JPH05338883A - Method for detecting initial diameter of coil to be uncoiled - Google Patents

Abstract

PURPOSE:To provide a method for detecting the initial diameter of a coil to be uncoiled, whereby the necessity of manually setting the initial diameter of the coil to be uncoiled in an uncoiling device is eliminated, along with that of using an outside diameter measuring instrument. CONSTITUTION:A coil 1 to be uncoiled is given a temporary outside diameter D1 after being installed and an uncoiling device is operated at a line velocity (line velocity command v1) smaller than the normal one under control based on the position of a dancer roller 2. During operation of the device the length V of travel of a web 20 and the amount N of rotation of the coil l are measured and the outside diameter D2 of the coil 1 to be uncoiled is calculated according to the measured length V of travel and the amount N of rotation. Thereafter the uncoiling device is operated at the normal line velocity (line velocity command value v2) with the calculated outside diameter D2 as the initial diameter of the coil 1 to be uncoiled.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an unwinder equipped with an unwinding coil, a take-up machine for feeding a web, and a tension provided on the web provided between the unwinder and the take-up machine. The present invention relates to a method for detecting an initial diameter of an unwinding coil in a unwinding device that unwinds the web while performing control according to the diameter of the unwinding coil.

[0002]

In the unwinding device for feeding the coiled paper or film to the outside, the unwinding device and the take-up device are used for the purpose of applying tension on the downstream side of the unwound paper or film. A dancer roll is installed between the machine and the machine. When a dancer roll is provided, speed correction and torque compensation are performed based on the diameter of the unwinding coil for the purpose of improving synchronism during acceleration. Here, paper, film, etc. will be collectively referred to as the web. 2 (a), (b)
[Fig. 3] is a block diagram showing a configuration of a conventional unwinding device.

In the unwinding device shown in FIG. 2 (a), the web 5
An unwinding coil 51 in which 0 is wound in a coil shape is mounted. The web 50 is pulled out from the unwinding coil 51,
After passing through the dancer roll 52, it is taken out to the outside by a take-up machine 53 composed of a pair of rolls. Unwinding coil 51
The unwinding coil 5 per predetermined sampling time t
A rotation amount detector 54 for measuring the number of revolutions N of 1 is connected, and the take-up machine 53 detects a running length for measuring the running distance V of the web 50 per sampling time t in the take-out machine 53. The device 55 is connected. Here, when the traveling speed (line speed) of the web 50 is v, the number of revolutions of the unwinding coil per unit time is n, and the circular constant is π, the diameter D of the unwinding coil 51 is D = v / ( π · n) = V / (π · N) (1) The diameter D of the unwinding coil 51 is constantly calculated based on the outputs of the rotation amount detector 54 and the running length detector 55, and is used for the above-described speed correction, torque compensation, and the like.

By the way, when a new unwinding coil 51 is mounted while the line is stopped and the line is started from this state, the unwinding is performed so that the fluctuation of the position of the dancer roll 52 falls within a predetermined range. Peripheral speed w of coil 51
Should be close to the line speed. For this peripheral speed w, the relationship of w = π · n · D is established, and the rotation speed n of the unwinding coil 51 is a controllable amount. Output coil 5
It is necessary to know the initial diameter of 1). Since the line is being activated, the diameter D cannot be obtained based on the above equation (1). Therefore, the initial diameter of the unwinding coil 51 is obtained by measuring with the outer diameter measuring device 56 provided in the vicinity of the unwinding coil 51, or manually set in this unwinding device.

