EP1508414A2 - Method and single- or multi-platen press for producing fibre boards, especially OSB board - Google Patents

Abstract

The method for producing wood-material building plates consists of loading mats of wood strands and bonding agents into a press, compressing them in two stages, with introduction of steam between the stages, and finally hardening them. An independent claim is also included for a press serving for implementation of the proposed method.

Description

The invention relates to a method for the production of wood-based panels, in particular of OSB boards according to the preamble of patent claim 1 and a platen press for carrying out the method according to claim 22.

From DE 12 76 912 C2 and CH 46 37 74 C1 it is known that during steam pressing the mat is first compressed, then introduced steam and then further compressed.
Thus, EP 0 172 930 A1 has disclosed a method for steam pressing, in which the mat is first compressed to 50% of the final thickness without steam and then further damped with various rinsing steps. This patent family has in common that the mat is first slightly compacted and then the entire mat cross-section is heated to the steam temperature with the introduction of steam.

Those according to CH 46 37 74 C1 and the other older patents Plates often had flares and dark spots on them to see the plate surface. The plate strength in particular the Transverse tensile strength in the dark areas is significantly lower than in the rest of the plate area. The dark spots are holes from which the steam flows, arranged opposite. It is characterized by the high Flow rate of the steam and the high amount of steam the through this area flows the fiber-glue structure destroyed. A Investigation has shown that the strength of the plate especially in the Outside areas is reduced because in this area the phenolic resin is washed out.

In US Patent 4,517,147 it is described how plates without holes and markings of the steam holes in the plate surface can be made in steam pressing.
As a solution, US 4,517,147 suggests lowering the vapor velocity below the wells. This is to be achieved by using a special sieving between mat and heating plate. Furthermore, the mat density and the vapor pressure should be set low. Despite the extensive solution proposals, it has not yet been possible to press wood pulp glued with phenolic resin into OSB boards in steam cycle presses because the press time in OSB production in multi-day presses is relatively long compared to other wood-based materials. For example, the press factor for an 11 mm thick OSB board is 12 s / mm, while the press factor for a chipboard is only 6 s / mm.

The invention has for its object to provide a method with which Wood materials, in particular phenolic resin glued wood chips (strands) with significantly reduced press time in cycle presses, one-day presses or To press multi-day presses and a platen press for the production of To create a procedure.

This object is achieved for the method according to the characterizing part of claim 1 by the following method steps:
First, the pressed material mat is formed from a woodchip-phenolic resin mixture and introduced into the floor (s) of a single or multi-daylight and stored therein, after a slight pre-compression in a short period of time, introducing a small amount of steam with a low steam temperature on the press plates (2 ) only in the outer layers (5 and 7) of the pressed material mat (4) and then the pressed material mat is quickly compressed to the final thickness of the plate and cured.

• die Vorverdichtung der Pressgutmatte je nach Mattenstärke zu einer Mattendichte von 100 bis 500 kg/m³ erfolgt,
• die Bedampfung der Pressgutmatte während einer Zeitspanne von 2 bis 15 Sekunden erfolgt,
• der Wasserdampf mit einer möglichst niedrigen Temperatur eingestellt wird und beispielsweise mit einer Temperatur von 110° in die Deckschichten der Pressgutmatte eingeleitet wird und
• das möglichst gesättigter Wasserdampf und nur wenig überhitzter Wasserdampf Verwendung findet oder maximal nur mit 20 °C überhitzter Dampf verwendet wird.

Surprisingly, it has been found that the controlled introduction of a small amount of steam in a short period of time at a lower steam temperature into a slightly compressed mat according to the process of the invention does not wash out the phenolic film. There are several reasons for this: When washing out the Phenolleim, the Phenolleim is first dissolved in the steam condensed on the beach and then transported with the steam flow into the interior of the mat. In the interior of the mat, the glue precipitates with the water or is partially absorbed by the wood.
Since the release of the phenolic pulp is a process that depends primarily on the amount of steam passing between the strands, little damping dissolves before curing with low steam attenuation in combination with subsequent compaction. That is, the less vapor flows past the phenolic film, the lower the likelihood that glue will be washed out.
Furthermore, the leaching is a time-dependent process. The longer the steam flow lasts, the lower the viscosity of the glue becomes, and the sooner the glue dissolves in the vapor.
It has proven to be particularly advantageous when working with the following parameters:

• Depending on the thickness of the mat, the pre-compaction of the pressed material mat results in a mat density of 100 to 500 kg / m ³ .
• steaming of the pressed material mat takes place for a period of 2 to 15 seconds,
• the steam is adjusted with the lowest possible temperature and is introduced, for example, at a temperature of 110 ° in the outer layers of the pressed material mat and
• the most saturated water vapor possible and only slightly superheated steam is used or only a maximum of 20 ° C superheated steam is used.

