FI75201B - FOERFARANDE FOER FRAMSTAELLNING AV EN FIBERSKIVA. - Google Patents

Description

75201

METHOD OF MANUFACTURING FIBERBOARD - FÖRFARANDE FÖR FRAMSTÄLLNING AV EN FIBERSKIVA

The present invention relates to a method for producing a fibreboard, in which the chopped wood fibers are bonded to a porous board mainly by means of the adhesives contained in the wood itself, and in which the porous board is further compacted by heat and compression to form a dense, cured surface layer. below porous.

Porous fibreboards made especially from wound fibers, but now also from softwood fibers, are used as a building material. The board is made by chipping and grinding the wood into fibers, adding the necessary chemicals to the resulting fibrous slurry, forming a continuous web from the slurry by means of opposed rollers, compacting the web by squeezing so that some of the water is removed, and finally drying the web with hot air. The fiberboard thus obtained as a continuous web is finally sawn into sheets.

The chemicals added to the slurry depend on the quality of the fiberboard being made. However, no significant chemical additions are usually required, as the lignin in the wood acts as an adhesive to bind the fibers together in the boards. Approximately 1.5 Z of linseed oil based on the weight of the wood material and a small amount of ferrous sulfate acting as a precipitator may be a sufficient addition to activate lignin.

Porous fibreboards have been used especially as an internal coating material for building walls and roofs. In particular, it has had use in the renovation of old buildings. The most important feature of a fibreboard is its breathability: the board can temporarily bind moisture and let it through without rotting itself. Despite its porosity, the plate forms an obstacle to the direct flow of air and thus acts as a thermal insulator. In addition, the disc effectively insulates sound.

2 75201

The disadvantage of porous fibreboards is their softness, as a result of which they can be damaged as a result of even minor bumps. To avoid this disadvantage, sheet products have been made in which a thin hard sheet is glued to the porous sheet, as well as sheet products sealed on one side by heat and compression so that the sheet comprises a densely cured surface layer and a softer porous layer below it. .

The manufacture of said hardened fibreboards on the other side has been described e.g. In FI patent applications 916/67 and 773228. In the process described in FI patent application 916/67, the compression temperature is in the range of 300 to 500 ° C. In this case, the pressing time must be short, according to the application, not more than 15 sec. and preferably less than 10 sec. FI patent application 773228, on the other hand, describes a method in which the compression temperature is at least 274 ° C and the compression start is preferably between 5-60 sec. According to the application, the short compression start is due to the fact that it avoids carbonization or disintegration of the surface layers of the plate.

The object of the present invention is to provide an improvement on the current manufacturing technique of hardened fibreboards on the other hand. The method according to the invention is characterized in that in the sealing step the sheet is pressed on one side by a pressing member at a temperature of about 230 to 260 ° C, preferably at about 240 to 255 ° C, and on the other hand by a pressing member at substantially ambient temperature, whereby a hard surface layer is obtained on the other side of the plate under the effect of heating, while the opposite, unheated side of the plate retains its porosity.

The compression start time of the process of the invention is preferably about 4.5 to 6 minutes.

According to the invention, it has been found that the lower previously known compression temperatures in the range from about 230 to 260 ° C and the longer compression times result in hardened fibreboards on the one hand which, due to their properties 3 75201, are excellently suited for the purposes of the invention. as a roofing material and as a parquet base. The advantage of a lower compression temperature is a more controlled manufacturing process in which the risk of carbonization or flaking of the plate surfaces is substantially avoided.

The fibreboard produced according to the invention is characterized in that it comprises a unitary structure in which the hardened surface layer and the porous layer below it are organically connected to each other without any steep interface or boundary layer. When the surface layer, despite curing, is permeable to moisture and no additional adhesives have been used, the sheet is substantially identical in breathability to a porous sheet. However, the cured surface layer gives the board strength, which makes it resistant to bumps and bumps, and in curing the surface of the board is made smooth so that, for example, wallpaper can be easily attached to it.

The invention will now be described in more detail by way of example with reference to the accompanying drawing, which is a schematic diagram of a process according to the invention for producing a fibreboard hardened on one surface.

The raw material for the production of the board is aspen or softwood, which is chipped with a disc chopper 1. The chips pass through a scrubber 2 and a preheater 3 to disc grinders 4, which grind the chips into a grind at a grinding density of 12%. The resulting pulp is diluted with water to a pulp slurry with a solids content of 4 X, which enters tank 5. The necessary chemicals are then added to the pulp slurry at positions 6 and 7, in this case linseed oil and ferrous sulphate, and any coarser pulp fractions are separated. in position 8 for new grinding. After the chemical addition, the slurry, further diluted to a solids content of about 1 X, is transferred to a basin 9 equipped with two parallel rotary cylinders 10, 752011. The cylinders 10 form a pulp web of slurry which passes between the cylinders to a press 11 the water contained in it is removed. This water is recycled in the process back to the dilution water produced by the refiner 4. The pre-dried web, which has a solids content of about 47%, is transferred to a steam-heated hot air dryer 12 at temperatures in the range of 135-180 ° C. The web 12 leaves the dryer 12 as a dry, porous fiberboard with a moisture content of 0.9%. The web is sawn into separate pieces of sheet in position 13.

According to the invention, the obtained sawn porous fibreboards are further used to make hard-compacted sheets on one side. For this purpose, the plates are arranged individually in two compression plates, i.e. the so-called between the glossy plate 14, 15 in the pressing station 16. The pressing plate 14 is heated by steam circulation to a temperature of 255 ° C, while the second pressing plate 15 is devoid of any heating element and thus substantially at ambient temperature. Between the press plates 14, 15, bars (not shown) are placed to limit their mutual movement so that the fiberboard gets the thickness determined by the bars when pressed. For example, a 27 mm thick porous fiberboard can be compressed to a thickness of 20 mm, whereby its final thickness will be 22 mm due to a slight expansion after compression. In compression, a dense cured surface layer having a thickness of the order of a few millimeters is formed on the surface of the fibrous sheet on the side of the pressed plate 14. The surface layer gradually changes to a porous layer without a clear boundary, for which compression has not changed the properties of the plate. The pressing time with which the hardness of the surface layer of the plate can be influenced is suitably about 4.5-6 min. The longer the compression is continued, the harder the surface of the plate becomes. After pressing, the plates are transferred to a cooler 17, where they are rapidly cooled by air blowing.

75201

Hard-surfaced »partially porous fibreboards with a thickness of the order of 2 cm, manufactured as shown, are particularly suitable for use in the walls and roof of buildings. Similarly, however, thinner boards less than 1 cm thick can be made, which are suitable as a base for parquet to be fixed to the floor. The board improves the sound insulation of the floor, which in the apartment building reduces the audibility of the steps to the lower floor apartment side.

It will be clear to a person skilled in the art that the various embodiments of the invention are not limited to the examples given above, but may vary within the scope of the appended claims.

Claims (2)

A method of making a fibreboard, wherein the comminuted wood fibers are bonded to a porous sheet mainly by the adhesives contained in the wood itself, and wherein the porous sheet is further compacted by heat and compression to form a dense, cured surface layer while leaving the sheet porous; characterized in that in the sealing step the sheet is pressed on one side by a compression suction at a temperature of about 230-260 ° C, preferably at about 240-255 ° C, and on the other hand by a pressing member substantially at ambient temperature, whereby the sheet a hard surface layer is obtained on the side due to heating, while the opposite, unheated side of the plate retains its porosity A method according to claim 1, characterized in that the pressing time is about 4.5 to 6 minutes.