KR0136016Y1 - Fabrication instrument for light isolator - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing an optical isolator, and the present invention is to provide an apparatus for manufacturing an optical isolator for manufacturing an optical isolator that performs a function properly by accurately measuring the assembly position of the birefringent element and the rotating element. .

The apparatus for manufacturing an optical isolator according to the present invention for achieving the above object is a collimator seated on a collimator support supported on the upper side of the main support to create parallel light, and the light emitted from the parody assembly support supported by the auxiliary support The rotating element and the lower birefringent element according to the measurement result of the measuring unit and the measurement unit so that the parallel light emitted from the collimator passes through the upper and lower birefringent elements and the rotary element seated on the parody assembly support and are emitted as a single light. Characterized in that it consists of a control unit for adjusting the position of.

Description

Manufacturing apparatus of optical isolator

1 is a plan sectional view showing an optical isolator manufactured by a conventional technique.

Figure 2 is a front sectional view showing a manufacturing apparatus of an optical isolator according to the present invention.

FIG. 3 is a front sectional view showing details of the parody assembly support of FIG. 2. FIG.

4 is a plan view of the collimator seated on the collimator support of FIG.

* Explanation of symbols for main parts of the drawings

20: support zone 30: auxiliary support

40: collimator support 42: collimator frame

44: collimator 50: measuring unit

52: imaging unit 54: imaging unit support

60: control unit 62: control unit support

64 control unit auxiliary support 64b: fixed pin support

64c: rotary pin support 66: holding member

66b: insertion hole 66c: second birefringent element

66d: parodyrotator 66e: first birefringent element

68: fixed pin 69: rotary pin

100: manufacturing apparatus of optical isolator

The present invention relates to an apparatus for manufacturing an optical isolator, and more particularly, to an apparatus for manufacturing an optical isolator that accurately manufactures an optical isolator by accurately measuring the assembly position of the birefringent element and the rotating element.

The optical isolator 10 manufactured by the prior art has a first birefringent element 2 fixed to birefringent light on one side of the cylindrical body 1, as shown in FIG. At a predetermined position opposed to the birefringent element 2, the combination 3 formed integrally by attaching the parodyrotator 3a and the second birefringent element 3b is placed. In addition, the parodyrotator 3a constituting the combination 3 rotates the birefringent light in the first birefringent element 2, and the second birefringent element 3b is attached to one side of the parodyrotator 3a to rotate the light. Birefringence.

The optical isolator 10 configured as described above is manufactured as follows.

First, the first birefringent element 2 is fixed to one side of the body 1, and then the parodyrotator 3a and the second birefringent element 3b are attached to form a combination 3, and then a parodyrotator of the combination 3. Push it to the other side of the body 1 with 3a facing forward. Thereafter, the light is incident on the first birefringent element 2, and the combination 3 is rotated using a tool such as a crab until one light is emitted from the second birefringent element 3b. This is a process for finding the assembly position of the assembly, through which the optical isolator 10 can be obtained by attaching the assembly 3 to the determined assembly position.

However, there is a problem in that it takes more time than necessary to manufacture the optical isolator 10 as described above.

In addition, there was a problem in that the accuracy of the combination 3 is lowered by adjusting the assembly position using a tool such as a rake.

Accordingly, the present invention has been made to solve the above problems, the present invention provides an apparatus for manufacturing an optical isolator for manufacturing an optical isolator to accurately measure the assembly position of the birefringent element and the rotation element to properly extract the function. The purpose is to.

The optical isolator manufacturing apparatus according to the present invention for achieving the above object is collimator seated on the collimator support supported on the upper side of the main support to create parallel light, and is supported by the auxiliary support and measure the light emitted from the parody assembly support The measurement unit, and the parallel light emitted from the collimator through the upper and lower birefringence elements and the rotating element seated on the parody assembly support to be emitted as a single light according to the measurement result of the rotation element and the lower birefringence element It is characterized by consisting of a control unit for adjusting the position.