Important for the non-washing of the phenolic resin glue from the pressed material mat is therefore the steam temperature resulting from the degree of saturation of the Steam and the selected vapor pressure results, as with rising Steam temperature of the glue becomes liquid, after heating increases Solubility of the glue. The process must therefore be conducted in such a way that the Steam temperature is set as low as possible, in which the Vapor pressure is set as low as possible and as saturated as possible Steam but only a little superheated steam (maximum 20 ° C) is used.

Likewise, the flow rate of the vapor flow for the Wash out important. The leaching occurs at reduced Flow rate to a much lesser extent and the Flow velocity is strong due to the only slightly compressed mat reduced. The flow velocity is at the same penetration depth and Damping duration continues to diminish when the beach width and Beach length are not too big. Because the steam is not through the beaches must flow around the beaches. It means that at very broad beaches for the same depth of penetration in the same time larger flow path must be covered and thus the Flow rate increases. It is useful, therefore, if in Woodchip binder mixture the average Schnitzellängen not greater than 150 mm and the average chip widths not greater than 25 mm and for the production of particularly smooth surfaces of the plates thin chips are used with a small thickness of 0.5 mm.

The damping according to the invention is thus performed so that after a slight pre-compression only the outer layers or only one of the outer layers are briefly damped, so that a leaching of the glue by a larger amount of steam flowing past the beaches, does not occur and is then compressed quickly to final thickness ,
A complete steaming of the pressed material mat with the necessary amount of heat to heat from 30 ° C to 100 ° C can be referred to in relation to the released heat of condensation of the steam, at a humidity of 5 to 6% per 1 m ² . To heat the outer layers, a steam quantity of 60 to 185 g / m ^{2 is} preferably introduced according to the invention depending on the thickness of the mat per side so that the defined amount of steam penetrates in about 30% of the pressed material mat or the amount of steam per surface in 15% depth Pressgutmatte penetrates.

The amount of steam introduced per side and the steam duration is the controlled variable for the process. From the amount of steam to be introduced per m ² mat surface and the specification of the steam duration, the flow rate steam quantity per unit time [kg / h] is calculated and transferred to a flow regulator. The vapor velocity is the velocity of the vapor front (condensation front), which penetrates from the surface in the direction of the center of the mat. It is calculated from the duration for heating the respective mat depth, which is to be heated. The mat depth to be heated results from the amount of steam that is to be introduced into the mat.

The necessary vapor pressure for a topcoat vaporization thus results from the steam duration, the amount of steam and the mat density.
Through these process parameters, the size of the solution of the phenolic resin glue during the vapor deposition can be influenced in the process.
The advantage is the separate introduction of the amount of steam on the mat top and mat base, which is also regulated differently if necessary. The process parameters steam quantity and mat density can also be influenced if the gluing of the pressed material with phenolic resin takes place with a mixture of powder and liquid glue.
The specific compacting pressure, which sets at different OSB mat densities, is very low for mat densities between 100 to 500 kg / m ³ .
In the case of the cycle presses, it has proven useful to carry out the damping during a travel control of the press in order to be able to reliably achieve a targeted mat density during the vapor deposition.

When using a multi-daylight press with filter circulation from one Metal mesh needs a short (about 0.5 - 2 long seconds) Sieve expansion phase after heating the sieve to around 100 ° C be set at low specific pressure in the press program. The Duration for the press closure of a conventional multi-daylight press from the beginning of the contact of the screen with the hot press plate up to a clear width of 40 mm (with an opening width of 305 mm) about 13 Seconds. During this period, the sieve can reach a temperature of over 100 ° C are heated.

