EA021782B1 - Cement-shaving plate - Google Patents

Abstract

The invention relates to a cement-bonded, containing as a filling material wood chips building panel (10) comprising a middle layer (3), a lower outer layer (1) and also an upper cover layer (5) and between the middle layer (3) and the respective outer layer (1, 5) an intermediate layer (2, 4) respectively, wherein the intermediate layers (2, 4) contain coarse wood chips (21, 41), which are coarser than the largest wood chips (33) located in the middle layer (3). The building panel (10) is characterized in that the coarse wood chips (21, 41) of the intermediate layers (2, 4) have a length of 40 to 60 mm, a width of 15 to 30 mm and a thickness of 0.35 to 0.65 mm, the covering layer (5) that has emerged from the uppermost layer of a fleece molded during plate making in the finished plate (10) and relative to it containing higher material share than the other covering layer (1). The inventive building panel (10) is improved compared to building panels of this kind, having a lower linear expansion when it absorbs moisture.

Description

The invention relates to a building board according to the preamble of claim 1. Such a building plate is used for the manufacture of planar elements of the building. The building board as a filler contains wood shavings that are bonded with a mineral binder, namely through cement. Building boards, under which further, more precisely, is meant a building chipboard, must have high strength and high water resistance. The latter is achieved, in particular, due to two outer covering layers, which contain small chips. In addition, cement bonded particle boards, in comparison with organically bonded particle boards, have the advantage that they do not contain formaldehydes and are more environmentally friendly and have better fire resistance.

From ΌΤ 2548210 A1, such a cement-bonded particleboard is known. In this 5-layer building board, which has a symmetrical construction, the first outer thin layer is followed by a second layer with larger chips, then the middle layer with small material, then again a layer with larger chips and finally again the outer thin layer (covering layer). The second and fourth layers with larger or coarse chips make a very large contribution to the tensile strength during bending of the plate, and the rough chips are a standard material, namely, chips with a length of 8 to 20 mm and a thickness of not more than 0.8 mm.

The known building board has a generally symmetrical construction, i.e. both covering layers are identical in structure and thickness.

The basis of the invention is to improve a building board of this kind in that it has less linear expansion when absorbing moisture.

This problem is solved using the characteristics of paragraph 1 of the claims. The building board includes five layers, namely, the lying slab, when viewed from the bottom up, has a lower covering layer, an intermediate layer, a middle layer, another intermediate layer and an upper covering layer. Both intermediate layers contain coarse wood chips, which are coarser or, accordingly, larger than the largest wood chips of the middle layer. The coarse wood chips of the intermediate layer have a length of 40 to 60 mm, a width of 15 to 30 mm and a thickness of 0.35 to 0.65 mm. Thus, these shavings are shavings of a large area. The area of these coarse chips significantly exceeds the area of chips in the intermediate layers of the above known plate.

The experiments showed that the linear expansion of the building board proposed by the invention lies in the range from 0.2 to 0.25%, while the linear expansion is checked according to the requirements of norm ΕΝ 318 at 20 ° C and a relative humidity of 30% and changes up to 20 ° C and relative humidity of 85%. Traditionally, linear expansion, in contrast, has a value of 0.3%. This difference means, in other words, that a wall 10 meters long, consisting of building boards proposed by the invention, extends 5 mm shorter than a wall made from traditional boards, with an increase in relative humidity from 30 to 85% and at a temperature of 20 ° C. This is a significant advantage, given that it is necessary to provide a compensation gap to compensate for linear expansion between adjacent building plates. For comparison: previously permitted asbestos chipboards or, accordingly, asbestos-cement chipboards had a linear expansion of only 0.15%, which in itself was an outstanding property. Using the construction board proposed by the invention, it is possible to approach this value significantly.

It can be assumed that the reason for the improved linear expansion value of the building board proposed by the invention is that the property of coarse shavings, when humidity is relatively longer, is shorter in length than small shavings, is transferred to the entire building slab, so that the intermediate layers also prevent to a greater extent in the length of the middle layer and covering layers. In any case, the extension of the individual layers in length does not differ so much so that these layers in the region where they adjoin each other are torn off from each other. Although the mechanism, which is the main reason for the reduced linear expansion, has not yet been technologically studied, it can be assumed that the positive property of the linear expansion of the intermediate layers is transferred to the entire plate.

Due to the middle layer and two adjacent intermediate layers, an I-beam effect appears, which provides particularly preferred physical properties of the plate, while the forces acting on the plate are perceived mainly by the intermediate layers.

