EP1533043A1 - Method and plant for coating wood or wooden materials - Google Patents

Abstract

The method for coating wood or wood materials, in particular, parquet floor elements (1) involves provision of such elements with a sealing layer (7), heating of the sealing layer, and pressing of the sealing layer by means of a metal belt (6) to cool and harden the layer material. An independent claim is also included for an apparatus for implementation of the proposed method.

Description

The invention relates to a method for coating of wood or wood-based materials, in particular parquet planks, with a sealant layer on the surface applied to the wood or wood-based material becomes.

The invention also relates to a device for coating of wood or wood-based materials according to the The preamble of claim 8.

A generic method and a generic Device is known from DE 102 13 330 A1.

From DE 198 06 136 C2 are planks for parquet floors known, which have at least one layer of wood, on their surface with a sealing layer is provided. The sealing layer is as a water and solvent free, with the humidity hardening reactive melt layer formed on a polyurethane basis.

From DE 198 06 136 C2 is also a method for Making such a floorboard for parquet floors known. A floorboard made in this way for parquet floors has opposite the previously known parquet floors, with a UV acrylic varnish are sealed, wherein the UV acrylic varnish applied with rollers, considerable advantages on. Planks for parquet floors with a seal using a UV acrylic paint require a high mechanical effort, with the machines used have a large space requirement.

Sealing layers of UV acrylic paint have the further the disadvantage that about two to four Requests are required to get a sufficient seal to reach the wood. Furthermore are the UV lamps needed to cure the UV acrylic varnish relatively expensive and usually have only a limited Lifespan. These factors lead to one relatively high production price for a corresponding Hallway. By the necessary procedure become also - by the solvent-based paints - pollutants free. These thus reach the environment and can in the human organism health impairments cause.

The well-known from DE 198 06 136 C2 floorboard or the specified in principle process for the preparation a hallway with a melt layer provides this represents a significant improvement.

Problematic in the method for producing a Hallway for parquet floors with a melt layer However, that is applied to the plank Melt layer adheres to the calender roll or the Glättwalze glued.

A disadvantage of the previously known planks is also that these due to the usual manufacturing by means of a grinding machine not 100% smooth Have surface. That that the smoothing roller is more exact sanded is like the plank to be processed. A optimal smoothing of the surface is due to the bumps or the fact that the hard Surface of the roller necessary for smoothing and the also hard surface of the hallway is not optimal match each other.

With regard to the described problem shows the generic Scripture, DE 102 13 330 A1, a possible Solution.

According to the generic document is provided that applied to the surface of the smoothing roll a release agent is, and the release agent from the surface the smoothing roller on the melt mass layer of planks is transferred so that by the release agent a the surface of the planks forming release layer arises. Adherence of the melt layer on the Smoothing roller and gluing the smoothing roller is thus prevented. In a preferred embodiment may be further provided that the smoothing roll a soft core and a hard, smooth surface having. This makes it possible for bumps between the surface of the smoothing roller and the passing To balance planks.

The method known from DE 102 13 330 A1 as well the device also described represents a considerable Improvement of the previously known solutions.

However, it is problematic, the release agent, which For example, silicone-containing, oily or waxy may be, again from the surface of the planks remove. In addition, it must be prevented the surface of the boards by the release agent optically is impaired.

For further prior art is further on the DE 102 13 190 A1 referenced provided in the invention is that between the calender roll and the too treated planks a silicone-containing coated Material web is arranged.

The present invention is therefore the task underlying, a method and apparatus for coating of wood or wood-based materials, in particular To create parquet planks through which the aforementioned Disadvantages of the prior art are solved, in particular in a simple and inexpensive way a sealed surface is created, the highest Quality requirements corresponds.

According to the invention, this object is achieved by that heats the sealing layer and a metal band is pressed onto the sealing layer, after which the sealing layer is cooled, wherein the metal sheet the surface of the sealing layer contacted until it is frozen.

According to the invention this object is also achieved by the characterizing part of claim 8.

Surprisingly, the inventor has found that by the inventive solution of use a release agent is unnecessary. As a result of that the sealing layer is heated and a metal band is pressed on the sealing layer, which only lifted off the sealing layer again if this happens after passing through a cooling section solidified on the surface, adheres the sealing layer not on the metal train. The use a release agent to avoid sticking is not necessary.

