NL8603045A - METHOD FOR MANUFACTURING CHIPBOARDS - Google Patents

Description

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VO 8497 "Method for manufacturing chipboard".

The present invention relates to a method of manufacturing water-resistant chipboard.

Chipboards are made with chips or flakes of wood or other vegetable fibers, which are formed into a desired board configuration and are glued together using any suitable adhesive material. Such chipboards have essentially no anisotropy and no knots or curves and the like observed in conventional wood products. The chipboards can be pressed to sufficient strengths and desired dimensions from useless wood material including blocks with a small diameter. The chipboards 15 can be produced with improved yields. For these reasons, chipboards are commonly used today as furniture material, building material and the like.

However, the chipboards made of pressed wood chips or chips exhibit water or moisture absorption like the conventional wood products. When exposed to water or moisture, the chipboards can swell and change their dimensions such as thickness, width and length. In addition, water or moisture that has penetrated into the chips or flakes does not evaporate easily. Thus, the swollen chipboards can hardly be returned to their original configuration and their strength will be reduced. Such phenomena pose problems for the manufacture and processing of chipboard products. To overcome these drawbacks are several 8603045 £% -2 proposals. done, for example, improving the adhesive for sticking together wood chips or chips or resinizing the wood chips or chips. However, no proposal has yet been made to provide a chipboard with perfect water or moisture resistance.

To this end, it is an object of the present invention to provide a method for manufacturing chipboards by forming chips 10 or chips from wood or other vegetable fiber materials in a desired board configuration and sticking the chips or chips together with an adhesive, the improvement comprising the step of heating the chips or flakes to one

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Temperature from 100 ° C to 200 ° C, for at least one hour while rotating in an atmosphere of 90% or more of non-flammable gas to completely remove moisture and juice from the chips and flakes, prior to the step of gluing together chips or chips. Because the dried chips or flakes contain only fibers without water or juice, the adhesive can penetrate sufficiently into the fabric of the chips or flakes to adhere or join them together with greater strength. When a chipboard is made from such bonded or bonded chips or flakes, it cannot swell even if it is exposed to water or moisture. Thus, the method of the present invention provides a chipboard with improved water and moisture resistance and strength.

The only drawing is a graph representing the test results of chipboards manufactured according to the method of the present 8603045-3 invention and of samples manufactured according to the prior art.

According to the present invention, an adhesive is first applied to the chips or flakes of any suitable wood or other vegetable fiber material.

The chips or flakes are then formed into a desired plate configuration. The novel and essential feature of the present invention is that the chips or flakes have been treated to be water resistant prior to the step of applying the adhesive to the chips or flakes. The process of the present invention will be discussed in more detail below.

Wood used to produce chips or chips in the present invention is not limited to one particular type of wood. For example, all wood used to manufacture the conventional chipboards can also be used. Wood containing more water and juice can also be used by the method of the present invention because it can be dried to completely remove the water and juice. The unfinished pieces of wood are chopped into chips or flakes or processed in any suitable manner as in the conventional processes. The shape and dimensions of the shavings or chips are appropriately determined depending on the quality and class of chipboards to be produced, as in conventional processes. Chips or chips can be obtained by breaking or chopping wet wood with a high water content. When wood with a water content of about 6% is used, the duration of the process of the present invention can be shortened.

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The chips or flakes produced in this way are then thrown into a drying vessel or autoclave, which may be of a conventional type.

The air is then removed from the interior of the drying vessel or autoclave. An incombustible gas selected from the group of inert gases such as argon, helium and krypton, carbon dioxide, ammonia, sulfur dioxide and nitrogen is then charged to the drying vessel to provide an atmosphere of 95% or more of incombustible gas. The incombustible gas to be charged may comprise a combination of two or more of the aforementioned incombustible gases. In short, it is desirable that the atmosphere in the interior of the drying vessel contains little or no oxygen.

If there were an increased amount of oxygen in the drying vessel, the chips or flakes would burn or char when heated to an elevated temperature as will be described, which would decrease their strength.

The temperature of the mixture is then increased

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drying vessel or autcc laaf within the range of 100 C.

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up to 200 C. This temperature can be suitably determined depending on the properties of the chips or chips in the drying vessel. In most cases it is desirable to heat the chips or flakes to

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a temperature of 200 ° C because they can be dried in the most desirable state according to the concept of the present invention, in which state water and juice have been completely removed from the chips or flakes.

