EP3461769A1 - Method and installation, in particular a coiling device of a paper machine and computer program product - Google Patents

Abstract

The invention relates to a method and a system. The method is used for a particularly safe operation of the system. According to the method, a first rotational speed (D1) and a second rotational speed (D2) are determined. With the aid of the first rotational speed (D1) and / or the second rotational speed (D2), in each case a speed (V1, V2) of a material web (1) is determined. The first rotational speed (D1) is determined by means of a first encoder (9a). The second rotational speed (D2) is determined by means of a second transmitter (9b) and / or a rotational speed determination (7F), in particular as part of a frequency converter (7). By multiple determination of the rotational speed (D1, D2) or the speed (V1, V2) of the web (1), the system has a high reliability. Areas of application of the invention are in particular a paper machine, a printing press, a tubular bag machine or a winding device.

Description

The invention relates to a method and a system, in particular a winding device of a paper machine. Furthermore, the invention relates to a computer program product.

Winding devices are used to wind a paper web in a paper machine. When winding or unwinding the paper roll, the diameter of the paper roll changes with each revolution. For a constant speed of the paper web, therefore, a continuous determination of the rotational speed and the diameter of the paper roll are advantageous.

So far, the diameter of the roll of paper has been determined by means of a laser-based sensor. Disadvantageously, the optical components of the laser-based sensor must be cleaned often. If the laser-assisted sensor is not cleaned in time, the laser-assisted sensor may fail. Failure of a sensor can result in failure of the paper machine.

It is therefore an object of the invention to increase the reliability of a paper machine, in particular a winding device.

The object is achieved by a method according to claim 1 and by a system according to claim 11. The object is also achieved by a computer program product according to claim 15.

Advantageous developments and embodiments are the subject of the dependent claims.

It is an aspect of the invention to replace the laser-based sensor. The laser-assisted sensor can be replaced by another encoder for determining the rotational speed. Alternatively or additionally, the rotational speed can also be determined with the aid of a frequency converter. From the respective rotational speed, a value of the speed of the material web is preferably determined in each case.

• mit einem zweiten Geber bestimmt wird und/oder
• von dem Frequenzumrichter bereitgestellt wird,

und wobei anhand der ersten Drehgeschwindigkeit eine erste Geschwindigkeit der Warenbahn ermittelt wird, wobei anhand der zweiten Drehgeschwindigkeit eine zweite Geschwindigkeit der Warenbahn ermittelt wird und wobei bei einer unvorhergesehenen Abweichung der ersten Geschwindigkeit der Warenbahn von der zweiten Geschwindigkeit der Warenbahn die Anlage in einen sicheren Zustand überführt wird.In the method for operating a plant, in particular a paper machine, preferably a winding device of a paper machine, the system comprises a roller with a variable diameter and a motor, wherein the motor is used to drive the roller, the motor of a frequency converter with a motor current wherein a first rotational speed of the roller or the motor and a second rotational speed of the roller or the motor is determined, wherein the first rotational speed is determined by a first encoder and wherein the second rotational speed

• is determined with a second encoder and / or
• provided by the frequency converter,

and wherein based on the first rotational speed, a first speed of the web is determined, wherein based on the second rotational speed, a second speed of the web is determined, and wherein in an unforeseen deviation of the first speed of the web from the second speed of the web, the system in a safe state becomes.

Preferably, the first speed of the web is compared with the second speed of the web. Alternatively or additionally, the first rotational speed is preferably compared with the second rotational speed.

If the speeds differ from each other, a warning signal can be provided. The respective speed of the web can be compared with a predetermined speed for the web. The predetermined speed is an example of a maximum speed. In particular, the roller has a variable diameter. The diameter of the roll can change over time. The diameter of the roll may vary due to the web wound or unwound on the roll. The diameter of the roll is a measure of the number of wound or unwound layers of the web.

The motor is preferably used to drive the roller. The engine preferably has the first donor. Optionally, the engine also has the second encoder.

In the safe state of the system, the respective motor of the system can be switched off. Alternatively, the web can be moved at the lowest possible speed.

