical fiber that is released only in a certain set of specifications. The number of fiber optic strands is 14, 15, depending on user's request and needs, There is an advantage that can be set to 16, etc., and since the expansion of the input optical fiber is easy, there is an advantage that the selection of the pump light source coupler having the output size of the desired intensity is also easy.

1 is a conceptual diagram of an optical fiber melt tapering method
Figure 2 is a cross-sectional structural view of the optical fiber bundle for the pump light source combiner according to the prior art
Figure 3 is a block diagram of a method for forming an optical fiber double bundle for a pump light source coupler according to an embodiment of the present invention

Hereinafter, a method of forming an optical fiber double bundle for a pump light source coupler according to an embodiment of the present invention will be described in detail with reference to the embodiment shown in the drawings.

Figure 3 is a block diagram of a method for forming an optical fiber double bundle for a pump light source coupler according to an embodiment of the present invention.

Referring to the drawings, the optical fiber double bundle forming method for a pump light source combiner according to an embodiment of the present invention, the first bundle step (S10), the first tapering and optical fiber bundle forming step (S20), and the second bundle step (S30) ), And a second tapering and optical fiber bundle forming step (S40).

The first bundle step (S10) is composed of any one of three, seven or nine so that a plurality of optical fibers (11, 12) having the same outer diameter is arranged in a stable structure, and circumscribed to each other at the same time Preparing a first optical fiber bundle 10 arranged in a radially symmetrical center, in the embodiment of the present invention, the first optical fiber bundle 10 is composed of a total of seven optical fibers (11, 12) The six first outer optical fibers 12 having the same outer diameter as the central optical fiber 11 are arranged so as to circumscribe and mutually surround each other with the central optical fiber 11 disposed at the center.

That is, in the first bundle step S10, the first optical fiber bundle 10 is composed of a total of seven optical fibers 11 and 12 strands so as to have a stable laminated structure in the same manner as in the state of FIG. It's a step.

In the first tapering and fiber bundle forming step (S20), the first optical fiber bundle 10 is mounted on the optical fiber chuck C as shown in FIG. 1, and heat (H) is applied to the first optical fiber bundle 10. By applying melt to increase the length in the longitudinal direction at the same time to reduce the outer diameter of the first optical fiber bundle 10 to form an optical fiber bundle, the present invention through the first tapering and optical fiber bundle forming step (S20) The outer diameter of the first optical fiber bundle 10 to be reduced is determined according to the outer diameter and the number of the second outer optical fiber 21 as determined.

Meanwhile, the second outer optical fiber 21 is not necessarily the same kind of optical fiber 21 as the optical fibers 11 and 12 constituting the first optical fiber bundle 10, and the first tapering and optical fiber bundle formation In step S20, when the type and number of the second outer optical fibers 21 are determined as required, for example, as shown in FIG. 3, the number of the input optical fibers 11, 12, 21 is added to the pump light source coupler. When the number of the second outer optical fiber 21 is determined to be nine because a total of 16 is required, the outer diameter of the bundle of the first optical fiber 10 is the outer diameter according to the type of the second outer optical fiber 21 and the number thereof 9 It is a step to shrink as much as the dog.

According to the present invention, by varying the outer diameter of the first optical fiber bundle 10 in the first tapering and optical fiber bundle forming step (S20), the optical fiber 11 constituting the optical fiber bundle of the pump light source coupler according to the present invention is consequently changed. 12, 21) can be manufactured differently according to the user's intention.

That is, as described above in the background art, the number of optical fiber strands of the optical fiber bundle manufactured for the pump light source coupler is limited to 7 or 19 due to the nature of the optical fiber stacking structure. For example, even if 16 optical fibers are required, there is an unreasonable problem of adopting a bundle of more than 19 optical fibers. However, in the present invention, the number of the second outer optical fibers 21 is six to six. In the case of 11, the outer diameter of the first optical fiber bundle 10 is reduced so as to correspond to the number thereof. It can be configured to have from 18 to 18 optical fibers.

