KR100908895B1 - Multi fiber optical switch module - Google Patents

Abstract

A multi-core type fiber optical switch module without an influence of reflection loss is provided to cable stably a common port optical cable by guiding stably the common port optical cable without a flow. A multi-core type fiber optical switch module without an influence of reflection loss includes a base(10). A motor housing, a motor, a lens array plate(30), a general port optical cable(35), a rotating arm(40), a common port optical cable(45), and a reflective panel(50). The base has a flat structure. The motor housing is mounted on the base. The motor is loaded into the motor housing. A shaft is protruded to a front of the motor. The shaft is rotated in an angle which is set by a control of a controller. A central through-hole(30a) is formed at a center of the lens array plate. The shaft of the motor penetrates the central through-hole. The lens array plate is installed at a front end of the motor housing. A plurality of lens insertion holes are formed along a circumference of the lens array plate. A lens is installed at each of the lens insertion holes. The general port optical cable is coupled with the lens. The rotating arm penetrates the central through-hole of the lens array plate. One side of the rotating arm is fixed to the shaft of the motor. A lens insertion hole is formed at the other side of the rotating arm. The common port optical cable is coupled with the lens inserted into the rotating arm. The reflective panel is separated from the rotating arm in order to disperse the reflected light from an end of the general port optical cable.

Description

MULTI FIBER OPTICAL SWITCH MODULE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multicore fiber optical switch module used for optical loss measurement, reliability test, and the like of optical communication products. The present invention relates to a multi-fiber fiber optical switch module which is free from the effect of return loss, which is suitable for removing the sigma.

In general, optical switches are used in the field of test and systems related to optical communication and optics, and are located between the optical tester and the object under test.

Conventional techniques related to such optical switches include "non-contact optical switches and motor control methods using micro-optical elements and coaxial holders" by Japanese Patent Application Laid-Open No. 2001-0094690 and "Low Loss" by Registered Utility Model No. 20-0243549. Compact optical switches "are known.

The "non-contact optical switch and motor control method using a micro-optical element and coaxial holder" disclosed in Japanese Patent Application Laid-Open No. 2001-0094690 and the "low loss small optical switch" disclosed in Korean Utility Model No. 20-0243549 are simply horizontal lines of a lens array plate. It is a technical feature to install an ordinary fiber port on the top and corresponding ports to be placed on the horizontal line to reduce the insertion loss.

However, the prior art as described above has no technology capable of reducing the influence of reflection loss caused by the reflected light emitted from the end of the general port optical cable, and as a result, such signal distortion occurs. There was a problem.

In other words, the reflected light reflected from the end of the general port optical cable and exited to the input port of the general port optical cable acts as a noise to the signal when it is re-entered into the general port optical cable. In this case, signal distortion occurs.

The present invention was created to solve the above problems of the prior art, and the object of the multi-core fiber optical switch module without the influence of the return loss according to the present invention is to reflect at the end of the general port optical cable by the configuration of the reflective panel. The present invention provides a multi-fiber fiber optical switch module having no influence of return loss, which is suitable to minimize the effect of return loss caused by emitted light.

Another object of the multi-core fiber optical switch module without the influence of the return loss according to the present invention is to draw the common port optical cable to the rear in the same direction as the general port optical cable by the configuration of the guide slot groove and the seating recess space. The present invention provides a multi-fiber fiber optical switch module that does not affect the return loss, which is suitable for stably cabling a common port optical cable by stably guiding it without flow.

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Another object of the multi-core fiber optical switch module without the influence of the return loss according to the present invention, by the configuration of the cable guide, the cable guide cover and the cable alignment block to stably cable the general port optical cable without flow To provide a multi-core fiber optical switch module that does not affect the return loss to be suitable for the purpose.