The second encoder is preferably also associated with the engine. The second encoder can also be assigned directly to the roller with the variable diameter. By assigning the second encoder to the roller, the rotational speed of the roller is determined directly.

In addition, the second encoder may also be associated with another roller, in particular a further roller, preferably with a constant diameter. The second encoder can thus also be assigned to a further motor, wherein the further motor is used to drive the other role.

By calculating the diameter of the roll with the variable diameter based on the number of rolled paper layers, the speed of the roll can be easily determined by the speed of the roll.

The second encoder can also be associated with a roller with a constant diameter. By determining the rotational speed of the constant diameter roll, the speed of the web can be easily determined. In this case, the speed of the web is proportional to the product of diameter and the respective rotational speed of the roll.

Additionally or alternatively, the second rotational speed can also be provided by means of the frequency converter. The determination of the second rotational speed with the aid of the frequency converter is preferably carried out by an analysis of the provided motor current.

Since the material web generally has a high modulus of elasticity and / or only minimal slip between the material web and the respective roll, the tangential speed of the respective roll equals the speed of the material web.

By using a second encoder and / or by determining the rotational speed with the aid of the frequency converter, the speed of the web can be determined twice and thus very reliably.

By determining the speed of the web in duplicate, the failure of a sensor or an encoder can be effectively compensated. As a result, the reliability is increased.

The invention particularly advantageously serves to obtain a SIL-2 certification for a plant, in particular for a paper machine.

In an advantageous embodiment of the invention, the first speed of the web is determined by the rotational speed of another roll.

The further roll preferably has a constant diameter. Based on the rotational speed of the other role can be closed directly to the speed of the web due to the constant diameter. The rotational speed of the other role is with at least one encoder certainly. Advantageously, the rotational speed of the other roller is determined with a first encoder and a second encoder.

Advantageously, the first encoder and the second encoder are arranged on the motor which drives the roller with the constant diameter.

Due to the direct determination of the speed of the web, it is not necessary to pay attention to the thickness of the web.

In a further advantageous embodiment of the invention, the first and / or second speed of the product web is determined via the respective tangential speed of the roll on the basis of the first rotational speed and / or the second rotational speed.

To determine the speed of the web, the tangential speed of a roll can be determined by the respective rotational speed of the roll. The respective tangential velocity is proportional to the rotational speed of the respective roll. For a variable diameter roll, it is preferable to adjust the diameter by simulating or calculating the diameter of the roll.

Assuming that there is essentially no slippage between the respective roll and the web, the respective tangential speed of the roll corresponds to the speed of the web.

By calculating the speed of the web on the basis of the respective tangential speed, the determination can be simplified. Also advantageously, parameters such as a modulus of elasticity of the web can be determined.

In a further advantageous embodiment of the invention, the diameter of the roll is variable.

The diameter of the roll usually changes in a roll in which the web is wound or unwound. At a constant thickness, the change in the diameter of the web is proportional to the number of webs of web which are (still) wound on the reel.

By considering a varying diameter of the roll, the invention can be applied to a winding device.

Thus, a winding device with a SIL-2 certification can be provided.

In a further advantageous embodiment of the invention, the diameter of another roller is constant and the second encoder is associated with the other role.

The second role is advantageous for deflecting the web. The further role therefore has a constant tangential velocity at a constant speed of the web. The speed of the web is proportional to the rotational speed of the other roll.

If the additional roller is assigned to a further motor, the second encoder can be assigned to the further motor.

By assigning the second encoder to a roll with a constant diameter, the respective speed of the web can be determined particularly easily based on the respective rotational speed.

In a further advantageous embodiment of the invention, the first and the second rotational speed in magnitude and direction are compared and at different rotational speeds, a warning signal is output.

The comparison is preferably carried out in each case in a control device and / or with the aid of a computer program. It can be a comparison of the respective rotational speeds and / or a comparison of the respectively determined speed of the web. It is also possible to compare the respectively determined tangential velocities of the respective roll. By comparing the respective rotational speeds, the system can be transferred to the safe state if the (rotational) speeds deviate.

