瑞典专利SE0900191A1 Process for making paper or cardboard

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专利摘要:
A headbox is provided that comprises at least one first inlet channel adapted to receive furnish comprising fibres, at least one turbulence generator connected to the first inlet channel, a second inlet channel adapted to receive a non-fibrous high consistency composition, and a sliced cone connected to the turbulence generator and the second inlet channel. The first inlet channel and the turbulence generator are arranged so that the furnish is passed through the first inlet channel and further to the turbulence generator and thereafter to the sliced cone. The second inlet channel is arranged so that the non-fibrous high consistency composition is passed through the second inlet channel and directly to the sliced cone bypassing the turbulence generator.
公开号:SE0900191A1
申请号:SE0900191
申请日:2009-02-16
公开日:2010-08-17
发明作者:Jan-Erik Nordstroem
申请人:Stora Enso Ab；
IPC主号:

专利说明:

Reduce the amount of raw material and thus also the cost. In the manufacture of board, there is an ongoing development of manufacturing a board with a high bulk and thus a reduced amount of raw material without reducing the strength and thickness of the board in order to maintain the rigidity of the board produced.
However, there is a need for an improved process for manufacturing a paper or board product that reduces production cost by reducing both the energy requirement and the raw material content.
SUMMARY OF THE INVENTION An object of the present invention is to provide a process for producing a paper or board product in an energy efficient manner.
Another object of the present invention is to manufacture a paper or board product at a reduced cost.
These objects and other advantages are obtained by the process according to claim 1.
By adding a high-consistency non-fibrous composition to the headbox in the manufacture of a paper or board product, it is possible to both reduce the drying need of the manufactured product and affect the raw material content and thus also the production cost. This is achieved by the independent requirements. Preferred embodiments of the process are defined in the dependent claims.
The invention relates to a process for manufacturing a multilayer paper or board product, the process comprising providing a first headbox with a stock containing fibers forming at least one layer of paper or board product, providing the first headbox with a non-fibrous composition with high consistency forming at least one further layer of the paper or board product, that the layers are passed on at least one wire and form a multilayer web which is dewatered and dried to form the paper or board product.
The high consistency non-fibrous composition may have a dry content of 5-70% by weight, preferably 10-40% by weight. The high dry content of this layer increases the total dry content of the multilayer web, which reduces the need for dewatering in forming and pressing portions and provides facilitated and faster drying.
The paper or board product may consist of 10-80% by weight of the non-fibrous composition. In this way, the drying efficiency increases and the cost decreases.
The non-fibrous composition may be a coating batter. In this way it is possible to add a coating batter already in the headbox which both increases the dry content of the formed fibrous web and also improves the opacity and printability of the formed paper or board product.
The multilayer web preferably has a dry content exceeding 1.5% by weight when applied to the wire before dewatering, i.e. on the forming portion. This is higher compared to fiber webs described in the prior art, which means that the drying need of the fiber web according to the invention has been reduced.
The paper or board product preferably consists of at least three layers and it is most preferred that the layer of the high consistency non-fibrous composition form the middle layer of the paper or board product. Even more preferably, the outer layers are fibrous layers and the middle layers are a non-fibrous high consistency layer, preferably a coating layer. In this way, the formed paper or board product will have improved or maintained quality with reduced amount of raw material and / or cost.
The process may further comprise providing a second headbox with a stock containing at least one additional layer of paper or board, the second headbox being provided with a high consistency non-fibrous composition forming at least one further layer of paper or board, and that the layers are passed on at least one wire and form a multilayer web which is dewatered and dried to form the paper or board product. It is common, for example in the manufacture of multilayer board products, to use more than one headbox.
The invention further relates to a paper or board product manufactured according to the process described above. The invention also relates to a headbox for use in the process described above wherein the headbox is a multilayer headbox comprising at least a first and a second inlet pipe, at least one turbulence generator and an outlet chamber, the first headbox and the at least one turbulence box being adapted to receive a stock containing fibers and wherein the first inlet pipe and the turbulence generator are adapted so that the stock passes through the first inlet pipe and further to the turbulence generator and then to the outlet chamber, and wherein the second inlet pipe is adapted to receive a non-fibrous composition of high consistency and wherein the second inlet tube is adapted so that the high consistency non-fibrous composition passes through the second inlet tube and directly on to the outlet chamber. the headbox preferably comprises three inlet pipes, two being adapted to receive stock and one adapted to receive a non-fibrous composition of high consistency. In this way, a paper or board product is made with three layers, one layer of the product being a non-fibrous high-consistency layer and two layers being fibrous layers.
It is preferred that the inlet tubes adapted to receive stock feed the stock to at least one turbulence generator and the inlet tube adapted to receive the high consistency non-fibrous composition feed the high consistency non-fibrous composition directly to the outlet chamber. In order to obtain a good formation of the fibrous layer, it is necessary to have a turbulence generator which prevents the fibers from flocculating.
