RU2753316C1 - Device for regulating the weight of 1m2 paper web - Google Patents

Abstract

FIELD: pulp and paper industry.

SUBSTANCE: invention relates to a device for regulating the weight of 1 m² of paper web in a paper-making machine, containing a nodule trap with loading into it through an adjustable mass gate valve of the input fibrous material, a concentration sensor that controls the concentration of the fibrous material passing through it to the inlet of the pressure box, which then enters through the control and regulation unit of the weight of the paper web to the output of the finished product. The output of the control and regulation unit for the weight of the paper web is connected to the actuator of the adjustable mass gate valve. The signal from the output of the concentration sensor, passing through the concentration signal processing unit, is used to determine the mismatch between the set and actual values of the concentration of paper fiber in the control and regulation weight unit of the weight of the paper web to adjust the opening angle of the mass valve and change the supply of the amount of paper fiber to the pressure box.

EFFECT: saving the raw materials necessary for the manufacture of paper, as well as ensuring an increase in the frequency of concentration control in the pressure box by using a shorter time interval of transport delay when controlling the concentration of paper fiber, while improving the quality of the manufactured paper without affecting the stability of control and regulation of the system as a whole.

1 cl, 1 dwg

Description

The technical field to which the invention relates

The invention relates to the pulp and paper industry, and in particular to devices for regulating the weight of 1 m ^{2 of} paper or cardboard web.

State of the art

The more uniform the weight of 1 m ^{2 of} paper is maintained, the more uniform the paper is also in terms of other quality indicators: moisture, thickness, density, clearance, indicators of mechanical strength, etc. Therefore, it is desirable to produce paper with a standard weight of 1 m ² corresponding to the lower limit, and the constancy of the mass of 1 m ^{2 of the} produced paper is an important task of the technologists-wallet-makers [1-5]. The concentration in the paper fiber stream is non-uniform and constantly changing, which leads to a variation in the weight of the produced paper. Weight adjustment alleviates this problem, but not completely. The difficulty of maintaining the weight lies in the fact that the control systems and regulation of the weight parameter of 1 m ^{2 of} paper are located at the end of the paper machine, and the control object is located at the beginning of the machine, a constant part of the grinding and preparatory section, which leads to a rather large transport delay [14]. Therefore, weight adjustment takes place at intervals of up to two transport delays. The first transport delay is the determination of the paper weight misalignment, the second is the delay after the influence of the weight adjustment. This leads to a spread in the parameter of the weight of the paper web, in the intervals between adjustments. Therefore, it becomes necessary to reduce the interval for adjusting the weight of the paper web, without disturbing the stability of the control and regulation of the system as a whole.

Known in the paper industry are systems for monitoring and regulating paper quality, then a scanner, a finished paper web, which simultaneously measure many parameters of paper, weight of 1 m ² , moisture content, ash content, smoothness, etc. [8-13]. They use a method in which the misalignment between the target and actual values of the paper weight is measured and the weight is adjusted based on the results of this misalignment. The disadvantage of the known method in these systems is the presence of a rather large transport delay, which, when the concentration in the headbox changes, leads to a spread in the weight of 1 m ^{2 of the} paper web between the intervals of weight control.

Of the known analogs, the closest in technical essence to the present invention and the achieved result is a method for regulating the moisture content and weight of 1 m ^{2 of} paper web [15], which consists in measuring the mismatch between the set and actual values of these parameters, and also determines the zone of the set values of the weight and moisture paper web, adjust maintaining their values in the specified zone, and when the first goes beyond the zone, stop adjusting the second, store this value and re-adjust the second from the memorized value when the first parameter enters the zone of set values. The disadvantage of this method is also the presence of a transport delay, which leads to a large time interval between adjustments of the weight of the paper web, when the concentration in the headbox changes, which leads to a spread in the weight of 1 m ^{2 of the} paper web between the adjustment intervals.

