DE202009003960U1 - Cooling system for cooling a painted or uncoated fiber web - Google Patents

Abstract

Cooling system (1) for cooling a coated or an uncoated fiber web, which system is associated with a metal strip (2) provided around the guide rolls (3a, 3b) for wrapping, outside which strip has at least one stop roll (5) forming a contact surface with the strip arranged between the belt (2) and the abutment roller (5) is formed a treatment area for the web, whereby the web (W) to be treated is guided, which abutment roller is provided as a cooling roller, characterized in that the cooling roller ( 5) is provided in contact with the guide roller (3a) of the belt.

Description

Of the The present invention is a cooling system for cooling a painted or unpainted Fiber web, which cooling system to the guide rollers for Enveloping provided metal band is assigned, outside which band at least one with the band a contact surface forming stop roller is provided so that between the belt and the stopper roll is a treatment area for the web is formed, through which the web to be treated is passed, which stop roller is formed as a cooling roller.

There are many different types of paper and board, and they can be divided into two classes according to basis weight: papers that are reasonable and whose weight per unit area is 25-300 g / m ² , and cartons made with the multi-layer technique and their grammage 120 -600 g / m ² . As you can see, the border between paper and cardboard is fluid, because their grammage makes the lightest boxes lighter than the heaviest papers. Usually, the paper is used for printing and carton for packaging.

The following representations are examples of values of fiber webs used today and in which significant deviations from the stated values can occur. The presentation is mainly based on Papermaking Science and Technology Papermaking Part 3, Finishing, Editor Jokio, M., eds. By Fapet Oy, Jyväskylä 1999, 361 p ,

To the so obtained from the mechanical mass so holzhältigen Printing papers include newspaper, uncoated magazine and coated magazine paper.

The newsprint consists either entirely of the mechanical mass or it may contain a little bleached conifer (0-15%) and / or mechanical mass may be replaced by secondary fiber. As general values for the newsprint, the following values can be considered: basis weight 40-48.8 g / m ² , ash content (SCALA-P 5:63) 0-20%, PPS s10 roughness (SCALA-P 76-95) 3.0-4.5 μm, Bendtsen roughness (SCAN-P21: 67) 100-200 ml / min, density 600-750 kg / m ³ , brightness ( ISO 2470: 1999 ) 57-63% and opacity ( ISO 2470: 1998 ) 90-96%.

In uncoated magazine paper (SC = supercalendered) there is usually 50-70% mechanical mass, 10-25% bleached conifer pulp and 15-30% fillers. Typical values for the calendered SC paper (including, but not limited to, SC-C, SC-B and SC-A / A +) are basis weight 40-60 g / m ² , ash content (SCALA-P 5:63) 0-35%, Hunter Shine ( ISO / DIS 8254/1 ) <20-50%, PPS s10 roughness (SCALA-P 76:95) 1.0-2.5 μm, density 700-1250 kg / m ³ , brightness ( ISO 2470: 1999 ) 62-70% and opacity ( ISO 2470: 1998 ) 90-95%.

The coated magazine paper (LWC = light weight coated) contains mechanical mass 40-60%, bleached softwood pulp 25-40% and filling and coating 20-35%. The following values can be regarded as general values for LWC papers: basis weight 40-70 g / m ² , Hunter gloss 50-65%, PPS S10 roughness 0.8-1.5 μm (offset) and 0.6-1.0 μm (roto), Density 1100-1250 kg / m ³ , brightness 70-75% and opacity 89-94%.

The general values for MFC (machine-finished coated) paper are as follows: basis weight 50-70 g / m ² , Hunter gloss 25-70%, PPS S10 roughness 2.2-2.8 μm, density 900-950 kg / m ³ , brightness 70-75% and opacity 91-95%.

The following values can be considered as general values for film coated offset (FCO) paper: Basis weight 40-70 g / m ² , Hunter gloss 45-55%, PPS S10 roughness 1.5-2.0 μm, density 1000-1050 kg / m ³ , brightness 70-75% and opacity 91-95%.

As general values for medium weight coated (MWC) paper, the following values can be considered: Basis weight 70-90 g / m ² , Hunter gloss 65-75%, PPS S10 roughness 0.6-1.0 μm, density 1150-1250 kg / m ³ , brightness 70-75% and opacity 89-94%.

HWC (heavy weight coated) has a basis weight of 100-135 g / m ² and it can even be painted more than twice.

Out wood-free printing papers produced in the pulp, ie fine papers are uncoated and coated pulp-containing printing papers, where the proportion of the mechanical mass is below 10%.

The uncoated pulp-containing printing papers (WFU) contain bleached birch pulp 55-80%, bleached conifer pulp 0-30% and fillers 10-30%. In the WFU, the values vary widely: basis weight 50-90 g / m ² (even 240 g / m ² ), Bendtsen roughness 250-400 ml / min, brightness 86-92% and opacity 83-98%.

