DE102022204189A1 - Board block - Google Patents

Abstract

The invention relates to a board block (1), - with several layers (3a, 3b) of boards (2), the boards (2) being aligned orthogonally to one another in two touching layers (3a, 3b), - with several at an angle a surface (4) extending through holes (5), in each of which an inclined dowel (6) is inserted, the boards (2) of the board block (1) being fixed to one another via the inclined dowels (6), - with at least one orthogonal to one Blind hole (7) running on the surface (4a) for receiving a connecting bolt (8), - with at least one locking hole (9) running transversely to this blind hole (7) and at least partially intersecting it, into which a locking dowel (10) can be inserted.

Description

The present invention relates to a board block. The invention also relates to a wood block composite with at least two such interconnected board blocks.

In the latest report from the Intergovernmental Panel on Climate Change (published in April 2022), the world's leading climate scientists describe the path to emissions neutrality that humanity must follow over the next three decades in order to limit progressive global warming to 1.5 degrees. In addition to comprehensively decarbonizing all existing industries, it will also be necessary to create new industries that remove and store greenhouse gases that have already been emitted from the atmosphere, the report says.

Building with wood plays a special role in this context: During the growth phase, trees absorb carbon dioxide from the atmosphere through photosynthesis and store it in the wood. When the mature tree is felled, the wood obtained from it can be used for a variety of purposes, but only structural use ensures long-term storage of the CO ₂ bound in the wood. In addition to the CO ₂ storage effect, timber construction can largely avoid the use of emission-intensive building materials such as cement and steel, which together cause over 10% of global emissions.

Another advantage of wooden constructions is their comparatively easy recyclability. In addition, the complete and non-destructive dismantling and reusability of all system parts is becoming increasingly important.

Another disadvantage of wooden constructions known from the prior art is their low flexibility, for example if wood is used for prefabricated houses. In this case, subsequent changes to the plan cannot be implemented or can only be implemented with great difficulty. In addition, in common wooden constructions, attention must always be paid to the grain of the wood, since, for example, the tendency of wood to shrink orthogonally to the grain is significantly greater than parallel to the grain, which often leads to cracks and uncontrolled settlement in conventional wooden constructions. In addition, wood also has anisotropic compression and tensile properties as well as wear resistance that depends on the direction of the grain. High wear resistance is therefore achieved, for example, with end-grain floors in which the individual wood fibers are arranged orthogonally to the load surface.

However, the use of solid timber is particularly disadvantageous, as it is not only expensive but also only available to a limited extent due to the increasing prices.

The present invention deals with the problem of avoiding the disadvantages of wooden structures known from the prior art.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea of providing a board block that is, above all, inexpensive, which is not only made entirely of wood, but can also be connected comparatively easily to other board blocks in the manner of a Lego brick and also has almost isotropic properties in terms of strength. Walls, pillars, beams, floors, supports, roofs and/or ceilings can then be built from such board blocks, and in an extremely flexible manner, which means that subsequent changes to the plan can also be implemented comparatively easily. The board block according to the invention is therefore made from several layers of boards, in particular packaging or pallet boards, with the boards, in particular the packaging or pallet boards, being aligned orthogonally to one another in two touching layers. This orthogonally aligned grain of the individual boards allows the inherently anisotropic properties of wood to be overcome, meaning that direction-dependent properties, such as a tendency to shrink as well as tensile and compressive strength, are the same in at least several directions. In general, the term “boards” should of course also be understood to include all types of boards, such as packaging or pallet boards, wooden panels or planks. The board block according to the invention also has a plurality of through holes running obliquely to a surface, in each of which an inclined dowel is inserted. The boards of the board block are fixed to each other using these angled dowels, which means that a purely positive fixation can be achieved, especially without additional glue. The board block according to the invention also has at least one blind hole running orthogonally to a surface for receiving a connecting bolt and at least one blind hole running transversely to this blind hole and at least this blind hole partially cutting locking hole into which a locking dowel can be inserted. Such locking dowels engage in an annular groove when connecting bolts are inserted into the respective blind hole and thereby enable the connecting bolt to be fixed in the respective blind hole and, in the case of two board blocks connected to one another via such a connecting bolt, a positive securing of the two board blocks to one another. However, a particular advantage of the board block according to the invention is that it is made from boards, in particular from packaging or pallet boards, which are available in large quantities and are therefore also inexpensive. The great availability and the comparatively low price are also due to the fact that pallet wood or so-called thinning wood as well as side sections, i.e. generally very inexpensive wood, can be used for the boards. By mechanically fixing the individual boards using the angled dowels, the use of glue or other adhesives can be dispensed with, resulting in a particularly ecological board block. The angled dowels themselves can have longitudinal grooves and can be pressed into the associated angled holes without play, thereby creating an inseparable bond between the individual boards.