The essence of the invention

The aim of the present invention is to improve the quality of production of the weight of 1 m ^{2 of the} paper web. This goal is achieved by the fact that at the knotter outlet, the concentration of the paper suspension entering the headbox is controlled and when the difference between the set and actual values of the parameter changes, the opening angle of the mass gate is adjusted by changing the supply of the amount of paper fiber into the stream, while adjusting the concentration of the paper suspension, entering the headbox. And since the distance from the mass gate valve to the knotter is ten times less than the distance from the mass gate valve to the scanner, this allows many times more frequent adjustment of the concentration of paper suspension at the knotter outlet, without violating the stability of control and regulation of the system as a whole. When the actual weight of the paper web deviates from the set value controlled by the scanner, the concentration setting is changed during its control, which is supplied to the headbox.

This goal is achieved by the fact that in the method of regulating the weight of 1 m ^{2 of} paper web, which consists in determining the zone of the set values of the mass of the paper web, measuring the mismatch between the set and actual values of the weight of the paper, regulate, maintaining this value in the specified zone. In a preferred embodiment, at the outlet of the knotter, the concentration of the paper suspension entering the headbox is controlled, and when the difference between the set and actual values of the parameter changes, the opening angle of the mass gate valve is adjusted by changing the supply of the amount of mass into the flow, while adjusting the concentration of the paper suspension entering the headbox. box. And since the distance from the mass gate valve to the knotter is ten times less than the distance from the mass gate valve to the scanner, this allows many times more frequent adjustment of the paper suspension concentration at the knot catcher outlet, thus obtaining a more uniform concentration in the headbox, and how as a result, obtaining a paper web with a smaller spread in the weight of 1 m ^{2 of} paper web, without disturbing the stability of the control and regulation of the system as a whole, and when the actual weight of the paper web deviates from the set value controlled by the scanner, the task is changed when the concentration in the headbox is controlled , which distinguishes it from the prototype.

List of figures of drawings of the invention

FIG. 1 is a schematic diagram of a device in accordance with the present invention. Information confirming the possibility of implementation

Inventions

FIG. 1 shows a diagram for regulating the weight of the paper web. The device for regulating the weight of 1 m ^{2 of} paper web contains:

- 1 inlet of fibrous material

- 2 adjustable mass gate

- 3 knot catcher (pressure sorting)

- 4 waste disposal

- 5 concentration sensor

- 6 headbox

- 7 concentration signal processing unit

- 8 block for monitoring and controlling the opening of an adjustable mass gate (scanner)

- 9 output of finished products

Any scanner containing a controller with the appropriate software and regulation of the weight of the paper web, including a control unit for opening the adjustable mass gate 2, can act as a block for monitoring and controlling the opening of an adjustable mass gate 8.

The processing unit of the concentration signal 7 of the paper suspension contains an analog unit, if the analog output from the concentration sensor is used, or contains an interface module, if information is transmitted via the interface and is designed to convert from an analog form or an interface signal to a digital signal available to the central processor of the controller, with simultaneous filtering of this signal, to exclude false values of the concentration of the paper suspension.

Because Since modern scanners are based on industrial controllers, the concentration signal processing unit 7 can be physically located in the scanner 8 by adding the corresponding unit to it and adding the program to the controller and SCADA system.

It is also possible to execute block 7 in an independent version, but in this case it is necessary to have a separate control for the opening of the mass gate 2, and from the controller take information about the weight of the paper web and control, adjust and control the opening of the adjustable mass gate 2 using this block.

The device for adjusting the weight of 1 m ^{2 of} paper web will be considered with the concentration signal processing unit 7 located in the scanner 8, shown in FIG. 1, whose work is as follows:

