JP6808118B1 - Fiber optic tape quality inspection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a quality inspection system for manufacturing an optical fiber tape. SOLUTION: The inspection box 10 and the inspection space 23 installed in the inspection box 10 are included, and a left rotation shaft 14 is rotatably installed on the bottom wall of the inspection space 23 and rotates counterclockwise. A mounting block 11 is fixedly installed on the upper end of the shaft 14, a rotating box 54 is fixedly installed on the mounting block 11, and an empty space 22 penetrating the rotating box 54 vertically is provided in the rotating box 54. A spring groove 53 that is installed and opens forward is formed symmetrically in the back wall of the empty space 22, and a support plate 47 is slidably installed in the spring groove 53, and the support plate 47 and the spring groove are installed. A connecting spring 48 is connected to the inner wall of the 53, a holding and fixing mechanism is installed on the support plate 47, a storage space 40 opened upward is installed in the inspection box 10, and the storage space 40 is installed. The optical fiber tape 41 is stored in the inspection box 10, and the feeding mechanism 90 is installed in the inspection box 10. [Selection diagram] Fig. 1

Description

The present invention relates to a technical field of quality inspection of optical fiber tape, and specifically to a quality inspection system of optical fiber tape .

Currently, in the quality inspection of optical fiber tapes, there is a lack of equipment to inspect the bendability of optical fiber tapes, so optical fiber tapes manufactured by companies may have different curvatures with the same force, resulting in product consistency. The present invention is provided for the above problems.

Publication No. 110803873 of Chinese Patent Application

It provides a quality inspection system for optical fiber tape and solves the above problems.

A quality inspection system for optical fiber tape , including an inspection box and an inspection space installed in the inspection box, and a left rotation axis is rotatably installed on the bottom wall of the inspection space. A mounting block is fixedly installed at the upper end of the left rotation shaft, a rotating box is fixedly installed on the mounting block, and an empty space penetrating the rotating box up and down is inside the rotating box. Is installed, a spring groove that opens forward is formed symmetrically in the back wall of the empty space, and a support plate is slidably installed in the spring groove, and the support plate and the spring groove are installed. A connecting spring is connected to the inner wall of the space, and a holding and fixing mechanism is installed on the support plate.
An upwardly open storage space is installed in the inspection box, an optical fiber tape is stored in the storage space, a feeding mechanism is installed in the inspection box, and the feeding mechanism is described as described above. The optical fiber tape in the storage space can be sent to the pinching and fixing mechanism, and the pinching and fixing mechanism can pinch and fix both the left and right ends of the optical fiber tape, and is located above the inspection space in the inspection box. A slide space is installed, the slide space and the inspection space are communicated with each other, the slide space is located on the right side of the storage space, and a slider that can slide up and down is installed in the slide space. A lower push block is fixedly connected to the lower end of the slider by the link, and the left rotation shaft can move the optical fiber tape pinched and fixed by the pinch fixing mechanism while rotating it under the lower push block. A localization sensor is fixedly installed on the bottom wall of the inspection space, an ink injection mechanism is fixedly installed on the top wall of the inspection space, and the lower push block is lowered to attach the optical fiber tape. A constant force is applied to the slider so as to push it downward, and the curvature of the optical fiber tape bent under the influence of the same force is determined depending on whether or not the optical fiber tape contacts the localization sensor, and the ink injection mechanism determines the bending curvature. According to the information fed back from the localization sensor, ink is sprayed onto the optical fiber tape to classify the optical fiber tape.

Advantageously, four of the rotating boxes are arranged at equal intervals on the outer surface of the mounting block, and a power space located below the inspection space is installed in the inspection box. The lower end of the left rotation shaft extends into the power space, a motor is fixedly installed on the bottom wall of the power space, and the power shaft is movably connected to the upper side of the motor. A fan-shaped gear is fixedly installed at the upper end of the power shaft, and a left gear capable of meshing with the fan-shaped gear is fixedly installed on the left rotating shaft.