In the case of pre-damping, the so-called sieve expansion phase can be used to pre-steam the cover layers.
The shortening of the pressing factor according to the invention is based on a faster heating of the center of the mat to 100 ° C, two causes for the faster heating are mentioned.
First, the moisture of the outer mat layer is increased, which, like the Mattenbesprühung contributes to faster warming. Secondly, the outer mat part is already heated to over 100 ° C, so that less energy must be passed over Konduktion by the press plates in the mat.
A uniform penetration of the steam front over the entire plate width is promoted by the high flow resistance of OSB perpendicular to the mat surface and the low flow resistance parallel to mat surface.

As advantageous may be a use of a mixture of Liquid phenolic film and powder phenolic film in the OSB topcoat because the Mixture of liquid and powder phenolic usually less fast is washed out as pure liquid Phenolleim. By the pure Topcoat vaporization will only cure the adhesive in the middle layer very little influenced, so the choice of the adhesive in the middle class regardless of the requirements of vapor deposition. So it can be for Example an MDI adhesive or a combination of MDI with Phenolleim in the middle class can be used.

Gaseous reaction accelerators or other substances such as fire-retarding insecticidal or fungicidal agents can also be introduced into the mat with the steam.
A particular advantage has further shown that the damping of the outer layers allowed a thickness-accurate pressure even in the multi-daylight press, since the center of the mat is not softened at the time of closing the press. The conventional steam compression processes of both chip, fiber and OSB mats have hitherto been operated only on one-day cycle presses, since the specific pressing pressure drops very sharply due to complete steaming of the mat. Due to the low press back pressure, the closure of the press requires a very precise control of the press, in particular with regard to a skewed position of the press table. Furthermore, the thickness tolerances of the plates in the individual floors are more difficult to comply with when the mat has a very low pressure counterpressure. The topcoat vapor deposition according to the invention only slightly reduces the maximum specific compacting pressure (about 10-20%), so that the problems with regard to the position control of the press and the plate thickness tolerances in the individual levels do not occur.

Panels made of multi-daylight presses are distinguished from plates continuous pressing through a thicker pressed skin and a very low Density in the outer mat layers. The topcoat vaporization according to the invention may also be used primarily for surface plasticization be used. Through a surface plastification can be combined with a suitable pressing pressure a closed and smoother surface by heating and moistening the chips and strands the press be closed quickly. It is important that at the time of the high specific pressure the chips and strands at the mat surface still not dried out. Leave particularly smooth surfaces on OSB boards is uniformly thick due to thin strands (thickness less than 0.5 mm) produce. The OSB boards produced in this way can be used without further measures Foils or coated papers are coated and especially in areas be used, which was previously reserved plywood.

The flexural strength and flexural modulus of elasticity is determined by the Topcoat vaporization also improved as the topcoats - as above described - are slightly more compacted, whereby at the same mean Density higher density in the bending outer plate zones is available.

In the press plates of a multi-daylight press are Entdampfungsbohrungen intended for the mat. It turned out that the Dampening holes on the top of the mat directly with the mat in Contact comes after some time by wood components, adhesives and Additives clog. Since according to this invention at the beginning of the pressing with only a small vapor pressure of the steam is passed into the mat exists also the risk of blockage of the holes. By a steam blast higher pressure or by a compressed air blast, the holes but be blown free. This shot of steam or blast of compressed air should be preferred during the open press, if possible before the press with the new one Mat is fed, to be performed. To the highest possible pressure it is favorable to apply only the underside of the heating plate (upper side of the mat) to apply the steam.

By unlocking the Entdampfungsbohrungen against a vacuum of a Magnitude of 0.2 - 0.9 bar (absolute) at the end of hot pressing, can the vapor pressure in the plate can be reduced, causing the Degassing step (and thus the pressing time) can be shortened and the Platzergefahr the plate is reduced.