Multi-fiber fiber optical switch module without the effect of the return loss of the present invention for achieving the above object, the base; A motor housing mounted to the base; A motor installed in the motor housing, the shaft protruding forward, and rotating at an angle set by a controller; A lens array plate in which a central through hole through which the shaft of the motor passes is formed at a central portion thereof, is installed at a front end of the motor housing, a plurality of lens insertion holes are formed along a circumference, and a lens is provided in the lens insertion hole; A plurality of general port optical cables respectively attached to a plurality of lenses provided in the lens array plate; One side is fixed to the motor shaft which protrudes forward through the center hole of the lens array plate, and rotates according to the rotation of the motor. A rotary arm inserted into the formed lens insertion hole; A common port optical cable fastened to the lens inserted into the rotation arm; And in order to minimize the influence of the reflection loss caused by the reflection of the reflected light emitted from the end of the general port optical cable and reentering into the general port optical cable, spaced forward from the rotary arm and protruding from the base to the base. Characterized in that it comprises a reflection panel (Reflection Panel) for dispersing the reflected light reflected from the end of the exit.

The multi-core fiber optical switch module without the influence of the return loss of the present invention having the configuration as described above has the following effects.

First, by the configuration of the reflective panel has the effect of minimizing the influence of the reflection loss by the light reflected from the end of the general port optical cable emitted.

Second, the common port optical cable can be stably cabled by guiding the common port optical cable to the rear, which is the same direction as the general port optical cable, by guiding the groove of the guide slot and the seating recess space. It has an effect.

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Third, the configuration of the cable guide, the cable guide cover and the cable alignment block has the effect of stably cabling the general port optical cable without flow.

The following will be described in detail with reference to the accompanying drawings a preferred embodiment of the multi-core fiber optical switch module without the influence of the present inventors reflection loss.

1 is a front perspective view of a multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, Figure 2 is a multi-core type without the effect of the return loss according to an embodiment of the present invention In the fiber optical switch module, the front perspective view of the case where the optical cable is not provided is shown, and FIG. 3 is a side configuration diagram of the multi-core fiber optical switch module without the influence of the return loss according to the embodiment of the present invention. 4 is a rear perspective view of FIG. 1, and FIG. 5 is a perspective view of main parts of a multi-core fiber optical switch module having no influence of reflection loss according to an embodiment of the present invention.

As shown, the multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, in the multi-core fiber optical switch module for switching the multi-core optical fiber, the flat base 10 And a motor housing 20 mounted on the base 10 and a motor installed in the motor housing 20, the shaft protruding forward, and rotating at an angle set by a controller (not shown). Not shown), and a central through hole 30a through which the shaft of the motor passes is formed at the center portion and installed at the front end of the motor housing 20 to form a plurality of lens insertion holes 31 along the circumference thereof. A plurality of general port optical cables that are respectively attached to the disk-shaped lens array plate 30 having the lens 32 in the insertion hole 31 and the plurality of lenses 32 provided in the lens array plate 30. 35 and the center of the lens array plate 30 One side is fixed to the motor shaft protruding forward through the through hole (30a) to rotate in accordance with the rotation of the motor, the other side is aligned with the lens 32 provided in the lens array plate 30 in accordance with the rotation The common port optical cable 45 which is coupled to the rotary arm 40 inserted into the lens insertion hole 41 through which the lens 42 is inserted through the lens 42 and the lens 42 inserted into the rotary arm 40. And, in order to minimize the effect of the reflection loss caused by the reflected light reflected from the end of the general port optical cable 35 is re-entered into the general port optical cable 35, spaced forward from the rotary arm 40 It is characterized in that it comprises a reflection panel (Reflection Panel) 50 which is projected to the base 10 to reflect the reflected light emitted from the end of the general port optical cable 35 and emitted.

The reflective panel 50 is a configuration for minimizing the influence of the reflection loss of the optical performance, by the configuration of the reflective panel 50 of the reflection loss due to the reflected light reflected from the end of the general port optical cable 35 The influence can be minimized, which will be described in more detail. Thus, the reflected light emitted from the general port optical cable 35 is dispersed so that the reflected light is not re-entered into the general port optical cable 35, thereby distributing the general port optical cable. The influence of the return loss of (35) can be minimized.

As such, when the reflection loss is minimized, there is an advantage in that distortion of the signal can be removed.

In addition, the lens 42 inserted into the rotation arm 40 and the lens 32 of the lens array plate 30 are aligned to minimize the insertion loss, and the common port optical cable 45 The light transmitted from is to switch the light to a specific general port optical cable 35 selected according to the rotation of the rotary arm 40, of course.

In the multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, in order to minimize the effect of the return loss by dispersing the light reflected from the end of the general port optical cable 35 In addition, a reflection mirror 51 attached to the inner surface of the reflective panel 50 is further included.

