EP0762951B1 - Timber structural component with timber layers - Google Patents

Abstract

The invention relates to a timber structural component with at least two timber layers in which at least one timber layer (10-10f) has at least one cut-out (24, 24') which, at least on one side and/or in regions, has a structure (12, 12') in which said structure can take the form of grooves. According to the invention, the timber layers run mutually diagonally, whereby the structure (12a, b, c) or grooving of the layers (10', 10'', 10''') preferably run uniformly diagonally to one another.

Description

The invention relates to a wooden component with wooden layers according to the preamble of Protection claim 1. Such a wooden component can be used for walls, ceilings or Roofs and the like of buildings, vehicles, etc. are used. This Wooden component has at least two layers of wood.

Such a wooden component is already known from G 92 07 654.8. The wooden building element has at least five layers and has a rusty arrangement, crosswise and in parallel layers. This training will be a good one Stability and a certain freedom from shrinkage achieved, which also allows excess Use wood from wood edge products. A middle layer consists of side to side spaced strips, boards or the like. These distances result Cavities that lead to weight savings on the one hand, but on the other hand Represent cold or heat bridges. The poor sound is also disadvantageous insulation values achieved by this wooden building element. Another disadvantage is that cracks form very easily when drying the boards or strips, so that the boards or strips to committee and are no longer used for the wooden building element can be.

From DE-C-835 646 is a wooden board as a component of layers Known members that has several layers of wood, at least on one side with a Structure are provided, wherein the structure is a grooving in the longitudinal direction of the wooden layers or boards that make up the wooden layers are. However, the wooden construction elements described here are only relatively difficult and cumbersome to manufacture, since it is not possible to make corresponding wooden building elements endless to manufacture. The endless production is prohibited here because of the existing and used boards with predetermined dimensions each to a specific one Dimensioning of the known wooden components lead, so that always at a distance from certain standard board dimensions a certain wooden building element with a certain length arises.

Other wooden components or prefabricated components made of wood are from G 93 02 447.9 U1, DE-GM 1 838 415, DE-GM 75 32 453, DE-GB 1 920 170, DE 25 33 149 A1, DE 92 09 042.7 U1, DE 38 14 589 A1 and US-A-4,086,382 known.

From FR-A-12 43 219 a multilayer plywood board is known, the elements for continuous production are arranged diagonally to each other.

The invention is based on the object in the simplest possible way with simultaneous Reduction of the reject of a wooden building element with high heat or To provide sound insulation values, which is particularly easy in mass production lets produce, especially lets produce endlessly.

The object underlying the invention is achieved by a wooden component with the Protection claim 1 listed features solved.

The advantages to be achieved according to the invention are based on the fact that Wood component according to the invention can be produced endlessly if the at least two or more layers of wood are arranged diagonally to one another, the structure or the grooving preferably substantially parallel to the longitudinal edges of the wooden layers or the board that forms them. The structure can also be corresponding run diagonally or in a different way diagonally, parallel or crosswise. It can also individual slots in series or offset from one another, crosswise or in another Alignment should be provided. Also zigzag slits, slits in serpentine lines run or individual holes can be provided. The structures are there preferably not formed through the wood material, i.e. they provide Recesses but not through holes.

Due to the diagonal laying of the wooden layers, endless panels can be produced mechanically, the wooden components ultimately produced, for example wooden panels, Prefabricated elements for houses or the like, due to the diagonal laying are static far more stable. In addition, the present invention offers due to the possible continuous plate production economic benefits.

The components according to the invention have at least one cut that is provided at least on one side and / or in some areas with a structure, the Structure is preferably formed as a grooving. The structuring or scoring on the wooden layers can face each other either exactly or unguided, as well offset from each other. The structures on one surface of a Wooden components can add to the structures on the other surfaces of the wooden component be offset, run at an angle to these or otherwise differ. By such measures will increase the stability of the otherwise very light wooden component further improved according to the invention, which at least partially fails or foaming of cavities, in particular due to the structuring, too can be dispensed with. A more differentiated glue application is also made possible.

The different layers of wood or their boards can be at an angle of about 30 to 75 ° to each other can be arranged diagonally, with angles of approximately 45 ° to 65 ° preferred become. The grooves or the structure of the wood layer can roughly match the run at the same angle or are also provided with different angles his.