By comparing the (rotational or tangential) speeds can advantageously be a demolition of the web or other interference can be determined.

In a further advantageous embodiment of the invention, the first rotational speed and / or the second rotational speed are respectively provided to a first control device and an optional second control device.

The control device is preferably used to determine the respective speed of the web on the basis of the respectively provided rotational speed. If the first speed deviates from the second speed of the material web, the first control device and / or the optional second control device can provide the warning signal. If two control devices are present, the control devices are advantageously designed to be redundant.

Preferably, the determination of the speed of the web on the basis of the first rotational speed in the first control device and the determination of the speed of the web on the basis of the second rotational speed by means of a second control device.

The respective determination of the speed of the material web from the respective rotational speed is preferably carried out independently of one another. An independent determination of the first speed from the determination of the second speed can also take place in the respective control device, in particular redundantly.

Preferably, the determination of the speed of the web on the basis of the first rotational speed in a first time period and the determination of the speed of the web on the basis of the second rotational speed in each case a second period of time. The time periods may be disjoint and / or alternate.

Preferably, when the first control device fails, the second control device takes over the tasks of the first control device. In a redundant embodiment of the control devices, a takeover of the tasks is simplified.

Due to the multiple determination of the rotational speed, a multiple determination of the tangential velocity of the respective roll and / or a multiple determination of the speed of the material web can also take place.

Due to the double design of the control device, the reliability of the system can be increased.

In a further advantageous embodiment of the invention, the second encoder determines the rotational speed of the respective role directly.

Preferably, the first and second encoders are each positioned on a respective roller such that the respective encoder directly determines the rotational speed of the respective roller. The direct or immediate determination of the respective rotational speed is preferably carried out by the arrangement of the respective encoder on the respective role.

Due to the direct determination of the respective rotational speed, the speed of the material web can take place independently of possibly occurring inaccuracies in the transmission of the respective rotational speed.

More preferably, the first and the second encoder are positioned on the roller with the variable diameter.

The direct determination is made by a positioning of the respective encoder on the respective role. Due to the direct positioning of the second encoder on the roller inaccuracies in the transmission of rotational movement between the motor and roller can be excluded.

In a further advantageous embodiment of the invention, the respective rotational speed is provided on the basis of the first speed of the web and / or the second speed of the web, wherein the respective control device controls or regulates the respective rotational speed of the motor such that the respective speed of the web is not a maximum speed exceeds.

The (re) determination of the respective rotational speed from the determined speed of the material web advantageously takes place analogously to a control loop. The respective rotational speed is preferably provided to the frequency converter. The frequency converter controls or regulates the speed of rotation of the motor. By specifying a maximum speed of the web, a maximum rotational speed can result.

By specifying the respective rotational speed of the respective roller or the respective motor can be ensured that a maximum speed of the web is not exceeded.

In particular, a SIL2 certification of the plant can be achieved.

In a further advantageous embodiment of the invention, it is ensured on the basis of the first rotational speed and / or the second rotational speed that the speed of the material web does not exceed a defined value.

The set value for the speed of the web is preferably a maximum value, e.g. 20 m / s. The maximum value is preferably predetermined. Preferably, the maximum value for different operating modes of the system is different.

By ensuring that the speed of the web does not exceed the specified value, a safe operating mode, for example after the start of the system, can be made particularly secure.

In a further advantageous embodiment of the invention, a plausibility check is carried out as to whether the first speed, which was determined from the first rotational speed, is equal to the second speed, which was determined from the second rotational speed.

The plausibility check is preferably carried out in the control device. In the case of two control devices, the plausibility check advantageously takes place redundantly in the respective control device. The plausibility checks are preferably carried out independently of each other.

If the first and second speed of the web in direction and height are substantially the same, the plausibility check is fulfilled.

The plausibility check can advantageously be used to check whether the encoders and / or the control device function correctly.

