DE3741680A1 - Method and device for glazing the surface of a paper web - Google Patents

Abstract

A calender (1) for glazing (calendering) the surface of a paper web (2) has assigned to it a gloss measuring apparatus (48) having a plurality of measuring elements (51) arranged transversely to the running direction (arrow 31) of the paper web, which elements monitor in sectors specific measuring or width sections (49a to 49d) of the paper web and are connected, for purposes of control, to separately actuable setting elements (41) of a moisturising apparatus (27) which, as a function of the gloss values obtained, moistens the paper web more or less in sectors in the region of moisturising zones (47a-47d) corresponding to the same measurement or width sections of the paper web in such a way that in the case of gloss measurement values lying below a preset desired value, the moisturising in the corresponding sectors is intensified, and vice versa. <IMAGE>

Description

The invention relates to a method for smoothing the upper surface of a paper web by calendering and moistening.

The invention also relates to a device for smoothing th the surface of a paper web by means of a calender works and a humidifier assigned to it device for the paper web.

In papermaking, the production goal is Pa pier tracks over their length and width with respect to ver different quality criteria as evenly as possible deliver. For example, quality parameters are constant surface weight and constant humidity. More criteria rien are smoothness, volume, thickness and tech From a biological point of view, for example, the printability.

One strives to in-line and criteria of the type mentioned improve off-line of paper machines. Regarding the smoothness of papers that are common here should be understood as that by leveling the Web surface texture achieved, and for example also the gloss, the thickness or the transparency of the paper path, methods and devices of the crystallized out initially mentioned genus. With the local compression of the paper in a nip that increases smoothness and density and by varying the pressure in the nip can be influenced during production, d. H. while the process of papermaking or processing by changing only one parameter, for example the Smoothness can be adjusted.  

The result of this process, known as calendering It depends on many parameters, both on paper itself, as well as from the above criteria. A constant line pressure in a nip at one constant roller temperature then naturally results in a constant smoothness across the width and length of the paper web, albeit the entry conditions of the paper into the Kalan that are constant.

The invention has for its object measures meet, with the help of unevenness of the papers be balanced before entering the calender.

This object is achieved in that the Roughness (smoothness of the paper web) over the web width is averaged and that the Pa pier web is moistened unevenly across its width.

A particularly effective influencing of the railway property According to a further proposal, ten is achieved by that the smoothness at defined latitudes of the Pa pierbahn is measured and that latitudes higher Roughness stronger and width sections less rough less humidified. This means the smoother the paper web to be produced, the more moisture is applied to them.

The procedure is followed by another proposal even more effective and versatile when the Smoothness is measured on both sides of the paper web, and that depending on the measurements obtained Paper web on the corresponding web side sectorally ge secretes being moistened.

It is also particularly advantageous if for loading dampening, the paper web is subjected to steam. This  Humidification process stands out next to its very fine feel controllability during humidification from that the paper is raised in its temperature level becomes. The advantage of such an elevated temperature is the associated lower line pressure for the same Calender effect.

The calender effect, for example in the case of measured uniform running-in conditions over the entire web The width of the paper web will continue to be influenced struck that depending on the measured orbit roughness additionally pressure and / or temperature of the Kalan derwerkes are controlled. This happens just like with the humidification in that pressure and / or temperature be increased if the smoothness increases or the roughness should be reduced.

It is also contemplated that the smoothness before and after the calendering of the paper web is measured so that a Disturbance feedforwarding of the previously measured smoothness values on the controlled variable is possible.

The device for carrying out the input The procedure is that the calender works under different measuring sections across the direction of the paper orbit-detecting smoothness measuring device is assigned, the Measuring controls in terms of control with selective on separate Be damping zones of the actuators acting on the paper web the humidifier are connected. Measuring elements and adjusting elements are expedient in each case connected to each other in such a way that each one ordered measuring sections and humidification zones each correspond to the same width sections of the paper web.

A particularly effective, differentiated or selective controllable humidifier is that it  a transverse to the direction of the paper web Slit nozzle, which by means of the actuators with egg nem gaseous or liquid medium across its width can be loaded selectively or zone by zone.

It is particularly advantageous if the slot nozzle is a Has steam supply, with the help of a special sensitive controllability during humidification is, at the same time because of the higher tempe ratur levels of steam the calendered effect improved becomes.

The effectiveness of the smoothing device is still thereby increased that the calender two each one side of the Humidification devices acting on the paper web as well also monitoring both sides of the paper web Smoothness measuring devices are assigned.

