JP2010235332A - Optical fiber reeling device and method for reeling optical fiber - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical fiber reeling device and a method for reeling an optical fiber for controlling reeling tension of an optical fiber with high accuracy and good followability in a simple configuration. <P>SOLUTION: In the optical fiber reeling device 1, an optical fiber f drawn from an optical fiber preform is reeled up on a bobbin 16 by controlling the reeling tension through a fixed roller 12 and a movable roller 13. The optical fiber reeling device 1 includes a ball screw 2 that movably supports the movable roller 13 and a servo motor 3 that rotates the ball screw 2. The relative position of the movable roller 13 with respect to the fixed roller 12 is controlled by the servo motor 3, the reeling tension of the optical fiber f is measured by a tension measuring unit 4, and the reeling tension is controlled to be high in the initial stage of reeling and then to be gradually decreased by a tension controlling unit 5 in accordance with the measurement results. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an optical fiber winding device and a winding method for controlling the winding tension of an optical fiber.

  As a conventional optical fiber winding device, an optical fiber winding device 50 shown in FIG. 4 is known. The optical fiber winding device 50 is provided in a rewinding device or the like for rewinding after manufacturing an optical fiber f by drawing an optical fiber preform. The optical fiber f is wound around the outer periphery of the bobbin 16 through the guide pulley 11, the fixed roller 12, the movable roller 13, the roller 14, and the winding guide pulley 15 in this order (see Patent Document 1).

The movable roller 13 of the dancer roll can be adjusted for the weight (load F) placed on it. Thereby, the tension applied to the optical fiber f is adjusted, and the winding tension when the optical fiber f is wound around the outer periphery of the body of the bobbin 16 is adjusted.
The take-up guide pulley 15 is supported by a traverse movable portion 18 capable of reciprocating and traversing with respect to the traverse fixing portion 17. Make it.

The first sensor 21 detects that the winding guide pulley 15 has reached one end during the reciprocating traverse, and the second sensor 22 has reached the other end side during the reciprocating traverse. Detect that.
The control unit 23 recognizes how many layers of the optical fiber f are wound around the bobbin 16 based on the detection results of the first sensor 21 and the second sensor 22, and applies the load F to the movable roller 13. To control. Thereby, the winding tension when winding the optical fiber f around the bobbin 16 is adjusted.

  That is, the load F when winding the first layer and the second layer so that the winding tension when winding the first layer of the optical fiber f around the outer periphery of the bobbin 16 is larger than the winding tension when winding the second layer. Is controlled. Thereby, the occurrence of loosening of the first layer of the optical fiber f is suppressed, and an increase in loss due to bending is suppressed.

JP 2003-54982 A

However, in the conventional optical fiber winding method, the weight applied to the movable roller 13 of the dancer roll is controlled, so that the responsiveness is not sufficient and the winding tension is changed during operation. Difficult to control.
Even if the tension is controlled by changing the load using a load loading means such as an actuator, these means require that the tension applied to the optical fiber is measured by a tension measuring device equipped with a guide roller. As a result, the tension fluctuation during winding is increased.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide an optical fiber winding device and a winding device that can control the winding tension of an optical fiber with high tracking accuracy and high accuracy with a simple configuration. It is to provide a method.

An optical fiber winding device according to the present invention that can solve the above problems is an optical fiber winding device that winds an optical fiber drawn with an optical fiber preform on a bobbin by controlling a winding tension by a dancer roller. There,
A ball screw that movably supports the movable roller constituting the dancer roller, a servo motor that rotates the ball screw, and a light that controls the relative position of the movable roll with respect to the fixed roll that constitutes the dancer roll by the servo motor. A tension control unit for controlling the winding tension of the fiber,
The tension control unit includes tension measuring means for measuring a winding tension, and controls the measured winding tension to be large at the initial stage of winding and then gradually decrease.

Further, it is preferable that the fixed roller and the movable roller of the dancer roller are arranged in a horizontal direction, and the movable roller is moved relative to the fixed roller in the horizontal direction by the ball screw.
In addition, it is preferable that the tension control unit includes a detecting unit that detects the number of layers of the optical fiber wound around the bobbin.

