KR101459608B1 - A device for testing section of optical juper cord - Google Patents

Abstract

The present invention relates to a device for automatically inspecting the cross section of an optical jumper cord and, more specifically, to a device for automatically inspecting the cross section of an optical jumper cord capable of inspecting not only the cross section of optical fiber but also the cross section of ferrule by inspecting the cross section of an optical jumper cord while the optical jumper cord successively moves from a high magnification lens to a low magnification lens. The device for automatically inspecting the cross section of an optical jumper cord according to the present invention comprises: an inspection part having multiple inspectors for inspecting the cross section of the optical jumper cord with each different magnification; a cord jig part for fixing the optical jumper cord; a jig moving part for moving the cord jig part so that the cross section of the optical jumper cord fixed on the cord jig part can be positioned at positions to be inspected by the multiple inspectors; and a control part for controlling the driving of the jig moving part to allow the optical jumper cord fixed on the cord jig part to be successively inspected by the multiple inspectors.

Description

TECHNICAL FIELD [0001] The present invention relates to an optical jumper optical cross-

More particularly, the present invention relates to an optical jumper cord cross-sectional automatic inspection apparatus, and more particularly, to an optical jumper cord cross-sectional automatic inspection apparatus which sequentially inspects a cross section of an optical jumper cord from a high magnification to a low magnification lens, And an automatic cord section inspection apparatus.

In general, an optical jumper cord is manufactured by forming an optical fiber in the form of a cable, and a connector portion such as a ferrule is provided at both ends of the cable for connection between transmission equipment. Korean Unexamined Patent Application Publication No. 2003-0028288, Korean Unexamined Patent Application Publication No. 2004-0004915, Registered Patent Disclosure No. 0277357, and Korean Unexamined Patent Application Publication No. 2004-0001565 disclose an optical jumper cord.

As shown in FIG. 1, a general optical jumper cord fabrication process is performed through a total of twelve steps from optical cable cutting to packaging.

In the cross-sectional inspection process of the eight steps of the manufacturing process of the optical jumper cord, the cross-sectional geometry of the optical jumper cord is inspected using an interferometer. At present, a high-magnification interferometer such as a 400- It is impossible to confirm the entire cross section of the optical jumper cord, but only the cross-section based on the optical fiber is examined.

Fig. 2 conceptually shows a cross section of the optical jumper cord 1 in a state where the ferrule 1b is coupled to the distal end of the optical fiber 1a. The optical jumper cord 1 shown in Fig. 2 is polished in cross section at a required specific angle [alpha], where the cross-section inspection confirms the polished surface Sc with an interferometer. FIG. 3 conceptually illustrates a state in which the polishing surface Sc is inspected by an interferometer at a high magnification. Referring to FIG. 3, when an interferometer with a high magnification is used, Is mainly confined to the optical fiber 1a and the periphery of the optical fiber 1a, it can not be confirmed even if a poor polishing portion E is formed at the edge of the ferrule 1b.

In addition, in recent European standard IEC standards, optical fiber jumper cords are required to confirm not only the optical fiber but also the ferrule which is the peripheral portion of the optical fiber.

SUMMARY OF THE INVENTION The present invention has been made in recognition of the above points, and it is an object of the present invention to provide an optical jumper cord which can inspect an optical fiber cross section as well as a cross section of a ferrule by inspecting a cross section of the optical jumper cord sequentially from a high magnification to a low magnification lens. And an automatic cord section inspection apparatus.

In order to achieve the above object, an apparatus for automatically inspecting an optical jumper cord cross section according to the present invention includes a plurality of tester for inspecting a cross section of an optical jumper cord, the tester includes an inspection unit having different magnifications, A jig moving part for moving the code jig part to position the optical jumper cord at a position where a cross section of the optical jumper cord fixed to the code jig is inspected by each of the plurality of tester, And a control unit for controlling the driving of the jig moving unit so that the optical jumper cord fixed to the code jig unit is inspected sequentially by a plurality of tester units.

Further, the automatic inspection apparatus for an optical jumper cord section according to the present invention is characterized in that the inspection section is arranged such that the plurality of inspection apparatuses are mounted on the inspection apparatus fixing base and adjust the distance between the plurality of inspection apparatuses and the end surface of the optical jumper cord And the control unit controls the driving of the inspection unit moving unit.