It is also advantageous that according to the invention or innovation on center plates between the at least two layers of wood can be dispensed with, so that material-intensive Intermediate layers can be omitted if necessary.

The wooden construction element designed according to the invention, in particular with diagonally laid Wood layers, allows a much better adaptation of the panel thickness to building physics Points of view.

There are particular advantages if the structure is at least partially with a preferably foam-like feeler is provided, whereby the insulation values in general have it improved.

A major material disadvantage of wood, namely swelling and shrinking, largely compensated. A change in length due to humidity or temperature changes essentially only takes place in the wood fiber direction. Now run at different layers of wood the grain is different and these layers of wood attached to each other, e.g. by gluing, so a shrinking or swelling of the Wooden building element strongly inhibited. A major disadvantage of wood as a material leads to the formation of gaps between the individual blocks, particularly in log houses, is fixed.

The grain of wood in the layers of wood that follow one another can differ. For example, from three layers of wood, at least two should be different Wood fiber gradients have to reduce the shrinkage characteristics of the wood in to be able to compensate advantageously.

Advantages of the invention also lie in the fact that, on the one hand, the known advantages of wood, such as. good heat and moisture storage capacity, high strength values and high Thermal insulation ability and the negative properties are maintained of wood, such as poor sound insulation ability and high weight, avoided or reduced become.

According to the invention it is also achieved that the recyclable, naturally renewable, CO ₂ -binding, in short, extremely environmentally friendly material wood can be used in a variety of ways in construction and can be used instead of other, less environmentally friendly and more difficult to process building materials. The wooden construction element according to the invention can also be used in the manufacture of doors, furniture, etc., in particular as a door panel, etc.

Advantageously, an increasing number of layers of wood makes a higher one Stability achieved. This makes it possible to process wood that is normal Use for construction purposes are usually not useful. That means it can too extremely weak wood, recycled wood or firewood can be used. Can too According to the invention birch, beech or oak wood and wood that is a marginal product or as excess in the sawmill during production.

However, it is preferred to be approximately 18 to 24 mm, in particular approximately 20 to 22 mm, thick Boards to be processed according to the invention, since such wood materials are generally available (e.g. for Euro pallets etc.).

If necessary, the conventional one could also be regarded as independently inventive Wooden component with the largely biological filler at least partially to fill in.

For gluing the wood layers, for example, types of urea resin, types of resorcinol resin, Melamine resin types of glue or polyurethane glue are used, whereby the latter are preferred.

The individual elements that make up the layers of wood are made from fresh, green wood or cut from pre-dried raw material. These blanks are according to the invention with structures such as a variety of longitudinal or transverse grooves or crevices. As Structure is generally understood to mean a plurality of indentations that are in the blanks e.g. by sawing or milling. The structure is preferably elongated and straightforward. If necessary, however, it can also be curved or branched his. The grooving can e.g. have rectangular, trapezoidal, round or oval grooves.

The structure of the cuts combine deformations of the wood during storage or the final drying of the blanks so that the reject rate is minimized. This is a major advantage over the known wooden building elements.

The structure also saves a lot of weight compared to solid wood achieved without significantly reducing the stability of the wooden board. The weight saving is, for example, about 30%. By saving weight, it is possible to structured blanks to pack more densely and on spaces or cavities between the blanks. As a result, compared to the state the technology a higher stability compared to approximately the same weight savings Solid wood is achieved. Furthermore, you can reach by closely lying wooden layers in the Better insulation and insulation properties compared to the state of the art.

The structuring of the wood, e.g. in the form of a variety of longitudinal or transverse grooves also the advantage of a compared to just a few large spaces better heat and cold insulation, because the mobility of the enclosed gases or the trapped air is significantly reduced. In addition, the variety the different chambers that result from the structuring, an effective Sound propagation prevented.

A wooden component designed according to the invention is particularly advantageous has at least four, preferably five layers or more. Such a wooden building element has tongue and groove-like configurations laterally and / or upwards and downwards. Such trained wooden building elements, which are roughly the dimensions of bricks can easily be inserted into each other, for example, with each other Combine mortar, concrete, glue or wood glue and in this way extremely beneficial for Use construction purposes.

Are such wooden building elements or bricks arranged in a composite, i.e. for example built up in the form of a wall, it is particularly advantageous if the layers and / or their scoring differently, preferably in the opposite direction, run. In this way, individual cavities that are enclosed by the Grooves result in being locked against each other, which results in better Thermal insulation properties result. On the other hand, such structures can Wooden building elements due to the different layers and / or grooving be particularly stable and free of distortion with regard to their statics.