• der Rolle ein zweiter Geber zugeordnet ist und der zweite Geber zur Bereitstellung einer zweiten Drehgeschwindigkeit an eine Steuereinrichtung ausgebildet ist, und/oder
• der Frequenzumrichter zur Bereitstellung einer zweiten Drehgeschwindigkeit an die Steuereinrichtung vorgesehen ist,

wobei anhand der ersten Drehgeschwindigkeit eine erste Geschwindigkeit der Warenbahn ermittelt wird und anhand der zweiten Drehgeschwindigkeit eine zweite Geschwindigkeit der Warenbahn ermittelt wird,
wobei die Steuereinrichtung zur Ausgabe eines Warnsignals ausgebildet ist, falls die erste und die zweite Drehgeschwindigkeit oder die erste Geschwindigkeit der Warenbahn und die zweite Geschwindigkeit der Warenbahn unterschiedlich sind.The system, in particular at least part of a paper machine, preferably a winding device, has a roller, wherein the roller is designed in particular for receiving or delivering a material web, wherein the roller is connected to a motor, wherein the motor for driving the roller with a rotational speed is formed, wherein the motor is connected to a frequency converter, wherein the motor is associated with a first encoder and the first encoder is provided for providing a first rotational speed, wherein

• the role of a second encoder is assigned and the second encoder is designed to provide a second rotational speed to a control device, and / or
• the frequency converter is provided for providing a second rotational speed to the control device,

wherein based on the first rotational speed, a first speed of the web is determined and based on the second rotational speed, a second speed of the web is determined,
wherein the control device is designed to output a warning signal if the first and the second rotational speed or the first speed of the web and the second speed of the web are different.

Preferably, both the first and second encoders are positioned on the respective motor.

Alternatively or additionally, the second encoder may be positioned on the roller itself. The second encoder can then directly determine the rotational speed of the roll. The second encoder can also be assigned to the shaft of the respective roller.

The second encoder can also be assigned to a further roller, in particular with a constant diameter. Here, the other role can also be driven by another motor. The second encoder can be assigned to the other motor.

A particularly safe mode of operation results if, in the event of failure of one of the encoders, the respective rotational speed is determined with the aid of the respective other encoder. If necessary, the system can then continue to operate in a safe mode until the error has been corrected.

If the respective speed of the material web does not change, advantageously in the event of a failure of one of the donors, no provision of a warning signal or no transfer of the system into the safe operating state takes place.

The embodiment of the system described here makes it particularly easy to operate the system safely.

In providing the second speed of rotation by the frequency converter, provision may be made by means of fail-safe rotation speed detection. For this purpose, "fail-safe" drive components (so-called F-CPUs) are preferably provided, such as a "fail-safe" frequency converter. Drive components of Siemens AG are preferably suitable here.

In the case of the "fail-safe" rotational speed determination, it is preferable to check the rotational speed provided with a further rotational speed, which has been calculated by way of example.

In a further advantageous embodiment of the invention, the system has a first and a second control device, wherein the respective control device is in each case designed to specify the rotational speed of the respective motor.

Preferably, the first and second control means are redundant.

Due to the multiple design of the respective control device, the reliability can be further increased.

In a further advantageous embodiment of the invention, the frequency converter comprises a rotational speed determination, wherein the rotational speed determination is designed to provide the second rotational speed and / or the second speed of the web.

Modern frequency converters usually have a rotational speed detection. This is usually used to provide the rotational speed of each associated with the frequency converter motor.

By providing the speed of the web through the frequency converter advantageously the second encoder can be saved and / or the control device can be relieved.

In a further advantageous embodiment of the invention, the system is a paper machine, in particular a winding device.

The invention can be used for a take-up device and / or an unwinding device of a web. The web is preferably a pulp-containing web such as a paper web. Another possible application of the invention is a tubular bag machine or a wire winding machine.

Preferably, the first and second encoders are each associated with the motor which rotates the variable diameter roller. In particular, both encoders are positioned on the same motor. Thus, an offset may be due to deviations or Slip between the two speeds of rotation can be avoided.

If one of the encoders fails, the respective rotational speed can be provided by the frequency converter, in particular by a rotational speed determination.

Thus, a failure of the encoder does not necessarily lead to the transfer of the system in the safe state.