The automatic jumper cord automatic inspection apparatus according to the present invention further includes a jig rotating part for rotating the code jig part to rotate the optical jumper cord fixed to the code jig part, The optical jumper cord is moved so as to be eccentrically positioned in the inspection region of the inspection apparatus, and the jig rotary unit is moved in a direction in which the optical jumper cord is positioned at a position eccentric to the inspection region The optical jumper cord is rotated so that the optical jumper cord is rotated, and a tester corresponding to a position where the optical jumper cord is rotated scans a section of the optical jumper cord to be rotated.

The apparatus for inspecting an optical cross-section of an optical jumper cord according to the present invention has an advantage of being able to inspect not only an optical fiber cross-section but also a cross-section of a ferrule by inspecting a cross section of an optical jumper cord sequentially from a high magnification to a low magnification lens Respectively.

Fig. 1 is a flowchart showing a manufacturing process of a general optical jumper cord.
2 is a cross-sectional view conceptually showing a cross section of a general optical jumper cord
FIG. 3 is a plan view schematically showing an inspection region confirmed at an end face of an optical jumper cord by a general high magnification interferometer
4A is a side view conceptually showing an optical jumper cord cross-sectional automatic inspection apparatus according to an embodiment of the present invention
4B is a side view conceptually showing the operation of the optical jumper cord section automatic inspection apparatus according to the embodiment of the present invention
5 is a flowchart conceptually showing an example of a process of examining a cross section of an optical jumper cord by an optical crossection automatic cross-section inspection apparatus according to an embodiment of the present invention.
FIG. 6 is a flowchart conceptually showing another example of a process of inspecting a section of an optical jumper cord by an automatic optical jumper cord cross-section inspection apparatus according to an embodiment of the present invention.

Hereinafter, an apparatus for automatically inspecting an optical jumper cord section according to an embodiment of the present invention will be described in detail with reference to embodiments shown in the drawings.

4A and 4B are conceptual side views of an optical jumper cord cross-sectional automatic inspection apparatus according to an embodiment of the present invention.

The optical jumper cord automatic cross-section automatic inspection apparatus 100 according to an embodiment of the present invention is for sequentially inspecting a cross section of an optical jumper cord from a high magnification to a low magnification inspection unit. Referring to the drawings, The automatic jumper cord automatic inspection apparatus 100 according to the present invention includes an inspection unit 110, a tester moving unit 120, a code jig 130, a jig moving unit 140, a jig rotating unit 150, a control unit 160, And a controller 170.

The inspection unit 110 is for inspecting a section of the optical jumper cord 1 fixed to the code jig 130 and moved by the jig moving unit 140. The inspection units 110a, 112b, and 112c. Referring to FIG. 1, the inspection unit 110 includes a tester 111 fixed to a plurality of tiers 112a, 112b and 112c arranged in a row, And a plurality of inspection machines 112a, 112b, and 112c arranged and arranged in a row in the order of low magnification (× 200, × 80). The test fixture 111 is formed of a straight rod member and is moved in the vertical direction (V) by the inspecting unit moving unit 120. The plurality of inspectors 112a, 112b, and 112c are configured to check and inspect a cross section of the optical jumper cord 1 fixed to the code jig 130, and are usually equipped with an equipment such as an interferometer . The present invention is characterized in that the tester 112a, 112b and 112c is provided with several optical elements having various magnifications and the optical jumper cord 1 fixed to the code jig 130 by the inspectors 112a, 112b and 112c, respectively And the cross section of the optical jumper cord 1 moved by moving to the jig moving part 140 is inspected.

The inspector moving unit 120 checks the cross section of the optical jumper cord 1 moved to the inspector 112a, 112b, or 112c by a plurality of inspector's 112a, 112b, and 112c mounted on the inspector's fixture table 111 And adjusts the distance between the inspection device 112a, 112b, 112c and the end face of the optical jumper cord 1 when the suitable focus is not in accordance with the following condition. That is, the tester moving unit 120 moves the tester fixing table 111 in the up and down direction (V) so as to focus the tester 112a, 112b, 112c so that the plurality of tester 112a, 112b, And the end face of the optical jumper cord 1 is adjusted. This is because if the main controller 170 determines that the focus of the tester 112a, 112b or 112c is not proper, the controller 160 drives the tester moving unit 120 so that the focus is appropriately focused on the test And moves the tester fixing table 111 in the vertical direction (V).