The inventor has determined that the surface of the sealed wood or wood-based material, in particular a quality quality of a sealed parquet board, in view of the previously known methods not feasible appeared.

Since dispensed with the use of a release agent can be, and consequently none of the release agent resulting further work steps required are, the process of the invention can be realize in a particularly simple and cost-effective manner. The inventive method is also particularly environmentally friendly, since no solvents supplied and no harmful gases are released.

It is advantageous if the sealant layer before or during the application of the metal strip in such a way is heated, that the sealing layer is soft or softened when the metal strip with this is brought into contact. In principle, it is there also possible that the sealing layer only by the pressing of the metal strip or during (if necessary also after) the pressing of the metal band heated or at least partially softened and / or is liquefied. In a simple way, this is thereby possible that the metal strip is heated accordingly and consequently the heat on the sealing layer transfers.

Due to the heating and the pressed metal band the sealing layer receives a particularly smooth Surface structure. The metal band presses the surface thus smooth. By the subsequent cooling the sealing layer while the metal sheet on this remains pressed, the surface solidifies and therefore has an absolutely smooth and even Surface on.

In a not obvious development of the invention the inventor has found that it is possible is the surface of the sealant layer and thus the surface of the wood or wood-based material one to give almost any surface structure. In this case, the pressure applied to the sealing layer Surface of the metal strip as negative pressure used, i. depending on the design of the Surface of the metal strip may be the surface of the Sealing layer, for example, matt, glossy, be formed structured or embossed. Thus is it possible the surface of the sealing layer in simple and inexpensive way a particular To give appearance.

The surface of wood or wood-based material or the surface of the sealing layer can be changed by the solution according to the invention, without the product being chemically altered.

It is advantageous if the wood or the wood material goes through a cooling zone for cooling, its cooling preferably continuously amplified becomes.

Thus, a particularly gentle cooling of the wood or wood-based material and thus also a gentle and uniform solidification of the surface of the sealing layer or the entire sealing layer reached. The length of the cooling section or the cooling area can depend on several factors. On the one hand the length depends on how fast or strong the sealing layer is cooled, on the other hand of which speed the wood or the Wood-based materials go through the cooling zone. To the Cooling process as trouble-free as possible in the entire Production process, for example a parquet board, to integrate has a length of 3 to 15 m, preferably 5 to 10 m, found to be suitable.

It is advantageous if the metal band when passing through the cooling area is cooled.

As has been shown in experiments, can be a solidification of the surface of the sealing layer in a simple way achieve that the necessary cold supplied via the resting metal track becomes. The metal web can be, for example directly via a cooling device or via a Pressure shoe to be cooled. The pressure shoe is used To do this, place the metal band at the intended pressure to press the surface of the sealant layer. Preferably, the pressure shoe is designed such that this at least approximately the same Stretch extends like the metal band, so this in each area reliably on the surface of the sealing layer is pressed.

According to the invention it is provided that the feed rate the metal web to the throughput speed of wood or wood-based material through the cooling area is adjusted.

This guarantees the smoothest possible process. In a simple way, this is the wood or the wood material with its underside on a conveyor belt applied, which passes through the cooling area. The metal band can preferably be endlessly circulating Metal band be formed, which has one on each Roller arranged at the beginning and end of the cooling section circulates. Preferably, the conveyor belt also deflected over two rollers. An approximation the speed of the metal strip at the speed The conveyor belt is easier Way by an equal dimensioning of the rollers and achieve their synchronization.

The supply of heat to the sealing layer can be realized in a simple manner thereby that the roller arranged at the beginning of the cooling section, around which the metal band revolves, is heated or through a heating element (e.g., infrared device) is heated. The thus also around this roller circulating metal strip heated, for example, to a temperature of 50 to 150 ° C, preferably 90 to 110 ° C, so that the Metal strip heats the surface of the sealing layer responds as soon as she contacts them. Due to the radiated heat, the surface of the Sealing layer even before contacting heated. Subsequently, the metal band, which inevitably moves away from the heated roller, preferably via the pressure shoe, continuously cooled. It can be provided that the metal strip at the end of the cooling section, i. if the metal band from the surface of the sealant layer is lifted to a temperature of 20 to 40 ° C, preferably 30 ° C, cooled.

In order to achieve as even heating as possible, It has proven to be advantageous if the "heated roll" by a liquid medium, preferably Oil is heated up.