In addition, an optical fiber winding method according to the present invention that can solve the above-described problems is configured by arranging an optical fiber drawn with an optical fiber preform by arranging a fixed roller and a movable roller in a horizontal direction. An optical fiber winding method for winding on a bobbin using a dancer roller,
The number of layers of the optical fiber wound around the bobbin is detected, and the movable roller is moved relative to the fixed roller by a servo motor according to the measurement result of the winding tension of the optical fiber. The optical fiber is controlled so that the winding tension of the optical fiber is increased at the initial stage of winding and then gradually decreased.

According to the optical fiber winding device and the optical fiber winding method of the present invention, the relative position of the movable roll with respect to the fixed roll is finely controlled by controlling the ball screw movably supporting the movable roller with a servo motor. it can. Thereby, the winding tension of the optical fiber can be controlled with good followability, so that highly accurate control can be performed.
Further, the fixed roller and the movable roller of the dancer roller system are arranged in the horizontal direction, and the movable roller is moved relative to the fixed roller in the horizontal direction by a ball screw. As a result, the weight of the ball screw and the servo motor can be prevented from being applied to the movable roller, and more accurate control can be performed.
Further, by forming the tension measuring means for measuring the winding tension integrally with the servo motor, the optical fiber winding device can be made simpler.

It is the schematic which shows the structure of 1st Embodiment of the optical fiber winding apparatus of this invention. It is the schematic which shows the structure of 2nd Embodiment of the optical fiber winding apparatus of this invention. It is the schematic which shows the structure of 3rd Embodiment of the optical fiber winding apparatus of this invention. It is the schematic which shows the structure of the conventional optical fiber winding apparatus.

  Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS.

A first embodiment of the optical fiber winding device of the present invention will be described with reference to FIG.
As shown in FIG. 1, the optical fiber winding device 1 is provided in a rewinding device or the like for rewinding after manufacturing an optical fiber f by drawing an optical fiber preform, and a guide pulley 11, The dancer roll includes a fixed roller 12, a movable roller 13, a roller 14, a winding guide pulley 15, a bobbin 16, a traverse fixing unit 17, a traverse moving unit 18, a first sensor 21, a second sensor 22, and a control unit 23. Yes.

The optical fiber winding device 1 of the present invention differs from the conventional optical fiber winding device in the method of moving the movable roller.
That is, the movable roller 13 is connected to the servo motor 3 via the ball screw 2 so that the distance from the fixed roller 12 can be controlled. In addition, the servo motor 3 is controlled with high accuracy as a constant or variable tension by the tension control unit 5 in accordance with the measurement result of the tension measuring unit 4 which is a tension measuring means for measuring the winding tension of the optical fiber f. . The tension controller 5 adjusts the winding tension by controlling the servo motor 3 in accordance with the winding amount detected by the capstan 19.

The tension measuring unit 4 that measures the winding tension of the optical fiber f is provided on the movable roller 13.
Note that the tension measuring means is not necessarily provided on the movable roller 13, and the winding tension is uniformly applied to the optical fiber f. Further, the tension measuring means may be formed integrally with the servo motor 3 instead of being provided separately from the servo motor 3, and the tension may be measured by measuring the torque.

The optical fiber f is wound around the outer periphery of the bobbin 16 through the guide pulley 11, the fixed roller 12, the movable roller 13, the roller 14, and the winding guide pulley 15 in order.
The distance between the fixed roller 12 and the movable roller 13 is controlled by driving the servo motor 3 with the ball screw 2 connected to the movable roller. Accordingly, the tension control unit 5 controls the servo motor 3 according to the measurement result of the tension measuring unit 4 to adjust the winding tension when the optical fiber f is wound around the bobbin 16. A side pressure buffering member may be provided on the outer periphery of the bobbin 16, and the optical fiber f may be wound around the side pressure buffering member.

The take-up guide pulley 15 is supported by a traverse movable portion 18 capable of reciprocating with respect to the traverse fixing portion 17, and the optical fiber f is taken up over the entire length of the bobbin 16 in the longitudinal direction by the reciprocating traverse. It is done.
The first sensor 21 as one detecting means detects that the winding guide pulley 15 has reached one end during the reciprocating traverse, and the second sensor 22 as the other detecting means is used during the reciprocating traverse. It is detected that the winding guide pulley 15 has reached the other end.