The code jig 130 is a structure for fixing the optical jumper cord 1 in a state in which it can be inspected by the tester 112a, 112b, 112c. The present invention is characterized in that a plurality of inspection machines 112a, 112b and 112c are provided and the optical jumper cord 1 is moved so as to sequentially pass the plurality of inspection machines 112a, 112b and 112c For this purpose, the code jig 130 to which the optical jumper cord 1 is fixed is moved by the jig moving unit 140. In addition, as will be described later, the present invention can be configured such that the optical jumper cord 1 is rotated and one tester scans a cross section of the optical jumper cord 1, And is rotated by the jig rotating unit 150.

The jig moving part 140 moves the optical jumper cord 1 fixed to the code jig 130 to a position where the cross section of the optical jumper cord 1 is inspected by each of the plurality of tester 112a, 112b, 1) of the code jig 130 is positioned. The jig moving part 140 includes a guide 141 guided to linearly move the code jig 130 in a horizontal direction H and a guide 141 guiding the code jig 130 in a horizontal direction V And a driver 142 for reciprocally driving the light emitting diodes. The optical jumper cord 1 fixed to the code jig 130 is moved by the jig moving unit 140 so as to be sequentially inspected by the plurality of tester units 112a, 112b and 112c, 160 control the driving of the jig moving part 140. [

The jig rotary unit 150 is configured to rotate the code jig 130 to rotate the optical jumper cord 1 fixed to the code jig 130. The jig rotary unit 150 is moved integrally with the cord jig 130 by the jig transfer unit 140 and only the cord jig 130 moves in one direction R, Or both directions. Accordingly, the jig rotary unit 150 can scan the entire cross section of the optical jumper cord 1 in a state where the optical jumper cord 1 is positioned so that a part of the cross section of the optical jumper cord 1 is inspected to any one of the plurality of inspection units 112a, 112b, and 112c The optical jumper cord 1 is rotated.

The control unit 160 controls the driving of the jig moving unit 140 so that the optical jumper cord 1 fixed to the code jig 130 is sequentially inspected by the plurality of tester 112a, 112b, do. The control unit 160 controls the optical jumper cord 1 so that any one of the plurality of tester 112a, 112b, and 112c can scan the entire cross section of the optical jumper cord 1, And controls the driving of the jig rotary part 150 to rotate the part 130. The control unit 160 moves the test fixture 111 in the vertical direction V so that the focus of the test devices 112a, 112b, and 112c is appropriately adjusted to inspect the cross section of the optical jumper cord 1 And controls the driving of the inspection unit moving unit 120 for the inspection unit.

The main controller 170 controls the operation of each of the plurality of testers 112a, 112b and 112c and processes the signals received from the plurality of testers 112a, 112b and 112c, (E), and displays it so that it can be confirmed by the operator. The main controller controls the controller 160 to send and receive signals to and from a controller 160 that controls the operation of the inspector moving unit 120, the jig moving unit 140, and the jig- .

The cross section of the optical jumper cord 1 is inspected by the optical jumper cord cross sectional automatic inspecting apparatus 100 according to an embodiment of the present invention configured as described above to inspect the entire optical fiber 1a and the periphery thereof as well as the entire ferrule 1b Hereinafter, with reference to FIGS. 5 and 6, a description will be given of a process of inspecting a section of the optical jumper cord 1 by the optical jumper cord automatic cross-section automatic inspection apparatus 100 according to an embodiment of the present invention .