FIG. 2 is a front sectional view showing the manufacturing apparatus of the optical isolator according to the present invention, and FIG. 3 is a front sectional view showing the parody assembly support of FIG. 2 in detail, and FIG. 4 is a collimator seated on the collimator support of FIG. It is a top view shown.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 2 to 4.

The apparatus 100 for manufacturing an optical isolator according to the present invention can be broadly divided into a collimator 44, a measuring unit 50, and a control unit 60.

The collimator 44, which is composed of an optical fiber-mounted ferrule 44a and a lens 44b, is attached to a collimator frame 42 fixed to a collimator support 40 supported on an upper side of the support zone 20. It is seated and emits parallel light through the through hole 46 formed at the bottom of the collimator frame (42).

The measuring unit 50 includes an imaging unit 52 capable of measuring light, and an imaging unit support 54 supporting the imaging unit 52, and the imaging unit support 54 is an auxiliary support 30. Is supported). The measurement unit 50 configured as described above measures the light emitted from the lower end of the parody assembly support 62.

The control unit 60 includes a parody disassembly support 64 lying along an upper end of the inner periphery of the through hole 62a formed in the parody assembly support 62, and a through hole 64a formed in the parody assembly support support 64. It consists of a fixing member 66 that can be attached and detached between the fixing pin support 64b and the rotation pin support 64c formed on both sides of the inner circumferential upper end. In addition, the second birefringent element 66c, the parodyrotator 66d, and the first birefringent element 66e from the bottom in the insertion hole 66b formed with a diameter larger than the through hole 66a formed in the center of the fixing member 66. Is laminated, and in particular, the first birefringent element 66e is fixed by a fixing pin 68 supported by a fixing pin support 64b formed on one side of the parody-assembly supporting support 64 during measurement. The parody rotator 66d is adjusted by being connected to the rotation pin 69 supported by the rotation pin support 64c formed on the other side of the parody assembly auxiliary support 64.

The operation of the manufacturing apparatus 100 of the optical isolator by the above configuration will be described below.

First, the collimator 44 that emits parallel light is completely fixed to the collimator support 40, and the second birefringent element 66c, the parodyrotator 66d, and the first birefringent element 66e are laminated to the fixing member 66. The first birefringent element is placed between the fixing pin support 64b and the rotation pin support 64c of the parody assembly supporter 64 placed on the upper end of the parody assembly supporter 62. The parodyrotator 66d is rotated while fixing the 66e with the fixing pin 68 and measuring whether one light is emitted from the bottom of the parody assembly support 62 through the imaging unit 52 of the measuring unit 50. Adjust by the pin 69. This is a process for finding the correct assembly position. Then, when one light is measured by the measuring unit 50, the second birefringent element 66c and the parodirotator 66d are attached with an adhesive to produce an optical isolator.

As described above, the present invention has the effect of accurately measuring the assembly position of the birefringent element and the rotating element through the measurement unit, and then easily assembling the birefringent element and the rotating element to shorten the manufacturing process time of the optical isolator and obtain high precision. .

Claims (3)

A collimator seated on a collimator support supported on an upper side of the support zone to create parallel light, a measuring unit measuring light emitted from the parody assembly support supported by the auxiliary support, and parallel light emitted from the collimator to the parody assembly support. Apparatus for manufacturing an optical isolator comprising an upper and lower birefringent element and a control unit for adjusting the position of the rotating element and the lower birefringent element in accordance with the measurement result of the measuring unit so as to pass through the upper and lower birefringent element and the rotating element . 2. The apparatus of claim 1, wherein the control unit includes a fixing member that fixes the upper and lower birefringent elements and the rotating element to be attached to and detached from the parody assembly support. 3. The apparatus of claim 2, wherein the fixing member includes a stator for fixing the upper birefringent element on one side and an adjuster for adjusting the rotating element on the other side.