The heating of the roll by a liquid medium has Beyond that, to maintain a relatively exact Temperature range of preferably 100 ° C +/- 5 ° C proved suitable.

It is advantageous if between the pressure shoe and the metal band is arranged an elastic layer, so that small bumps in the wood or wood material can be compensated. The elastic Layer can preferably be selected in such a way that the temperature exchange between the cooled Pressure piece and the metal strip or the sealing layer is not affected.

The metal strip can be used as a sheet metal strip, for example as polished, smooth sheet metal strip, from any one Material be formed. Especially suitable while the formation of the metal strip as hardened Steel band, preferably chrome plated, exposed.

Alternatively, in principle, the training a plastic band possible. This has changed, however with regard to the transfer of cooling and the occurring forces, in particular the burden of the temperature fluctuations as well as the shocks, if the Tape meets the wood or wood-based material, as only partially suitable. In principle, can However, the formation of a plastic tape in terms of the claimed metal strip considered equivalent become.

Alternatively to the embodiment of the metal strip as revolving band and that the wood or the Wood material passes through a cooling area can be provided that the metal strip, for example by means of an arrangement on a stamp on the surface the sealing layer is pressed. Previously For example, the sealant layer may be heated by heaters Infrared equipment to be heated. The feeder However, the heat can also be done by that The metal strip is heated accordingly to the surface the sealing layer is pressed. After this Can press the entire device - in the stationary Condition - be cooled until the surface of the Sealant layer is solidified and therefore the metal band again from the surface of the sealant layer can be removed. Then that can finished sealed wood or the finished sealed Removed wood material and fed to a new location become.

It has to integrate into the production process Although proved beneficial when the wood or the wood-based material passes through a cooling section and the metal band formed as a circumferential metal band is, however, are to carry out the described Process, namely heating or ironing the sealing layer, so that this through a imprinted metal strip can be smoothed, wherein the metal strip remains on the sealing layer, until it solidifies again through a cooling process is, different ways of technical realization conceivable.

Advantageous embodiments and further developments of Invention will become apparent from the further subclaims. Hereinafter, with reference to the drawing an embodiment of the invention shown in principle.

The sole figure of the drawing shows a schematic Representation of the device according to the invention or the method according to the invention.

The embodiment shows a device or a method for producing parquet boards 1, is but not limited thereto. According to the invention any wood 1 or a wood material coated become. The parquet boards 1 can be a wood or also have a cork layer, coated accordingly becomes.

Advantageous planks for parquet floors, which in principle with the device according to the invention or the invention Processes are produced are with respect their basic structure in DE 198 06 136 C2 described. The following is therefore only on the invention essential features of the device or the method according to the invention. Advantages of the boards produced afterwards have, if not listed separately - from the aforementioned document.

As can be seen from the drawing, the illustrated Device for coating parquet floorboards 1 an applicator 2, a heater 3, a cooling device 4, a pressing device 5 and a metal band 6.

The applicator 2 is used to apply a Sealing layer 7 on the surface 1a of the parquet planks 1. Such applicators 2 are Well known from the general state of the art. Advantageous applicators 2 result from DE 102 13 330 A1 and DE 102 13 190 A1, to which reference should be made in this regard.

The sealing layer is in the embodiment as melt layer 7, preferably as a reactive melt layer based on polyurethane. The melt mass layer 7 is at a temperature of preferably 130 ° C on the surface 1a the parquet boards 1 applied. After going through the applicator 2, preferably an applicator roll 8, the parquet planks 1 with the applied melt layer 7 by means of a Conveyor belt 9 of the heater 3 supplied.

In the exemplary embodiment, the heater 3 forms with the cooling device 4 and the pressing device 5 and the metal strip 6 a unit. This is the Metal band 6 formed as an endless circulating metal band. The metal band is as chromed and hardened steel strip 6 is formed. The steel band 6 revolves two rollers 10, 11 and is of these driven. In this case, the roller 10, the first in Contact with the supplied parquet planks 1 comes when Part of the heater 3 is formed. For this purpose is the roller 10 a correspondingly hot liquid medium, in the exemplary embodiment oil supplied. The roller 10 This makes it uniform to a relatively constant Temperature, preferably 100 ° C +/- 5 ° C, heated. The temperature, preferably 100 ° C +/- 5 ° C, heated. The roller 10 transmits this temperature to the circulating Steel band 6, which on the surface of the melt mass layer 7 is pressed. This will be the Melt layer 7 softened or approximately liquefied, so that the steel strip 6 the surface of Melt layer 7 smoothes.