  In the optical fiber winding device 1 of the present embodiment, the servo motor 3 causes the tension control unit 5 to set the winding tension at the initial winding stage according to the measurement result of the tension measuring unit 4 that measures the winding tension of the optical fiber. It is controlled by a preset program so that it is large and then gradually decreases.

  Next, a second embodiment of the optical fiber winding device of the present invention will be described with reference to FIG. Note that the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

As shown in FIG. 2, the optical fiber winding device 10 is different from the optical fiber winding device 1 of the first embodiment in the control method of the movable roller 13.
That is, it is recognized how many layers of the optical fiber f are wound around the bobbin 16 based on the detection results of the first sensor 21 and the second sensor 22 by the control unit 23. Then, based on the recognition result, the servo motor 3 is finely controlled so that the winding tension is increased at the initial stage of winding by the tension controller 5 in the controller 23 and then gradually decreased.

  Next, a third embodiment of the optical fiber winding device of the present invention will be described with reference to FIG. Note that the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

As shown in FIG. 3, in the optical fiber winding device 20, the fixed roller 12 and the movable roller 13 are arranged in the horizontal direction, and the servo motor 3 is also arranged in the horizontal direction via the ball screw 2.
With this configuration, the weight of the ball screw 2 and the servo motor 3 is not applied to the movable roller 13, so that the relative position of the movable roller 13 with respect to the fixed roller 12 can be finely controlled, and the winding tension of the optical fiber f can be controlled. Since control can be performed with good followability, highly accurate control can be performed.

In the present embodiment, the servo motor 3 is controlled in the same manner as in the second embodiment, based on the detection results of the first sensor 21 and the second sensor 22 by the control unit 23, the number of optical fibers f on the bobbin 16. Recognizing whether the eye is wound, the tension control unit 5 in the control unit 23 finely controls the servo motor 3 so that the winding tension is increased at the beginning of winding and then gradually decreased.
As in the first embodiment, the tension measuring unit 4 that measures the winding tension of the optical fiber f is provided in the movable roller 13, and the servo motor 3 is controlled according to the measurement result of the tension measuring unit 4. The winding tension when the optical fiber f is wound around the bobbin 16 may be controlled.

  In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably. In addition, the material, shape, dimension, numerical value, form, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

1, 10, 20 Optical fiber winding device 2 Ball screw 3 Servo motor 4 Tension measuring unit (tension measuring means)
5 Tension controller 11 Guide pulley 12 Dancer roller (fixed roller)
13 Dancer roller (movable roller)
14 Roller 15 Winding guide pulley 16 Bobbin 17 Traverse fixing part 18 Traverse movable part 21 First sensor (detection means)
22 Second sensor (detection means)
23 Control unit (tension control unit)

Claims (4)

An optical fiber winding device that winds an optical fiber drawn with an optical fiber preform on a bobbin by controlling a winding tension by a dancer roller,
A ball screw that movably supports the movable roller constituting the dancer roller;
A servo motor for rotating the ball screw;
A tension control unit that controls the relative position of the movable roll with respect to the fixed roll constituting the dancer roll by the servo motor, and controls the winding tension of the optical fiber;
The tension control unit includes tension measuring means for measuring a winding tension, and controls the measured winding tension to be large at the initial stage of winding and then gradually decrease thereafter.   The fixed roller and the movable roller of the dancer roller are arranged in a horizontal direction, and the movable roller is moved relative to the fixed roller in the horizontal direction by the ball screw. Optical fiber winding device.   3. The optical fiber winding device according to claim 1, wherein the tension control unit includes a detecting unit that detects how many layers the optical fiber wound around the bobbin is. An optical fiber winding method in which an optical fiber drawn with an optical fiber preform is wound around a bobbin using a dancer roller configured by arranging a fixed roller and a movable roller in a horizontal direction,
The number of layers of the optical fiber wound around the bobbin is detected, and the movable roller is moved relative to the fixed roller by a servo motor according to the measurement result of the winding tension of the optical fiber. The optical fiber winding method is characterized by controlling the optical fiber so that the winding tension of the optical fiber is increased at the initial stage of winding and then gradually decreased.

Images