The unwinding device shown in FIG. 2 (b) is a device for continuously feeding the web 50 by splicing the paper, and the two unwinding devices held at both ends of the roll stand 57. It has output coils 51 ₁ and 51 ₂ . Dancer roll 52
The downstream configuration is the same as that shown in FIG. 2 (a). The one unwinding coil 51 ₁ is the _one from which the web 50 is actually unwound, and the other unwinding coil 51 ₂
Is waiting. When the web 50 of _one of the unwinding coils 51 ₁ disappears, the roll stand 57 is reversed, and the web 50 is fed out from the other unwinding coil 51 ₂ by splicing. The unwinding coils 51 ₁ and 51 ₂ have rotation amount detectors 54 ₁ and 5 5, respectively.
4 ₂ is connected, and an outer diameter measuring device 56 is provided to measure the diameter D ′ of the unwinding coil 51 _{2 in} standby.

[0006]

In the above-mentioned conventional unwinding device, when the initial diameter of the unwinding coil is to be measured by using the outer diameter measuring device, the mounting position of the unwinding coil is accurately determined. That is the condition of measurement, and if the mounting position is deviated, there is a problem that an error occurs in the measurement or the measurement becomes impossible. Further, there is a problem that the mechanism becomes complicated and the cost is increased by installing the outer diameter measuring device. On the other hand, when the initial diameter of the unwinding coil is manually set, there is a problem that an artificial setting error or setting omission may occur.

An object of the present invention is to provide a method for detecting the initial diameter of an unwinding coil in a unwinding device, which does not require manual setting of the initial diameter of the unwinding coil or an outer diameter measuring device. Especially.

[0008]

According to the method for detecting the initial diameter of an unwinding coil according to the present invention, after the unwinding coil is mounted on an unwinding machine, the unwinding device is controlled by the position of a dancer roll and a normal line speed Operate at a lower speed, measure the running length of the web and the amount of rotation of the unwinding coil during the running, calculate the diameter of the unwinding coil based on the measured running length and the amount of rotation, and then The calculated diameter is used as the initial diameter of the unwinding coil, and the unwinding device is operated at the normal line speed.

[0009]

[Operation] When operating at a speed lower than the normal line speed, even if the peripheral speed of the unwinding coil does not match the line speed, fluctuations in the position of the dancer roll are within the prescribed range. , It does not hinder driving. In this state, the outer diameter of the unwinding coil can be calculated according to the above formula (1) from the rotation speed of the unwinding coil and the running length of the web, and the obtained outer diameter is used as the initial diameter to operate at the normal line speed. Thus, the unwinding device can be stably activated without providing an outer diameter measuring device and manually setting the initial diameter.

[0010]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an unwinding device according to an embodiment of the present invention. A drive motor 8 that drives the unwound coil 1 that is detachably mounted is provided, and a rotation amount detector 4 that detects the amount of rotation of the unwound coil 1 is connected to the drive motor 8. The drive motor 8 and the rotation amount detector 4 constitute an unwinder. A take-up machine 3 composed of a pair of rolls is provided, and the web 20 fed from the unwinding coil 1 is sent to the outside via the take-up machine 3. Drive motor 1 for the take-up machine 3
0 is connected, and the drive motor 10 is connected with a running length detector 5 for detecting the running length of the web in the take-up machine 3. Between the unwinding coil 1 and the take-up machine 3,
A dancer roll 2 for applying tension to the web 20 is provided, and a position detector 7 for detecting the position of the dancer roll 2 is provided. The rotation amount detector 4 and the running length detector 5 each generate a pulse signal for each predetermined rotation amount or running length.

Drivers 9 and 11 for driving the drive motors 8 and 10 are provided respectively, and a position controller 12, a controller 13 and an adder 14 are further provided.
The position value of the dancer roll 2 detected by the position detector 7 is input to the position controller 12. The output of the adder 14 and the output of the rotation amount detector 4 are input to the driver 9 on the unwinder side, and the driver 11 on the take-up machine 3 side inputs the line speed command v ^* from the control device 13 and the running length. The output of the detector 5 is input. The output of the position controller 12 and the rotation speed command n ^* from the controller 13 are input to the adder 14.