According to the configuration of the reflective mirror 51 as described above there is an advantage that the effect of the reflection loss can be further reduced by more efficiently dispersing the light reflected from the end of the general port optical cable 35.

In addition, in the case of another embodiment of the present invention, it is characterized in that the reflective coating can be implemented on the inner surface of the reflective panel 50 as a replacement configuration that performs the same function as the reflective mirror 51.

In the multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, the inner surface of the reflective panel 50 is composed of an inclined surface inclined forward at an angle of 15 degrees (θ) It features.

As described above, when the inner surface of the reflective panel 50 is inclined forward by 15 degrees and the reflective mirror 51 is inclined forward by 15 degrees, there is an advantage of minimizing the influence of the reflection loss.

On the other hand, in optical communication, in order to protect the light source, a reflection loss of about 40 dB or more is usually required. In the case of the prior art, 20 to 30 dB in a multimode (50um to 60um diameter of the core of an optical fiber) and a single mode (optical fiber Although the reflection loss effect was somewhat higher, such as 55 to 65 dB in the core diameter of 8 to 9 um), when the inner surface of the reflective panel 50 of the optical switch module according to the present invention was inclined forward by 15 degrees, the reflection was reflected. Loss test value was 48dB or more (-48dB) in multi mode and 68dB or more (-68dB) in single mode.

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In the multi-core fiber optical switch module having no influence of reflection loss according to an embodiment of the present invention, the common port is formed in the longitudinal direction of the base 10 under the motor housing 20, It is characterized in that the guide is further comprises a guide groove 12 for guiding the optical cable 45 to the rear to stably guide the common port optical cable 45 without flow.

In the multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, the common port optical cable 45 may be smoothly rotated according to the rotation of the rotary arm 40. It is characterized in that it is configured to further include a seating recess space 14 which is in communication with the guide chapter groove 12 is formed in the base 10 indentation.

In addition, in the multi-fiber fiber optical switch module without the influence of the return loss according to an embodiment of the present invention, a plurality of lenses mounted on the rear end of the motor housing 20, provided in the lens array plate 30 A plurality of cable guides (70) wound around the cable guides (70) and the cable guides (70) for stable maintenance by winding the plurality of general port optical cables (35) bound to (32); Cable guide cover which is mounted on the rear end of the cable guide 70 so as to surround the outer peripheral surface of the cable guide 70 so as to prevent the general port optical cable 35 of the cable guide 70 is separated in the radial outward direction ( 80 and a plurality of alignment ports 90a are formed to penetrate the inside and outside and guided by the cable guide cover 80 and the cable guide 70 through the alignment holes 90a. 35) Arranged by dividing into a plurality of bundles by characterized in that the cable line-up block (90) for guiding the external connector 36 configuration be further included.

By the configuration of the cable guide 70, the cable guide cover 80 and the cable alignment block 90 as described above there is an advantage that can be stably cabled to the general port optical cable without flow.

The following describes the operation of the multi-core fiber optical switch module without the influence of the return loss of the present invention having the configuration as described above.

Looking at the assembly sequence, the common port optical cable 45 is inserted into the guide cabinet groove 12, and the general port optical cable 35, which is dressed by the cable guide 70 and the cable guide cover 80, is aligned with the alignment hole 90a. By drawing through the cable, the common port optical cable 35 and the common port optical cable 45 are cabled.

When the motor (not shown) rotates at a predetermined angle under the control of a controller (not shown) and the rotation arm 40 rotates at a predetermined angle due to the rotation of the motor, the lens 42 attached to the common port optical cable 45 is rotated. ) And the predetermined lens 32 provided in the lens array plate 30 is aligned.

Then, the light transmitted from the common port optical cable 45 is transmitted to the general port optical cable 35, and the reflected light reflected and emitted from the end of the general port optical cable 35 is the reflection panel 50 or the reflection mirror 51 Is dispersed and is not reincident to the general port optical cable 35, and the influence of the reflection loss is hardly achieved. As a result, signal distortion can be eliminated.

The above embodiments of the present invention are merely one embodiment of the technical idea of the present invention, and of course, other modifications can be made within the technical idea of the present invention by those skilled in the art.