Recently, the requirements for air pollution control are increasing. Meanwhile, the press exhaust air (press exhaust) must be certain Requirements for VOC (votive organic components) and dust loads suffice. Conventionally, the press comes with a large suction hood provided and sucked with a large fan power the press. The Costs for cleaning the large amount of exhaust air are greater than the cleaning a small amount of exhaust air, which is a higher concentration of substances having. This is particularly true when the exhaust air via an RTO - ie afterburning - is cleaned. The greater part of the press exhaust a conventional pressing with a sieve pad passes during the Hot pressing process via a transport through the sieve from the plate interior on the narrow surfaces of the screen or on the end faces of the press. Just little exhaust gas passes over the narrow surfaces of the plate during the Pressing and over the plate surface after the opening of the press in the Press space.

The platen press according to the invention can be a particular advantage without a be equipped with extensive extraction if throughout the entire Pressing with the exception of the short evaporation time at least one Mat side, preferably the screen side, over the steam holes with 0.02 bar is sucked off. When one-sided steaming only from above can on the Mattenunterseite (Siebseite) the suction already during the retraction of the Sieves are switched into the press. Through the suction over the Steam holes on the screen side and a possible combination of a further Measures described above, the edge seal, as well as the vacuum Near the end of the press almost no press exhaust gas enters the hall. The Plate becomes, so to speak, during the hot pressing already in the press sucked off, so the plate during the opening of the press and then only still emit very few exhaust gases.

The suction amounts that are sucked through the holes are much lower than a suction of the entire press. The sucked off Substances consist almost exclusively of water vapor and those of wood, Adhesive and other additives such as wax released substances, so that initially a condensation of the air to clean the air Steam offers.

In a one-sided vapor deposition of one of the outer layers of the pressed material mat it is appropriate to steam the lower surface layer and before the Place the mat in the press to wet the top with water.

The platen press for carrying out the method according to claim 22 from one or more floors with press plates, a heater with Heating channels and with at least one steam device with Steam distribution channels and Dampfleitkanälen for the press plates, wherein the Dampfleitkanäle are equipped to the pressing surface out with steam openings and via separate channels a vacuum device and with the exception of the short Steaming a Luftabsaugsystem connected to the steam device is and the steam openings for a self-cleaning training to Pressgutmatte out with a reduction in the bore diameter of 6 mm to 3 mm are executed.

Further advantageous measures and embodiments of the subject matter of Invention will become apparent from the dependent claims and the description below with the drawing.

Figur 1

eine schematische Schnittansicht von zwei Etagen einer Mehretagenpresse zur Durchführung des Verfahrens mit der Dampfeinrichtung,

Figur 2

eine Draufsicht auf eine Pressenplatte mit den Dampfverteilerkanälen und den Dampfleitkanälen,

Figur 3

in einem Schnitt T-T aus Figur 2 die Bohrungen des Dampfeingangs, der Dampfleitkanäle und die Dampföffnungen mit den Heizkanälen,

Figur 4

in einem Schnitt U-U aus Figur 2 die Ausbildung einer Pressenplatte mit Randleiste,

Figur 5

einen Ausschnitt aus der Pressenplatte mit einer Dampföffnung zur Pressgutmatte,

Figur 6

in einem Ausschnitt die Ausbildung der Dampföffnung als Schlitzbohrung und

Figur 7

die Ausbildung des Randbereichs einer Einetagenpresse während des Pressvorgangs.

Show it:

FIG. 1

a schematic sectional view of two floors of a multi-daylight press for carrying out the method with the steam device,

FIG. 2

a top view of a press plate with the steam distribution channels and the Dampfleitkanälen,

FIG. 3

in a section TT of Figure 2, the holes of the steam inlet, the Dampfleitkanäle and the steam openings with the heating channels,

FIG. 4

in a section UU from Figure 2, the formation of a press plate with skirt,

FIG. 5

a section of the press plate with a steam opening to the pressed material mat,

FIG. 6

in a section, the formation of the vapor opening as a slot hole and

FIG. 7

the formation of the edge region of a Einetagenpresse during the pressing process.

