JPH05170476A - Automatic screening device for optical fiber - Google Patents

Abstract

PURPOSE:To automatically set and reset an optical fiber. CONSTITUTION:An automatic fiber setting machine 35 which is provided with a suction nozzle 31 for sucking an optical fiber 12 in the event of a disconnection, stops the driving of a capstan wheel 13 by rising a capstan belt 14, grips the succeeding optical fiber 12 by means of a band 72 and transports the fiber to a take-up wheel is provided. Dancer rolls 21, 22, 23 are provided in the axial direction of an arm 20 to permit the free retreat of supporting rolls 24, 25, 26, 27, 28 from the pass line and to eliminate the intricate winding and setting of the optical fiber 12 with the automatic fiber setting machine 35. The fluctuation in the transportation speed of the optical fiber 12 is absorbed by a let-off dancer 18 which regulates the rotation of a let-off roll 11 by oscillating, by which the tension of the optical fiber 12 is maintained constant and the setting and resetting of the optical fiber 12 in the event of the disconnection are automatically executed without manual labor.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screening apparatus for applying a load to an optical fiber to perform a tensile strength test.

[0002]

2. Description of the Related Art In order to guarantee the breaking life of an optical fiber in an optical fiber manufacturing line, a proof test (screening test) is usually performed in which a certain tension is applied to a part of the line to break and remove the weak part. I have to. This screening test is performed by a screening device.

A conventional screening apparatus will be described with reference to FIGS. 7 and 8. FIG. 7 shows a schematic configuration of a conventional screening apparatus, and FIG. 8 shows a view taken along the line VIII-VIII in FIG.

In the figure, 1 is a feeding roll for feeding the drawn optical fiber 2, 3 is a capstan wheel around which the optical fiber 2 is wound and taken, and the capstan wheel 3 supports the optical fiber 2 by a capstan belt 4. It has become. 5 is a screening roll, 6 is a tension roll, 7 is a take-up roll, and the capstan wheel 3 and the screening roll 5
Tension is applied to the optical fiber 2 by the axial torque between
The optical fiber 2 is wound by the winding roll 7.
Reference numeral 8 is an arm-type take-up dancer provided between the pay-out roll 1 and the capstan wheel 3, and 9 is an arm-type take-up dancer provided between the tension roll 6 and the take-up roll 7. And the feeding roll 1 and between the capstan wheel 3 and the winding roll 7.
Fluctuations in speed and tension between the two are absorbed by the feeding dancer 8 and the winding dancer 9.

In the above-described screening apparatus, the optical fiber 2 is fed from the feeding roll 1, tension is applied between the capstan wheel 3 and the screening roll 5 by the axial torque, and the optical fiber 2 is wound by the winding roll 7. The line speed is determined by driving the capstan wheel 3. Fluctuations in speed and tension between the feeding roll 1 and the capstan wheel 3 and between the capstan wheel 3 and the winding roll 7 are absorbed by the feeding dancer 8 and the winding dancer 9. An optical fiber 2 between the capstan wheel 3 and the screening roll 5
Tension is applied to the optical fiber 2, and the optical fiber 2 is broken at the low strength portion. Thereby, the optical fiber 2 in the low strength portion is not wound by the winding roll 7.

Since the low-strength portion of the optical fiber 2 is broken by the screening test, the low-strength portion is not wound up, but it is necessary to re-hang the wire. As an example of the wire hanging, for example, as disclosed in Japanese Patent Laid-Open No. 62-91441, it is stated that the guide roller is reciprocated in the wire drawing process in which the line cannot be stopped to facilitate the hand hanging. Has been.

[0007]

In the conventional screening apparatus, since the optical fiber 2 is disconnected at the low-strength portion by the screening test, the low-strength portion is not wound, but the work is interrupted at the time of disconnection. I needed manpower when I drew it. In order to automatically carry out the wire hanging, it is necessary to hold the optical fiber 2 after the wire break and automatically carry out the wire hanging of the complicated path line. In particular, the take-up dancer 9 has been turned a plurality of times to absorb fluctuations as shown in FIG. 6, and it has been considered difficult to carry out line hanging automatically.

