KR100492094B1 - Fixing device for optical fiber block and planar optical waveguide device - Google Patents

Abstract

A fixing apparatus of an optical fiber block and a planar optical waveguide device is disclosed. According to the present invention, a support piece is provided on one side of the upper end and a seating portion is formed at the front thereof, and a holder is formed at the upper end of the holder, and a handle is formed at the rear thereof, and a handle is formed at the upper end thereof, and the groove is forward. It includes a wedge formed in the close contact portion fitted. Preferably, the seating portion and the contact portion are inserted into the grooves on the other side, and include inclined surfaces corresponding to each other. The seating portion includes a vacuum groove formed in the bottom surface thereof. In addition, the handle is screwed into the through-hole of the wedge so that the end is pressed to the rear of the seating portion when detached. Therefore, when aligning the optical fiber block and the planar optical waveguide device, it is possible to securely fix them, prevent damage thereof, and to quickly and easily detach them, thereby further improving the overall alignment operation speed.

Description

Fixing device for optical fiber block and planar optical waveguide device

The present invention relates to a fixing device of an optical fiber block and a planar optical waveguide device, and more particularly, to a fixing device of an optical fiber block and a planar optical waveguide device for firmly fixing them when the optical fiber block and the planar optical waveguide device are aligned.

In general, in order to branch an optical fiber block having one optical path into multiple paths, a method of matching / aligning a planar lightwave device to the optical fiber block is widely used. Here, the optical fiber block is composed of a square silicon or optical glass material in which the optical fiber core wire is accommodated, and the planar optical waveguide element is composed of one or more input terminals and a plurality of output terminals to form an optical waveguide, and the core It consists of a cladding cladding. Therefore, by aligning each optical fiber block at the input terminal and the output terminal of the planar optical waveguide device, it is possible to branch one or more optical waveguides into multiple paths. On the other hand, such an optical fiber block and a planar optical waveguide device is preferably firmly fixed so as not to be shaken by a separate fixing device during alignment.

1A to 1C are side cross-sectional views illustrating a fixing device of a conventional optical fiber block and a planar optical waveguide device.

In FIG. 1A, the optical fiber block 2 is seated on a fixing stand 2 having a jaw formed at one side thereof, and the optical fiber block 1 is closely attached / fixed by a vacuum suction force through the vacuum groove 2a at the lower end thereof. In FIG. 1B, the optical fiber block 1 is seated on a fixing stand 3 formed with a jaw on one side, and the support piece 3a is pressed by the tightening screw 3b from the other side to press / fix the optical fiber block 1. Let's do it. In FIG. 1C, the optical fiber block 1 is seated on a fixing stand 4 formed with a jaw on one side, and the support piece 4a is pressed by the elastic force of the spring 4b from the other side to press the optical fiber block 1. Fix it.

However, in the fixing device of the conventional optical fiber block and the planar optical waveguide device, it is difficult to fix the optical fiber block only by vacuum suction force through the vacuum groove in FIG. 1A, and in the case of FIG. Since it is difficult to precisely adjust the strength, when too strong, the optical fiber block is broken, and when weak, the fixed state is not firm. In addition, even in the case of Figure 1c, the fixing force by the spring is changed according to the width of the optical fiber block, if the block width is large, the fixing force of the spring is increased, the support piece is lifted upwards, if the width of the block is small, the fixed state is There were problems that were not strong.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of which is to securely fix them at the time of the alignment of the optical fiber block and the planar optical waveguide device to prevent the breakage, and to be quickly and detachable. The present invention provides a fixing device for an optical fiber block and a planar optical waveguide device.

Features of the fixing device of the optical fiber block and the planar optical waveguide device according to the present invention for achieving this object, the support piece is provided on one side of the top and the mounting portion formed in the front of the front, and the other support piece is provided on the top and the seating And a holder having a groove into which the part is inserted, and a wedge having a handle formed at the rear thereof and having a close contact portion fitted therein.

Preferably, the seating portion and the contact portion are inserted into the grooves on the other side, and include inclined surfaces corresponding to each other. The seating portion includes a vacuum groove formed in the bottom surface thereof.

In addition, the handle is screwed into the through-hole of the wedge so that the end is pressed to the rear of the seating portion when detached.

Therefore, when aligning the optical fiber block and the planar optical waveguide device, it is possible to securely fix them, prevent damage thereof, and to quickly and easily detach them, thereby further improving the overall alignment operation speed.

Hereinafter, exemplary embodiments of a fixing device of an optical fiber block and a planar optical waveguide device according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a preferred embodiment of the fixing device of the optical fiber block and the planar optical waveguide device according to the present invention, Figure 3a is a side view of Figure 2, Figure 3b is a cross-sectional view taken along line AA 'of Figure 3a.

Here, reference numeral 10 is a fixing table, 11 is a supporting piece, 12 is a seating part. Fixing table 10 is provided with a support piece 11 on one side of the upper end and the seating portion 12 is formed in front thereof.

