EP2616587A1

EP2616587A1 - Method for regulating the dirt speck area percentage

Info

Publication number: EP2616587A1
Application number: EP11757302.2A
Authority: EP
Inventors: Günther Kriechbaum; Armin Bauer; Jürgen KÄSER; Alexander Wohlmuth; Jens Haag; Christian Naydowski; Martin Staiger; Herbert Britz
Original assignee: Voith Patent GmbH
Current assignee: Voith Patent GmbH
Priority date: 2010-09-17
Filing date: 2011-09-14
Publication date: 2013-07-24
Also published as: CN103228837A; WO2012035049A1; DE102010040951A1

Abstract

The invention relates to a method for regulating the dirt speck area percentage of a running fibrous material web, in particular a paper, tissue or cardboard web, wherein an image is captured of a region of the running fibrous material web using at least one camera, wherein the dirt speck area percentage of the captured region is determined as a controlled variable using at least one image processing method and a predeterminable target level is maintained by means of dirt speck regulation of the dirt speck area percentage.

Description

Method for controlling the dirt dot area fraction

The invention relates to a method for controlling the Schmutzpunktflächeanteils a running fibrous web, in particular a paper, tissue or board web. Dirt spots on or in a fibrous web arise when in the fiber suspension dirt particles such. Color particles are included. The dirt particles may have sizes between 50pm and 500pm, sometimes larger.

By the separation of the dirt particles, e.g. in waste paper processing, the optical properties of the end product are significantly improved.

In the papermaking process so-called dispersers are used to separate the dirt particles from the fibers. Due to the fluctuating quality of the registered raw material, but especially in the use of waste paper of different origin, the efficiency of the disperser changes and there are fluctuations in the optical properties of the fibrous web.

For the evaluation of the optical properties, inter alia, the fluctuation of the dirt dot area of the fibrous web, usually indicated in mm ² dirt spots per m ^{2 of} web area, is measured.

From the state of the art, regulations for waste paper processing and flotation are known, for example from W02008 / 034953 A1; W02007 / 122290 A1. In both mentioned publications, soils located in the suspension are measured online, in the area of stock preparation, and are influenced or regulated on the basis of the measured data of the treatment or flotation process. The measuring devices used are expensive and maintenance-intensive. Since only a certain proportion of dirt particles in the fibrous web as a dirt point appears, is with not to regulate the known regulations, the Schmutzpunktflächeanteil a fibrous web.

On the way from suspension preparation to the finished fibrous web surface, the number of dirt particles also changes. Not all particles of dirt in the suspension find their way into the fibrous web or appear in the paper web, so that not all dirt particles are relevant to product quality. The efficiency of the separation of the dirt particles in the disperser can be adjusted via the energy input or the energy consumption. If the dirt spots are not measured, as on most production plants, a fluctuating product quality must be accepted or the disperser must be operated at a sufficiently high energy input and therefore high energy consumption so that the dirt dot areas do not exceed the maximum permitted value.

The fact that the disperser is usually driven with constant energy input and the energy input is always driven with higher energy input and thus with a better Schmutzpartikelabscheidegrad even with adjustments to the external conditions for safety reasons, there is an increased energy consumption.

The object of the invention is to provide a method for controlling the dirt dot surface portion of a fibrous web, with which the production-related fluctuations of the dirt dot surface can be reduced and the optical properties of the fibrous web can be improved.

The object is achieved by means of the method with the features of claim 1 and a system according to claim 12. The present invention achieves the object by using a method for controlling the dirt dot surface portion of a moving fibrous web, in particular a paper, tissue or board web, in which an image of a region of the moving fibrous web is taken with at least one camera having at least one Image processing method determines the dirt dot surface portion of the recorded area as a controlled variable and holds a dirt point control the dirt dot area proportion to a predetermined target level.

Dirt points in the sense of the invention are dirt particles which can have a great variety of shapes and sizes, such as e.g. granular or disc-shaped, wherein a particle size may have a value between 50 pm to over 500 pm.

In this case, the position of the illumination or the light source, with respect to the region of the fibrous web in which the image is to be recorded, plays a decisive role.

According to a first aspect, the area is illuminated with a light source, so that all dirt spots in the surface area of the fibrous web can be detected by the camera.

Preferably, the light source illuminates the surface of the fibrous web. So are particularly advantageous only visible on the surface dirt particles in the scheme. The second possibility is that the area is illuminated by a light source, so that all dirt spots in the fibrous web are detected. This is particularly advantageous for thin papers in which the dirt particles lying in the middle layer also have a disturbing effect when viewing the eg paper sheet. The camera or the camera system, consisting of camera and lighting, can be moved traversing across the entire web width, in the web transverse direction, via fibrous web to control image data over the entire web width to capture. Alternatively, multiple cameras or camera systems can be positioned next to each other across the web width.

The resolution of the camera is preferably chosen so that it can detect dirt spots that have a particle size of about 500 pm. For higher quality levels, the camera must have at least a resolution of 225 pm or at least 50 pm.