Of course, the stability of a wooden component constructed according to the invention suffers Part of the building is not essential in that successive wooden blocks or - have elements layers whose course to each other is the same as the course of a previous one or subsequent wooden building block or element.

For a better bond between the wooden components and better stability of being able to accomplish the wooden components with one another in an advantageous manner, it is advantageous if the groove-like or tongue-like formations are consecutive in the network Wooden components relative to the direction of formation of the layers or scoring are provided on different or opposite sides.

The grooves or the structures can also in one of the vertical to the Layer or board surface deviating direction in the wooden layers. Two such, adjacent surfaces of two successive layers thus result in a herringbone pattern in cross section, which has the advantage that by the The grooves are oriented at an angle to the surface and these are laid deeper can. As a result, more material can be obtained from the individual layers of wood relative to the surface be removed. This increases the thermal insulation value considerably and the structures in successive layers can be more successive when connecting Insulate wood layers better from each other.

Advantageously, wooden building elements or bricks according to the type explained above used, groove designs can be partially recessed to be integral To create voids in the construction of a part of a building, through which electricity or Water pipes or the like can be laid.

The structures of the blanks also advantageously have unevenness and fringes, which are produced in a casual manner when sawing out or milling out the structures. This Surface roughness results in connection with the foam-like filler that Wood component or the structures according to the invention at least partially fills one greatly increased contact area between the filler and the wood. Because this filler advantageously connecting, i.e. contains glue-like components, this leads to a significant improved stability of the wooden component compared to the prior art, because there only smooth blanks are glued.

The filler also significantly increases the sound absorption properties and the insulation properties of the wooden component. Large cavities have the property of cold bridges to build. The structuring makes it possible to keep the cavities as small as possible to keep and thus cancel their nearing cold bridge property and still the Advantages of the cavities, namely a lower weight of the wooden component, material savings and maintain the insulation properties of the air. The filler reinforced now the insulation properties of the wooden component once again significantly and leads thus good insulation values, but above all also good sound insulation values of the wooden component according to the invention.

A foam-glue mixture or possibly a filling mixture is preferred as the filler is as biological as possible. For example, a glue containing or made of lignin exists.

The more layers of wood are combined to form a wooden component according to the invention, the more advantageous properties such as stability and insulation properties are reinforced and soundproofing. The stability is ensured by a variety closely adjacent and superimposed blanks with different wood fiber direction achieved. The weight saving and the better sound insulation and insulation properties do not result from the multitude of those filled with a filler interconnected chambers or structures. In this way, according to the invention from a natural product an easy-to-work construction material with close ideal properties achieved.

According to an embodiment of the invention, at least one of the two external wooden layers designed as a so-called top layer. A top layer consists of at least one blank that only on the inside of the wooden component flat side can be provided with a structure. On the opposite, flat, this top layer is planed, scrubbed, brushed etc. to the outside to achieve the smoothest possible surface.

Instead of these top layers, non-structured blanks or thin boards can also be used (Thickness e.g. 6 mm) can be used. The outer layers of wood can e.g. also trained in only a certain type of wood and / or a certain wood fiber direction be in order to achieve the most advantageous optical impression possible.

The wood fiber directions of the blanks forming a wood layer advantageously run parallel to each other at least in some areas. This makes it possible to manufacture of a wooden component according to the invention more easily achieve that the wood fiber direction Adjacent layers of wood are essentially perpendicular to each other. A swell this can effectively counteract or shrink the wooden construction element, while the stability of the wooden component can be increased.

The structure running approximately parallel or approximately perpendicular to the grain, e.g. is designed in the form of grooves or crevices or other types of depressions In addition, the simplest and clearest possible structure of a wooden building element.

Advantageously, the individual blanks are close to each other in order to be next to the Structures to avoid additional larger gaps and high stability and To ensure compactness of the wooden component.

As a rule, the cuts are boards, such as thin boards with a thickness that can be less than 1 cm, but preferably in a range of thicknesses from 18 to 24 mm. As a result, the wooden construction element can have more layers of wood with the same thickness than if it were assembled from thicker blanks. Thus achieved greater stability. In addition, the number of not together increases connected and thus isolating or insulating chambers or structures. In addition it is avoided that a particularly deep structuring of the wooden components must be made to achieve sufficient weight savings.