30 If the chips or flakes are heated to one

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temperature of 100 C or less, water and juice are not sufficiently removed. Otherwise, if the chips or flakes are heated to a temperature of

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Over 200 C, they would burn or char and become as unsuitable as chipboard material.

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Preferably, such atmospheric and temperature conditions are maintained at normal pressure for at least one hour. At the same time, the chips or flakes are turned, for example by rolling the drying vessel or the autoclave. This improves the removal of the water and juice from the chips or flakes. The period of time during which the chips or flakes are heated to a selected temperature is determined depending on the properties, the dimensions of the chips or flakes and other factors. In any case, for the intended purpose, the time span should be at least one hour. Normally, the chips or flakes are heated to a certain temperature 15 for four to eight hours.

After the chips or flakes have been heated to a certain temperature for a certain time, water and juice have been completely removed from the chips or flakes leaving only fibers in their tissues. The weight of the chips or flakes thus treated is less than that of the chips or flakes used for the manufacture of conventional chipboards. The chips or chips so treated are not burned or charred because they are heated in an atmosphere of incombustible gas. In addition, the chips or chips are uniformly treated because they are turned during heating.

A synthetic resin adhesive, for example a urea resin adhesive, is applied to the dried chips or flakes in the usual manner. The quality and amount of the synthetic resin adhesive are analogous to that of the synthetic resin adhesive used in the conventional 860 3 0 4 5-6 process. In other words, they are determined within an appropriate range depending on various factors required in the finished products such as quality, class, workability, manufacturing cost and 5 others. In this step, the adhesive can penetrate sufficiently into the interior of each of the chips or chips because each chip or chip contains only fibers without any water or juice. The chips or flakes are then formed into a desired plate configuration and thus glued together by conventional pressing equipment. The shaped sheet is then subjected to the conventional treatment steps such as hot pressing, sizing, surface sanding and others to provide a finished product.

The chipboard thus obtained will not swell when exposed to water and moisture because it is made of water-resistant chips or flakes glued together. The chipboard has an increased strength and a reduced weight because the 20 chips or chips are glued together more tightly.

The processability of the chipboard is analogous to that of the conventional chipboard. The chipboard can resist rot and insects because the water has been completely removed.

25 An example will now be described below.

First, chips were placed in an autoclave. The air in the autoclave was then replaced with an atmosphere containing 95% or more inert gas. The 30 chips in the autoclave were heated to an temperature of 100 ° C to 200 ° C for a time period between one and two hours. Then the water content of the chips was controlled to 4%.

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A conventional adhesive and a water-repellent material were applied to the chips. The chips were then formed into a desired plate configuration: in a conventional manner without one special or additional instrument or tool.

The molded plates were hot pressed with a 1/2 pressure of 15 to 20 kg / cm at a temperature of

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170 to 180 C for five minutes. The resulting chipboard met the requirements of quality standard JIS 5908 according to which a chipboard should have a density of 0.72 to 0.75, a water content of 2 to 5 to 8%, a flexural strength of 180 kg / cm or more, 2 a flaking resistance of 3 kg / cm, a force, 2 15 for holding wood screws of 50 kg / cm or more, a content of formaldehyde released equal to or less than 5 mg / 1, etc.

Water-resistant chipboards produced by the method of the present invention and samples of chipboards produced by the methods of the prior art were subjected to comparative expansion performance tests based on standards JIS 5908. The results are presented in the accompanying drawing in which the letters A and B denote chipboards of the prior art, while the letter C denotes chipboards of the present invention. This graph shows that the expansion of the water-resistant chipboards of the present invention is less than that of the prior art chipboards.

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Claims (4)

Method for the production of water-resistant chipboards by shaping and by adhering chips or flakes of wood or other vegetable fiber material with the aid of adhesive, characterized in that before the chips or flakes are glued together heats OO to a temperature of 100 ° C to 200 ° C for at least one hour in an atmosphere of 95 ° * or more 10 non-flammable gas as the chips or chips are rotated, allowing water and juice contained in the chips or chips to completely be removed. Method according to claim 1, characterized in that the chips or flakes are heated in a rotating autoclave. 3. Process according to claim 1, characterized in that the resulting chipboards are pressed hot. 4. Process according to claim 1, characterized in that the incombustible gas is selected from the group consisting of inert gases including argon, helium, krypton and others, carbon dioxide, ammonia, sulfur dioxide, nitrogen and a combination of two or more of these gases . 860 3 04 5