DE202016001881U1 - Laminated timber element - Google Patents

Abstract

Cross laminated timber element (1) with at least two layers (2) each having a plurality of wooden lamellae (3), and with at least one cover layer (4) which has a plurality of cover lamellae (5), characterized in that the cover lamellae (4) of the cover layer (4) 5) one of the adjacent layer (2) facing filling layer (6), one of the adjacent layer (2) facing away from cover layer (7) and between the filling layer (6) and the cover layer (7) arranged intermediate layer (8), wherein the fiber direction of the intermediate layer (8) extends transversely to the fiber direction of the cover layer (7).

Description

The invention relates to a cross-laminated timber element with at least two layers, each having a plurality of wooden slats, and having at least one cover layer, which has a plurality of cover slats.

Furthermore, the invention relates to a cover slat for use in such a cross laminated timber element.

In the construction industry, solid wood panels are referred to as cross laminated timber, which consist of several layers lying flat on top of each other. Such cross laminated timber elements (also thick wood, multi-layered solid wood panel or cross laminated wood called) are used in particular for wall, ceiling or roof structures. An example of a cross laminated timber element is in AT 13 769 U1 described.

Cross laminated timber has a wood moisture content of about 12 percent plus / minus 2 percent. However, due to climatic conditions, wood moisture in heated indoor rooms may drop below 8 percent. As a result of this loss of wood moisture, the board lamellae on the surface dwindle depending on the moisture difference and on the so-called shrinkage and swelling dimension. The shrinkage and swelling rate for softwood across the grain is around 0.25 percent per cent wood moisture difference. This shrinkage creates joints between the individual wooden slats, which affect the appearance of the cross laminated timber.

To remedy this problem, it has been proposed in the prior art to glue together the wooden lamellae on their narrow side, so that the cover layer is formed in the manner of a solid wood single-layer board. The joint formation between the wood slats is minimized, but the shrinkage of the wood manifests itself in this case in an uncontrolled cracking in the individual wood slats themselves. Such cracks in the wood slats affect the carrying capacity of the plate is not essential, but are among the users of optical Reasons undesirable. In addition, it is disadvantageous that the bonding of the wood slats on the narrow sides is associated with an additional operation and thus with higher production costs.

In addition, it is also possible to adapt the wood moisture to the timber moisture balance in interiors during the drying process of the board lamellae. But this causes higher drying costs. In addition, minimum values for the wood moisture must be observed for the adhesive used.

Another way to improve the shrinkage of the board is the use of wooden slats with smaller board widths. However, smaller board widths lead to higher production costs in the area of finger jointing for the production of quasi endless lamellas.

It has also been investigated to replace the wood slats on the visible side by wood-based panels, usually single-layer panels, which, however, in view of the use of materials with. significantly higher costs than ordinary sawn timber.

Accordingly, the object of the present invention is to alleviate or eliminate the disadvantages of the prior art. The invention is therefore in particular for the purpose of specifying a cross-laminated timber element of the type mentioned, with which the effects of shrinkage on the appearance of the top layer of the cross-laminated timber element can be reduced.

This object is achieved by a cross laminated timber element with the features of claim 1 and by a cover slat with the features of claim 9. Preferred embodiments are specified in the dependent claims.

According to the invention, the cover slats of the cover layer have a filling layer facing the adjacent layer, a cover layer facing away from the adjacent layer, and an intermediate layer arranged between the filling layer and the cover layer, wherein the fiber direction of the intermediate layer extends transversely to the fiber direction of the cover layer.

The cross-laminated timber element according to the invention can be used in particular as a cross-laminated board for wall, ceiling, roof or support structures. The cross laminated timber element has on the visible or outer side a cover layer consisting of a plurality of cover slats, which are arranged according to the wood slats of the individual layers side by side, that is abutting one another on the broad sides. The cover slats each have a multilayer structure with at least one inside filling layer, an outside cover layer and an intermediate layer or barrier layer between cover and filling layer, each made of solid wood or a wood material (ie a material by crushing wood and subsequent assembly the wood parts thus obtained is produced) are formed. The filling layer, intermediate layer and cover layer are interconnected, in particular depending a flat adhesive connection between the intermediate layer and the cover layer and the intermediate layer and the filling layer is provided. It is essential for the invention that the fiber direction of the intermediate layer extends transversely, ie in particular substantially perpendicularly, to the fiber direction of the cover layer. As is known per se in the prior art, the swelling and shrinkage dimensions of wood in the fiber direction, ie in the longitudinal direction, and in the transverse direction, ie perpendicular to the longitudinal direction, are very different, the swelling and shrinkage of wood in the fiber direction being substantially lower than in FIG Transverse direction is. This finding makes use of the invention in that the cover layer is underlaid with an intermediate layer twisted in particular by 90 °. As a result, the fibers of the intermediate layer are oriented transversely to the fibers of the cover layer, whereas the fiber direction of the filling layer extends in the longitudinal direction of the cover layer. Since the intermediate layer has a lower shrinkage tendency in the longitudinal direction than the cover layer in the transverse direction, the effects of shrinkage on the cover layer are reduced by the bond between the intermediate layer and the cover layer. Advantageously, crack formation or joint formation on the covering layer forming the visible side of the cross-laminated timber element can thus be prevented or reliably reduced. For the formation of the top layer preferably a high-quality solid wood, such as larch, stone pine, fir or a Laubholzart used. However, the cover layer may alternatively consist of a wood material. The intermediate and filling layer may each consist of a solid wood, in particular softwood, or of a wood material. The cover layer of each cover lamella can consist of one or more adjacent cover layer strips.