Further, defective parts other than the low-strength part of the optical fiber 2, such as uneven thickness, inclusion of air bubbles, abnormal outer diameter, and abnormal bump, are removed by stopping the line with a conventional screening device or winding in the next step. It was necessary to remove it while changing it, and it was inefficient because it required manpower.

[0009]

SUMMARY OF THE INVENTION The structure of the present invention for solving the above-mentioned problems is to wind a capstan wheel on which an optical fiber is wound and pulled by being driven, and to wind an optical fiber fed from the capstan wheel. The take-up wheel, the screening roll that applies tension to the optical fiber between the capstan wheel and the take-up wheel to break and remove the weak portion, and the arm that is provided between the screening roll and the take-up wheel swings. In the automatic optical fiber screening device provided with the dancer roll that absorbs the fluctuation of the feeding speed and the tension by the suction device, which is provided on the downstream side of the capstan wheel in the optical fiber transport direction, and which sucks the optical fiber at the time of disconnection, A drive stop that stops the drive of the capstan wheel when the fiber breaks. Means, characterized in that the drive of the capstan wheel when the optical fiber disconnection with an automatic line hanging means for conveying the subsequent optical fiber to the take-up wheel when it is stopped.

Further, a plurality of dancer rolls are provided in the axial direction of the arm, and a support roll for applying tension to the optical fiber is provided between the dancer roll and the screening roll and between the dancer rolls, and at least a part of the support rolls is provided. Is capable of reciprocating between the path line of the optical fiber and the retracted position.

Further, a capstan wheel is provided with a defective portion detecting means for detecting a defective portion of the optical fiber, and cutting means for cutting the optical fiber when the defective portion of the optical fiber passes based on the information of the defective portion detecting means. It is provided on the downstream side in the optical fiber conveying direction.

Further, the automatic hooking means is provided with a gripping means for gripping the subsequent optical fiber, and the gripping means is provided with an opening / closing type hand for gripping the optical fiber.

Further, the automatic hooking means is provided with a holding means for holding the subsequent optical fiber, and the holding means is provided with a suction holding device for holding the optical fiber by suction.

Further, the automatic hooking means is provided with a holding means for holding a subsequent optical fiber, and the holding means is provided with a pair of rolls which are driven to rotate to pull and hold the optical fiber.

Further, as a drive source of the capstan wheel, a capstan belt that comes into contact with the capstan belt and is driven to rotate is provided, and as a drive stopping means, a capstan belt is provided so that it can be moved away from and away from the capstan wheel. Provided on the upstream side of the capstan wheel is a feeding dancer that absorbs fluctuations in the hanging speed of the optical fiber by swinging the capstan wheel away from it when the fiber is broken and swinging when the optical fiber is conveyed by the automatic hanging means. It is characterized by

[0016]

When the optical fiber is broken, the low-strength portion is sucked by the suction device, and the driving stop means stops driving the capstan wheel to stop the line. When the line is stopped, the subsequent optical fiber is conveyed to the take-up wheel by the automatic hooking means. By providing a plurality of dancer rolls in the axial direction of the arm so that the support roll can reciprocate, complicated winding of the optical fiber around the dancer roll is eliminated.

Further, the defective portion of the optical fiber is detected by the defective portion detecting means, and the defective portion is cut by the cutting means to prevent the defective portion from being wound around the winding roll.

[0018]

1 and 2 show the schematic construction of an automatic screening apparatus according to an embodiment of the present invention. FIG. 1 shows the occurrence of disconnection and FIG. 2 shows the automatic recovery from disconnection.

In the figure, 11 is a delivery roll for delivering the drawn optical fiber 12, and 13 is the optical fiber 12.
Is a capstan wheel that is wound around and taken up. The capstan wheel 13 is driven by contact of a driving and rotating capstan belt 14, and the optical fiber 1
It is supposed to support 2. Capstan belt 1
As shown in FIG. 2, 4 can be retracted from the capstan wheel 13. That is, the drive of the capstan wheel 13 is stopped by the retracting movement of the capstan belt 14.