The surface of the steel strip 6, which is in contact with the surface of the melt mass layer 7 comes, serves as negative pressure for the surface of the melt mass layer 7. That is, a structure in the steel strip 6 or corresponding imprints can be on the surface the melt mass layer 7 are passed. Furthermore, through the surface of the steel strip 6 determines whether the surface of the melt layer 7 is dull or shiny. The appearance The finished parquet planks 1 can thus significantly influenced without chemically altering the product must become.

To pass through the cooling device 4 are the parquet planks 1 on a conveyor belt 12. The Conveyor belt 12 and the steel strip 6 are in terms their speed, with which this the cooling device 4 go through, coordinated. In this can easily be done by the Steel belt 6 is driven by two rollers 13, which have the same diameter as the rollers 10, 11, which drive the steel strip 6 and the rollers 10, 11 and the rollers 13 run synchronously.

The pressing device is in the illustrated embodiment designed as a pressure shoe 5. alternative could the pressing device 5 also from a variety of closely spaced rolling elements, the the steel strip 6 on the surface of the melt layer Press 7, be trained.

As can be seen from the drawing extends the pressure shoe 5 approximately over the entire space between the rollers 10 and 11, causing the steel strip 6 evenly throughout the cooling process and flat on the surface of the melt mass layer 7 is pressed. This will avoid that Steel band at some point from the surface of the Melt layer 7 lifts, causing it to adhere parts of the melt-mass layer 7 on the steel strip 6 could come.

Pressure shoes 5 for pressing are from the general The prior art is well known, why on this will not be discussed in detail.

As is apparent from the drawing further, is between the steel strip 6 and the pressure shoe 5 a elastic layer 14 is arranged, whereby small bumps be balanced in the parquet planks 1 can.

In the exemplary embodiment it is provided that the pressure shoe 5 is cooled by the cooling device 4. to Cooling is provided in the embodiment that a liquid or gaseous medium, for example Air, water or oil is used. The cooling device 4 cools the pressure shoe 5 in such a way, that the cooling in the direction of passage of the parquet planks 1 increases continuously. Thus, a special Gentle cooling or uniform solidification reaches the surface of the melt layer 7.

The length of the cooling device 4 or the length of the cooling area 4a is preferably 3 to 15 m. This has been found to be suitable for the invention Device advantageous in the overall production process the production of parquet planks 1 to integrate.

After passing through the cooling section 4a has the temperature of the steel strip 6 to preferably 30 ° +/- 10 ° C reduced. The surface of the melt layer 7 is thus completely frozen, so the Steel band 6 easily from the surface of the melt layer 7 can be lifted without leaving any leftovers adhere to the steel strip 6. On the use of a Release agent, which in any case the temperature of the heated Roller 10 would not withstand, can thus be dispensed with become. The solution according to the invention can thus work without release agent.

The heated roller 10 of the applicator 2 supplied parquet planks 1 usually present Reaching the heated roller 10, a surface temperature from 50 ° to 70 ° C. The distance between the applicator 2 and the heated roller 10th is usually only 30 cm, preferably 50 cm, but the melt layer 7 cools relatively fast. In a particular embodiment, the However, it turned out to be less suitable in practice has, the order device 2 can also as Heating device 3 may be formed. For this would have the Steel strip 6 as close to the applicator 2 be arranged so that this the surface of the Melt mass layer 7 still in a heated state or contact in a softened state. However, this has not been suitable in practice exposed. Alternatively, the heater could 3 as infrared radiator or the like be the surface of the melt layer 7 on the way between the applicator 2 and the steel strip 6 heat. This too has changed in the Compared to the formation of the heater 3 as heated roller 10 proved less suitable. Such embodiments of the heater 3 are but in principle possible.

In an embodiment not shown may also be provided that the bottom of the pressure shoe 5 with a variety of closely juxtaposed Rollers is provided. Alternatively can the pressure shoe 5 also has a sliding layer - for example made of brass - on the steel band 6 or have the elastic layer 14 facing side. These are also from the prior art various possibilities suggested to a friction between the pressure shoe 5 and the performed To keep steel strip 6 as low as possible.