Another significant advantage of such a board block is its heat-insulating effect and its pleasant effect on a living room climate, so that a particularly high level of living comfort can be achieved in a house built from such board blocks.

The individual boards can be sawn rough, but do not require any further surface processing, for example grinding or planing, which means that the board block according to the invention can be produced cost-effectively. A rough-sawn surface also improves the thermal insulation effect through air pockets between the individual board layers. This effect can be further enhanced by a corrugated surface created by planing or milling.

Alternatively, surface-treated boards, for example sanded or planed boards, can of course also be used, although in order to achieve a visually very attractive surface it may be advantageous to grind or plan the already finished board block smooth on the visible surfaces.

In an advantageous embodiment of the board block according to the invention, the boards are made from at least one of the following types of wood, fir, pine or spruce. This is fast-growing and therefore cost-effective wood, although birch, Douglas fir, larch, oak, beech, maple, alder or ash can of course also be used as an alternative. Regardless of the type of tree used, the greatest advantage of the board block according to the invention is that, on the whole, waste wood, for example thinning wood and side sections, can also be used without any problems, which makes the production of the board block according to the invention cheaper overall.

In an advantageous development of the board block according to the invention, the boards can have a length L _PB of 20, 40, 60, 80, 100 or 120 cm. These selected length dimensions offer the great advantage that the board blocks made from such boards enable optimal use of space on a Euro pallet, since the board blocks have length dimensions from which one or more times a length or width of such a Euro pallet results.

Additionally or alternatively, the boards can have a width B _PB of 15 cm. The individual boards can be stacked lying on top of each other to form the board block according to the invention, alternating with upright boards arranged in between. Thanks to the selected width B _PB of approx. 15 cm, the space above a Euro pallet can also be used optimally. The same applies to boards that, for example, have a _thickness of approx. 2.2 cm.

In an advantageous development of the board block according to the invention, the inclined dowels have a diameter Ds of 20 mm. As a result, the through holes in which the angled dowels are arranged can also have an inner diameter of approximately 20 mm, which means that the angled dowels can be pressed into the associated through holes without play. Of course, dimensions that deviate from this are also conceivable.

In order to maintain high strength of the board block according to the invention, the inclined dowels can be made of hardwood, in particular beech. Such oblique dowels made of hardwood also make it easier to press them into the associated through holes in the board block. The term “through holes” does not have to mean that the through holes pass from one surface to a particularly opposite surface, but can also mean that the through holes are designed in the manner of a blind hole.

The board block can expediently serve as at least part of a cable duct have holes or holes. Such holes or recesses on an external surface make it easier to lay cables, for example data cables or electrical cables, which makes the board block particularly suitable for building houses, for example. If the hole is designed as a cable duct, the board blocks usually have standardized holes or distances between individual boards, which are aligned with one another when the board blocks are connected and thereby enable cables or lines to be passed through easily.

The board block expediently has a cuboid shape. Using such a cuboid shape, it is possible to stack the board block according to the invention in the manner of a large brick, for example in a stretcher structure, and to create walls comparatively quickly due to the selected outer dimensions of the board block.

Alternatively, it is also conceivable that the board block according to the invention is rounded or beveled at at least one longitudinal end. With such a rounding, an angled alignment to a neighboring block is possible, which means that curved walls, corners or arches can also be produced comparatively easily. If such a board block according to the invention has, for example, a beveled longitudinal end or even two beveled longitudinal ends, so that it has a trapezoidal shape in one view, a non-rectangular corner in a wall can also be produced comparatively easily with such a board block or with such board blocks. Rounded walls can also be made with such board blocks.