In the figure, 15 is a screening roll, 16 is a tension roll, and 17 is a take-up roll. A tension is applied to the optical fiber 12 by an axial torque between the capstan wheel 13 and the screening roll 15, and the take-up roll is taken up. The optical fiber 12 is wound up by the roll 17. Reference numeral 18 denotes an arm-type feeding dancer provided between the feeding roll 11 and the capstan wheel 13.

Tension roll 16 and take-up roll 17
A take-up dancer 19 is provided between them. The wind-up dancer 19 is composed of a swingable arm 20 and dancer rolls 21, 22, 23 attached to the arm 20 at a distance of l ₁ , l ₂ , l ₃ from the swing center, respectively. .. Capstan wheel 13, screening roll 15, tension roll 16, dancer roll 2
Support rolls 24, 25, 26,
27, 28 are provided, and the support rolls 24, 25, 26,
27 and 28 can be reciprocated, that is, moved up and down between the path line of the optical fiber 12 and the retracted position.

Optical fiber 1 of capstan wheel 13
2, a suction nozzle 3 as a suction device on the downstream side in the transport direction.
1 is provided so as to suck the optical fiber 12 disconnected by the suction nozzle 31. Reference numeral 32 is a storage box for storing the sucked optical fiber 12.

Reference numeral 35 denotes an automatic wire hooking means, which feeds the trailing part of the broken optical fiber 12 from the capstan wheel 13 to the upper part of the take-up roll 17, and the horizontal feed wire hooker 36 and the upper part of the take-up roll 17. The optical fiber 12 is conveyed to the take-up roll 17, and the take-up wire hook 37 is used to hang it on the take-up roller 17.
Are supported by guide rails 38 and 39.

The horizontal feed wire hook 36 and the take-up wire hook 37 of the automatic wire hooking means 35 are provided with gripping means 71 for gripping the subsequent optical fiber 12. The gripping means 71 is composed of an openable / closable hand 72. When the hand 72 is closed, the gripping means 71 holds the optical fiber 12 and travels along the guide rails 38, 39 by a moving motor (not shown).

Another embodiment of the gripping means will be described with reference to FIGS.

The gripping means 51 shown in FIG. 3 is a suction nozzle 5 as a suction holding device for holding the optical fiber 12 by suction.
2, the optical fiber 12 is sucked by the suction nozzle 52 with a constant suction force (for example, 20 g). The gripping means 51 moves the guide rail 38 (3
9).

The gripping means 62 shown in FIG. 4 comprises a pair of pinch rollers 6 driven by a torque motor 63 with a constant torque.
4, and the optical fiber 1 is provided between the pair of pinch rollers 64.
It is always held by pulling it with a constant pulling force between the two. The gripping means 62 moves the guide rail 38 (3
9). In the gripping means 62,
The torque motor 6 regardless of the traveling speed of the moving motor 65.
3, the pinch roller 64 is driven with a constant torque, and the optical fiber 12 is always held with a constant tensile force.

The operation of the above-described automatic screening device will be described.

The tension of the optical fiber 12 on the feeding roll 11 is 100 g or less, and the tension between the capstan wheel 13 and the screening roll 15 is 700 g. Therefore, when the optical fiber 12 has a low-strength portion, disconnection is caused by the capstan wheel 13 and the screening roll 1.
It occurs between 5 and 5.

When disconnection occurs, it is detected that the tension of the system has decreased, and suction by the suction nozzle 31 is started (FIG. 1). The suction nozzle 31 utilizes the fact that 5 kg / cm ² of pressurized air is blown to the discharge side to reduce the pressure on the suction side, and can suck the optical fiber 12 at a linear velocity of 800 m / min. During the suction by the suction nozzle 31, the delivery roll 11 and the capstan wheel 13 are decelerated and stopped. During this period, on the winding roll 17 side, after the end treatment, the wound winding roll 17 and the empty winding roll 17 are automatically exchanged. The arm 20 of the take-up dancer 19 is fixed in a horizontal position, and the support rolls 24, 25, 26, 27, 28 are attached.
Prepares for automatic hanging by climbing to the highest point.