The high consistency layer contains no fibers and thus it may not be necessary to have a turbulence generator to obtain a homogeneous layer. consequently, the headbox can be made smaller due to the lack of turbulence generator for the high consistency layer. Thus, the high consistency non-fibrous composition can be passed from the headbox directly to the outlet chamber without passing a turbulence generator. Brief Description of the Drawings The present invention will, by way of example, be described in more detail with reference to the accompanying schematic drawings, which show a preferred embodiment of the invention.
Fig. 1 shows a headbox according to the invention.
Detailed description The invention describes a completely new process which results in a new type of paper or board product. The process reduces both the energy requirement and the raw material content, ie the fiber requirement of the manufactured product.
The invention also gives existing paper or board machines the potential to increase production capacity, ie no major modifications to the paper or board machine are necessary to manufacture this high quality product.
The high consistency non-fibrous composition preferably has a dry content of about 5-70% by weight, preferably 10-40% by weight or even more preferably 25-40% by weight. Higher dry matter content reduces the amount of water that needs to be removed from the formed paper or board product. The optimum dry matter content depends on the construction of the forming section, on the properties of the composition and on the capacity of the pumps which carry the composition to the headbox and further on the wire (s). Due to the high consistency of the non-fibrous composition, the resulting multilayer product has a higher consistency in manufacture compared to multilayer fiber products made according to the prior art.
The high consistency non-fibrous composition preferably contains no fibers. However, small amounts of fiber or fine material from fibers may be present. The composition contains water which has been dewatered from the forming process which has been partially or completely reused and fragments of fibers or fines from fibers may also be present. However, the major part of the composition, i.e. more than 90% by weight and preferably more, 97% by weight is non-fibrous composition.
In addition, by adding a high-consistency non-fibrous composition already in the headbox, it is possible to increase the total content of non-fibrous composition in the paper or board product and thus also to reduce the fiber content. The content of high consistency non-fibrous composition may be 10- 80%, preferably 30-60% by weight of the total content of the manufactured paper or board product. In this way, the need for drying decreases when more energy is required to dry fibers compared to, for example, fillers or coating paste, which are two examples of non-fibrous composition with high consistency. In addition, the cost is reduced both by reducing the need for drying and by the fact that most non-fragile compositions with high consistency are much cheaper compared to fibers.
According to the invention, the water content in the headbox is minimized. The at least one fiber layer has a consistency of 0.1-5% by weight, preferably between 0.2-2% by weight or even more preferably 1-1.4% by weight. The consistency of the fibers is chosen so that the best formation of the fiber layer is obtained. Commonly used dilution techniques can be used to better control the transverse profiles in any or all of the formed layers.
The high consistency non-fibrous composition is preferably a coating batter. The invention thus combines the forming portion with the coating portion by adding the coating layer to the headbox of the paper or board machine.
The coating layer increases the quality of the paper or board product, such as printability and opacity. It is also possible to make a smooth coating layer from a coating coating with high consistency, at high speed.
The coating batter may be a composition with a particular predetermined recipe containing inorganic or organic pigments, binders and, if necessary, additional additives. Common pigments that can be used are clay (kaolin), calcium carbonate, titanium dioxide, talc, calcium sulphate (gypsum) and grains of starch or other organic pigments.
The binder is added to bind the pigments together and may be, for example, starch, carboxymethylcellulose (CMC) or a synthetic binder such as latex, for example styrene-butadiene latex or acrylic copolymer latex.
Other additives may be, for example, wet strength agents, surfactants or dispersants. The pigments, binders or other additives are selected depending on the desired properties of the manufactured paper or paperboard product. The coating batter may also contain small amounts of fibers or fines from fibers which come mainly from dewatered recycled water from forming or pressing, ie from the short or long circulation of the paper or board mask.
The paper or board product according to the invention may have the coating layer as the surface layer and the coating layers may be printed in the usual manner. The coating layer can also be surrounded by at least two fibrous layers, i.e. at least one fibrous layer on each side of the coating layer.
The printability of the paper or board product is still improved due to the presence of coating layers between the fibrous layers, for example reducing problems with bleeding or transparency of the paper or board product.
In addition, the opacity of the paper or board product is improved, i.e. it increases as the coating batter consists of pigments which diffract light more efficiently than fibers and thus prevents transparency of the paper or board product.
The high consistency non-fibrous composition may also be a homogeneous polymer solution which may form a barrier so that a layer impermeable to liquids, gases etc. is formed in or on the formed paper or board product.
The formed paper or board product may also have reduced the need for raw materials. In normal cases, fillers are added to the stock, which makes it possible to reduce the amount of raw material. However, the filler is mixed with the fibers and it is not possible to increase the dry content of a mixture with fiber / filler in the headbox as it will not be possible to manufacture a smooth paper or board product. This is due to the fact that fibers at high dry contents tend to flocculate and thus give an uneven sheet structure. The manufactured paper or board according to the invention has both reduced the need for dewatering and reduced raw material content and the non-fibrous content of the paper or board is thus increased. The non-fibrous content of the manufactured paper or board product can, as mentioned earlier, be increased and preferred values are about 35% by weight or more, preferably 50% by weight or more of the total content of the product. The paper or board product made according to the invention will be a completely new type with a high amount of high consistency non-fibrous composition, for example coating paste, within the product and thus the product will have retained or better properties, even at lower basis weights.