Advantageously, the feed mechanism includes a rotating shaft rotatably installed on the left wall of the inspection space, the rotating shaft and the left rotating shaft are mobilably connected by a left pulley and said storage. The space and the inspection space are in communication with each other, a rotating shaft is rotatably installed on the left wall of the storage space, a rotating wheel is fixedly installed on the right end of the rotating shaft, and the rotating wheel is installed. It is located at a place where the storage space and the inspection space communicate with each other, and an upwardly open exit groove is formed in the rotating wheel, and the outlet groove communicates with the bottom wall of the outlet groove. The mounting space is installed symmetrically, a linear actuator is fixedly installed on the bottom wall of the mounting space, a pressing plate is fixedly connected to the upper side of the linear actuator, and the left end of the rotating shaft and the rotating The shaft is connected so as to be transmitted by the first disc-shaped ratchet mechanism.

Advantageously, a force storage space located on the right side of the storage space is installed in the inspection box, and a force storage shaft is rotatably installed on the left wall of the power storage space, and the force storage is provided. A shaft extends to the left into the storage space and is fixedly connected to the rotating wheel, a first ratchet is fixedly installed on the force storage shaft, and a motion groove is formed on the top wall of the power storage space. Is formed, an electromagnet is fixedly installed on the right wall of the moving groove, an iron slider is slidably installed in the moving groove, and the first ratchet is attached to the lower end of the iron slider. A first meshing pawl is attached, a first spring is connected between the iron slider and the left wall of the motion groove, and a first spring is connected between the force storage shaft and the right wall of the force storage space. A one-twist spring is connected.

Advantageously, a right rotation shaft is rotatably installed on the bottom wall of the power space, and a right gear meshing with the fan-shaped gear is fixedly installed on the right rotation shaft in the inspection box. Is provided with a transmission space located above the slide space, a pulley shaft is rotatably installed on the left wall of the transmission space, and the pulley shaft and the right rotation shaft are rotatably connected by the right pulley. A transmission shaft is rotatably installed on the right wall of the transmission space, the left end of the transmission shaft and the pulley shaft are rotatably connected by a second disc-shaped ratchet mechanism, and a reel is attached to the transmission shaft. It is fixedly installed, and a draw wire is wound around the reel, and the lower end of the draw wire extends into the slide space and is fixedly connected to the slider, and the slider and the top of the slide space are fixedly connected. A pressing spring is connected to the wall, a second ratchet is fixedly installed on the transmission shaft, and a second pawl that can move left and right is installed in the transmission space. A second torsional spring is connected to the right wall of the transmission space.

A mounting shaft is rotatably installed on the top wall of the transmission space, and the mounting shaft and the force storage shaft are rotatably connected by a connecting pulley, and the mounting shaft is located below the mounting shaft in the transmission space. The cam shaft to be located is rotatably installed, the cam shaft and the mounting shaft are movably connected by a third disc-shaped ratchet mechanism, and a cam is fixedly installed on the cam shaft to accommodate the transmission space. A mounting slide groove is formed on the rear wall, a localization rod is slidably installed in the mounting slide groove, the left end surface of the localization rod is in contact with the cam, and the second pawl is the said. It is mounted on the left end surface of the localization rod, and a repositioning spring is connected between the localization rod and the right wall of the mounting slide groove.

The holding and fixing mechanism includes a guide groove formed vertically symmetrically on the upper end surface of the support plate, and the holding and fixing plate is slidably installed in the guide groove, and the holding and fixing plate and the guide groove A spring is connected to the inner wall, and the optical fiber tape is sandwiched between the front and rear holding fixing plates.

When the inspection space is open to the rear and the inspected optical fiber tape is rotated to the rear side of the inspection space, the user removes the optical fiber tape and uses ink sprayed on the optical fiber tape. Sort and package.

By forming the lower surface of the lower push block into an arc shape, it is possible to prevent the optical fiber tape from being damaged.

The beneficial effect of the present invention is: After the optical fiber tape is placed in the designated place of the present invention, the present invention automatically carries the optical fiber tape to the designated place, and after the optical fiber tape moves to the designated place, the present invention becomes the optical fiber tape. A constant force is applied to measure the degree of bending, and different fiber optic tapes are classified according to the degree of bending to guarantee product consistency and fill the void of such inspection equipment on the market.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

FIG. 1 is an overall configuration diagram of the present invention. FIG. 2 is a block diagram of AA in FIG. FIG. 3 is a block diagram of the turning box 54 in FIG. FIG. 4 is a block diagram of BB in FIG. FIG. 5 is a block diagram of C in FIG. FIG. 6 is a block diagram of D in FIG.