In order to use and process the cover slats in the same manner as the wood slats of the layers, it is favorable if the cover slats of the cover layer have substantially the same thickness and / or the same width as the wood slats of the layers. Preferably, the cover slats have the same dimensions, d. H. the same width, length and (wall) thickness, as the preferably single-layer wood slats. In contrast, the cover slats, however, have a multilayer construction with which the shrinkage behavior of the cover layer on the visible side of the cross laminated timber element is improved. The wood lamellae of the individual layers may preferably be made of a softwood material.

According to a particularly preferred embodiment, the wood material of the filling layer has a greater modulus of elasticity or a higher strength than the wood material of the wood lamellae. The greater modulus of elasticity or the higher strength of the wood material of the filler layer in comparison to the wood material of the wood lamellae manifests itself in particular in finer annual rings, and / or smaller branches and / or a higher bulk density. Accordingly, the wood material of the filling layer has a greater modulus of elasticity and / or greater strength than the wood material of the wood lamellae. Preferably, the modulus of elasticity of the wood material of the filler layer of the cover slats is between 1.0 and 2 times, more preferably between 1.05 and 1.5 times, in particular substantially 1.2 times, the modulus of elasticity of the wood material of the wood lamellae of the layers. This embodiment has the advantage that the cover slats can be formed with the same thickness as the wooden slats of the layers, without adversely affecting the mechanical properties of the cover slats by the arrangement of the intermediate layer. This has the advantage that the design of the cover plate for the static design in the application need not be taken into account specifically. Thus, the top layer in the planning can be treated essentially as another layer. Advantageously, the cross laminated timber element in this embodiment can be factory fitted with the cover slats including the cover layer on the visible side, wherein the cover layer has substantially the same rigidity or strength as the layers. This is a significant advantage over known designs, in which cover layers were subsequently applied to the cross laminated timber element. In such embodiments, the cover layers could not be included in the strength rating so that the cover layers were added in addition to the layers required for the application. This disadvantageously resulted in a greater thickness of the resulting cross laminated timber element.

In order to achieve a high-quality appearance, to minimize the use of high quality and therefore costly wood species and to improve the shrinkage behavior, it is advantageous if the cover layer has a thickness of 4 to 10 mm, in particular of substantially 7 mm.

In order to reliably prevent the shrinkage of the cover layer, it is favorable if the intermediate layer has a thickness of 3 to 10 mm, in particular of substantially 5 mm. Due to the arrangement of the intermediate layer, a counter-pull is exerted on the cover layer when moisture differences occur with which the shrinkage of the cover layer is substantially prevented. Thereby, the uniform appearance of the cover layer can be obtained.

In order to dimension the cover slats according to the wood slats of the layers, the filling layer preferably has a thickness of 6 to 40 mm, in particular of substantially 25 mm, on. The total thickness of the cover slats and the wooden slats is between 15 and 45 mm, preferably substantially 20 to 40 mm.

The invention will be explained below with reference to a preferred embodiment, to which, however, it should not be limited. In the drawing shows:

1 a section of a Brettsperrholzelements according to the prior art;

2 a section of a cross-laminated timber element according to the invention, which has cover slats with a filling layer, a cover layer and an intermediate layer arranged transversely to the cover layer; and

3 a section of a cover sheet according to the invention for use in the in 2 apparent cross laminated timber element.

In 1 is a cross laminated timber element known in the art 1 shown. The cross laminated timber element 1 has five flat layers 2 on, which consists of individual wooden slats 3 are composed. The layers 2 are arranged crosswise so that the fiber directions of successive layers 2 are arranged substantially perpendicular to each other.

2 also shows a cross laminated timber element 1 with several, in the embodiment shown four, layers 2 , each of parallel juxtaposed, board-shaped wooden slats 3 consist. The layers 2 are glued together in a known manner. In addition, the cross laminated timber element 1 or the cross-laminated board one with the lowest layer 2 bonded top layer 4 on, which consists of several parallel juxtaposed, board-shaped cover slats 5 consists. The cover slats abut each other on the broad sides, ie the joints between the cover slats 5 are preferably closed.