The manufactured paper or board product will also have other improved properties as different layers can be added within the sheet to improve different properties. In this way, it is possible to manufacture a paper or board product with completely new properties. Examples of high-consistency non-fibrous composition may, in addition to coating paste, also be polymers or materials which can be seen as odor-taste motivating, i.e. increase or decrease the odor or taste properties of a product enclosed or packaged within this paper or board. or materials that give a specific authenticity to the manufactured product in order to enable tracing of the product and ensure that it is genuine.
The fiber-containing stock and the high-consistency non-fibrous composition flow separately through an inlet box onto a wire to form a multilayer web. The formation of the web, i.e. the distribution of the fibers is controlled and regulated and the web is dewatered to a consistency exceeding 1.5% by weight, preferably exceeding 1.6% by weight but consistencies as high as 10% by weight may be possible. However, the normal consistency is 1.6% by weight, which is characteristic when the web contains fibers (60%) with a consistency of 1% and fillers (40%) with a consistency of 20%. The web is then dewatered further in the press section and the web obtains a dry content of approximately 50-60% by weight before it enters the drying section. Conventionally used dilution techniques can be used to better control the transverse profile in any or all of the formed layers.
The dry content increased at an early stage means that the drying section can be shortened and / or the temperature of the drying cylinders can be reduced and / or the production capacity, ie the machine speed can be increased. The dry content of the finished paper or board product is about 85-99%. The fiber web can be dried using conventional drying techniques. The web is often dried by hot cylinders with which the web is in contact. Normally cylinders heated by steam are used to dry the wet web, but gas or electrically fired, infrared or induction heating can also be used.
In addition, the web can be dried using new drying techniques such as impingement drying, impulse drying or other drying techniques performed with very hot surfaces. On-line calendering would also reduce the need for off-line calendering as a smooth surface may have been obtained already after drying.
The paper or board product produced contains at least two layers. One layer contains fibers and one layer contains a non-fibrous composition with high consistency. The product may also contain three, four, five, six or additional layers. The product may consist of more than one fibrous layer of the same or different composition and a layer of non-fibrous composition of high consistency. The product may also consist of more than one layer of high consistency non-fibrous composition having the same or different composition and one fibrous layer. The high consistency non-fibrous composition layers can either be placed on top of each other or the high consistency non-fibrous composition layer can be placed between the fiber layers. In the same way, the fibrous layers can either be placed on top of each other or they can be between the layers of non-fibrous composition with high consistency.
If necessary, at least one additional coating layer can be applied to the surface of the manufactured paper or board product before or after the drying section. This coating layer can be applied by means of any conventional known technique to further improve the surface properties and in particular the printability of the manufactured paper or board product.
A major advantage of the present invention is that no major changes to the equipment are required. The paper or cardboard machine can be used with only a few modifications to the headbox. The paper or board machine must, of course, be run differently due to the reduced need for drying and due to the changed properties of the manufactured paper or board product. An example of a headbox (1) according to the invention can be seen in figure 1.
Stock is fed to the headbox (1) through two lines (2, 4) which pass the stock on to two inlet pipes (5, 7). These inlet pipes (5, 7) are the outer inlet pipes of the headbox (1). The stock is then fed to two turbulence generators (8, 9) and then to an outlet chamber (10). A coating batter is passed to the headbox (1) through a conduit (3) and further to an inlet pipe (6) which is located in the middle of the headbox (1).
The coating batter is then fed directly to the outlet chamber (10). The headbox can be of any type of headbox for the manufacture of multilayer products. Other embodiments and variations than those described above are possible within the scope of the invention as defined in the independent claims. For example, more than one headbox can be used.
When a second headbox is provided with stock containing fibers forming at least one additional layer and providing the second headbox with a high consistency non-fibrous composition forming at least one additional layer, a paper or board product having at least two fiber layers and at least two layers of non-fibrous -fibrous high-consistency composition is formed. Even when the invention is directed towards the manufacture of paper or cardboard, it should be mentioned that it may be possible to manufacture other products such as gypsum boards or MDFs (medium density fiberboard) or similar building materials with new constructions and properties (eg waterproof, gasproof or fireproof cardboard). , or various bases for composite materials for pressed molds in the polymer industry, for example to replace ordinary polymers originating from the petrochemical industry, such as polyvinyl chloride (PV) and LDPE / HDPE (low / high density polyethylene) which are currently used as raw materials in molded products.