As shown in FIGS. 1 to 6, it is a quality inspection system for an optical fiber tape, and includes an inspection box 10 and an inspection space 23 installed in the inspection box 10, and the inspection space. A left rotation shaft 14 is rotatably installed on the bottom wall of 23, a mounting block 11 is fixedly installed on the upper end of the left rotation shaft 14, and a rotation box 54 is fixedly installed on the mounting block 11. An empty space 22 that penetrates the rotating box 54 vertically is installed in the rotating box 54, and a spring groove 53 that opens forward is formed symmetrically in the back wall of the empty space 22. A support plate 47 is slidably installed in the spring groove 53, a connecting spring 48 is connected between the support plate 47 and the inner wall of the spring groove 53, and the support plate 47 is sandwiched and fixed. Mechanism 91 is installed,
A storage space 40 opened upward is installed in the inspection box 10, an optical fiber tape 41 is stored in the storage space 40, and a feeding mechanism 90 is installed in the inspection box 10. The feeding mechanism 90 can feed the optical fiber tape in the storage space 40 to the sandwiching and fixing mechanism 91, and the sandwiching and fixing mechanism 91 can sandwich and fix the left and right ends of the optical fiber tape 41, and the inspection box 10 A slide space 28 located above the inspection space 23 is installed in the inside, and the slide space 28 and the inspection space 23 communicate with each other, and the slide space 28 is on the right side of the storage space 40. A slider 27 that is located and can slide up and down is installed in the slide space 28, a lower push block 25 is fixedly connected to the lower end of the slider 27 by the link 26, and the left rotation shaft 14 is sandwiched. The optical fiber tape 41 sandwiched and fixed to the fixing mechanism 91 can be moved while being rotated to the lower side of the lower push block 25, and the localization sensor 24 is fixedly installed on the bottom wall of the inspection space 23. An ink injection mechanism 39 is fixedly installed on the top wall of the inspection space 23, and a constant force is applied to the slider 27 so as to lower the lower push block 25 and push the optical fiber tape 41 downward. The optical fiber tape 41 determines the bending curvature due to the influence of the same force depending on whether or not the optical fiber tape 41 contacts the localization sensor 24, and the ink injection mechanism 39 uses the information fed back from the localization sensor 24 to determine the bending curvature of the optical fiber tape 41. Inject ink into the fiber optic fiber to classify

Four of the rotating boxes 54 are arranged at equal intervals on the outer surface of the mounting block 11, and a power space 21 located below the inspection space 23 is installed in the inspection box 10. The lower end of the left rotation shaft 14 extends into the power space 21, the motor 15 is fixedly installed on the bottom wall of the power space 21, and the power shaft 16 is transmitted above the motor 15. A fan-shaped gear 17 is fixedly installed at the upper end of the power shaft 16 and a left gear 12 capable of meshing with the fan-shaped gear 17 is fixedly installed on the left rotating shaft 14. ..

The feed mechanism 90 includes a rotating shaft 45 rotatably installed on the left wall of the inspection space 23, and the rotating shaft 45 and the left rotating shaft 14 are rotatably connected by a left pulley 13 to be transmitted. The storage space 40 and the inspection space 23 are in communication with each other, a rotating shaft 42 is rotatably installed on the left wall of the storage space 40, and a rotating wheel 49 is fixedly installed at the right end of the rotating shaft 42. The rotating wheel 49 is installed and is located at a position where the storage space 40 and the inspection space 23 communicate with each other, and an upwardly open outlet groove 76 is formed in the rotating wheel 49. A mounting space 52 communicating with the outlet groove 76 is symmetrically installed in the bottom wall of the mounting space 52, and a linear actuator 51 is fixedly installed on the bottom wall of the mounting space 52, above the linear actuator 51. The pressing plate 50 is fixedly connected, and the left end of the rotating shaft 42 and the rotating shaft 45 are movably connected by a first plate-shaped ratchet mechanism 43.

A force storage space 73 located on the right side of the storage space 40 is installed in the inspection box 10, and a force storage shaft 74 is rotatably installed on the left wall of the force storage space 73. The shaft 74 extends to the left into the storage space 40 and is fixedly connected to the rotating wheel 49, and a first ratchet 75 is fixedly installed on the force storage shaft 74 to provide the force storage space 73. A motion groove 69 is formed on the top wall, an electric magnet 68 is fixedly installed on the right wall of the motion groove 69, and an iron slider 70 is slidably installed in the motion groove 69. A first pawl 72 that meshes with the first ratchet 75 is attached to the lower end of the quality slider 70, and a first spring 71 is connected between the iron slider 70 and the left wall of the movement groove 69. A first torsion spring 67 is connected between the force storage shaft 74 and the right wall of the force storage space 73.