The present invention is further based on the general idea of specifying a wood block composite with at least two board blocks connected to one another via at least one connecting bolt in accordance with the previous paragraphs, the connecting bolt each having an annular groove on its two longitudinal end regions and with one longitudinal end in each case in an associated blind hole Board block is inserted so that the annular groove covers at least one locking hole in the board block that runs transversely to the blind hole, so that a locking dowel, which is inserted into the locking hole, at least partially engages in the annular groove and secures the connecting bolt against being pulled out. Using the connecting bolts and the locking dowels, which fix the connecting bolts in two interconnected board blocks, it is therefore possible to create a wall, for example, in a comparatively simple and, in particular, removable manner. The locking dowels can be pressed into the associated locking hole and thereby reliably held in it.

In an advantageous development of the wood block composite according to the invention, the locking dowels have a diameter of approximately 20 mm. This makes it possible, on the one hand, to ensure a reliable fixation of two board blocks connected to one another via a connecting bolt and, on the other hand, to make the locking dowels easy to handle. Additionally or alternatively, it can be provided that the connecting bolts have a diameter of 40 - 60 mm. This ensures reliable absorption of transverse and tensile forces. Both the locking dowels and the connecting bolts can be made of hardwood, for example beech.

In a further advantageous embodiment of the wood block composite according to the invention, the connecting bolt has a length Lv of 170 mm, with the annular groove, into which a locking dowel engages when the wood block composite is finished, having an axial distance of approximately 25 mm from an adjacent longitudinal end.

Both the connecting bolts, as well as the locking dowels and/or the oblique dowels can have a chamfer on their respective end faces, which significantly simplifies the insertion of the respective dowel or bolt into the associated bore or the associated blind hole. In addition, such a chamfer prevents unwanted damage to the locking dowel, the connecting bolt or the inclined dowel when inserted into the associated bore or the associated blind hole.

Further important features and advantages of the invention emerge from the subclaims, from the drawings and from the associated description of the figures based on the drawings.

It is understood that the features mentioned above and those to be explained below can be used not only in the combination specified in each case, but also in other combinations or alone, without departing from the scope of the present invention.

Preferred exemplary embodiments of the invention are shown in the drawings and are explained in more detail in the following description, with the same reference numbers referring to the same or similar or functionally the same components.

• 1 eine Draufsicht auf einen erfindungsgemäßen Brettblock mit angedeuteter Lage von Schrägdübeln, Verbindungsbolzen und Verrieglungsdübeln,
• 2 eine Schnittdarstellung durch einen erfindungsgemäßen Brettblock (parallel zu den Brettlagen),
• 3 eine Darstellung wie in 2, jedoch in einer anderen Schnittebene und quer zu den Brettlagen,
• 4 eine Draufsicht auf einen erfindungsgemäßen Holzblockverbund mit über Eck miteinander verbundenen erfindungsgemäßen Brettblöcken,
• 5 eine Draufsicht auf einen erfindungsgemäßen Brettblock mit abgeschrägtem Längsende sowie eine Ansicht auf ein mit solchen Brettblöcken gebildetes Gewölbe,
• 6 eine Draufsicht auf einen erfindungsgemäßen Holzblockverbund im Bereich eines stumpfen Ecks, welches über Brettblöcke mit abgerundetem Längsende ausgebildet sind,
• 7 eine Darstellung wie in 6, jedoch bei einem spitzen Eck, welches aus Brettblöcken mit einem abgerundeten Längsende und mit Brettblöcken mit zwei abgerundeten Längsenden hergestellt ist,
• 8 einen Holzblockverbund mit erfindungsgemäßen Brettblöcken mit einem bzw. zwei abgerundeten, Längsenden zur Realisierung eines Bogens,
• 9a eine Seitenansicht auf einen erfindungsgemäßen Brettblock,
• 9b eine Draufsicht auf den erfindungsgemäß Brettblock,
• 9c einen Querschnitt durch den erfindungsgemäßen Brettblock,
• 9d eine Frontansicht auf den erfindungsgemäßen Brettblock,
• 9e einen eine Wand bildenden Holzblockverbund mit solchen Brettblöcken.