When the capstan wheel 13 stops,
The subsequent optical fiber 12 is gripped between the capstan wheel 13 and the suction nozzle 31 by the hand 72 of the gripping means 71 of the lateral feed wire hook 36. Capstan belt 14
Is raised, and the optical fiber 12 can be freely fed from the feeding roll 11. Holding means 71 for the lateral feed wire hook 36
Moves the guide rail 38 to convey the optical fiber 12 to the upper part of the winding roll 17. Then support roll 2
4 to 28 are support rolls 2 on the side of the capstan wheel 13
4 sequentially descends (FIG. 2) to form pass lines. At the upper part of the winding roll 17, the optical fiber 12 is replaced by the holding means 71 of the lateral feed wire hook 36 with the holding means 71 of the take-up wire hook 37, and the holding means 71 of the winding wire hook 37 is guided by the guide rail 39. And the end of the optical fiber 12 is fixed to the empty winding roll 17. The capstan belt 14 descends to support the optical fiber 12 on the capstan wheel 13, and the arm 2 of the take-up dancer 19
0 is made swingable, and the automatic hooking return is completed.

Optical fiber 12 by movement of gripping means 71
When the moving speed of the gripping means 71 fluctuates during the conveyance of, the feeding dancer 18 swings and the rotation speed of the feeding roll 11 is adjusted because the capstan belt 14 is raised. As a result, fluctuations in the moving speed of the gripping means 71 are absorbed, and the optical fiber 12 being conveyed maintains a constant tension.

Conventional winding dancer 9 (see FIGS. 7 and 8)
And the performance of the winding dancer 19 of the present invention.
It Angular change Δ required to absorb fluctuations in length ΔL
θ is Δθ = ΔL / 6L in the conventional winding dancer 9. However, L is from the swing fulcrum
It is the distance to the dancer roll. Further, the winding of the present invention
In the dancer 19, Δθ = ΔL / 2 (L₁+ L₂+ L₃). Therefore,
Distance from swing center to dancer rolls 21, 22, 23
Distance L₁, L₂, L ₃To obtain sufficient absorption capacity
It

Further, the rotational inertia of the dancer rolls 21, 22 and 23 is important for the response to the minute disturbance.
The inertia of the arm 20 does not matter so much. FIG. 5 shows the relationship between the linear velocity of the optical fiber 12 and the tension fluctuation in the case of the conventional take-up dancer 9 and the case of the take-up dancer 19 of the present invention. As shown in the figure, when the take-up dancer 19 is used, there are some parts that resonate,
This can be eliminated by adjusting the length of the arm 20.
The resonance fluctuation is about ± 3.5 g as a whole, which is not much different from the case of the conventional winding dancer 9, and there is no problem in use, and automatic hooking can be realized.

In the above-mentioned automatic screening apparatus, it is possible to automatically return the optical fiber 12 to the loop without relying on human labor. In addition, the optical fiber 12 can be moved with a constant tension to restore the line.

The above-described operation has been described with respect to the one provided with the hand 72 as the gripping means, but the same effect can be obtained by using the gripping means 51 and 62 shown in FIGS. 3 and 4. In particular, when the gripping means 62 is used, the pair of pinch rollers 64 driven with a constant torque constantly holds the optical fiber 12 with a constant tension, so that the gripping means 62 is used.
When the optical fiber 12 is conveyed by the movement of the optical fiber 12, the constant tension of the optical fiber 12 is reliably maintained in combination with the absorption of the movement speed fluctuation caused by the swing of the feeding dancer 18.