权利要求:
Claims (11)
[1]
A process for manufacturing a multilayer paper or board product, the process comprising: - providing a first headbox with a stock containing fibers forming at least one layer of paper or board product, - providing the first headbox with a non-fibrous composition with a dry content of 5-70% by weight, which forms at least one further layer of the paper or board product and that the layers are passed to at least one wire and form a multilayer web which is dewatered and dried to form the paper or board product.
[2]
The process according to claim 1, characterized in that the paper or board product consists of 10-80% by weight of the non-fibrous composition.
[3]
The process according to any one of the preceding claims, characterized in that the non-fibrous composition is a coating batter.
[4]
The process according to any one of the preceding claims, characterized in that the multilayer web, before dewatering, has a dry content exceeding 1.5% by weight.
[5]
The process according to any one of the preceding claims, characterized in that the paper or board product consists of three layers.
[6]
The process according to claim 5, characterized in that the high-consistency non-fibrous layer forms the middle layer of the paper or board product, preferably between at least two fibrous layers.
[7]
The process according to any one of the preceding claims, characterized in that the process further comprises; - that a second headbox is provided with a stock containing fibers forming at least one further layer of the paper or board product, the layers are passed on at least one wire and form a multilayer web which is dewatered and dried to form the paper or board product. 10 15 20 25 12
[8]
A paper or board product made according to any one of claims 1-7.
[9]
A headbox for use in the process according to any one of claims 1 to 7, wherein the headbox is a multilayer headbox comprising at least a first and a second inlet pipe, at least one turbulence generator and an outlet chamber, the first headbox and the at least one turbulence generator being adapted to and containing the first inlet pipe and the turbulence generator adapted so that the stock passes through the first inlet pipe and further to the turbulence generator and then to the outlet chamber, and wherein the second inlet pipe is adapted to receive a high consistency non-fibrous composition and wherein the second the inlet pipe is adapted so that the high-consistency non-fibrous composition passes through the second inlet pipe and directly on to the outlet chamber without being subjected to any turbulence.
[10]
The headbox according to claim 9, characterized in that the headbox comprises three inlet pipes, two being adapted to receive stock and one being adapted to receive a non-fragile composition of high consistency.
[11]
The inlet box according to claim 10, characterized in that the inlet tubes adapted to receive stock feed the stock to at least one turbulence generator and the inlet tube adapted to receive the high consistency non-fibrous composition feeds the high consistency non-fibrous composition directly to the outlet chamber. without being subjected to any turbulence.