To further improve the control, an image processing method can be used, with which the dirt particles can be classified according to size and type of image analysis. So advantageous manipulated variables can be changed which have direct or indirect influence on the corresponding type of dirt particles. The dirt dot area fraction is expediently maintained at a predefinable desired level by correspondingly changing one or more manipulated variables.

In this case, at least the energy input into the disperser is preferably controlled or regulated in order to keep the dirt dot area proportion at a predefinable desired level.

Alternatively, according to an advantageous embodiment of the method according to the invention or additionally at least also the introduction of chemicals into the suspension can be controlled or regulated in order to keep the dirt dot area proportion at a predefinable desired level.

In accordance with a preferred practical embodiment of the method, at least one dirt particle area component determined online is input into a controller for regulating the dirt dot area and the soil dot area component is maintained at the predetermined desired level by appropriately controlling or regulating one or more control variables. The adjustment of the manipulated variables can be done automatically or manually. For example, a Note with the request to change the energy entry in the PLS appear.

In order to further improve the quality of the control, further process parameters can also be taken into account. It is thus advantageous to take into account the temperature and / or the consistency in the control.

A plant according to the invention for producing a fibrous web comprises at least one soil point control with which the soil dot area proportion is kept at a predefinable desired level.

The at least one camera or camera system is mounted in the area of the raw paper. Conveniently, the at least one camera or camera system is integrated in the Web Inspection System and / or arranged before the reeling.

A further embodiment of the invention further provides that the at least one camera can also be used for the formation measurement.

Advantages of the present invention are:

- Determining the dirt particle content on the paper web with an image processing system is cheaper than a measurement in the suspension.

- Only the dirt particles that affect the optical properties in the product or on the product surface are detected.

- Improved evaluation option in terms of particle size and particle type.

Below is a diagram for further explanation of the invention. It shows in a schematic representation:

FIG. 1 is a diagram illustrating the relationship between dirt and points and energy entry Disperger

FIG. 1 shows a diagram for depicting the relationship between dirt spots and energy input disperser.

From a camera system, which is directed to the finished base paper, the dirt spots are detected on or in the fibrous web as already described and determined by means of an image processing method of Schmutzpunktflächeanteil in mm ² / m ² .

It makes sense to record all protection points in or on the fibrous web, which have a size of> 50 pm, since these can barely be recognized by the human eye. If the determined value of the dirt dot area fraction in the region of the operating point 1 is too high, the contaminant point content is too high and the energy input into the disperser must be increased in order to regain product quality, the tolerable level of dirt spots. If the determined value of the dirt dot area fraction lies in the region of the operating point 2, the dirt dot content is unnecessarily small and the energy input into the disperser can be reduced.

LIST OF REFERENCE NUMBERS

1 operating point 1

2 operating point 2

3 Tolleranzwert

4 dirt spots

5 Energy Entry Disperger

Claims

claims

1 . Method for controlling the dirt dot area portion of a running fibrous web, in particular a paper, tissue or board web,

characterized,

in that an image is taken of a region of the moving fibrous web with at least one camera which determines the dirt dot area portion of the recorded area as a control variable using at least one image processing method and the dirt dot area fraction is kept at a predefinable desired level via a soil point control.

2. The method according to claim 1

characterized,

that the area is illuminated with a light source so as to detect all dirt spots in the surface area of the fibrous web.

3. The method according to claim 1

characterized,

that the area is illuminated with a light source so as to detect all dirt spots in the fibrous web.

4. The method according to any one of claims 1 - 3

characterized,

a camera or camera system is traversingly moved across the fibrous web in the transverse direction or several cameras or camera systems are present in order to acquire image data over the entire web width.

5. The method according to any one of the preceding claims

characterized,

that the camera detects the dirt spots that have a particle size of min. at least 500 pm, at least 225 pm or in particular at least 50 pm.

6. The method according to any one of the preceding claims

characterized,

that the image processing method uses image analytical classification methods to classify the dirt spots by size and type.

7. The method according to any one of the preceding claims

characterized,

that the regulation of the dirt dot area proportion is maintained at a predefinable desired level by correspondingly changing one or more manipulated variables.

8. The method according to claim 7

characterized,

that at least the energy input into the disperser is correspondingly changed as a manipulated variable in order to keep the dirt dot area proportion at a predefinable desired level.

9. The method according to claim 7

characterized,

that at least the chemical entry into the suspension is correspondingly changed as a manipulated variable in order to keep the dirt dot area proportion at a predefinable desired level.

10. The method according to claim 7

characterized,

that the control is automatic or manual, by an indication to change a controlled variable occurs.

1 1. Method according to claim 7 or 8 characterized,

the control takes into account further process parameters, in particular the temperature and / or the consistency.

12. Plant for producing a fibrous web, in particular a paper, tissue or board web, in which according to one of the preceding claims via a dirt point control of the dirt dot area portion is maintained at a predetermined target level.

13. Plant according to claim 12

characterized,

that the at least one camera or camera system is mounted in the region of the base paper.

14. Plant according to claim 12

characterized,

the at least one camera or camera system is integrated in the Web Inspection System and / or arranged before the reeling.

15. Plant according to claim 12 to 14

characterized,

that the at least one camera can also be used for the formation measurement.