How out 2 can be seen, the cover slats 5 the topcoat 4 essentially the same thickness, the same width and the same length as the wooden slats 3 the layers 2 on. This allows the cover slats 5 in production as the single-layer wooden slats 3 the layers 2 processed and also finger-jointed.

How out 2 . 3 can be seen, the cover slats 5 the top layer 4 a multi-layered construction. In the embodiment shown is a filling layer 6 , which with the transverse wooden slats 3 the neighboring (lowest) location 2 is connected, one the visible side of the cross laminated timber element 1 forming covering layer 7 and an intermediate layer disposed therebetween 8th intended. The fiber longitudinal direction of the intermediate layer 8th is substantially perpendicular to the fiber longitudinal direction of the cover layer 7 , whereby the intermediate layer 8th as a counter element for the associated cover layer 7 is trained. As a result, the shrinkage of the top layer 7 prevented or at least significantly reduced. In the embodiment shown, the cover layer consists 7 every cover lamella 5 from two cover layers of the same width. However, it can also be a continuous cover layer 7 be provided (not shown).

To the cover slats 5 the top layer 4 with one of the wooden slats 3 form appropriate strength, the wood material of the filling layer 6 a greater modulus of elasticity and a higher strength than the wood material of the wood lamellae 3 on. In the embodiment shown, the cover layer 7 a thickness (ie an extension perpendicular to the main plane of the cross laminated timber element 1 ) of substantially 7 mm. The thickness of the intermediate layer 8th is in the embodiment shown substantially 5 mm. The filling layer 9 has a thickness of substantially 6 up to 40 mm.

It is understood that the illustrated embodiment of the cross laminated timber element with exactly four layers 2 and exactly one cover layer 4 is merely exemplary. Of course, the cross laminated timber element 1 even only two or three layers 2 , but also more than four layers 2 , for example, five layers 2 , exhibit.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• AT 13769 U1 [0003]

Claims (10)

Cross laminated timber element ( 1 ) with at least two layers ( 2 ), which in each case several wooden slats ( 3 ), and with at least one cover layer ( 4 ), which several cover slats ( 5 ), characterized in that the cover slats ( 4 ) of the cover layer ( 5 ) one of the adjacent position ( 2 ) facing filling layer ( 6 ), one from the neighboring location ( 2 ) facing away cover layer ( 7 ) and one between the filling layer ( 6 ) and the cover layer ( 7 ) arranged intermediate layer ( 8th ), wherein the fiber direction of the intermediate layer ( 8th ) transverse to the fiber direction of the cover layer ( 7 ) runs. Cross laminated timber element ( 1 ) according to claim 1, characterized in that the cover slats ( 5 ) of the top layer ( 4 ) substantially the same thickness and / or the same width as the wooden slats ( 3 ) of the layers ( 2 ) exhibit. Cross laminated timber element ( 1 ) according to claim 1 or 2, characterized in that the wood material of the filling layer ( 6 ) a greater modulus of elasticity and strength than the wood material of the wood slats ( 3 ) having. Cross laminated timber element ( 1 ) according to one of claims 1 to 3, characterized in that the cover layer ( 7 ) has a thickness of 4 to 10 mm, in particular of substantially 7 mm. Cross laminated timber element ( 1 ) according to one of claims 1 to 4, characterized in that the intermediate layer ( 8th ) has a thickness of 3 to 10 mm, in particular of substantially 5 mm. Cross laminated timber element ( 1 ) according to one of claims 1 to 5, characterized in that the filling layer ( 6 ) has a thickness of 6 to 40 mm, in particular of substantially 25 mm. Cross laminated timber element ( 1 ) according to one of claims 1 to 6, characterized in that the wooden lamellae ( 3 ) successive layers ( 2 ) are arranged at an angle of preferably 90 ° to each other, wherein the cover slats ( 5 ) at an angle of preferably 90 ° to the wooden slats ( 3 ) the related situation ( 2 ) are arranged. Cross laminated timber element ( 1 ) according to one of claims 1 to 7, characterized in that at least three layers ( 2 ) consisting of several wooden slats ( 3 ) are provided. Cover plate ( 5 ) for use in a cross laminated timber element ( 1 ), characterized by a filling layer ( 6 ), a topcoat ( 7 ) and one between the filling layer ( 6 ) and the cover layer ( 7 ) arranged intermediate layer ( 8th ), wherein the fiber direction of the intermediate layer ( 8th ) transverse to the fiber direction of the cover layer ( 7 ) runs. Covering slat according to claim 9, characterized in that the filling layer ( 6 ) and / or the cover layer ( 7 ) and / or the intermediate layer ( 8th ) consists of a wood material.

Images