With the aid of the frequency converter, the function of the respective encoder can be checked by comparing the respective rotational speed of the encoder with the rotational speed provided by the frequency converter.

Such a comparison can be made at the beginning of the operating time of the system and / or at recurring times during the operation of the system.

• der ersten Geschwindigkeit der Warenbahn,
• der zweiten Geschwindigkeit der Warenbahn,
• und/oder eines Warnsignals,

ausgebildet ist.The computer program product for executing the method on a computing unit, wherein the arithmetic unit is assigned to at least one control device and wherein the computer program product in the implementation of the method described here, to provide

• the first speed of the web,
• the second speed of the web,
• and / or a warning signal,

is trained.

A plausibility check of the speeds and / or rotational speeds serves to provide the warning signal, wherein the warning signal is provided at a deviation of the first (rotational) speed from the second (rotational) speed.

The arithmetic unit can be designed as a microcontroller. The arithmetic unit can also be integrated into the respective control device.

FIG 1

eine Wickeleinrichtung,

FIG 2

einen Ausschnitt einer Steuereinrichtung,

FIG 3

zwei Steuereinrichtungen,

FIG 4

einen Ausschnitt aus einer Papiermaschine sowie

FIG 5

eine weitere Wickeleinrichtung.

The invention will be described and explained in more detail below with reference to FIGS. The figures show embodiments of the invention, wherein the features shown can be combined again to new embodiments of the invention. Show it

FIG. 1

a winding device,

FIG. 2

a section of a control device,

FIG. 3

two control devices,

FIG. 4

a section of a paper machine as well

FIG. 5

another winding device.

FIG. 1 shows a winding device. The winding device serves to wind a web 1. The web 1 is an example of a paper web which is produced in a paper machine. The web 1 moves at a speed V1, V2 in the direction of a roller 3, wherein the roller 3 due to the wound web 1 has a variable (time increasing) diameter d. The roller 3 rotates on a shaft 11 and is positioned by the shaft 11. A part of the web 1 is already rolled up on the roll 3. This part is referred to as a wound web 1a. The wound-up web 1a defines the diameter d of the roll 3.

The speed V of the paper web is determined in each case with a first encoder 9a and in each case a second encoder 9b.

The first encoder 9a is for detecting the first rotational speed D1 of the variable diameter roller d. The second encoder 9b is used to determine the second rotational speed D2 of the roller 3 with variable diameter d. The first encoder 9a and the second encoder 9b each transmit a signal to a control device 13. The control device 13 is used in particular for determining the speed V of the web 1. The determination of the speed V of the web 1 is carried out by way of example by calculating the tangential velocity Vt of the roll 3 with variable diameter d.

The first encoder 9a is hereby positioned at the motor 5. The motor 5 is supplied by a frequency converter 7 with a motor current. The frequency converter 7 has a rotational speed detection 7F. The rotational speed detection 7F serves to determine the second rotational speed D2. The second rotational speed D2, which has been determined by means of the rotational speed determination 7F of the converter, is likewise provided to the control device 13. The rotational speed detection 7F is preferably implemented as a "fail-safe" rotational speed determination 7F.

From the first rotational speed D1, the first speed V1 of the web 1 is preferably provided by means of the control device 13. From the second rotational speed D2, the second speed V2 of the web 1 is provided. The second speed V2 of the web 1 is provided alternatively or additionally by the frequency converter 7.

The control device 13 is preferably used to ensure a maximum speed of the web 1. The control device 13 is preferably used to control the motor 5 by the control signals are provided to the frequency converter 7. If the first speed V1 deviates from the second speed V2, the control device provides a warning signal WS. The warning signal WS is used to transfer the system to a safe state.

FIG. 2 shows the section of a control device 13. The control device 13 or a module of the control device has in each case an input for the first rotational speed D1 and for the second rotational speed D2. In one Comparison module 15 will compare the first rotational speed D1 with the second rotational speed D2. In the event of a deviation of the first rotational speed D1 and the second rotational speed D2, a warning signal is output. The warning signal is used in particular to transfer the system to a safe state.

