Patent Abstract:
A method for the application of liquid through viscid medium onto the surface of a pre-dried material web including the steps of applying a viscid medium to at least one side of the material web, routing the material web through a press nip and supporting the material web substantially without free draw.

Full Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The invention relates to a method and device for the application of a liquid medium onto a material web, and, more particularly, to a method and device for the application of liquid through viscid mediums onto a pre-dried material web. 
     2. Description of the Related Art 
     In the direct application process a liquid or viscid medium is applied directly by an applicator device to the surface of a moving material web, which is supported during the application process by a rotating support surface, such as a backing roll or a continuous belt. The liquid or viscid medium is initially applied to a carrier surface, such as the surface of a roll serving as an applicator roll, or the surface of one side of a flexible belt, and is transferred therefrom to the material web. 
     Indirect application is normally accomplished by a so-called film press implemented by two rolls, which together form a nip, and which transfer the medium successively or simultaneously to both sides of the material web or to only one side of the web. 
     Reference is made to U.S. Pat. No. 5,683,509 which discloses a flexible continuous belt, together with a transfer roll, which form the press nip through which the web travels. A press shoe is located on the inside of the continuous belt, thereby extending the nip and pressing the coating medium, that is applied by this unit, into the web. This improves the coating result, specifically by avoiding film splitting. 
     Reference is also made to DE 198 23 739 A1, according to which, a material web is coated in the wet section or immediately following the wet section, of a paper machine. 
     Film or size presses have been in operation for years. They have some significant disadvantages when utilized with today&#39;s high-speed machines, and depending upon the type of fiber web and coating medium, they do not always provide sufficient coating quality. 
     The raw material quality of paper or cardboard is continuously degrading. This is particularly true of the production of corrugated board base paper, which is largely manufactured from recovered paper. There is also an ever increasing demand for a lower mass per unit area (also referred to as basis weight). The result of using poor raw material quality and lower basis weight is that the tensile strength of the web, following the film press coating application, is very low, resulting in frequent web breaks after the coating of the web. This results in enormous production down times and associated high costs. 
     Film Presses, variously known as Speedsizer, Speedcoater, Optisizer or metering size press, frequently cause nip flattening and crushing in the nip. These effects are particularly negative in corrugated board production. 
     In the field, web breaks, particularly in the production of corrugated board base paper, are reduced by using modified starches, that have a low viscosity and a high solids content, as a coating medium. The low viscosity provides effective penetration and the high solids content produce low remoistening, thereby rendering possible only a low drop in tensile strength following the film press. However, modified starches are more expensive as compared to crystal starches. 
     Even these measures do not always lead to satisfactory results. 
     SUMMARY OF THE INVENTION 
     The present invention provides a method and a device for the production of corrugated board base paper, whereby a deep penetration of coating medium containing starch into the material web, independent of the basis weight, and by utilizing the starch characteristics, is accomplished and web breaks are largely avoided. 
     The inventors recognized that the hitherto used starches, whose viscosity and solids contents were modified, produced only an insignificant increase in strength of the coated and impregnated material web, as compared to crystal starches. 
     The positive effects of the starch in the coating medium increase since the pre-dried corrugated board base paper web travels through a press nip only after coating, and because the web is dried a considerable distance after the nip, essentially the distance to the first dryer cylinder, being supported without free draw. 
     An advantage of the present invention is that a penetration through to the “sheet center” can be achieved, even at low basis weights, resulting in an increase of the web&#39;s tensile strength. 
     Another advantage is that it is now possible to use crystal starches in spite of intensive remoistening. Crushing during corrugated board base paper production is reliably avoided. 
     A further advantage of the present invention is that fewer web breaks occur following the coating process. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein: 
         FIG. 1  is a schematic side view of one embodiment of a device for the one or two sided application of a liquid through viscid mediums onto a pre-dried material web of the present invention; and 
         FIG. 2  is a schematic side view of a second embodiment of the present invention. 
     
    
    
     Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate one preferred embodiment of the invention, in one form, and such exemplifications are not to be construed as limiting the scope of the invention in any manner. 
     DETAILED DESCRIPTION OF THE INVENTION 
     Referring now to the drawings, and more particularly to  FIG. 1 , there is illustrated a pre-dried corrugated board base paper web B that has a dry content of approximately 85 to 95%, following a last dryer cylinder  2  of pre-dryer group  3 , in a machine for the production of corrugated board base paper, running onto a first applicator roll  4 . Applicator roll  4  has an applicator device  5  assigned to it, with which web B is coated on it&#39;s top side B o . All known coating devices, such as a Short Dwell Time Applicator (SDTA), Long Dwell-Time Applicator (LDTA), open jet nozzle applicators or a curtain coating nozzles are suitable. A pre-penetration of the coating medium is achieved with this one- or two-sided application. 
     In order to support web B, a transfer belt, that is a flexible continuous synthetic or rubber belt, is routed around additional roll  16 , a support or backing roll  7  and around several guide or turning rollers  8 . A tension roll  21 , which is located on the paper machine floor PM B , reacts on belt  6  from the outside, thereby tensioning it. 
     Whereas a two-sided application is illustrated, applicator  5   a  is assigned to support roller  7 . The coating medium is transferred from continuous belt  6  to underside B U  of web B, as soon as belt  6  makes contact with web B. The application by applicators  5  and  5   a  may occur simultaneously, or successively in an offset time sequence. If only a one-sided application is to occur, on either the topside or the underside of the web, one of the idle applicator devices are pivoted down. As can be seen in  FIG. 1 , rolls  4  and  7  together do not form a press nip. This is intentional, so that no crushing of the web is caused and no web breaks occur. 
     The embodiment illustrated in  FIG. 1 , includes a long pre-penetration segment P g,  that ought to be considerably longer than 100 mm, thereby providing good penetration due to the capillary effect during the extended reaction time. This long distance is particularly advantageous in achieving the desired through-penetration. 
     Now additionally referring to  FIG. 2 , which essentially uses the identical references for the identical components as  FIG. 1 , there is shown another embodiment of the invention. In this embodiment there is no roll  4 ; only applicator device  5  is present for direct application of coating onto the topside of web B o . Alternatively, an additional continuous belt, in place of the roll  4 , may be utilized with which web B is supported, and indirect coating of the material web is achieved. 
     After passing penetration segment P g  web B runs together with belt  6 , which can be used as an applicator and support belt, through press zone  9 . Press zone  9  may be realized in various ways. In order to allow a long dwell time and avoid crushing, as well as to be able to adjust variable line pressures across the entire width of web B, a shoe press is utilized. In press zone  9  the pre-penetrated starch can after-penetrate, thereby anchoring itself solidly in web B. 
     Alternatively, press zone  9  may include an additional flexible continuous belt  10  running over guide rollers  11 ,  12  and  13 . Belt  10  runs with it&#39;s inside surface over a slide face of press shoe  14 , whereby the slide face, together with roll  15 , which could for example be a suction roll, forms a press nip N. Press shoe  14  is shown in only as a simplified depiction and may extend over a large area of belt  10 . Press zone  9  can also include rolls  15  and  16  which form a press nip N. In  FIGS. 1 and 2 , roll  15  is illustrated in a dash-dot configuration and embodies a so-called flexonip roll. This construction is already known from DE 198 20 516 A1, which is incorporated herein and made a part hereof, however there are no statements therein regarding supporting of the web after squeezing in the coating. 
     Roll  15  is one of those rolls, around which continuous belt  6  travels, forming the aforementioned backing surface to roll  16  and/or the belt acting as a press, support or applicator belt  10 . Continuous belt  10 , as well as continuous belt  6 , each form a support surface therebetween for web B that is penetrated through after Nip N. Support surface S F  extends essentially to first dryer cylinder  18 , in the following dryer section  19 , of the paper machine. 
     As indicated by the dashed lines, in  FIG. 2 , continuous belt  10  can be extended, to a desired extent, by adjustment of guide roller  13 . Likewise belt  6  can also extend its support surface, to a desired extent, by adjusting upper guide roller  8 . As is also shown in  FIG. 2 , an extended support surface provides for a blow box, suction roll or suction box  20 , or for another type of transfer aid, to facilitate transfer of web B, or of a transfer strip, to dryer cylinder  18 . 
     In  FIG. 1  the possibility of supporting web B in the direction of the location of application is shown as a dotted line. For this purpose belt  10 , or a separate belt  10   a , is routed around roll  4 , or around an adequately positioned guide roller. Belt  10   a  may also be additionally supported by roll  11 . Alternatively, continuous belt  10   a  can replace roll  4 , thereby providing the aforementioned support of web B, as well as indirect coating, at the same location as is being done with roll  4 . 
     Belts  6  and  10  are equipped with a drive and rolls  4 ,  7  and  15  are driven. Relative to belt  6  this drive is located at nip N, in order to ensure sufficient pull of web B. In addition, tensioning devices, such as tensioning roller  21  and tension control devices, for the belts are provided, as well as belt adjustments which are indicated by double arrows at guide rolls  8  and  13 . 
     In order to facilitate a flawless transfer of web B to dryer section  19 , a suction roll  22 , with or without foil  23 , is provided after press zone  9  or continuous belt  10 . This arrangement allows for a transfer of the web without ropes. 
     For the sake of completeness it must be mentioned that in order to facilitate a flawless transfer of web B, one or more showers (not depicted in the drawings) are provided prior to the point where belt  6  runs onto applicator roll  4 . These provide a targeted liquid application onto belt  6  or web B, in order to ensure adhesion of the transfer strip or web B. In order to avoid lifting of web B at press roll  16 , additional support belts, so-called fibron belts or other known transfer aids, can be provided. The paper machine section illustrated in  FIGS. 1 and 2  is essentially consistent with a “closed transfer” into dryer section  19 . 
     It is also feasible to include an additional applicator device  5   c  to continuous belt  10 , thereby providing for a double application onto topside B o  of web B. This may occur with or without intermediate drying. Additional support belts  10   a  . . .  10   n  or  6   a  . . .  6   n , on one or both sides of web B, may be provided, which have associated applicator devices  5   a  . . .  5   n , being of the same type or acting independently from each other. An advantage of this type of arrangement is that only a fraction of the starch is applied by each applicator device. This reduces the re-moistening of web B immediately after the application. Web B does not loose consistency, thereby increasing runability. 
     Overall, it has been determined in tests that the consistency gain of the paper and cardboard web is not approximately 20N/% starch as was the case previously, but 40N/% starch. This means that, while maintaining the same quality the starch amount can be reduced by 30%. Alternatively the quality is increased when the same amount of starch is used. This is especially important considering the drop in quality of raw materials used in the production of corrugated board base paper. 
     Furthermore crystal starches can now also be used. 
     While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefor intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.

Technology Classification (CPC): 3