The sectional view shown in Figure 1 shows a partial section of a Multi-daylight press 1 with three press plates 2, two floors 3, the Steam device with steam accumulator 8, the resulting over shut-off valves outgoing steam lines 12, a steam outlet 13 and Vacuum device 16. In the two floors 3 are two Pressgutmatten 4th stored. Figures 2, 3 and 4 show the formation of a press plate. 2 with three bore levels for placement between at least one upper and a lower press plate 2. Such serving as an intermediate plate Press plate 2 is in the middle with heating channels 14 and a first upper Hole level with Dampfleitkanälen 10 and a second lower Bore level executed with Dampfleitkanälen 10. In the Dampfleitkanäle 10th Steam is from a left and a right steam distribution channel. 9 fed. The two steam distribution channels 9 are made up of four steam inlets 15 supplied with steam and with edge strips 20 against the outside air locked. For introducing steam into the pressed material mats 4 are many, distributed over the press level steam openings 11 to the Dampfleitkanälen 10th drilled. Via separate channels (not shown) to the steam device a vacuum device 16 and a Luftabsaugsystem with lines for Steam outlet 13 is provided. For self-cleaning of the steam openings 11 they are according to the figures 5 and 6 as a steam opening bore 17 or as Slot bore 18 carried out, so that, for example, the bore diameter Tapered from 6 mm to 3 mm. For the air extraction system is advantageous that at least on the top of the press plates 2 Beschicksiebe or stationary screens 19 are arranged. The press can expediently the press material mat size be adapted thereby that the width d of the press plates 2 is not made larger than about 200 mm of the average mat width b. This can be done by decommissioning the respective Dampfleitkanäle 10 at the longitudinal edges or crates the Steam openings 11 by means of grafting (plug) done so that the Example, the evaporation surface minus two edge strips from 200 mm to 700 mm is adjustable. As shown in Figures 5 to 7 is the Pressgutmatte 4 from the outer layers 5 and 7 and the middle layer 6. Die Vapor deposition takes place only on the cover layers 5 and 7. According to FIG. 7 the sealing of the pressed material mat takes place, for example, in one A floor press 21 within the press level by an edge seal 23rd the sieves 19 and / or by a pressure gap decreasing sealing strip 22nd

List of Reference Numerals DP 1294 EP

1.

floor Press

Second

Pressing plates

Third

Floors

4th

press material mat

5th

upper cover layer

6th

middle class

7th

lower cover layer

8th.

steam accumulator

9th

Steam distribution channels

10th

Dampfleitkanäle

11th

steam vents

12th

steam line

13th

steam output

14th

heating channels

15th

steam input

16th

vacuum equipment

17th

Steam port hole

18th

slot hole

19th

scree

20th

Edge

21st

A daily press

22nd

sealing strip

23rd

edge sealing

d

Width of press plate 2

b

Width of press mat 4

Claims (30)