The respective rotational speed D1, D2 is also provided in each case to a calculation unit F1, F2. The respective calculation unit F1, F2 serves to calculate the respective speed V of the material web 1. In a redundant embodiment of the control device 13, the first calculation unit F1 may be assigned to the first control device 13a and the second calculation unit F2 to the second control device 13b.

Alternatively, the velocity V of the material web 1 or the respective tangential velocity Vt can first be determined from the respective rotational speed D1, D2 and these can be compared with one another.

FIG. 3 shows two controllers 13a, 13b. The control devices 13a, 13b are preferably designed to be redundant. By the redundant design of the control devices 13a, 13b, an increase in reliability can be ensured, insofar as one of the control devices 13a, 13b, the respective other control device 13a, 13b can take over the control of the system in case of failure.

It is shown that the first rotational speed D1 and the second rotational speed D2 are respectively provided to the first control device 13a and that of the second control device 13b.

The first control device 13a and / or the second control device 13b calculate the tangential speed Vt of the respective roller 3, 4 from at least one of the rotational speeds D1, D2. The respective control devices 13a, 13b preferably also calculate the first and / or second speed V1, V2 of the material web 1. The respective speed V1, V2 and / or the tangential velocity Vt is respectively provided to the frequency converter 7.

Based on the speed V and / or the tangential speed Vt of the roller 3, the frequency converter 7 controls the rotational speed D1, D2 of the motor 5 and the roller 3.

FIG. 4 shows a section of a paper machine. Here, the web 1, in particular a pulp-containing web such as paper, passed over another roll 4 and the roll 3 with variable diameter d rolled up. The diameter d of the roller 3 is changed by the rolling / unwinding of the web 1 on the roller 3. Another roller 4 has a constant diameter d. Here, the first encoder 9a is assigned to the roller 3 with the variable diameter d. The second encoder 9b is associated with the further roller 4 with the constant diameter d. Preferably, the roller 3 and the further roller 4 are each assigned to a motor. In this case, the respective transmitter 9a, 9b may be associated with the respective motor 5, which moves (rotates) the respective roller 3, 4.

FIG. 5 shows another winding device. Shown is a web 1, which is moved along another roller 4 at a speed v1, v2. The web 1 is rolled up on a roll 3 of variable diameter d. Both the variable diameter roller d and the further roller 4 having a constant diameter are each driven by a motor 5. The respective motor 5 has in each case a first transmitter 9a and in each case a second transmitter 9b. Depending on the embodiment, a part of the donors 9a, 9b may also be arranged directly on one of the rollers 3, 4. The respective

Each roller has a tangential velocity Vt. In a crack of the web would be the respective Tangential velocities Vt of the rollers 3, 4 differ. With an ordinarily provided function of the winder or a commonly provided function of the paper machine, the tangential velocities Vt are substantially equal. The respectively determined rotational speeds D1, D2 are provided to the control device 13. The control device 13 can also be configured redundantly with a further control device (not shown).

By the respective double monitoring of the respective rotational speeds of the rollers 3, 4, the reliability can be increased.

In summary, the invention relates to a method and a system. The method is used for a particularly safe operation of the system. According to the method, a first rotational speed D1 and a second rotational speed D2 are determined. With the aid of the first rotational speed D1 and / or the second rotational speed D2, in each case a speed V1, V2 of a material web 1 is determined. The first rotational speed D1 is determined by means of a first encoder 9a. The second rotational speed D2 is determined by means of a second transmitter 9b and / or a rotational speed determination 7F, in particular as part of a frequency converter 7. Due to the multiple determination of the rotational speed D1, D2 or the speed V1, V2 of the web 1, the system has a high reliability. Areas of application of the invention are in particular a paper machine, a printing press, a tubular bag machine or a winding device.