Fibrous material from inlet 1 through an adjustable mass gate 2 enters the knot catcher 3, where the last stage of its cleaning takes place, and the scrap goes to waste 4 and then goes through the headbox in the form of a paper web to the scanner and then to the output of the finished product. The mass concentration value from the output of the sensor 5, in the form of an analog or digital signal, is fed to the input of the concentration signal processing unit 7, where the signal is processed, converted and filtered. Further, the processed signal is fed to the input of the control and regulation unit for the weight of the paper web 8, where the discrepancy between the specified and actual values of the concentration of the fibrous material is determined, and in the presence of a discrepancy in the concentration of the paper suspension, the opening angle of the adjustable mass gate 2 is changed from the output of the control and control unit for opening adjustable mass gate 8. The interval Tk is determined by the time the paper suspension passes from the mass gate 2 to the concentration sensor 5. The scanner 8 constantly monitors the weight of the finished product during operation, and when the actual paper weight deviates from the specified one, sets a new concentration task in block 8, the value to be maintained in the headbox. The frequency of changing the concentration setting in block 8 will be determined by the Tcs interval, the time of passage of the paper fiber from the concentration sensor 5 to the scanner 8. The speed of the machine is known, the distance is also known, so these transport delays can be easily calculated and then used in the process of regulating the concentration of paper fiber entering the pressure head. box. As follows from the above, the adjustment of the opening angle of the mass gate valve 2, to regulate the weight of the paper web, occurs with a transport delay> Tc, from the output of block 8, it is carried out not according to the given and actual difference in the weight of the paper web, but according to the given and actual difference in the concentration of the paper suspension ... Transport delay> Tcs is used to change the concentration setting in block 8, controlling the weight of the paper web at the output of the finished product of the paper machine. The sum of times> Tc + Tc is the total transport delay and is used in the prototype to adjust the paper weight. The paper web from the output of block 8 goes to the output of finished products 9. The> sign indicates that a change in concentration or a change in the task should occur no more often than their corresponding transport delay intervals, otherwise the stability of the system regulation can be disturbed.

Thus, in contrast to analogs, the proposed device for regulating the weight of 1 m ^{2 of} paper web, using a significantly smaller transport delay, makes it possible to increase the frequency of regulating the concentration in the headbox, which makes it possible to more rigidly maintain the actual value of the concentration in a given range, while obtaining a paper web with a lower the spread of the weight of 1 m ^{2 of} paper, and as a result, while increasing the quality of the products, without violating the stability of the control and regulation of the system as a whole, and also the saving of raw materials necessary for the manufacture of paper is achieved.

Bibliography:

1. S.N. Ivanov "Paper Technology" Moscow 2006

2. B.Z. Smolyanitsky Waste paper recycling. M. - Timber industry 1980

3. Technology of paper D.М. Flate 1988

4. Properties of paper D.М. Flätte Third edition, revised and supplemented by "Timber Industry" 1986

5. M.V. A. V. Vanchakov Kuleshov, T.N. Konovalova Waste paper processing technology and equipment St. Petersburg 2011

6. Technology of pulp and paper production in 3 tons. St. Petersburg Polytechnic 2004

7. G.B. Builov Automation of equipment for pulp and paper production: a textbook for diploma design. - St. Petersburg: Publishing house of SPBGTURP SPBGTURP, 2009 .-- 166 p.

8. DaVinci system ("Honeywell", USA) http://honeywel.com

9. Experion MX system ("Honeywell", USA)

10. System OnQ ("Voith Paper Automation)), Germany) http://voith.com

11. PaperIQ system ("Metso Automations)), Finland) http://www.metso.com

12. System Aquar-Paper ("Aquare-System", Belarus) http://aquar-system.ru

13. QCS system ("Consys", Russia) http://paper.consys.ru

14. Control algorithms for paper and board machines with transport delays. XXIX Science Week of St. Petersburg State Technical University. Materials of the interuniversity scientific conference. Part V: P.116-117, 2001. St. Petersburg State Technical University, 2001.http: //elib.spbstu.ru/dl/000538.pdf/download/000538.pdf

15. Patent - a method for regulating humidity and weight_1 m ^{2 of} paper web No. 1170028 D21F, 5/00 1980 https://patentdb.ru/patent/1170028

Claims (1)

A device for regulating the weight of 1 m ^{2 of a} paper web in a paper machine, containing in series: an inlet of fibrous material, an adjustable mass gate, a knotter, a headbox, a paper web weight sensor, a unit for monitoring and controlling the opening of an adjustable mass gate, characterized in that the outlet of the knotter is connected to the headbox through a concentration sensor, the signal from which is fed to the input of the concentration signal processing unit, while the output from the concentration signal processing unit is connected to the input of the control and management unit for opening the adjustable mass gate.

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