A process for the production of wood-based panels, in particular of OSB boards, in which from a woodchip binder mixture an endless Pressgutmatte (4) is formed, this is introduced after Formataufteilung as Pressgutmatte (4) between the heated press plates (2) of a platen press (1) , the press plates (2) in a second level of steam distribution channels (9) at the edge fed Dampfleitkanäle (10) with steam openings (11) for Pressgutmatte (4) towards and heated therein by steam and Pressenplattenkontaktwärme wood panels, pressed and cured,
characterized by the following method sections: 1.1 the pressed material mat (4) is formed from a woodchip phenolic resin mixture and introduced into the floor (s) of a single or multi-daylight press and stored therein, 1.2 after a slight pre-compression takes place in a short period of time, the introduction of a small amount of steam with a low steam temperature on the press plates (2) only in the outer layers (5 and 7) of the pressed material mat (4) and 1.3 then the pressed material mat is quickly compressed to the final thickness of the plate and cured. A method according to claim 1, characterized in that the pre-compression of the pressed material mat (4), depending on the mat thickness to a mat density of 100 to 500 kg / m ³ takes place Method according to claims 1 and 2, characterized in that the vaporization of the pressed material mat (4) takes place during a period of 2 to 15 seconds. Method according to claims 1 to 3, characterized in that the introduction of the vapor into the cover layers (5 and 7) of the pressed material mat (4) takes place, depending on the thickness of the mat, in an amount of 60 to 185 g / m ² . Process according to claims 1 to 4, characterized in that the defined amount of steam is introduced in about 30% of the mass of pressed material or the amount of steam per surface penetrates in 15% of the depth of the pressed product mat (4). Process according to claims 1 to 5, characterized in that the steam at a temperature of 110 ° C in the outer layers (5 and 7) of the pressed material mat (4) is introduced Process according to claims 1 to 6, characterized in that as saturated steam as possible and only slightly superheated steam is used or a maximum of only 20 ° C superheated steam is used. Process according to claims 1 to 7, characterized in that only the cover layers (5 and 7) are formed from a woodchip phenolic resin mixture, while the wood chips of the middle layer (6) of the pressed material mat (4) with an MDI glue or another suitable Binders are mixed. Process according to claims 1 to 8, characterized in that the steam temperature is set as low as possible. Process according to claims 1 to 9, characterized in that the introduction of the amount of steam on the top of the mat and mat base is regulated separately. A method according to claims 1 to 10, characterized in that after the slight pre-compression of a defined amount of steam in one of the outer layers (5 or 7) of the pressed product mat (4) on the press plates (2) is introduced and then the pressed material mat (4) the finished size of the plate is compressed. Process according to claims 1 to 11, characterized in that the gluing of the material to be pressed with phenolic resin is carried out with a mixture of powder glue and liquid glue. Process according to claims 1 to 12, characterized in that in the woodchip binder mixture the average chip lengths are not greater than 150 mm and the average chip widths are not greater than 25 mm. Process according to claims 1 to 13, characterized in that for the production of particularly smooth surfaces of the plates thin chips are used with a small thickness of 0.5 mm. Method according to one or more of claims 1 to 14, characterized in that in multi-day presses a filter circulation is provided, wherein the heating of the wire (19) are set to about 100 ° C at low specific pressure in the press program. Method according to one or more of claims 1 to 15, characterized in that the preheating of the screen to 100 ° C during the closing operation of the floors (3). Method according to one or more of claims 1 to 16, characterized in that an extraction of the pressed material mat (4) and the finished plate takes place during the entire pressing process. Method according to one or more of claims 1 to 16, characterized in that at the end of the pressing process, a vacuum of 0.2 to 0.9 bar to the Dampfleitkanäle (10) of the press plates (2) is applied Method according to one or more of claims 1 to 18, characterized in that separate channels to the upper and lower Dampfleitkanälen (10) in a press plate (2) are provided and at the end of the pressing through these channels a high pressure steam pulse is made. Method according to one or more of claims 1 to 19, characterized in that the one-sided steaming of the pressed material mat (4) from below before being introduced into the press their top is sprayed with water. Method according to one or more of claims 1 to 20, characterized in that the suction of the pressed material mat (4) takes place during the pressing process with about 0.02 bar. Platen press (1) for carrying out the method according to Claims 1 to 21, consisting of one or more floors (3) with press plates (2), a heater with heating channels (14) and with at least one steam device with steam distribution channels (9) and Dampfleitkanälen (10) for the press plates (2), wherein the Steam ducts (10) towards the pressing surface with steam openings (11) are equipped and via separate channels a vacuum device and with the exception of the short steaming time, an air extraction system can be connected to the steam device and the steam openings (11) for a self-cleaning training to Pressgutmatte (4) out with a reduction of the bore diameter from 6 mm to 3 mm are executed. Platen press according to claim 22, characterized in that when using Beschicksieben (19), the Luftabsaugsystem is connected to the steam openings (11) on the wire side Platen press according to claims 22 and 23, characterized in that the steam openings (11) are designed as a slot bore (18). Platen press according to claims 22 to 24, characterized in that the effective width (d) of the press plates (2) is not greater than 200 mm of the average mat width (b). Platen press according to claims 22 to 25, characterized in that the size of the vapor deposition surface of the press plates (2) by stopping some Dampfleitkanäle (10) is adjustable by means of grafting. Platen press according to claims 22 to 26, characterized in that the vapor deposition surface minus two edge strips of 200 to 700 mm is adjustable. Platen press according to claims 22 to 27, characterized in that the sealing of the pressed material mat (4) to the outside by means of a at the edge of the press plate (2) mounted sealing strip (22) is provided. Platen press according to claims 22 to 28, characterized in that sieves (19) made of stainless steel mesh are arranged above and below the press plate (2). Platen press according to claims 22 to 29, characterized in that as through holes in the press plates (2) running Dampfleitkanäle (10) to form two steam distribution channels (9) are arranged by means of arranged edge strips (20).

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