The insulation preferably has good stability and very good heat, cold and Noise insulation properties. As a rule, the insulation material forms together with a glue a foam-like filler that connects the wood layers or the blanks. The insulation material can also consist of a cellulose mass.

The glue is preferably a one-component adhesive, in particular a formaldehyde-free one and CFC-free polyurethane adhesive. The glue can also be a glue on natural Base or a multi-component adhesive.

Of course, the raw material can be used to produce different cuts in individual Wood layers may be the same or different in cross-section and quality.

The wooden construction elements are advantageously on their lower and / or upper end faces with connection profiles for connecting to a floor or ceiling threshold Mistake. The connection profiles on the outside are preferably protruding trained to overlap the threshold.

In order to connect the wooden structural elements to one another, they preferably have edges Tongue and groove in the wood fiber longitudinal direction or also across. The individual wooden building elements are joined together with glue and / or fasteners so that they are arranged largely close together or even interlocking. A variety individual interlocking wooden components thus result in a dense and stable Connection of a composite wooden building element.

A wall made of various wooden building elements can thus be made windproof. she is nevertheless due to the special properties of the wood and the damping material breathable.

If necessary, installation lines can be built into the wooden construction element during manufacture or cavities for receiving installation lines incorporated or in these be provided. This makes the building itself extremely efficient and therefore economical cabling guaranteed. This also has the great advantage that you can always can change, relocate or extend all cables, lines etc. without anything cut, drilled or modified on the walls. It is the same of course also with the sanitary lines, such as gas, water, heating, ventilation, Telephone / fax and satellite lines. Lines are preferably after Europe-standardized system (s) provided.

The wooden construction elements in various prefabricated grid sizes are particularly advantageous educated. This makes it possible in the manner of a modular principle Easy installation of any wall and ceiling sizes quickly, efficiently and easily create. The dimensions of the wooden building elements vary, as a rule however, the octametric system of measurement of the masonry grid - i.e. an eighth meter - manufactured, and dimensioned in terms of weight and size manageable. Your area of application is versatile. So they can be used as floor, ceiling or roof panels, as well as separating or Can be used. In addition to use for all types of buildings, such as Residential buildings and public buildings, is even the wooden building element according to the invention for the half-timbered building is ideally suited.

Of course, the wooden component according to the invention can also be used as a corner or transverse component be trained. This also makes final assembly easier.

It is also possible to design the wooden construction element in a curved shape. For this, the blanks forming the wood layers are made according to a special system assembled, resulting in a curved or curved shape of the wooden component results. This creates special design options, e.g. at the Construction of a building.

It is also conceivable that the wooden building elements in mixed construction with plastic, other recyclable or natural building products. Through a combination of different types Building materials with the wooden component according to the invention can have the properties the wooden component, e.g. Sound insulation properties, thermal insulation properties or Heat capacity properties can be influenced or controlled in a targeted manner.

Of course, walls made from the wooden construction elements according to the invention both from the outside and from the inside with any material, such as Plasterboard, Wallpaper, colors, etc., are provided to ensure both the optical properties such also change the material properties of this wall.

From the above sections it can be seen that the advantageous design features in combination with one another or with the features according to the invention entirely significantly contribute to the surprising object of the invention advantageous to solve, since the heat and sound insulation values improved in an unexpected way be, the freedom from deformation and the mechanical stability of the components according to the invention additionally catch the eye.

It is particularly advantageous that green, fresh raw material or wood or possibly pre-dried raw material used can be, so that a shrinkage or deformation both in length and can almost be excluded in width. Then the raw material or Provide wood with structures, for example, in different variations. Then it can Wood are subjected to a preferably biological drying process. This results in the possibility of extremely ecological and economical outdoor drying and then requires only a small amount of time and effort in the final processing Money for the final drying. A major advantage is that with this type of drying the already structured blanks is prevented that with appropriate storage the wood deforms or twists. This decisively minimizes the reject rate. The wood does not have to be stacked and made by conventional, expensive processes are dried, but has so many channels through the grooving that the wood can dry itself very well in the natural process (air drying).