A right rotation shaft 18 is rotatably installed on the bottom wall of the power space 21, and a right gear 20 meshing with the fan-shaped gear 17 is fixedly installed on the right rotation shaft 18 of the inspection box 10. A transmission space 38 located above the slide space 28 is installed inside, a pulley shaft 37 is rotatably installed on the left wall of the transmission space 38, and the pulley shaft 37 and the right rotation shaft 18 are connected to each other. A transmission shaft 34 is rotatably installed on the right wall of the transmission space 38, and the left end of the transmission shaft 34 and the pulley shaft 37 are rotatably connected by a second disc-shaped ratchet mechanism 35. The reel 33 is fixedly installed on the transmission shaft 34, the lead wire 32 is wound around the reel 33, and the lower end of the lead wire 32 is in the slide space 28. It extends and is fixedly connected to the slider 27, a pressing spring 29 is connected between the slider 27 and the top wall of the slide space 28, and a second ratchet 30 is fixedly installed on the transmission shaft 34. A second ratchet 61 that can move left and right is installed in the transmission space 38, and a second torsion spring 31 is connected between the transmission shaft 34 and the right wall of the transmission space 38.

A mounting shaft 66 is rotatably installed on the top wall of the transmission space 38, and the mounting shaft 66 and the force storage shaft 74 are rotatably connected by a connecting pulley 65. A cam shaft 63 located below the mounting shaft 66 is rotatably installed, and the cam shaft 63 and the mounting shaft 66 are movably connected by a third disc-shaped ratchet mechanism 64, and the cam shaft 63 is connected to the cam shaft 63. The cam 62 is fixedly installed , a mounting slide groove 58 is formed on the back wall of the transmission space 38, and a localization rod 57 is slidably installed in the mounting slide groove 58, and the localization rod 57 is installed. The left end surface and the cam 62 are in contact with each other, the second pawl 61 is mounted on the left end surface of the localization rod 57, and a repositioning spring is provided between the localization rod 57 and the right wall of the mounting slide groove 58. 59 are connected.

The pinch fixing mechanism 91 includes a guide groove 55 formed vertically symmetrically on the upper end surface of the support plate 47, and the pinch fixing plate 46 is slidably installed in the guide groove 55, and the pinch fixing plate 46 is slidably installed. A spring 56 is connected between the 46 and the inner wall of the guide groove 55, and the optical fiber tape 41 is sandwiched between the front and rear holding fixing plates 46.

When the inspection space 23 is open to the rear and the inspected optical fiber tape 41 is rotated to the rear side of the inspection space 23, the user removes the optical fiber tape 41 and attaches the optical fiber tape 41 to the optical fiber tape 41. Sort and package according to the sprayed ink.

By forming the lower surface of the lower push block 25 into an arc shape, it is possible to prevent the optical fiber tape 41 from being damaged.