Compared with shavings made from standard material used in the intermediate layers of the known board, the shavings in the intermediate layers of the building board according to the invention have a significantly larger area. These chips are critical in order to achieve good linear expansion of the slab. Such coarse chips are more difficult to process, in particular when forming a chip carpet, than smaller chips. It should be borne in mind that very coarse chips do not break when mixed and are not crushed during the formation process. It is also necessary to ensure that coarse chips lie flat in the plane of the slab or, accordingly, the layer in the chip carpet and do not spread significantly

- 1,021,782 per layer thickness, or, in other words, for a lying slab did not extend significantly in the vertical direction. These requirements have so far been in practice an insurmountable obstacle, so therefore the size of the chips for cement chipboards had to be constrained. Oriented particle boards (OSB) do not have this problem, on the one hand, because OSB shavings by means of disk rolls are oriented in the longitudinal direction, which simultaneously prevents orientation along the thickness of the layer, and on the other hand, because it is not used as an adhesive agent cement, which causes problematic contamination on such rolls. In the construction board proposed by the invention, the described problems in the formation of the chip carpet are prevented due to the fact that the chips do not spill, but are laid on the pallet on which the chip carpet is placed.

The middle layer, in addition to several larger chips, may also contain a significant proportion of small chips. Such small chips are always formed in the manufacture of wood chips. This valuable chip material can thus be used, in particular, for the middle layer.

In addition, the inventive building board includes covering layers of various thicknesses. Based on the arrangement of the layers during the formation of the chip carpet, the upper covering layer is thicker than the lower covering layer. This is because, first of all, small chips during the formation of the chip carpet can seep from the upper covering layer into the intermediate layer below it, so that these chips near the finished plate are in the intermediate layer. In order to counteract this effect, in accordance with the invention, a higher proportion of material is provided for the upper covering layer than for the lower covering layer. The proportion of material is considered in weight percent of the material used to form the chip carpet, and therefore relates to a mixture of chips, cement and, if necessary, other substances, in particular additives. If even in the manufacture of the building board, due to the above-described effect, a part of the material initially intended for the upper covering layer falls into the intermediate layer, the finished plate will still have an upper covering layer that is thicker than the lower covering layer. For cement-bonded particleboards, such coating layers of various thicknesses have not yet been provided, since cement-bonded particleboards, in contrast to those in which artificial resin is used as an astringent, are not prone to bending.

Therefore, until now, for cement-bonded particle boards, such coating layers of various thicknesses were not considered necessary.

In particular, the construction board of the invention has a high bending strength of about 12.0 N / mm ² , while traditional boards have a value of about 9.0 N / mm ² . Thus, with the same absolute load, the thickness of the plate can be accordingly reduced.

The construction board proposed by the invention, in comparison with the above-mentioned known board, has the advantage that the edge of the board proposed by the invention is better suited for making a tongue and groove joint.

Preferably, the coarse chips of the intermediate layers are not oriented in the plane of the slab or layer. This means that the chips are not oriented along the length or width of the plate. However, it is undesirable for coarse chips along the thickness of the intermediate layer to have a component of longitudinal orientation. Due to this uniform orientation in the plane of the layer, an improved value of linear expansion is achieved both in the longitudinal and transverse directions of the plate.

In particular, the proportion of the material of the upper covering layer may be significantly higher than the proportion of the material of the lower covering layer. The proportion of the material of the upper covering layer is preferably from one and a half to a maximum of two times the proportion of the material of the lower covering layer.

Preferably, it is provided that the wood shavings of the intermediate layers are distributed homogeneously throughout the thickness of the layer, i.e. regardless of size. In addition to coarse wood shavings, small shavings may also be present in the intermediate layers in the intermediate layers due to manufacture. These small chips can, for example, stick to coarse chips. They can also, when forming a chip carpet, enter the intermediate layer by penetration from the covering layer described above.

In the middle layer, a proportion of small chips is preferably provided, so that this layer may consist of small and several larger chips. The chips of the middle layer are preferably distributed homogeneously.

In contrast, it is preferably provided that the coating layers by air sorting during the formation of the chip carpet acquire an inhomogeneous structure, so that the smallest chips are located on the corresponding surface, and then the chip size increases inward in thickness. This results in a particularly good surface of the building board, namely, a surface with particularly good quality in terms of appearance, smoothness and weather resistance.