After the individual layers of wood have been glued, the wooden construction element is made to measure cut and in particular milled all around, the milling being carried out in this way is that any glue residues in the tongue and groove area are removed. The outer edges are also chamfered so that the neighboring ones Elements can be put together quickly and easily. Through this precise prefabrication of the wooden elements are almost uneven and uneven Substructure, e.g. a slatted frame, etc., for a covering to be applied is therefore omitted both for the inside and for the outside.

Fig. 1

ein Holzbauelement mit diagonal verlaufenden Zuschnitten und Rillierungen in einer perspektivischen Explosionsdarstellung;

Fig. 2

ein Holzbauelement mit im wesentlichen parallel zu den Zuschnitten bzw. Holzlagen verlaufenden Rillierungen in einer Schnittdarstellung;

Fig. 3

Zuschnitte von Holzbauelementen in einer perspektivischen Expolosionsdarstellung;

Fig. 4

ein Holzbauelement mit im wesentlichen parallel zu den Zuschnitten bzw. Holzlagen verlaufenden Rillierungen in einer querschnittlichen Darstellung;

Fig. 5 und Fig. 6

eine Seitenansicht eines strukturierten Zuschnitts;

Fig. 7

eine Seitenansicht dreier nebeneinander angeordneter strukturierter Zuschnitte;

Fig. 8

mehrere übereinander kreuzweise angeordnete Zuschnitte bzw. Holzlagen;

Fig. 9

ein bereichsweise ausgeschäumtes Holzbauelement mit fünf Holzlagen;

Fig. 10

eine perspektivische Ansicht eines ausgeschäumten Holzbauelements mit fünf Holzlagen und zwei Decklagen;

Fig. 11

eine Seitensicht zweier Holzbauelemente mit Nut- und Federeinrichtungen;

Fig. 12

eine Seitenansicht eines Holzbauelements mit einem eingebautem Installationsrohr;

Fig. 13

eine Seitenansicht eines in Mischbauweise mit Kunststoff ausgeführten Holzbauelements; und

Fig. 14

ein Holzbauelement mit diagonal verlaufenden Zuschnitten bzw. Holzlagen in einer Explosionsdarstellung.

Preferred exemplary embodiments according to the invention are explained in more detail below with reference to the attached figures. Further advantages and features according to the invention are disclosed. Show it:

Fig. 1

a wooden component with diagonally running blanks and scoring in a perspective exploded view;

Fig. 2

a wooden component with grooving running essentially parallel to the blanks or wooden layers in a sectional view;

Fig. 3

Cuts of wooden building elements in a perspective exploded view;

Fig. 4

a wooden component with grooving running essentially parallel to the blanks or wooden layers in a cross-sectional representation;

5 and 6

a side view of a structured blank;

Fig. 7

a side view of three juxtaposed structured blanks;

Fig. 8

several cuts or layers of wood arranged crosswise one above the other;

Fig. 9

a wooden building element with five layers of wood foamed in some areas;

Fig. 10

a perspective view of a foamed wooden component with five layers of wood and two top layers;

Fig. 11

a side view of two wooden components with tongue and groove devices;

Fig. 12

a side view of a wooden component with a built-in installation pipe;

Fig. 13

a side view of a mixed construction with plastic wooden component; and

Fig. 14

a wooden building element with diagonally running blanks or wooden layers in an exploded view.

As far as the same reference numerals in the various embodiments below are used, these designate the same or functionally identical components.

1 shows a particularly advantageous wooden component according to the invention. This has wooden layers 10 ', 10' ', 10' '' running diagonally to each other. This are connected to each other in the finished wooden component, for example by press gluing. The grooves 12a, 12b, 12c of the wooden layers 10 ', 10' ', 10' '' can also run diagonally, the course of the grooves with the course of the wooden layers 10 ', 10' ', 10 '' 'can go along and / or the grooving 12e run in a different direction can, like the wood layer 10 '' 'itself or the wood fibers of the wood layer 10' ''. However it will preferred for manufacturing reasons if the structuring or grooving at least substantially parallel to the longitudinal edges of the wooden layers or their Cuts runs.

The grooves can also be interrupted so that they are in the form of individual in a row arranged or separate slots are present, but not due to the board material go through. The individual slots have the advantage that the slots in the wooden component form individual closed air chambers. The slots can also be crosswise or be staggered. You can also use slots or holes Holes can be provided as a structure alone.