For the feedforward control to the controlled variable is also provided that the input and output side of the Ka landerwerkes smoothness measuring devices are provided. To evenly influence the paper web over the entire web width, for example over the entire width Web width measured uniform run-in conditions, can still complete the device as proposed come that the smoothing organs additionally steer tionally with actuators of a roller pressure drive and / or a roll heating or cooling system of the calender are in active connection at the factory. Allow these measures it, the line pressure or the temperature of the rollers of the Calender works according to the even action to increase the paper web across its entire width if the paper web is to be kept smoother overall.

The advantage achieved by the invention is that the moisture gradients transverse to the direction of travel of the paper web balanced and so in terms of moisture before  Calender constant inlet conditions can be produced. In this way, the desired smoothness can be achieved by a Li acting evenly across the width of the paper web pressure can be achieved. The measures according to the invention have a relatively simple system technology in the field of Calenders with reduced energy consumption, whereby the desired smoothing effect (satin) is reliable is achieved.

The invention is illustrated below in the beige added illustrations shown embodiment explained in more detail.

Here shows:

Fig. 1 is a side view of a schematically illustrated Kalanderwerkes with associated measurement and control organs,

Fig. 2 is a perspective humidification device according to the invention and

Fig. 3 shows a cross section through the Befeuchtungsein direction in FIG. 2.

Referring to FIG. 1 a in the course of not presented further Darge paper machine line in-operation continuously operating calender unit 1 is shown for two-sided smoothing (calendering) of a paper web 2 obersei tig an arrow labeled 3 in the calender unit 1 enters in the direction and exits the calender at the bottom in the direction of an arrow labeled 4 . For the purpose of the two-sided satinizing of the paper web 1 are on a calender frame 6 parallel to each other and superimposed hard rollers 7 and elastic rollers 8 vertically slidably mounted. The hard and the elastic rollers are arranged alternately in succession both in the upper and in the lower part of the calender 1 so that the paper web 2 is passed through nips each, which are delimited by a hard and an elastic roller. In this way, in one half of the nips one side and in the other half the other side of the paper web 2 each against an elastic roller 8 , so that both web sides can be satined. Guide rollers 11 mounted on carrying cheeks 9 are provided for guiding and stretching transversely to the running direction of the paper web 2 .

The rollers 7 and 8 are in their working position of two arranged at the bottom of the calender frame 6 Hydraulikzy alleviate 12 , which act on the two cheeks of the bottom roller 13 , so that the roller 13 is held in a predetermined position. A minimum pressure is generated in the roll nips by the dead weight of the rolls 7 and 8 which are displaceably mounted in the vertical direction. This minimum pressure can be increased by means of a roller pressure drive in the form of two hydraulic cylinders 16 acting on the bearing cheeks of the top roller 14 with a downward force. For this purpose, in a hydraulic line 16 leading hydraulic line 17 actuators in the form of a pump 19 driven by a motor 18 and a pressure regulating valve 21 for regulating the loading force of the hydraulic cylinder 16 are installed, relieving the hydraulic cylinder in one of the hydraulic line 17 branching drain line 22, a valve 23 is provided.

To influence the temperature at which he follows the satin, the hard rollers 7 are equipped with a heating or cooling system 24 , which consists, for example, of temperature-controlled water circuits and for its independent temperature control for both web sides in the satin actuators in the form a temperature controller 26 are provided.

In order to influence the surface moisture of the two sides of the paper web 2 , each side of the web is provided with a dampening device 27 in the form of a slot nozzle 29 connected to a steam supply line 28 . The structure and mode of operation of this slot nozzle are explained in more detail with reference to FIGS. 2 and 3.

The slot nozzle 29 extends transversely to the running direction (arrow 31 ) over the entire width of the paper web 2 . The slot nozzle 29 has a distributor housing 32 , into which the steam feed line 28 opens, which is connected to a pressure source not shown Darge.

In order to compensate for irregularities in the paper web over its width and length, the mass flow through the slot nozzle can be selectively controlled over the web width with a view to adapting the steam discharge from the slot nozzle to the irregularities in the paper web. For this purpose, the interior of the distributor housing 32 is separated into a first space 34 and a second space 36 by a control body 33 . The control body 33 bears against a boundary wall 37 at an angle of inclination α . In the area of the contact zone 38 between the control body 33 and the boundary wall 37 , flow openings 39 are provided, which are preferably arranged in the area of the control body 33 . The liquid or gaseous medium, in the present case steam flows under pressure through the steam supply line 28 into the first space 34 of the distributor housing 32 and then flows through the flow openings 39 into the second space 36 separated by the control body 33 , from where it passes through the slot nozzle 29 emerges towards the paper web 2 .