A contact pressure of 1 to 8 bar, preferably 3 to 5 bar, has proven to be particularly suitable to a trouble passing through the steel strip 6 ensure and still a sufficient pressure to provide the steel strip 6 on the Surface of the melt layer 7 presses.

In the exemplary embodiment it is provided that the roller 10 for softening the surface of the melt layer 7 necessary heating power relatively directly over the steel strip 6 on the surface of the melt layer 7 transmits. The melt mass layer 7 becomes thus practically ironed.

Claims (22)

Process for coating wood or wood-based materials, in particular parquet flooring, wherein a sealing layer is applied to the surface of the wood or of the wood-based material,
characterized in that
the sealing layer (7) is heated and a metal strip (6) is pressed onto the sealing layer (7), after which the sealing layer (7) is cooled, the metal strip (6) contacting the surface of the sealing layer (7) until it solidifies is. Method according to claim 1,
characterized in that
the sealing layer (7) is heated so that it becomes soft. Method according to claim 1 or 2,
characterized in that
the metal sheet (6) is heated to the sealing layer (7) is pressed. Method according to claim 1, 2 or 3,
characterized in that
the wood (1) or the wood material for cooling passes through a cooling region (4a), the cooling of which is preferably continuously increased. Method according to claim 4,
characterized in that
the feed rate of the metal web (6) is adapted to the passage speed of the wood (1) or wood material through the cooling area (4a). Method according to claim 4 or 5,
characterized in that
the metal web (6) is cooled during passage through the cooling region (4a). Method according to claim 4, 5 or 6,
characterized in that
the metal web (6) is pressed constantly onto the sealing layer (7) during the passage of the cooling region (4a). Device for coating wood or wood-based materials, in particular parquet boards with an application device for applying a sealing layer to the surface of the wood or of the wood-based material,
marked by
heating means (3) for heating, and cooling means (4) for subsequently cooling the sealing layer (7); and pressing means (5) for pressing a metal sheet (6) onto the sealing layer (7), the metal sheet (6) forming the sealing layer (7) under the contact pressure of the pressing device (5) contacted until the surface of the sealing layer (7) is solidified. Device according to claim 8,
characterized in that
the heating device (3) heats the metal web (6) to a temperature of 50 to 150 ° C, preferably 90 to 110 ° C. Device according to claim 8 or 9,
characterized in that
the metal strip (6) is designed as a circumferential metal band. Apparatus according to claim 8, 9 or 10,
characterized in that
the wood (1) or the wood material for passing through a cooling area (4a) of the cooling device (4) is arranged on a conveyor belt (12) whose feed speed is synchronized with the feed speed of the metal strip (6). Apparatus according to claim 8 to 11,
characterized in that
the metal track (6) revolves around two roller elements (10, 11), wherein the pressing device (5) is arranged between the two roller elements (10, 11) and presses the metal track (6) onto the sealing layer (7). Device according to one of claims 8 to 12,
characterized in that
the pressing device is designed as a pressure shoe (5). Device according to claim 13,
characterized in that
the pressure shoe (5) is cooled, the cooling preferably increasing continuously from an entrance area in which the wood (1) or the wood material enters the cooling area (4a) up to an exit area. Apparatus according to claim 12, 13 or 14,
characterized in that
the heating device (3) heats the roller (10), which is arranged at the entry region of the cooling region (4a) and around which the metal strip (6) revolves. Device according to claim 15,
characterized in that
the roller (10) is heated by a liquid medium, preferably oil. Device according to one of claims 13 to 16,
characterized in that
the pressure shoe (5) is cooled by a liquid or gaseous medium, preferably oil, water or air. Device according to one of claims 8 to 17,
characterized in that
the metal strip (6) is designed as a negative pressure for the subsequent surface structure of the sealing layer (7). Device according to one of claims 8 to 18,
characterized in that
the metal band (6) has a matt, smooth, etched, embossed or textured surface. Device according to one of claims 8 to 19,
characterized in that
the metal strip (6) is designed as a hardened steel strip. Device according to one of claims 13 to 20,
characterized in that
between the pressure shoe (5) and the metal strip (6) an elastic layer (14) is arranged. Device according to one of claims 8 to 21,
characterized in that
the sealing layer (7) is formed as a melt-mass layer, preferably as a reactive melt-layer based on polyurethane.

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