Now, the control device 13 will be described.
The control device 13 includes a rotation amount detector 4 and a traveling length detector 5
Two pulse counters 21 and 22 for respectively counting the pulse signals from the output coil 24, an initial value output circuit 24 for outputting a temporary outer diameter D _1, and the outer diameter D of the unwinding coil 1 from the count values of the pulse counters 21 and 22. outer diameter calculation circuit 2 outputs ₂ calculates
3, a changeover switch 25 for switching the outputs of the outer diameter calculation circuit 23 and the initial value output circuit 24, a line speed command calculation circuit 26 for calculating and outputting the line speed command v ^*, and a rotation speed command for calculating the rotation speed command n ^* The arithmetic circuit 27 is used. When the line speed command calculation circuit 26 is instructed to start the unwinding device, first, the low speed speed command value v
₁ is output, and after a lapse of a predetermined time, the speed command value v ^* is increased, and a high-speed speed command value v ₂ corresponding to a normal operating condition is output.
Is output. Naturally, v ₁ <v ₂ . The changeover switch 23 selects the initial value output circuit 24 from the start of the unwinding device until the low speed command value v ₁ is output, and thereafter selects the outer diameter calculation circuit 23. Controlled. The rotation speed command calculation circuit 27 switches the line speed command v ^* to the output of the switch 25 and the circular ratio π.
The product divided by the product of and is output as the rotation speed command n ^* . The provisional outer diameter D ₁ output from the initial value output circuit 24 is a predetermined provisional value, not based on the actual measurement value of the outer diameter of the unwinding coil 1. The provisional outer diameter D ₁ is determined in consideration of variations in the true initial diameter of the unwinding coil 1.

Next, the operation of the unwinding device will be described, and the method for detecting the initial diameter of the unwinding coil of the present invention will be described. When the start-up of the unwinding device is instructed, the line speed instruction calculation circuit 26 outputs a low speed instruction value v ₁ ,
It is transmitted to the rotation speed command calculation circuit 27 and the driver 11.
Since the driver 11 is also fed back from the running length detector 5, the take-up machine 3 is eventually driven by the drive motor 10 at the speed command value v ₁ given by the drive motor 10.
Try to pull out. On the other hand, in the rotation speed command calculation circuit 27, since the changeover switch 25 is located on the side of the initial value output circuit 24, the rotation speed for low speed rotation is determined based on the low speed speed command value v ₁ and the temporary outer diameter D _1. The number command n ₁ is output. Here, n ₁ = v ₁ / (π · D ₁ ).

The rotation speed command n ₁ for low speed is transmitted to the driver 9 via the adder 14. The position controller 12 inputs a feedback value based on the position of the dancer roll 2 to the adder 14, and the output of the rotation amount detector 4 is fed back to the driver 9. , By the drive motor 8,
The rotation command value v ₁ for low speed is controlled by the position of the dancer roll 2 to control the rotation speed. At this time, since the provisional outer diameter D ₁ does not always match the true outer diameter of the unwinding coil 1, the unwinding coil 1
The peripheral speed and the line speed (v _{1 in} this case) do not always match. However, since the line speed is low, the fluctuation of the position of the dancer roll 2 is within a predetermined range, and the control by the position of the dancer roll 2 works effectively. Therefore, the control is not lost and the device itself is not stopped.