- 2 021782

The layer structure of the building board proposed by the invention could, for example, look as follows, while the percentage data related to the proportion of material applies to the entire panel in weight percent: approximately 10% is the lower covering layer with very small, small and larger shavings, approximately 30% - the first intermediate layer with homogeneously located mainly coarse chips, approximately 10% - the middle layer with homogeneously located small and larger shavings, approximately 30% is the second intermediate layer with homogeneous predominantly coarse chips, approximately 20% is the upper covering layer with very small, small and larger shavings inhomogeneously arranged by air sorting. In this case, the chips of both covering layers and the middle layer can occur from the same fraction of chips. Very small shavings of the coating layers are preferably arranged so that they form the surface of the slab. Due to this, these surfaces have a very smooth structure and are, as it were, sealed with these chips against moisture absorption. Therefore, such a building board is suitable, in particular, for use in outdoor work.

Within the scope of the invention, it is also possible that the building board includes more than five layers.

Below the invention is explained in more detail on one of the embodiments, with reference to a single figure. This figure shows the corner portion of the proposed construction board.

The building board is indicated at 10. It includes five layers, namely: the lower covering layer 1, the first intermediate layer 2, the middle layer 3, the second intermediate layer 4 and the upper covering layer 5.

The covering layer 1 includes, with respect to the entire plate 10, a fraction of the material equal to 10%. It consists of very small chips 11, small chips 12 and larger chips 13. The structure of the coating layer 1, in which very small chips 11 are located at the very bottom, above them small chips 12 and finally larger chips 13, is formed by the corresponding air sorting when pouring the chip carpet in the molding machine before the chip carpet was pressed into the slab.

Adjacent to the covering layer 1, the intermediate layer 2 includes coarse chips 21. In the intermediate layer 2 there are also a small amount of very small and small chips, which, however, are not shown. Different sized chips of the intermediate layer 2 are distributed homogeneously.

The middle layer 3 contains small chips 31, small chips 32, which are slightly larger than the chips 31, as well as larger chips 33. These chips are also distributed homogeneously inside the middle layer 3.

The intermediate layer 4 has a structure corresponding to the intermediate layer 2, and along with the coarse chips 41 also contains some not shown very small and small chips.

The upper covering layer 5 consists of shavings with a size distribution similar to that of the covering layer 1, namely: very small shavings 51 are located at the very top, small shavings 52 in the middle and larger shavings 53 at the very bottom. in the image in this figure, the smaller and larger chips 52, 53 seem somewhat larger than the corresponding chips 12, 13 of the lower covering layer 1; however, this is due to the drawing and is not characteristic of the described plate. The covering layer 5 is composed in its inhomogeneous structure as the covering layer 1, however, in comparison with the covering layer 1, it is generally twice as thick or, accordingly, includes a twice as large proportion of the material as applied to the entire plate 10. Very small chips 11 or, respectively, 51 thus form the surface of the plate, which, due to the fineness of the chips 11, 51, have a very good smooth structure.

Both intermediate layers 2 and 4 respectively comprise a fraction of the material equal to 30% of the slab, the middle layer 3 — the fraction of the material equal to 10%, the lower covering layer 1 — the fraction of the material equal to 10%, and the upper covering layer 5 — the fraction of the material equal to 20 %

Claims (6)

1. A building board (10) with cement as a binder and wood shavings as a filler, comprising a middle layer (3), a lower covering layer (1), as well as an upper covering layer (5), and between the middle layer (3) and corresponding coating layers (1, 5) along one intermediate layer (2, 4), and the intermediate layers (2, 4) contain coarse wood shavings (21, 41), which are coarser than the largest wood ones located in the middle layer (3) shavings (33), characterized in that the coarse wood shavings (21, 41) of the intermediate layers (2, 4) have a length from 40 to 60 mm, a width of 15 to 30 mm and a thickness of 0.35 to 0.65 mm, the upper covering layer (5) of the plate (10) containing a higher proportion of binder and filler relative to the other covering layer (1). 2. A building board according to claim 1, characterized in that the coarse wood shavings (21, 41) of the intermediate 3,021,782 exact layers (2, 4) are not oriented in the plane of the plate. 3. A building board according to claim 1 or 2, characterized in that the proportion of binder and filler in the upper covering layer (5) is from one and a half to two times greater than the proportion of binder and filler in the lower covering layer (1). 4. A building board according to one of claims 1 to 3, characterized in that the wood chips (21, 41) of the intermediate layers (2, 4) are distributed homogeneously in size. 5. A building board according to one of claims 1 to 4, characterized in that the wood chips (31, 32, 33) of the middle layer (3) are distributed homogeneously in their sizes. 6. A building board according to one of claims 1 to 5, characterized in that the wood shavings (11, 12, 13, 53, 52, 51) of the covering layers (1, 5) are air-sorted when forming the chip carpet, as a result of which the size of the chips increases inward from outside in the thickness of the layers.