Procedure for using the present invention:
The motor 15 is activated to rotate and interlock the fan-shaped gear 17 with the power shaft 16, the fan-shaped gear 17 meshes with the right gear 20, the right gear 20 rotates and interlocks the right pulley 19 with the right rotating shaft 18, and the right pulley 19 is the pulley. The shaft 37 is rotationally interlocked, the pulley shaft 37 is rotationally interlocked with the reel 33 by the second disc-shaped ratchet mechanism 35 and the transmission shaft 34, and the reel 33 pulls in the lead wire 32 to move the slider 27 upward and press it. The spring 29 is compressed, the lower push block 25 rotates to the upper side of the rotating box 54, and the transmission shaft 34 rotates to store the force in the second torsion spring 31. The fan-shaped gear 17 and the right gear 20 are disengaged from the meshing with the left gear 12, the left gear 12 rotates and interlocks the left rotating shaft 14, and the left rotating shaft 14 rotates the mounting block 11 by 90 degrees and rotates counterclockwise. The shaft 14 rotates the rotating shaft 45 with the left pulley 13, the rotating shaft 45 rotates the rotating shaft 42 with the first disc-shaped ratchet mechanism 43, and the rotating shaft 42 rotates the rotating wheel 49 180 degrees. , The outlet groove 76 opens downward, and the linear actuator 51 is activated to move the pressing plate 50 downward, thereby pressing the optical fiber tape 41 in the outlet groove 76 downward between the front and rear holding fixing plates 46. And sandwich it.
At this time, the rotating box 54 rotates to the lower side of the lower push block 25, the fan-shaped gear 17 and the left gear 12 separate from each other and rotate to the initial position, and the motor 15 stops.
The electric magnet 68 is activated to attract the iron slider 70, the iron slider 70 interlocks the first pawl 72 to the right and separates it from the first ratchet 75, and the force storage shaft 74 by the action of the first torsion spring 67. Rotates to rotate the rotating wheel 49 to the initial position, the force storage shaft 74 rotates and interlocks the mounting shaft 66 with the connecting pulley 65, and the mounting shaft 66 is the cam 62 with the third plate-shaped ratchet mechanism 64 and the cam shaft 63. The cam 62 pushes the localization rod 57 to the right, and the localization rod 57 interlocks the second pawl 61 and separates it from the second ratchet 30.
The second torsion spring 31 rotates the transmission shaft 34 in conjunction with the rotation, the reel 33 reverses and extends the lead wire 32, the slider 27 moves downward by the action of the pressing spring 29, and the slider 27 is pushed down by the connecting rod 26. Presses the optical fiber tape 41 downward, and if the lower end surface of the optical fiber tape 41 comes into contact with the localization sensor 24, the ink injection mechanism 39 attaches an A-shaped mark to the optical fiber tape 41.
If the optical fiber tape 41 does not come into contact with the localization sensor 24, the ink injection mechanism 39 marks the optical fiber tape 41 with a B-type mark.
After the motor 15 is restarted, the inspected optical fiber tape 41 is rotated to the back side of the inspection box 10, and at this time, the user removes the optical fiber tape 41 and sorts and wraps it according to the mark attached to the optical fiber tape 41.

According to the above method, those skilled in the art can carry out various changes according to the operation pattern within the scope of the present invention.

Claims (9)