In the second bundle step S30, a plurality of second outer optical fibers 21 circumscribes each other around the first bundle of optical fibers 10 whose outer diameter is reduced through the first tapering and the fiber bundle forming step S20. And preparing a second optical fiber bundle 20 arranged to surround.

That is, in the second bundle step S30, the outer diameter is reduced through the first tapering and the optical fiber bundle forming step S20, as described above, instead of the central optical fiber 11 in the first bundle step S10. The first optical fiber bundle 10 is disposed in the center, the second optical fiber bundle 20 arranged to surround and surround the second outer optical fiber 21 around the first optical fiber bundle 10. It is the stage of preparation.

The second tapering and optical fiber bundle forming step (S40) is applied in the same manner as the first tapering and optical fiber bundle forming step (S20) to heat and melt the second optical fiber bundle 20, and at the same time increases in the longitudinal direction. By reducing the outer diameter of the second optical fiber bundle 20 is to form an optical fiber bundle.

On the other hand, the optical fibers 11 and 12 constituting the first optical fiber bundle 10, that is, the central optical fiber 11 and the first outer optical fiber 12 is the first tapering and optical fiber bundle forming step (S20) and the second By passing through the tapering and optical fiber bundle forming step (S40), the diameter thereof is smaller than the second outer optical fiber 21 passing through only the second tapering and optical fiber bundle forming step (S40).

Therefore, despite the difference in diameter between the optical fibers 11 and 12 and the second outer optical fiber 21 constituting the first optical fiber bundle 10 after the second tapering and optical fiber bundle forming step (S40). In order for the degree of spreading of the interbeams to correspond to each other, it is preferable to form a Numerical Aperture (NA) differently in consideration of the difference in diameter between the two beams.

 In addition, the embodiment of the present invention shows and describes a method of forming the optical fiber double bundle by melt-tapping the second optical fiber bundle 20 secondly after the first taper of the first optical fiber bundle 10. However, it will be said that the method of forming the optical fiber multi-bundle through a plurality of melt tapering, such as tertiary, quaternary, etc. by expanding this, will be included in the protection scope of the present invention.

The method for forming the optical fiber double bundle for the pump light source coupler described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

10 first optical fiber bundle
11 central optical fiber
12 first outer optical fiber
20 Second Fiber Optic Bundle
21 Second Outer Optical Fiber

Claims (3)

A plurality of optical fibers having the same outer diameter are composed of any one of three, seven, or nineteen so as to be stably arranged in a geometric structure to prepare a first bundle of optical fibers arranged radially symmetrically about the center while being circumscribed to each other. A first bundle step;
A first tapering to mount the first optical fiber bundle to an optical fiber chuck, apply heat to the first optical fiber bundle to melt, and at the same time increase the length of the first optical fiber bundle to reduce the outer diameter of the first optical fiber bundle to form an optical fiber bundle. And an optical fiber bundle forming step;
A second bundle step of preparing a second bundle of optical fibers arranged around the first bundle of optical fibers whose outer diameter is reduced through the first tapering and forming the bundle of optical fibers, the second bundle of optical fibers arranged to surround and surround each other;
A second tapering and optical fiber bundle forming step of reducing the outer diameter of the second optical fiber bundle and forming an optical fiber bundle by applying heat to the second optical fiber bundle and melting the same and increasing the length in the longitudinal direction; Fiber optical double bundle forming method for a pump light source combiner comprising a. The method of claim 1,
The first optical fiber bundle in the first bundle step is composed of a total of seven optical fibers are arranged so that the six first outer optical fibers surround each other around the central optical fiber disposed in the center,
The outer diameter of the first optical fiber bundle is reduced through the first tapering and optical fiber bundle forming step is determined according to the outer diameter and number of the second outer optical fiber according to the predetermined,
The number of the second outer optical fiber is composed of 6 to 11, wherein the second optical fiber bundle has a total of 13 to 18 optical fibers, characterized in that the optical fiber double bundle forming method for a pump light source combiner. The method according to claim 1 or 2,
The optical fiber constituting the first optical fiber bundle and the second outer optical fiber are aberrations formed in the optical fiber double bundle for a pump light source coupler, characterized in that the aberration is formed mutually different.

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