An automatic screening apparatus according to another embodiment of the present invention will be described with reference to FIG. This device is capable of removing a low-strength portion as well as a defective portion. FIG. 6 shows a schematic configuration of an automatic screening apparatus according to another embodiment of the present invention. The same members as those shown in FIGS. 1 and 2 are designated by the same reference numerals, and duplicate explanations are omitted.

Between the feeding roll 11 and the capstan wheel 13, a die 41 for applying ink to the optical fiber 12, an ultraviolet irradiation furnace 42 for curing the applied ink, and an outer diameter for detecting an abnormality in outer diameter are provided. The abnormality monitor 43,
A hump detection device 44 for detecting a hump abnormality is provided. A cutter 45 as cutting means is provided between the capstan wheel 13 and the suction nozzle 31. The cutter 45 is an outer diameter abnormality monitor 43 as defective portion detecting means.
Also, it is driven based on the signal of the bump detector 44. Further, the cutter 45 is also driven by the information of abnormal data of uneven thickness and air bubble mixture obtained at the time of drawing in the previous process.

In the automatic screening device having the above structure,
The optical fiber 12 delivered from the delivery roll 11 is coated with ink by a die 41, and the ink is irradiated with the ultraviolet irradiation furnace 4
Cured at 2. Abnormal outer diameter of optical fiber 12 (defective part)
If there is a bump or a bump defect (defective part), the outer diameter abnormality monitor 4
3 and the bump detector 44, and an abnormal signal is sent to the cutter 45. When the defective portion of the optical fiber 12 passes, the cutter 45 is driven, the optical fiber 12 is forcibly broken, and the defective portion is removed and the wiring is automatically applied after the defective portion is broken. Will be restored. The abnormal data of uneven thickness and inclusion of bubbles is obtained at the time of drawing in the previous process, and an abnormal signal is sent to the cutter 45. The cutter 45 is driven when a defective portion due to uneven thickness or air bubbles has passed, and removal and automatic hooking are restored as described above.

In the above-described automatic screening device, defective parts other than the low-strength part can be automatically removed based on the information of the outer diameter abnormality monitor 43 and the bump detector 44.

[0041]

The automatic optical fiber screening apparatus of the present invention is provided with a suction device for sucking an optical fiber at the time of disconnection, and the driving of the capstan wheel is stopped to automatically convey the succeeding optical fiber to the winding wheel. Since the hanging means is provided and a plurality of dancer rolls are provided in the axial direction of the arm so that the supporting roll can be retracted from the pass line, complicated winding of the optical fiber by the automatic hanging means can be eliminated. As a result, when the low-strength portion is disconnected, it is possible to automatically return the wire to the wire without relying on manpower and improve the productivity.

Further, since the capstan belt is retracted while the optical fiber is being drawn and the fluctuation of the drawing speed is absorbed by the swing of the feeding dancer, the optical fiber can be conveyed with a constant tension.

In addition, the automatic optical fiber screening apparatus of the present invention is provided with the defective portion detecting means for detecting the defective portion of the optical fiber and forcibly disconnects the defective portion by the cutting means. Uneven thickness, air bubbles,
It is possible to automatically remove defective parts such as abnormal outer diameter and abnormal bumps. As a result, it is not necessary to stop the line to manually remove the defective portion or to rewind and remove the defective portion in the next process, which can save manpower and reduce the number of rewinders, and reduce the equipment cost. ..

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an automatic screening apparatus according to an embodiment of the present invention when a disconnection occurs.

FIG. 2 is a schematic configuration diagram of an automatic screening apparatus according to an embodiment of the present invention at the time of automatic return.

FIG. 3 is a schematic configuration diagram of another embodiment of the gripping means.

FIG. 4 is a schematic configuration diagram of another embodiment of the gripping means.

FIG. 5 is a graph showing the relationship between the linear velocity of an optical fiber and the tension fluctuation.

FIG. 6 is a schematic configuration diagram of an automatic screening apparatus according to another embodiment of the present invention.

FIG. 7 is a schematic configuration diagram of a conventional screening apparatus.

8 is a view taken along the line VIII-VIII in FIG.