A quality inspection system for optical fiber tape , including an inspection box and an inspection space installed in the inspection box, and a left rotation axis is rotatably installed on the bottom wall of the inspection space. A mounting block is fixedly installed at the upper end of the left rotation shaft, a rotating box is fixedly installed on the mounting block, and an empty space penetrating the rotating box up and down is inside the rotating box. Is installed, a spring groove that opens forward is formed symmetrically in the back wall of the empty space, and a support plate is slidably installed in the spring groove, and the support plate and the spring groove are installed. A connecting spring is connected to the inner wall of the space, and a holding and fixing mechanism is installed on the support plate.
An upwardly open storage space is installed in the inspection box, an optical fiber tape is stored in the storage space, a feeding mechanism is installed in the inspection box, and the feeding mechanism is described as described above. The optical fiber tape in the storage space can be sent to the pinching and fixing mechanism, and the pinching and fixing mechanism can pinch and fix both the left and right ends of the optical fiber tape, and is located above the inspection space in the inspection box. A slide space is installed, the slide space and the inspection space are communicated with each other, the slide space is located on the right side of the storage space, and a slider that can slide up and down is installed in the slide space. A lower push block is fixedly connected to the lower end of the slider by the link, and the left rotation shaft can move the optical fiber tape pinched and fixed by the pinch fixing mechanism while rotating it to the lower side of the lower push block. A localization sensor is fixedly installed on the bottom wall of the inspection space, an ink injection mechanism is fixedly installed on the top wall of the inspection space, and the lower push block is lowered to attach the optical fiber tape. A constant force is applied to the slider so as to push it downward, and the curvature of the optical fiber tape bent under the influence of the same force is determined depending on whether or not the optical fiber tape contacts the localization sensor, and the ink injection mechanism determines the bending curvature. A quality inspection system for an optical fiber tape, which comprises injecting ink onto the optical fiber tape based on information fed back from a localization sensor to perform classification. Four of the rotating boxes are arranged at equal intervals on the outer surface of the mounting block, and a power space located below the inspection space is installed in the inspection box, and the left rotation axis is installed. A lower end of the power space extends into the power space, a motor is fixedly installed on the bottom wall of the power space, a power shaft is movably connected to the upper side of the motor, and is connected to the upper end of the power shaft. The quality inspection of the optical fiber tape according to claim 1, wherein the fan-shaped gear is fixedly installed, and the left gear capable of meshing with the fan-shaped gear is fixedly installed on the left rotating shaft. Measurement system . The feed mechanism includes a rotating shaft rotatably installed on the left wall of the inspection space, and the rotation shaft and the left rotation shaft are rotatably connected by a left pulley, and the storage space and the inspection are connected. The space is communicated with each other, a rotating shaft is rotatably installed on the left wall of the storage space, a rotating wheel is fixedly installed on the right end of the rotating shaft, and the rotating wheel is the storage space and the said. It is located in a place where it communicates with the inspection space, and an upward groove is formed in the rotating wheel, and the mounting space communicating with the groove is symmetrical in the bottom wall of the groove. A linear actuator is fixedly installed on the bottom wall of the mounting space, a pressing plate is fixedly connected to the upper side of the linear actuator, and the left end of the rotating shaft and the rotating shaft are first. The quality inspection system for an optical fiber tape according to claim 2, wherein the optical fiber tape is movably connected by a disc-shaped ratchet mechanism. A force storage space located on the right side of the storage space is installed in the inspection box, a force storage shaft is rotatably installed on the left wall of the power storage space, and the force storage shaft moves to the left. It extends into the storage space and is fixedly connected to the rotating wheel, a first ratchet is fixedly installed on the force storage shaft, and a motion groove is formed on the top wall of the force storage space. An electromagnet is fixedly installed on the right wall of the moving groove, an iron slider is slidably installed in the moving groove, and a first pawl that meshes with the first ratchet is placed at the lower end of the iron slider. Is mounted, a first spring is connected between the iron slider and the left wall of the motion groove, and a first torsion spring is connected between the force storage shaft and the right wall of the force storage space. The quality inspection system for an optical fiber tape according to claim 3, wherein the quality inspection system is provided . A right rotation shaft is rotatably installed on the bottom wall of the power space, a right gear meshing with the fan-shaped gear is fixedly installed on the right rotation shaft, and the slide space is contained in the inspection box. A transmission space located above the transmission space is installed, a pulley shaft is rotatably installed on the left wall of the transmission space, and the pulley shaft and the right rotation shaft are rotatably connected by a right pulley to transmit the transmission space. A transmission shaft is rotatably installed on the right wall of the transmission shaft, the left end of the transmission shaft and the pulley shaft are rotatably connected by a second disc-shaped ratchet mechanism, and a reel is fixedly installed on the transmission shaft. A draw wire is wound around the reel, and the lower end of the draw wire extends into the slide space and is fixedly connected to the slider, and is between the slider and the top wall of the slide space. Is connected with a pressing spring, a second ratchet is fixedly installed on the transmission shaft, a second pawl that can move left and right is installed in the transmission space, and the transmission shaft and the right wall of the transmission space are installed. The quality inspection system for an optical fiber tape according to claim 4, wherein a second torsional spring is connected to the ratchet . A mounting shaft is rotatably installed on the top wall of the transmission space, and the mounting shaft and the force storage shaft are rotatably connected by a connecting pulley, and the mounting shaft is located below the mounting shaft in the transmission space. The cam shaft to be located is rotatably installed, the cam shaft and the mounting shaft are movably connected by a third disc-shaped ratchet mechanism, and a cam is fixedly installed on the cam shaft to accommodate the transmission space. A mounting slide groove is formed on the rear wall, a localization rod is slidably installed in the mounting slide groove, the left end surface of the localization rod is in contact with the cam, and the second pawl is the said. The quality inspection system for an optical fiber tape according to claim 5, wherein the localization rod is mounted on the left end surface, and a repositioning spring is connected between the localization rod and the right wall of the mounting slide groove. .. The holding and fixing mechanism includes a guide groove formed vertically symmetrically on the upper end surface of the support plate, and the holding and fixing plate is slidably installed in the guide groove, and the holding and fixing plate and the guide groove The quality inspection system for an optical fiber tape according to claim 3, wherein a spring is connected to the inner wall, and the optical fiber tape is sandwiched between the front and rear holding fixing plates. When the inspection space is open to the rear and the inspected optical fiber tape is rotated to the rear side of the inspection space, the user removes the optical fiber tape and uses the ink sprayed on the optical fiber tape. The quality inspection system for an optical fiber tape according to claim 1, wherein the optical fiber tape is classified and packaged. The quality inspection system for an optical fiber tape according to claim 1, wherein the lower surface of the lower push block is formed into an arc shape to prevent the optical fiber tape from being damaged.

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