On the one hand, thanks to the diagonal gradients, these wooden building elements are infinite and on the other hand the shrinkage behavior and the stability becomes very positive influenced. It can also be diagonally aligned with the wood layers Groovings 12a-c take place to the extent that an air exchange takes place that walls made of these Wooden building elements are well ventilated, but not to the extent that heat transport could take place.

It is not necessary to fill the grooves 12a-c with a foaming filler. can be an option.

Fig. 2 additionally shows that the grooves 12a-c running parallel to the wood layers wooden layers 10 ', 10' ', 10' '' lying one on top of the other can overlap each other and / or can partially cover or come to lie on top of each other.

3 and 4 show wooden layers 10 ^IV and 10 ^V with a "herringbone pattern". The grooves 12d, 12e have an angle of inclination to the flat surface of the wooden components 10 ^IV , 10 ^V. As a result, the grooves can go less deep into the wood material at the same depth, so that thinner boards can be used for the wood layers. Here, too, the wooden layers 10 ^IV and 10 ^{V can be laid} diagonally or vertically, if necessary in parallel, the grooves advantageously running essentially parallel to the longitudinal edges of the wooden layers or their boards, as can be seen from FIG. 4.

All angles are suitable for diagonal laying, especially between 35 and 85 °, preferably between about 50 and 70 °.

5 shows a side view of a blank 24 of a wooden component according to the invention, how it can be arranged in particular on its surface. This cut has a structure on one side. This structure is in the form of vertical to the smooth surface 26, parallel, trapezoidal grooves 12, which can in principle have any geometry. On the walls of the grooves can be made of wood splints that create a stronger bond between the structured blank 24 and a filler 22, not shown in this figure can. If this blank is used as a top layer, it is advantageous to use it To process surface 26 by planing, scrubbing or brushing, etc. to achieve the smoothest possible outer surface. Are between the grooves 12 web-like sections 14 stopped.

The wood layers can be laid diagonally, in particular in the direction of the fibers Grooves can be aligned equally or differently.

The structure or grooves do not necessarily have to be made of insulating material or a foam-like one Filler are filled because the air in the grooves 12, 12 'is also isolated and can hardly or not circulate due to the small dimensions.

6 shows a side view of a blank 24 structured on both sides. In this case are trapezoidal or perpendicular to the two broad sides of the blank 24 on both sides funnel-shaped grooves introduced. The grooves go so deep that only a narrow core 16 of the blank remains, which is preferably smaller than a third of the blank. Here too, frayed wooden prongs can be provided, which provide a firm connection favor with the foam-glue mixture filling the wooden construction element.

For example, as shown in FIG. 7, three structured blanks can be arranged next to one another 24a to 24c. Since only one blank 24 each Can form wood layer 10, these three blanks 24a to 24c can also as wood layers 10a up to 10c. The blanks can also be carved into a herringbone shape or be provided with grooves 12 'with a trapezoidal shape. By the herringbone shape predefined directions of the blanks 24a and 24b could be opposite run, whereas the directions of extension of the blanks 24b and 24d to each other could run in parallel.

8 shows five blanks 24a to 24e superimposed on one another. The structuring is at the blanks 24d and 24b recognizable. Again, they were perpendicular to the broad side of the blanks 24b and 23d, trapezoidal depressions 12 are introduced. The cuts 24a, 24c and 24e can be provided with a structure. However, it can also be trade unstructured blanks. One or more grooves 13 be provided, the connection with other blanks or wooden components serve. The individual blanks 24a to 24e can in turn represent wooden layers 10.

FIG. 9 shows a wooden component 28 in which each of the wooden layers 10 consists of only one Blank 24a to 24e exists. The wooden component is at least in areas with one Filler, preferably a foam-glue mixture 22 filled out. This largely fills the cavities resulting from the depressions 12.

10 shows a perspective view of a foamed wooden component 28. It can be seen here that the wooden layers 10a and 10e are designed as cover layers. they are therefore only have a structure on one side. The intermediate layers of wood 10b to 10d are provided with a structure on two sides. The cavities of the wooden building element are filled with the filler 22.

Fig. 11 shows two wooden components 28a and 28b, the one groove device 13 and one Have spring device 13 '.

Fig. 12 shows a side view of a wooden component 28 with a built-in installation pipe 30. This installation pipe is in the filler 22 between two unstructured Cover layers 18 embedded. The installation pipe 30 lies in one through the cuts 24a and 24b formed wood layer 10.