FIG. 5 is a flowchart conceptually showing an example of a process of inspecting a section of an optical jumper cord by an optical jumper cord cross-sectional automatic inspection apparatus according to an embodiment of the present invention. 5 shows a state in which the optical jumper cord 1 fixed to the code jig 130 from the high magnification to low magnification order (x400x200x80) is inspected by the inspectors 112a, 112b and 112c And the cross section is inspected. FIG. 5, a central portion of the optical jumper cord 1 around the optical fiber 1a is inspected by a tester 112a having a high magnification (x400) having a narrow inspection area A1, A portion of the ferrule 1b excluding the edge of the ferrule 1b is inspected by a tester 112b having a medium magnification (占 0) having a region A2 and then the same portion of the optical jumper cord 1 It is found that inspection of the whole cross section of the optical jumper cord 1 is performed sequentially with a low magnification (x80) tester 112c having the inspection area A3 of the range. Accordingly, the optical jumper cord automatic cross-section automatic inspection apparatus 100 according to the present invention can identify the defective portion E in the process of inspecting the cross section of the optical jumper cord 1 with the low magnification (× 80) .

On the other hand, when the inspection is performed sequentially through two or more tester units as described above, the cycle time may be prolonged. This can be solved by using only two checkers. FIG. 6 conceptually shows an example of using only a high magnification checker 112a and two high-magnification checkers 112b unlike the process shown in FIG. As described above, the present invention can be configured to rotate the optical jumper cord 1 so that one tester can scan a section thereof. FIG. 6 conceptually illustrates the process. 6, the optical jumper cord 1 fixed to the code jig 130 is connected to the optical jumper cord 1 by a high magnification (x400) tester 112a having a narrow inspection area A1. The central portion around the optical fiber 1a is inspected and the jig moving part 140 is driven to move the optical jumper cord 1 to the tester 112b having a medium magnification (x 200). At this time, the optical jumper cord 1 is not positioned so that the center of its cross section coincides with the center of the tester 112b, and the cross section of the optical jumper cord 1 is located in the inspection area A4 of the tester 112b. So that the center of the optical jumper cord 1 and one side of the edge thereof can be inspected. In such a state, the jig rotary part 150 rotates the optical jumper cord 1 in one direction (R) by 360 ° so that the entire cross section of the optical jumper cord 1 is scanned by the inspector 112b . Accordingly, the inspection process as shown in FIG. 6 can shorten the inspection time by moving the optical jumper cord 1 only once and immediately rotating it.

The drawings and the above-described optical jumper cord automatic cross-sectional inspection apparatus are 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 following claims, and the embodiments improved and changed without departing from the gist of the present invention are obvious to those having ordinary skill in the art to which the present invention belongs It will be understood that the invention is not limited thereto.

1 optical jumper cord
1a optical fiber
1b ferrule
Sc abrasive face
E defective portion
100 Optical jumper cord automatic inspection unit
110 Inspection section
120 inspecting moving part
130 code jig
140 jig moving part
150 jig rotating part
160 control unit
170 main controller
A, A1, A2, A3, A4 Inspection area

Claims (3)

A plurality of inspection machines for inspecting the cross section of the optical jumper cord are provided, the inspection machines having inspection sections having different magnifications,
A code jig for fixing the optical jumper cord,
A jig moving part for moving the code jig part to position the optical jumper cord at a position where the cross section of the optical jumper cord fixed to the code jig part is inspected by each of the plurality of tester;
And a control unit for controlling driving of the jig moving unit to sequentially scan the optical jumper cord fixed to the code jig by a plurality of tester,
The inspection unit may be configured such that the plurality of inspection devices are mounted on the inspection device fixing table,
Further comprising a tester moving unit for moving the tester fixing table up and down to adjust the distance between the plurality of tester and the end face of the optical jumper cord so as to focus,
Wherein the control unit controls the driving of the inspector moving unit. The method according to claim 1,
Further comprising a jig rotating portion for rotating the code jig portion to rotate the optical jumper cord fixed to the code jig portion,
Wherein the jig moving unit moves the optical jumper cord to inspect the optical jumper cord with any one of the inspection units having a low magnification,
Wherein the jig rotary part rotates the code jig so that the optical jumper cord is rotated in a state where a cross section of the optical jumper cord is positioned at an eccentric position with respect to the inspection area,
Wherein a tester corresponding to a position at which the optical jumper cord is rotated scans a cross section of the optical jumper cord to be rotated. delete

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