The line speed command calculation circuit 26 outputs a low speed command value v ₁ for a fixed time. While the low speed speed command value v ₁ is being output, the pulse counters 21 and 22 count the output pulses of the rotation amount detector 4 and the running length detector 5, and the number of rotations N per predetermined sampling time. And running length V are calculated respectively.
The rotation speed N and the running length V are transmitted to the outer diameter calculation circuit 23, and in the outer diameter calculation circuit 23, D ₂ = V / (π · N)
The actual outer diameter D ₂ of the unwinding coil 1 is calculated according to the equation After a lapse of a certain time, the line speed command v ^* from the line speed command calculation circuit 26 starts to rise, and at the same time, the changeover switch 25 is switched to the outer diameter calculation circuit 23 side. Since the outer diameter calculation circuit 23 outputs the actual outer diameter D ₂ of the unwinding coil 1 when the changeover switch 25 is switched, the rotation speed command n ^* from the rotation speed command calculation circuit 27 is actually calculated. It reflects the outer diameter D ₂ of. Therefore, the peripheral speed of the unwinding coil 1 and the line speed match each other, and the increase of the line speed does not cause the dancer roll 2 to deviate from the predetermined range. After that, the control is performed based on this actual outer diameter D ₂ . Finally, the line speed command calculation circuit 26 outputs a high-speed that is typical line speed instruction v _2, in response to this, the rotational speed command n ₂ for the time high speed from the rotational speed command computation circuitry 27 Then, the unwinding device is operated under normal conditions. Note that n ₂ = v ₂ / (π · D ₂ ).

Next, the time for operating at a low line speed will be described. The operation at a low line speed is for knowing the outer diameter of the unwinding coil 1. For that purpose,
By the end of this time, each pulse counter 21,22
Therefore, the correct rotation speed N and running length V must be output respectively. Therefore, the operation time at the low line speed is determined by the sampling time of the pulse counters 21 and 22 and the time from the start until the control by the position of the dancer roll 2 becomes stable.

[0017]

As described above, according to the present invention, the unwinding device is operated at a speed lower than the normal line speed, and during this operation, the running length of the web and the rotation amount of the unwinding coil are measured and measured. The diameter of the unwinding coil is calculated based on the running length and the amount of rotation, and then the unwinding device is operated at the normal line speed with the calculated diameter as the initial diameter of the unwinding coil. There is an effect that it is possible to stably start up the unwinding device without providing the above and without manually setting the initial diameter.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an unwinding device in which a method for detecting an initial diameter of an unwinding coil according to an embodiment of the present invention is implemented.

2 (a) and 2 (b) are block diagrams showing a configuration of a conventional unwinding device, respectively.

[Explanation of symbols]

 1 unwinding coil 2 dancer roll 3 take-up machine 4 rotation amount detector 5 running length detector 7 position detector 8,10 drive motor 9,11 driver 12 position controller 13 controller 14 adder 20 web 21,22 pulse counter 23 Outer diameter calculation circuit 24 Initial value output circuit 25 Changeover switch 26 Line speed command calculation circuit 27 Rotation speed command calculation circuit

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[Procedure amendment]

[Submission date] June 17, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0002

[Correction method] Change

[Correction content]

[0002]

2. Description of the Related Art In an unwinding device for feeding a coiled paper or film to the outside, a device between the unwinder and the take-up machine is used to apply tension on the downstream side of the unwound paper or film. A dancer roll will be provided. When a dancer roll is provided, speed correction and torque compensation are performed based on the diameter of the unwinding coil for the purpose of improving synchronism during acceleration. Here, paper, film, etc. will be collectively referred to as the web. 2A and 2B are block diagrams showing the configuration of a conventional unwinding device.

Claims (1)

[Claims] 1. An unwinder to which an unwinding coil is mounted, a take-up machine for feeding a web, and a dancer roll provided between the unwinder and the take-up machine to apply tension to the web. A method for detecting an initial diameter of an unwinding coil in an unwinding device that unwinds the web wound around the unwinding coil while performing control according to the diameter of the unwinding coil, After mounting on the unwinder, the unwinding device is operated at a speed lower than a normal line speed while controlling by the position of the dancer roll, and the running length of the web and the rotation amount of the unwinding coil during the operation. The diameter of the unwinding coil is calculated based on the measured running length and the amount of rotation, and then the unwinding device is set to the normal line speed by using the calculated diameter as the initial diameter of the unwinding coil. Can drive in A method for detecting the initial diameter of an unwinding coil consisting of.