Show each schematically

• 1 a plan view of a board block according to the invention with the indicated position of inclined dowels, connecting bolts and locking dowels,
• 2 a sectional view through a board block according to the invention (parallel to the board layers),
• 3 a representation like in 2 , but in a different cutting plane and across the board layers,
• 4 a plan view of a wood block composite according to the invention with board blocks according to the invention connected to one another at a corner,
• 5 a top view of a board block according to the invention with a beveled longitudinal end and a view of a vault formed with such board blocks,
• 6 a top view of a wood block composite according to the invention in the area of a blunt corner, which is formed over board blocks with a rounded longitudinal end,
• 7 a representation like in 6 , but with a pointed corner, which is made from board blocks with one rounded longitudinal end and with board blocks with two rounded longitudinal ends,
• 8th a wood block composite with board blocks according to the invention with one or two rounded, longitudinal ends to create an arch,
• 9a a side view of a board block according to the invention,
• 9b a top view of the board block according to the invention,
• 9c a cross section through the board block according to the invention,
• 9d a front view of the board block according to the invention,
• 9e a wood block composite forming a wall with such board blocks.

According to the 1 until 3 , a board block 1 according to the invention has several layers, 3a, 3b of boards 2, with the boards 2 being aligned orthogonally to one another in terms of their grain in two touching layers, 3a, 3b. In which according to the 1 In the board block 1 shown, the boards 2 are lying in the respective position 3a, ie aligned with a grain course running parallel to the plane of the sheet. The boards 2 in the layers 3b, on the other hand, have a fiber course that runs orthogonally to the plane of the sheet and thus orthogonally to the boards 2 lying in the layers 3a. The board block 1 according to the invention can be installed lying or standing. The boards 2 are oriented differently in terms of their grain in each layer, 3a, 3b within the board block 1 according to the invention, resulting in a board block that is isotropic in terms of properties, in particular shrinkage, swelling or strength. In order to be able to firmly connect the individual boards 2 of the individual layers, 3a, 3b, several through holes 5 running obliquely to a surface 4 are provided, in each of which an inclined dowel 6 is inserted. The individual boards 2 of the board block 1 according to the invention are thus preferably fixed to one another exclusively via the inclined dowels 6. Additional gluing or gluing is not necessary. The board block 1 according to the invention also has at least one blind hole 7 which runs orthogonally to a surface 4a, which is aligned orthogonally to the surface 4, in which a connecting bolt 8 (see also the 4 - 9 ) is included. Furthermore, at least one locking bore 9 is provided which runs transversely, in particular orthogonally, to the blind hole 7 and at least partially intersects it, into which a locking dowel 10 can be inserted.

By using boards 2 or packaging or pallet wood according to the invention, the board block 1 according to the invention can be produced extremely cost-effectively, since such boards 2 are often obtained during thinning or a side section in sawmills, in particular even as waste or inferior residual product. In addition, such boards 2 are available in almost unlimited quantities, which means that not only the board block 1 according to the invention can be produced in large quantities and at the same time cost-effectively, but also a wood block composite 11 made from such board blocks 1 according to the invention, such as this one, for example 2 and 4 - 9 is shown.

To produce the board block 1 according to the invention, the boards 2 used for this purpose are first stacked orthogonally to one another in the individual layers 3a, 3b until a required or desired external dimension is achieved. The through holes 5 are then made and the inclined dowels 6 are pressed into them. The surface of the board block 1 can then be processed, for example by grinding. The through holes 5 are of course arranged in such a way that they neither cross nor touch the blind hole 7 nor the locking hole 9.