The control body 33 is formed as a reversibly deformable material strip Ma and roof-shaped. Both edges of this roof-shaped control body 33 lie on both sides of the slot nozzle 29 and parallel to it on the boundary wall 37 of the distributor housing 32 . In the ridge line of this roof-shaped control body 33 act in adjacent sections next to each other actuators 41 , which exert a variable pressure on the control body 33 . The actuators 41 have a motor 42 arranged on the upper side of the distributor housing 32 , which drives the threaded rod 44 a of a screw drive 44 via a gear 43 . By actuating the motor 42 , the threaded rod 44 a in the direction of the double arrow 46 is more or less screwed into or out of the distributor housing 32 via the gear 43 . By this change in pressure on the reversibly deformable control body 33 , the angle of inclination between the control body and the boundary wall 37 is adjustable. As the angle of inclination changes, the cross section of the flow openings 39 in the contact zone 38 between the control body and the boundary wall also changes. The relationships for three different angles of inclination are shown in FIG. 3. An average size of the flow openings results in the inclination angle α ₁ , which is shown in Fig. 3 with solid lines. In this case, the height of the recesses provided as flow openings 39 in the edge of the control body 33 is h ₁ . In this case, the flow rate can still be changed both upwards and downwards. If the flow rate is to be increased, the control body must be relieved by 33 , a larger inclination angle α _{2 being} established, which is shown in FIG. 3 with broken lines. The height of the flow openings adjusts itself to h ₂ , so that more steam can flow through the flow openings into the second space 36 and to the slot nozzle 29 . By increasing the pressure on the control body 33 with a corresponding direction of rotation of the motor 42 , the angle of inclination is reduced until it reaches, for example, the size of the angle of inclination α _{3 shown} with dash-dotted lines in FIG. 3. The height of the flow openings 39 is now only h ₃ , so that very little steam can still flow into the second space 36 . By further loading the control body 33 , the flow openings can even be completely closed. In this way, a very sensitive adjustment of the flow rate to the slot nozzle 29 is possible.

According to Fig. 2 of the slot 41 to a position the angle of inclination of the control body 33 to Be grenzungswand 29 are provided a plurality of actuators 37 in adjacent sections along the length. In this way, the Nei supply angle A can be set differently pers 33 in adjacent portions of the Steuerkör, so that the flow from the first chamber 34 into the second space 36 and the slot 29 across the width of the paper web 2 in accordance with the of the paper web and from a measuring device to be described given requirements can be set differently. This results in the cross-machine direction (arrow 31) of the paper web 2 ver said separate Befeuchtungszonen 47 a to 47 d, which is associated with, for example, an indicated in Fig. 2 by arrows P possible quantity profile against the paper web 2 court ended humidifying or vapor, that can be set by different actuation of the actuators 41 .

In order to monitor the properties, in this case the smoothness of the paper web 2 , the calender 1 is assigned smoothness measuring devices 48 in the area of the paper web inlet and the paper web outlet, which measure the paper web 2 on both sides in a sectoral manner, that is to say in the area transverse to the running direction (arrow 31 ) Monitor paper web 2 of distributed measuring sections 49 a to 49 d . The individual measurement sections 49 a to 49 d allocated measuring members 51 of the Glättemeßeinrichtung 48 are known, for example as an optical Glättemeßgerät, KL system of the company Lippke GmbH & Co. KG.

The smoothing measuring devices 48 are linked in terms of control via a computer 52 to the pressure control valve 21 for the hydraulic cylinders 16 , to the temperature controller 26 for the heating or cooling system 24 and to control members 53 for the actuators 41 of the humidifying devices 27 . Here, the measuring members 51 of the Glättemeßeinrichtung 48 in terms of control to the individual actuators 41 of the humidifying processing device 27 allocated so that the humidifying zones 47 a to 47 of the moistening device 27 and the measurement portions 49 a d to 49 of Glättemeßeinrichtung d 48 per weils same width portions of the paper web 2 correspond.