For the coated pulp-containing printing papers (WFC), the coating rates vary greatly according to the requirements and intended use. The following are typical values for once and twice coated pulp-containing printing paper: once coated basis weight 90 g / m ² , Hunter gloss 65-80%, PPS S10 roughness 0.75-2.2 μm, brightness 80-88% and opacity 91-94% and twice coated basis weight 130g / m ² , g / m ^2, Hunter gloss 70-80%, PPS S10 roughness 0.65-0.95μm, brightness 83-90% and opacity 95-97%.

Upon release paper (release paper) is varied, the basis weight between 25-150 g / m ^2.

other Papers are u. a. Packing papers (sack force), tissue papers (tissue) and wallpaper papers (wallpaper).

The cartons form a very heterogeneous group containing from their basis weight ago high grades whose basis weight can be even 600 g / m ² and their basis weight ago low grades whose basis weight is about 120 g / m ² , the varieties can be from the primary fiber-containing even up to 100% recycling fiber-containing and ranging from uncoated to multi-coated varieties. In the following, the carton types are divided into the coated and the uncoated grades because the deletion has the strongest effect on the calendering process. For the coated grades, both pre-calendering prior to the coater and final calendering after the coater are used. For the uncoated varieties, only the final calendering is carried out. These two groups contain several different types of cardboard as follows:

Coated cardboard:

• - Primary fiber containing (carton box (FBB = folding boxboard), bleached pulp board (SBS = solid bleached board), liquid packaging box (LPD = liquid packaging board), painted surface layer with white Surface (coated white top liner, carrier board)
• - recycled fiber content (gray cardboard with white surface (WLC = White lined chipboard), coated recycled cardboard.

Uncoated cardboard:

• - primary fiber content (Kraftlainer, White top liner, liquid packaging)
• - recycled fiber content (testlainer).

Especially on fine paper and cardboard is an effective cooling solution necessary. The web must be cooled before rolling up, so that problems such. B. yellowing of the paper and stripes, which due to too high a reeling temperature are, can be avoided.

today it is problematic, especially with fast machines a sufficient to create effective cooling. So the objective of the present invention to find a solution, whereby a more effective cooling in a metal band exploiting Cooling system is manufactured. To achieve this goal, is for the cooling system according to the invention characterizing that the cooling roll in contact with the guide roll of the band is arranged.

The Heat transfer from a metal plate into the paper as a function of the pressing pressure is pressing with the help of a sheet press Sample has been examined. It was found that the heat transfer coefficient between the paper and the metal surface considerably increases when increasing the contact pressure, z. From the value 0.2 MPa to the value 0.5 MPa. The increase of the heat transfer coefficient varied between 40-100% depending on the variety. For machines that meet the production standards Correspondingly, increasing the pressure is over the value 0,2 MPa by means of belt tension very difficult. The inventive Solution allows the production of an effective Contact between the track and the cooling surfaces and the insulating air layer can be effectively eliminated.

in the The invention will be described below with reference to the accompanying drawings explained, whose only image as a schematic diagram of principle an embodiment of the invention Cooling system represents.

The plant is one around the guide rollers 3a . 3b provided for wrapping metal strip 2 assigned. Outside the belt, at least one stop roller forming a contact surface with the belt is provided 5 so arranged that between the band 2 and the stopper roll 5 a treatment area for the web W is formed, through which the web to be treated is guided. The stop roller 5 is formed as a cooling roll or it may have the temperature of the environment, which is lower than the temperature of the web to be cooled. The chill roll 5 is in contact with the guide roller 3a arranged the band. The guide roller of the belt may have a soft or a hard surface.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited non-patent literature

• - Papers from Science Papermaking Part 3, Finishing, Editor Jokio, M., eds. By Fapet Oy, Jyvaskyla 1999, 361 S [0003]
• - ISO 2470: 1999 [0005]
• - ISO 2470: 1998 [0005]
• - ISO / DIS 8254/1 [0006]
• - ISO 2470: 1999 [0006]
• - ISO 2470: 1998 [0006]

Claims (3)

Cooling system ( 1 ) for cooling a coated or an uncoated fiber web, which system is arranged around the guide rollers ( 3a . 3b ) provided for wrapping metal strip ( 2 ) outside which band at least one stop roller forming a contact surface with the belt ( 5 ) is arranged so that between the band ( 2 ) and the stop roller ( 5 ) a treatment area for the web is formed, whereby the web to be treated (W) is guided, which stop roller is provided as a cooling roller, characterized in that the cooling roller ( 5 ) in contact with the guide roller ( 3a ) of the tape is provided. Treatment plant according to protection claim 1, characterized in that the nip-forming guide roller ( 3a ) has a hard surface. Treatment plant according to protection claim 1, characterized in that the nip-forming guide roller ( 3a ) has a soft surface.