To produce the wood block composite 11 according to the invention, the connection can now be made Bolts 8 are inserted into the associated blind holes 7 or blind holes and fixed via locking dowels 10 pressed into the locking hole 9. Such a board block 1 can then be placed on another board block 1, with the connecting bolt 8 then engaging in the blind hole or blind hole 7 of the other board block 1 and being fixed there by inserting locking dowels 10 into associated locking holes 9. This makes an extremely reliable, solid connection possible.

The boards 2 can be made of fir, pine or spruce, for example, although other types of wood, such as Douglas fir, maple, oak, beech, larch or paulownia, etc. are also conceivable. The other big advantage of such a board block 1 is not only its ecological production, but also a high level of thermal insulation when using soft woods.

In general, the boards 2 can also be glued, screwed or nailed together. Wooden nails are also conceivable.

The individual boards 2 can have a length L _PB of 20, 40, 60, 80, 100 or 120 cm, which means that board blocks 1 can be easily produced in a wide variety of dimensions. The boards 2 themselves usually have a width B _PB of 15 cm and a thickness D _PB of 2.2 cm. According to the 1 until 3 The dimensions are given in millimeters, while in the 5 , 8th and 9 are given in centimeters. A further advantage of such dimensions is that such board blocks 1 according to the invention can be stacked on normal Euro pallets in a space-optimized manner, thereby enabling cost-effective transport.

The inclined dowels 6 usually have a diameter of 20 mm and can be made, for example, from hardwood, especially beech. In the board block 1 according to the invention, recesses 12 can also be provided, which form at least part of a later cable duct. Such recesses 12 can be formed in particular by offsetting the individual boards 2 in the different layers, 3a, 3b, as shown in FIG 1 and 2 is shown, or by additional holes. The recesses 12 or bores can also improve the drainage of water, especially when exposed to rain during final assembly, which also allows the board blocks 1 according to the invention to dry more quickly.

If you look at the board blocks 1 according to the invention according to the 1 until 4 and 9 , you can see that they have a cuboid shape. The dimensions of such a board block 1 according to the invention can be, for example, a length of 400 mm, a height of 300 mm and a width of 200 mm.

In addition, the board block 1 according to the invention can also be beveled or rounded at at least one longitudinal end 13, as is the case with beveled longitudinal ends 13 in accordance with 5 is shown and with rounded longitudinal ends 13 corresponding to 6 - 8th .

The according to the 5 The board block 1 according to the invention shown is chamfered at both longitudinal ends 13 and therefore has a trapezoidal shape in a top view or a side view. With such a trapezoidal shape, arches like these according to the 5 are shown under the individual drawn board block 1 according to the invention, can be easily implemented.

According to the 6 a blunt corner 14 of a wood block composite 11 according to the invention is shown, in which board blocks 1 with rounded longitudinal ends 13 are used. The board blocks 1 forming the blunt corner 14 have a rounding at only one longitudinal end 13. In contrast, according to the 7 illustrated pointed corner 15 board blocks 1, which are rounded at one longitudinal end 13 and are connected via a board block 1, which is rounded at both longitudinal ends 13. By using almost any combination of board blocks 1 without rounded longitudinal ends 13 or with only one rounded longitudinal end 13 and board blocks 1 with two rounded longitudinal ends 13, almost any shape of a wood block composite 11 can be realized, as shown in FIG 8th is shown.

The connecting bolt 8 used to produce the wood block composite 11 according to the invention by connecting two board blocks 1 has an annular groove 16 on each of its two longitudinal end regions 17 (compare the 1 until 3 and 9c ), which at least partially covers an associated locking hole 9 when the connecting bolt 8 is inserted into the associated blind hole 7, so that an associated locking dowel 10, which is inserted into the locking hole 9, at least partially engages in the annular groove 16 and thereby secures the connecting bolt 8 against being pulled out and the wood block composite 11 fixed.

Alternatively, it is also conceivable that the connecting bolt 8 has a transverse hole on its two longitudinal end regions 17 instead of the annular groove 16, the connecting bolt 8 being inserted with one longitudinal end into an associated blind hole 7 of a board block 1 in such a way that the transverse bore is connected to one in the board block 1 extending locking hole 9 is aligned, so that a locking dowel 10 can be inserted through the locking hole 9 and the cross hole and secures the connecting bolt 8 against being pulled out.