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同族专利:

公开号 | 公开日

RU2011138001A|2013-03-27|

RU2524893C2|2014-08-10|

US8512517B2|2013-08-20|

AU2010214121A1|2011-07-28|

JP2012518101A|2012-08-09|

CL2011001774A1|2012-03-23|

BRPI1008236A2|2016-03-08|

SE534151C2|2011-05-10|

BRPI1008236B1|2019-06-04|

WO2010093311A1|2010-08-19|

EP2396467A1|2011-12-21|

US20130299113A1|2013-11-14|

AU2010214121B2|2013-03-28|

ES2478440T3|2014-07-22|

CN102317539A|2012-01-11|

US20110297342A1|2011-12-08|

PL2396467T3|2014-09-30|

CN102317539B|2014-02-12|

NZ594091A|2013-12-20|

EP2396467A4|2012-07-25|

EP2396467B1|2014-04-09|

CA2749652A1|2010-08-19|

ZA201104707B|2012-09-26|

JP5559209B2|2014-07-23|

引用文献:

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SE534151C2|2009-02-16|2011-05-10|Stora Enso Ab|Process for making paper or cardboard|SE534151C2|2009-02-16|2011-05-10|Stora Enso Ab|Process for making paper or cardboard|

WO2016035313A1|2014-09-05|2016-03-10|セイコーエプソン株式会社|Sheet manufacturing device and sheet manufacturing method|

SE540323C2|2014-12-19|2018-06-19|Stora Enso Oyj|Method of applying liquid suspension containing microfibrillated cellulose onto a surface to form wallpaper material|

JP6573922B2|2017-02-03|2019-09-11|コアレックス信栄株式会社|Paper roll production equipment|

US10464846B2|2017-08-17|2019-11-05|Usg Interiors, Llc|Method for production of acoustical panels|

US11035078B2|2018-03-07|2021-06-15|Gpcp Ip Holdings Llc|Low lint multi-ply paper products having a first stratified base sheet and a second stratified base sheet|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE0900191A|SE534151C2|2009-02-16|2009-02-16|Process for making paper or cardboard|SE0900191A| SE534151C2|2009-02-16|2009-02-16|Process for making paper or cardboard|

JP2011550090A| JP5559209B2|2009-02-16|2010-01-29|Paper or paperboard manufacturing method|

PCT/SE2010/050096| WO2010093311A1|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

EP10741474.0A| EP2396467B1|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

US13/144,025| US8512517B2|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

RU2011138001/12A| RU2524893C2|2009-02-16|2010-01-29|Method of production of paper or cardboard|

AU2010214121A| AU2010214121B2|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

CN201080007158.1A| CN102317539B|2009-02-16|2010-01-29|Process for production of multilayer paper or paperboard product and headbox|

NZ594091A| NZ594091A|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

ES10741474.0T| ES2478440T3|2009-02-16|2010-01-29|Process for the production of paper or cardboard|

CA2749652A| CA2749652A1|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

PL10741474T| PL2396467T3|2009-02-16|2010-01-29|Process for the production of paper or paperboard|

ZA2011/04707A| ZA201104707B|2009-02-16|2011-06-24|Process for the production of paper or paperboard|

CL2011001774A| CL2011001774A1|2009-02-16|2011-07-21|Process for producing a multilayer paper / cardboard product comprising a first forming box with fiber supply and a composition of high non-fibrous consistency and dry content of 5-70% by weight, driving the supply in a turbulence generator and the composition In a duct that avoids the turbulence generator, conduct the layers on a rack, dehydrate and dry.|

US13/942,173| US20130299113A1|2009-02-16|2013-07-15|Headbox for the production of paper or paperboard|

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