Claims (15)

Method for operating a system, in particular a paper machine, preferably a winding device of a paper machine, the system having a roller (3) with a variable diameter (d) and a motor (5), wherein the motor (5) for driving the roller ( 3, 4), wherein the motor (5) by a frequency converter (7) is supplied with a motor current, wherein a first rotational speed (D1) of the roller (3, 4) or the motor (5) and a second rotational speed (D2 ) of the roller (3, 4) or the motor (5) is determined, wherein the first rotational speed (D1) is determined by a first encoder (9a) and wherein the second rotational speed (D2) - Is determined with a second encoder (9b) and / or provided by the frequency converter (7), and wherein based on the first rotational speed (D1), a first speed (v1) of the web is determined, wherein based on the second rotational speed (D2), a second speed (v2) of the web (1) is determined, and wherein at an unforeseen deviation of the first speed (V1) of the web (1) of the second speed (V2) of the web (1), the system is transferred to a safe state. Method according to claim 1, wherein the speed (v1, v2) of the web (1) is determined by the rotational speed (D1, D2) of another reel (4). Method according to claim 1 or 2, wherein the first speed (V1) of the material web (1) and the second speed (V2) of the web (1) are respectively determined by means of the first rotational speed (D1) and / or the second rotational speed (D2) a tangential velocity (Vt) of the roller (3, 4) is determined. Method according to one of the preceding claims, wherein the diameter (d) of the roller (3) is variable. Method according to one of the preceding claims, wherein the diameter of another roller (4) is constant and the other roller (4) is associated with the second encoder (9b). Method according to one of the preceding claims, wherein the first rotational speed (D1) and the second rotational speed (D2) are compared in magnitude and direction and a warning signal is output at different rotational speeds (D1, D2). Method according to one of the preceding claims, that the first rotational speed (D1) and / or the second rotational speed (D2) respectively a first control means (13a) and a second control means (13b) are provided, wherein the respective control means (13, 13a, 13b ) provides the respective rotational speed (D1, D2) for the motor (5). Method according to one of the preceding claims, wherein the second encoder (9b) directly determines the rotational speed (D1, D2) of the roller (3). Method according to one of the preceding claims, wherein based on the first speed (V1) and / or the second speed (V2), the respective rotational speed (D1, D2) is provided, so that the respective speed (V1, V2) of the web (1) does not exceed a maximum speed. Method according to one of the preceding claims, wherein a plausibility check is carried out as to whether the respective same speed (V1, V2) of the material web (1) is present on the basis of the first rotational speed (D1) and the second rotational speed (D2). Plant, in particular at least a part of a paper machine, preferably a winding device, comprising a roller (3), wherein the roller in particular for receiving or dispensing a web (1) is formed, wherein the roller (3, 4) with a motor (5) is connected, wherein the motor (5) for driving the roller (3) with a rotational speed (D1, D2) is formed, the motor (5) is connected to a frequency converter (7), wherein the motor (5) is assigned a first transmitter (9a) and the first transmitter (9a) is provided for providing a first rotational speed (D1) - The role of a second encoder (9b) is assigned and the second encoder (9b) for providing a second rotational speed (D2) to a control device (13, 13a, 13b) is formed, and / or the frequency converter (7) is provided for providing a second rotational speed (D2) to the control device (13, 13a, 13b), wherein based on the first rotational speed (D1) a first speed (V1) of the web (1) is determined and based on the second rotational speed (D2) a second speed (V2) of the web (1) is determined,
wherein the control means (13, 13a, 13b) is adapted to output a warning signal (WS) if the first rotational speed (D1) and the second rotational speed (D2) or the first speed (V1) of the web and the second speed (V2) the web (1) are different. Installation according to claim 11, comprising a first control device (13a) and a second control device (13b), wherein the control devices (13a, 13b) are each designed to specify the respective rotational speed (D1, D2) of the respective motor (5). Installation according to one of claims 11 or 12, wherein the frequency converter (7) has a rotational speed determination (7F) and the rotational speed determination (7F) for providing the second rotational speed (D2) and / or the second speed (V2) of the web (1) is. Plant according to one of claims 11 to 13, wherein the plant is a paper machine, in particular a winding device. Computer program product for execution on a computer unit, wherein the computer unit is associated with at least one control device and wherein the computer program product in carrying out the method according to one of claims 1 to 10, to provide the first v1 speed of the web 1, - The second v2 speed of the web 1 and / or - The warning signal WS is formed.

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