The locking dowels 10 can, for example, also have a diameter of 20 mm, whereby the connecting bolts 8 can have a diameter between 40 and 60 mm. An axial length Lv of the connecting bolt 8 is approximately 170 mm, with the annular groove 16 having an axial distance of approximately 25 mm from the adjacent longitudinal end region 17. Due to the selected diameters of the locking dowels 10 or the connecting bolts 8 and the inclined dowels 6, standard dimensions can be used, which makes the production of the board block 1 according to the invention and the wood block composite 11 according to the invention cost-effective.

In addition to individual board blocks 1 in manageable lengths within a pallet format, i.e. H. < 120 cm, longer board blocks 1 can also be produced in grid increments of 20 cm for lintels, beams, supports, ceilings and roofs.

All in all, the board block 1 according to the invention can be used to build inexpensively, quickly and ecologically, although a defect can also be ruled out due to the large availability of boards 2 that are used to produce the board blocks 1.

Claims (12)

board block (1), - with several layers (3a, 3b) of boards (2), the boards (2) being aligned orthogonally to one another in two touching layers (3a, 3b), - with several through holes (5) running obliquely to a surface (4), in each of which an inclined dowel (6) is inserted, the boards (2) of the board block (1) being fixed to one another via the inclined dowels (6), - with at least one blind hole (7) running orthogonally to a surface (4a) for receiving a connecting bolt (8), - with at least one locking hole (9) which runs transversely to this blind hole (7) and at least partially intersects it, into which a locking dowel (10) can be inserted. Board block after Claim 1 , characterized in that the boards (2) are made from at least one of the following types of wood, fir, pine, spruce, Douglas fir, larch or paulownia. Board block after Claim 1 and 2 , characterized in that - the boards (2) have a length L _PB of 20, 40, 60, 80, 100 or 120 cm, - that the boards (2) have a width B _PB of 15 cm, - that the boards (2) have a thickness D _PB of 2.2 cm. Board block according to one of the preceding claims, characterized in that the inclined dowels (6) have a diameter Ds of 20 mm. Board block according to one of the preceding claims, characterized in that the inclined dowels (6) are made of hardwood, in particular beech. Board block according to one of the preceding claims, characterized in that the board block (1) has recesses (12) or bores that serve as at least part of a cable duct. Board block according to one of the preceding claims, characterized in that - the board block (1) has a cuboid shape, or - that the board block (1) is rounded or beveled at at least one longitudinal end (13). Board block according to one of the preceding claims, characterized in that the boards (2) are glued, screwed or nailed together. Board block according to one of the preceding claims, characterized in that the boards (2) are designed as packaging or pallet boards. Wood block composite (1) with at least two board blocks (1) connected to one another via at least one connecting bolt (8) according to one of the preceding claims, - wherein the connecting bolt (8) has an annular groove (16) on each of its two longitudinal end regions (17), - where the connecting bolt (8), each with one longitudinal end, is inserted into an associated blind hole (7) of a board block (1) in such a way that the annular groove (16) covers at least one locking hole (9) running in the board block (1), so that a locking dowel (10), which is inserted into the locking hole (9), engages at least partially in the annular groove (16) and secures the connecting bolt (8) against being pulled out, or - the connecting bolt (8) at its two longitudinal end regions (17 ) each has a transverse bore, - the connecting bolt (8) is inserted with one longitudinal end into an associated blind hole (7) of a board block (1) in such a way that the transverse bore is aligned with a locking bore (9) running in the board block (1), so that a locking dowel (10) can be inserted through the locking hole (9) and the cross hole and secures the connecting bolt (8) against being pulled out. Wood block composite Claim 10 , characterized in that - the locking dowels (10) have a diameter D _VR of 20 mm and/or - that the connecting bolts (8) have a diameter D _VB of 40 to 60 mm. Wood block composite Claim 10 , first alternative or Claim 11 , characterized in that the connecting bolt (8) has a length Lv of 170 mm, the annular groove (16) having an axial distance of 25 mm to an adjacent longitudinal end.

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