1 is a front perspective view of a multi-core fiber optical switch module without the influence of a return loss according to an embodiment of the present invention.

FIG. 2 is a front perspective view of the case where the optical cable is not provided in the multi-core fiber optical switch module without the influence of the return loss according to an embodiment of the present invention.

3 is a side sectional view of a main part of a multi-fiber fiber optical switch module having no influence of reflection loss according to an embodiment of the present invention.

4 is a rear perspective view of FIG. 1.

5 is a perspective view of main parts of a multi-core fiber optical switch module having no influence of reflection loss according to an embodiment of the present invention.

          Explanation of symbols on the main parts of the drawings

10: base 12: guide chapter groove

14: seating insertion space 20: motor housing

30: lens array plate 30a: central aperture

31, 41: lens insertion hole 32, 42: lens

35: general port optical cable 36; connector

40: rotary arm 45: common port optical cable

50: reflection panel 51: reflection mirror

70: cable guide

80: cable guide cover 90: cable alignment block

90a: alignment hole θ: internal tilt angle

Claims (7)

Base 10; A motor housing 20 mounted to the base 10; A motor installed in the motor housing 20, the shaft protrudes forward, and rotates at an angle set by a controller; A central through hole 30a through which the shaft of the motor passes is formed at the center portion and is installed at the front end of the motor housing 20 so that a plurality of lens insertion holes 31 are formed along the circumference and the lens insertion hole 31 is formed. Lens array plate 30 is provided with a lens 32; A plurality of general port optical cables 35 which are respectively attached to a plurality of lenses 32 provided in the lens array plate 30; One side is fixed to the motor shaft protruding forward through the central through hole (30a) of the lens array plate 30 is rotated in accordance with the rotation of the motor, the lens 32 provided on the lens array plate 30 on the other side A rotation arm 40 inserted into the lens insertion hole 41 through which the lens 42 is aligned with the lens 42; A common port optical cable 45 attached to the lens 42 inserted into the rotation arm 40; And In order to minimize the influence of the reflection loss caused by the reflection of the reflected light emitted from the end of the general port optical cable 35 to the general port optical cable 35 again, it is spaced apart from the rotary arm 40 in front of the There is no influence of the reflection loss, characterized in that it comprises a reflection panel (50) protruding from the base 10 to disperse the reflected light reflected from the end of the general port optical cable 35 and emitted Deep fiber optical switch module. The method according to claim 1, In order to minimize the effect of the reflection loss by dispersing the reflected light reflected from the end of the general port optical cable 35, the reflection mirror 51 attached to the inner surface of the reflective panel 50 is further included Multi-core fiber optical switch module, characterized in that the effect of the return loss. The method according to claim 2, The inner surface of the reflective panel 50 is a multi-fiber optical switch module, which is not affected by the return loss, characterized in that consisting of the inclined surface inclined forward at an angle of 15 degrees. The method according to claim 3, Guide grooves are formed in the longitudinal direction of the base 10 from the lower side of the motor housing 20 to guide the common port optical cable 45 stably without flow by drawing the common port optical cable 45 to the rear. Multi-core fiber optical switch module without the effect of the return loss, characterized in that the configuration further comprises (12). The method according to claim 4, In order to smoothly rotate the common port optical cable 45 in accordance with the rotation of the rotary arm 40, the seating recess space 14 is formed in communication with the guide long groove 12 is formed in the base 10 Multi-core fiber optical switch module that is not affected by the return loss, characterized in that further comprises. The method according to claim 5, A cable guide (70) mounted at a rear end of the motor housing (20) for winding the plurality of general port optical cables (35) and stably cabling the general port optical cables (35); In order to prevent the plurality of general port optical cables 35 wound around the cable guide 70 from being separated in the radially outward direction of the cable guide 70, the cable guides are provided to cover the outer circumferential surface of the cable guide 70. A cable guide cover 80 mounted at a rear end of the 70; A plurality of alignment holes 90a are formed to penetrate inside and outside, and a plurality of general port optical cables 35 guided by the cable guide cover 80 and the cable guide 70 through the alignment holes 90a. Multi-core fiber optical switch module that does not affect the return loss, characterized in that the configuration further comprises a cable alignment block (90) for aligning by dividing into a bundle of guides to the connector (36). delete

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