Fig. 13 shows a side view of a mixed construction with plastic Wooden building element 28. The two wooden layers 10a and 10b lying in the middle consist each from two blanks 24a and 24a 'or 24b and 24b'. Between the cuts plastic 32 is in a wooden layer. The two cover layers are made of unstructured Boards 18 formed.

It would also be possible to join blanks into corner elements. So could For example, three composite cuts, one curved or curved Form wood layer. At the connection points, they could be made using suitable connection devices get connected. Rectangular channels or grooves could be depressions form that run perpendicular to the plane predetermined by the curvature.

FIG. 14 again shows a very particularly advantageous embodiment according to the invention, in which the wooden layers 10 ^VI , 10 ^VII , 10 ^VIII are laid diagonally to one another in order to form a corresponding wooden structural element together; The grooves 12a, 12b, 12c run essentially parallel to the longitudinal edges of the wooden layers 10 ^VI , 10 ^VII , 10 ^VIII or to the longitudinal edges of the wooden boards from which these wooden layers are constructed. A sectional illustration of the embodiment according to FIG. 14 could be seen in FIG. 2. The embodiment according to FIG. 14 could also be provided with the "herringbone" grooves shown in FIG. 4. The wood layers 10 ^VI , 10 ^VII , 10 ^VIII are connected to one another, for example by press gluing. This embodiment is particularly suitable for continuous processing or manufacture.

Claims (13)

1. Wooden construction element

   with at least two wooden layers -

   with at least one wooden layer (10-10f) which has to be cut at a minimum calibre, (24, 24') and is structured on at least one side and/or partially (12, 12'). Structure may be shaped in form of flutes,
   definitely described by

   wooden layers being composed of a number of boards,

   those wooden layers (10', 10'', 10''') running diagonally to each other. Structure, flutes and/or slits (12, 12b, 12c) of those layers (10', 10'', 10''') also running diagonally to each other.

   The cavities between the wooden layers of the construction element must be, at least partially, filled with foamed spacing material.
2. Wooden construction element defined in right No. 1,
   definitely described by the fact that

   the foamed spacing material is a mixture of foam and glue.
3. Wooden construction element defined in right No. 2,
   definitely described by the fact that

   the Polyurethan-glue is free of Formaldehyd and FCKW.
4. Wooden construction element defined in rights 1 - 3
   definitely described by the fact

   that at least one of the outside wooden layers may be built up by a covering layer (10) and/or at least by one unstructured cut.
5. Wooden construction element defined in rights 1 - 3,
   definitely described by the fact

   that the wooden layers are diagonally arranged to each other in an angle of about 30° to 75°, particularly of about 65° or 45°.
6. Wooden construction element defined in one of the above rights,
   definitely described by the fact

   that the flutes (12, 12') are worked in a way that they will be running primarily parallely or approximately in upright position to the direction of the wood fibres and whereby the flutes (12, 12') preferably on the top of the layers are running in a different angle to the vertical line, result of which is a herringbone pattern.
7. Wooden construction element defined in one of the above rights,
   definitively described by the fact

   that the wood fibres of neighbouring wooden layers (10-10f) essentially are running at right angles to each other.
8. Wooden construction element defined in one of the above rights,
   definitively described by the fact

   that it is showing connecting profiles on the upper or lower sides, so that floor or ceiling sills my be joined together. Those connecting profiles preferrably are
   worked out on the edges in order to overlap the sills.
9. Wooden construction element defined in one of the above rights
   definitely described by the fact

   that it shows groove (13) and tongue (13) on the edges, preferrably length-ways to the direction of the wood fibres and that the installations (30) or cavities for the integration of installations are already worked out or planned.
10. Wooden construction element defined in one of the above rights
    definitively described by the fact

    that it shows at least four, preferrably five layers and that those layers are provided with groove and tongue connections on their sides and/or on their bottom and top.
11. Wooden construction element defined in right no. 10,
    definitively described by the fact

    that the layers and/or their flutes when being connected to successive elements, will be arranged in different, preferrably in opposite direction.
12. Wooden construction element defined in right no. 10 or 11,
    definitively described by the fact

    that the groove and tongue connections of successive wooden elements will have the same direction as the flutes on the layers. Therefore the direction of the layers may be as well diagonally to one side as well as to the opposite side.
13. Wooden construction element defined in right no. 1 - 12 to be used for ceilings, walls, floors or roofs of buildings.

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