[Explanation of symbols]

 11 Feeding Roll 12 Optical Fiber 13 Capstan Wheel 14 Capstan Belt 15 Screening Roll 16 Tension Roll 17 Winding Roll 18 Feeding Dancer 19 Winding Dancer 20 Arm 21,22,23 Dancer Roll 24,25,26,27,28 Support Roll 31 Suction nozzle 35 Automatic wire hanging machine 36 Side feed wire hanging machine 37 Winding wire hanging machine 43 Outer diameter abnormality monitor 44 Cobb detector 45 Cutter 51, 62, 71 Gripping means 52 Suction nozzle 63 Torque motor 64 Pinch roller 72 Hand

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yujihito Kobayashi 1 Taya-cho, Sakae-ku, Yokohama-shi, Kanagawa Sumitomo Electric Industries, Ltd. Yokohama Works (72) Inventor Ichiro Yoshimura 1 Taya-cho, Sakae-ku, Yokohama-shi, Kanagawa Sumitomo Denki Kogyo Co., Ltd. Yokohama Works (72) Inventor Hiroo Matsuda 1 Taya-cho, Sakae-ku, Yokohama-shi, Kanagawa Sumitomo Denki Kogyo Co., Ltd.

Claims (7)

[Claims] 1. A capstan wheel on which an optical fiber is wound and pulled by being driven, a winding wheel for winding an optical fiber fed from the capstan wheel, and an optical fiber between the capstan wheel and the winding wheel. A light provided with a screening roll for applying a tension to and removing a weak portion by breaking, and a dancer roll provided between the screening roll and the winding wheel to absorb fluctuations in the feeding speed and the tension by swinging the arm. In the automatic fiber screening device, a suction device that is provided on the downstream side of the capstan wheel in the optical fiber transport direction and that sucks the optical fiber at the time of disconnection,
A drive stopping means for stopping the drive of the capstan wheel when the optical fiber is broken, and an automatic hooking means for conveying the succeeding optical fiber to the winding wheel when the drive of the capstan wheel is stopped when the optical fiber is broken. An optical fiber automatic screening device characterized by being provided. 2. A plurality of dancer rolls are provided in the axial direction of the arm according to claim 1, and support rolls for applying tension to the optical fiber are provided between the dancer rolls and the screening rolls and between the dancer rolls. An automatic screening apparatus for optical fibers, wherein a part of the supporting rolls can reciprocate between a path line of the optical fiber and a retracted position. 3. The cutting according to claim 1, further comprising defective portion detecting means for detecting a defective portion of the optical fiber, and cutting the optical fiber when the defective portion of the optical fiber passes based on information of the defective portion detecting means. An automatic screening apparatus for optical fibers, characterized in that the means is provided on the downstream side of the capstan wheel in the optical fiber transport direction. 4. The automatic hooking means according to any one of claims 1 to 3, wherein the automatic hooking means includes a gripping means for gripping a subsequent optical fiber, and the gripping means includes an open / close type hand for gripping the optical fiber. An optical fiber automatic screening device. 5. The automatic hooking means according to any one of claims 1 to 3, wherein the automatic hooking means includes a gripping means for gripping a subsequent optical fiber, and the gripping means includes a suction holding device for sucking and holding the optical fiber. An optical fiber automatic screening device. 6. The pair of rolls according to claim 1, wherein the automatic hooking means includes gripping means for gripping a subsequent optical fiber, and the gripping means is driven and rotated to pull and hold the optical fiber. An automatic screening apparatus for optical fibers, characterized by comprising: 7. The capstan belt according to claim 1, further comprising a capstan belt that comes into contact with a capstan belt and is driven to rotate as a drive source of the capstan wheel, and the capstan belt is used as a drive stopping means. Equipped to move away from the wheel, absorbs fluctuations in the hanging speed of the optical fiber by moving the capstan wheel away from it when the optical fiber is broken and swinging when the optical fiber is conveyed by the automatic hanging means. An automatic optical fiber screening device characterized in that a feeding dancer is provided upstream of a capstan wheel.