The smoothness measuring devices 48 serve as actual value transmitters for the smoothness of the paper web 2 after or before the calendering. Your measured values are entered into the computer 52 , which also receives the associated setpoints from a setpoint generator 54 . The actual values of the smoothness measuring device 48 on the inlet side are applied as a disturbance variable to the controlled variable determined by the computer 52 . In this way, the compute ner 52 continuously supplied measured values of the smoothness measuring devices 48 during the operation of the calender. As well as to smoothness differences of the paper web 2 transversely give to their running direction, which organs by corresponding to the individual measurement sections 49 a to 49 d associated messor registers 51 each with respect to its smoothness deviates from the desired value range sections of the paper web in the area of the respective Meßabschnit th 49 a to 49 d associated Befeuchtungsabschnitte 47 a, which is achieved by selectively actuating of the actuators 41 in the one or other direction to 47 moistened d corresponding to the control deviation more or less. In the event that the smoothness is to be increased, which relates to the measuring sections 49 a and 49 c in the exemplary embodiment according to FIG. 2, the paper web 2 is moistened more strongly in the corresponding humidification zones 47 a and 47 c than in the humidification zones 47 b and 47 d is the case, which is indicated by the different arrow length P of the quantity profile shown.

In the event that the overall smoothness, that is to say uniformly across the width of the paper web 2 , can be increased by appropriate control of the hydraulic cylinder 16 and / or the heating or cooling systems 24 roller pressure and / or roller temperature or in the reverse case can be reduced.

Claims (14)

1. A method for smoothing the surface of a paper web by calendering and moistening, characterized in that the roughness (smoothness) of the paper web is determined across the web width and that in the case of non-uniform smoothness, the paper web is moistened unevenly over its width. 2. The method according to claim 1, characterized in that the smoothness at defined width sections of the paper bshn is measured and that the latitudes are higher Roughness stronger and the width sections less Roughness can be moistened less. 3. The method according to claims 1 and / or 2, characterized characterized in that the smoothness on both sides of the Pa pierbahn is measured, and that depending on the measurements obtained the paper web at the corresponding Web side is moistened separately by sector. 4. The method according to any one of claims 1 to 3, characterized characterized in that for moistening the paper web with Steam is applied. 5. The method according to any one of claims 1 to 4, characterized characterized in that depending on the measured Path roughness additionally pressure and / or temperature of the Calendering can be controlled. 6. The method according to any one of claims 1 to 5, characterized characterized that the smoothness before and after the calender ren of the paper web is measured.   7. Apparatus for smoothing the surface of a paper web by means of a calender and a dampening device assigned to it for the paper web, characterized in that the calender ( 1 ) has a different measuring sections ( 49 a to 49 d ) transversely to the direction of rotation ( 31 ) the paper web ( 2 ) detecting Glättemeßeinrich device ( 48 ) is assigned, the measuring elements ( 51 ) control moderately with selectively acting on separate humidification zones ( 47 a to 47 d ) of the paper web acting actuators ( 41 ) of the humidifying device ( 27 ). 8. The device according to claim 7, characterized in that each measuring members ( 51 ) and actuators ( 41 ) are connected to each other such that the respectively assigned measuring sections ( 49 a to 49 d ) and humidification zones ( 47 a to 47 d ) each correspond to the same width sections of the paper web ( 2 ). 9. Device according to claims 7 and / or 8, characterized in that the moistening device ( 27 ) has a transversely to the running direction ( 31 ) of the paper web ( 2 ) he extending slot nozzle ( 29 ) by means of the actuators ( 41 ) with a gaseous or liquid medium can be loaded selectively over its width or zones. 10. The device according to claim 9, characterized in that the slot nozzle ( 29 ) has a steam feed line ( 28 ). 11. The device according to one of claims 7 to 10, characterized in that the calender ( 1 ) are assigned two each one side of the paper web ( 2 ) acting humidification devices ( 27 ). 12. Device according to one of claims 7 to 11, characterized in that the calender ( 1 ) on both sides of the paper web ( 2 ) monitoring smoothness measuring devices ( 48 ) are assigned. 13. Device according to one of claims 7 to 12, characterized in that smoothness measuring devices ( 48 ) are provided on the input side and output side of the calender unit ( 1 ). 14. The device according to any one of claims 7 to 13, characterized in that the smoothing measuring elements ( 51 ) additionally in terms of control with actuating elements ( 21 or 26 ) of a roller pressure drive ( 16 ) and / or a roller heating or cooling system ( 24 ) of the calender ( 1 ) are in operative connection.