Reference numeral 20 is a holder, 21 is another support piece, and 22 is a groove. Holder 20 is provided with another support piece 21 at the top thereof is formed with a groove 22 into which the seating portion 12 is fitted. To this end, the holder 20 is preferably screwed as shown is formed separated by the upper and lower members.

Reference numeral 30 denotes a wedge, 31 a handle, and 32 a close contact. The wedge 30 has a handle 31 formed at the rear thereof and a close contact portion 32 fitted into the groove 22 at the front thereof. In addition, the seating portion 12 and the contact portion 32 is preferably inserted into the groove 22 on the other side, respectively, it is preferable to include an inclined surface (12a) (32a) to cross each other. The handle 31 is screwed into the through hole 33 of the wedge 30, so that the end portion to press the rear surface of the seating portion 12 when detached.

If described in more detail the action of the preferred embodiment according to the present invention configured as follows.

First, when the optical fiber block 1 is fixed, the optical fiber block 1 or the planar optical waveguide device is seated on the upper end of the mounting portion 12 of the holder 10. At this time, one side thereof is preferably supported by the support piece (11).

In this state, the holder 22 is fitted by making the groove 22 correspond to the seating portion 12. Here, the other support piece 21 of the holder 20 supports the other side of the optical fiber block 1 so that the optical fiber block 1 is completely adhered between the support pieces 11 and 21.

Thereafter, the wedge 30 is inserted into the other side of the groove 22. At this time, the contact portion 32 of the wedge 30 is inserted into the groove 22 so that the inclined surface 12a below the seating portion 12 and the inclined surface 32a above the contact portion 32 abut each other. The inner side of the groove 22 inside the holder 20 is pressed outward (see FIG. 3B). Therefore, the holder 20 is completely fixed in a state in which the optical fiber block 1 is completely in close contact.

On the other hand, when the optical fiber block 1 is removed, the handle 31 screwed to the through hole of the wedge 30 is rotated in the screwing direction so that the end portion presses the rear surface of the seating portion 12. . Then, the contact portion 32 is separated from the seating portion 12 to release the force that presses the groove 22 in the holder 20, thereby supporting the support piece 11 in close contact with both sides of the optical fiber block 1 (21) are spaced apart from each other can easily remove the optical fiber block (1) from the fixing device.

4 is a side view showing another embodiment of a fixing device of an optical fiber block and a planar optical waveguide device according to the present invention.

Another embodiment of the present invention is the same as the configuration and operation of the preferred embodiment of the present invention described above, but the vacuum groove 13 is formed on the bottom surface of the seating portion 12 is the optical fiber block (1) Since a vacuum suction force is generated with respect to, the fixing force becomes more firm.

As described above, according to the fixing device of the optical fiber block and the planar optical waveguide device according to the present invention, while aligning the optical fiber block and the planar optical waveguide device, while fixing them firmly and preventing the breakage, it is possible to quickly and easily detach it. By doing so, there are various effects to further improve the overall alignment speed.

While the invention has been shown and described with respect to certain preferred embodiments, the invention is not limited to the embodiments described above, but the subject matter belongs to the invention without departing from the spirit of the invention as claimed in the claims. Of course, any one of ordinary skill in the art that various modifications are possible, of course, such changes are within the scope of the claims.

Figure 1a to 1c is a side cross-sectional view showing a fixing device of a conventional optical fiber block and planar optical waveguide device,

Figure 2 is an exploded perspective view showing a preferred embodiment of the fixing device of the optical fiber block and planar optical waveguide device according to the present invention,

3A is a side view of FIG. 2;

3B is a cross-sectional view taken along the line A-A 'of FIG. 3A;

Figure 4 is a side view showing another embodiment of the fixing device of the optical fiber block and planar optical waveguide device according to the present invention.

Explanation of symbols on the main parts of the drawings

10: holder 11: support piece

12: seating portion 13: vacuum groove

20: holder 21: support piece

22: groove 30: wedge

31: handle 32: close contact

33: through hole

Claims (4)

A supporter provided on one side of the upper end and having a seating portion at a front thereof; A holder having another support piece provided at an upper end thereof and having a groove into which the seating portion is fitted; And The optical fiber block and the planar optical waveguide device, characterized in that it comprises a wedge is formed in the rear portion and a wedge formed in the close contact portion fitted in the groove toward the front. The method of claim 1, wherein the seating portion and the contact portion Fixing apparatus for an optical fiber block and a planar optical waveguide element, each of which is inserted into the groove from the other side, and includes inclined surfaces that cross each other. The method of claim 1, wherein the seating portion Fixing apparatus for an optical fiber block and a planar optical waveguide device comprising a vacuum groove formed on the bottom surface. The method of claim 1, wherein the handle, Fixing device of the optical fiber block and planar optical waveguide device, characterized in that the screw is coupled to the through-hole of the wedge so that the end portion presses the rear surface of the seating part when the screw is separated.