EP1854931A2 - Method for constructing solid wood houses - Google Patents

Abstract

The method involves connecting wooden planks (1, 5, 8) to a joint by using a dowel (12). The planks are mounted individually or in groups such that an upper horizontal structure is partially constructed in a construction phase. The horizontal structure is composed of the planks (5) and serves as a support for a vertical structure consisting of the plank (1). The mounting of the planks are implemented in a progressive sequence such that different structures simultaneously form a lower structure serving as another support, anchorage and insertion fit in reference to the number of planks.

Description

There are known construction methods for the construction of houses or structural elements for houses in solid wood which differ in the arrangement of the building, the building planks, - with horizontally stacked planks, - vertically arranged successively planks, - with angled crossed planks.
In most cases, the arrangement of the planks which form the various components of the house also determines the method of assembling the individual elements and the connection system with which these are combined.
From the DE 29614258 the construction of wall elements or ceiling elements is known, which provided with longitudinal connector boards are connected vertically by means of nails or dowels. On the front side of the wood boards of these planks, the attachment of a horizontal screed is provided, the connection is made by a spring which on the one hand in a groove which extends over all Endholzseiten said planks and on the other hand in a provided on the horizontal connecting bar groove is used.
From the GB 2379464 is the production of elements for creating walls known which consist of vertically arranged planks which are connected by dowels, which have approximately the length he screed thickness, these dowels penetrate half in a screed and the other half in the adjacent screed a, The planks are also connected to the end wood sides across a horizontal screed.
The above-mentioned components require mounting systems and reciprocal fastening systems which make use of metallic elements and often of a load-bearing basic structure.
From the DE 2745681 is the mutual connection between the wooden parts which form prefabricated elements for the construction of solid wood houses known the wood parts have a greater degree of humidity than that which under normal climatic conditions and the dowels are made of dried wood.
In the EP 0890681 a method for the creation of a solid wood construction is described in which prefabricated panels, including large dimensions, are connected to each other by inserting wooden strips with double dovetail cross-section in corresponding dovetail grooves which are provided in a corresponding position on the prefabricated panels to be joined. The onset of said strips is associated with difficulties because the individual parts which form the prefabricated panels shrink or swell why the grooves do not have a uniform cross section over the entire length, further break those parts of the connecting strips which form the undercuts slightly because of Fibers run parallel to the longitudinal extent. Moreover, the described method, in particular for inner and outer walls, must of necessity use different connecting means. The known construction method provide for the preparation of the individual units before the use of supports, in rain or snow, the cover is further imperative, which requires the construction of their own structure.

The invention has as its object a design for the creation of solid wood houses which, as far as the walls are concerned, consist of vertically arranged plugs connected by dowels without the use of adhesives and metallic fasteners, the stability of the individual structural elements being secured without the use of supports and the cover of this is much easier. Furthermore, the invention proposes a structure in which the stresses of the upper structural units act directly on the lower structural units.
For this purpose, the planks which form the supporting walls are externally provided in the connecting area with an extension which covers the connecting area with the horizontal planks which form the ceiling. According to the invention, the end faces of these extensions can be flat or according to a further development of the invention with a tongue and groove Be equipped compound wherein the cross-sections of the groove and the spring have a rounded shape.

To achieve this object, the invention proposes a connection with undercuts between the basic ceiling, which serves as a floor or as a basic structure for the creation of a, from laterally horizontally assembled boards; the same type of connection with single or double undercut is used for the following upper floors, while for the roof structure a connection without undercuts or with undercuts is proposed.
In order to transfer the weight of the upper structural parts to the lower structural parts or to the foundation, the planks which form the supporting walls are provided outside in the connection area with an extended end part which covers the connection area with the horizontal planks which form the ceiling. According to the invention, the end faces of these extended end portions may be flat or, according to a further development of the invention, be provided with a tongue and groove connection, wherein the cross sections of the groove and the tongue have a rounded shape.
Also for internal partitions with lower wall thickness a connection without undercuts is proposed. All the proposed connections have the feature that they are without edges, the roundings can all have the same rounding radius. The drilling on the planks is carried out according to a module so that always the correspondence between a minimum number of holes for the use of the dowels is secured. According to the holes for the dowels act as a guide for the execution of the milling of the connection and the entire outer contour of the planks. The connection by means of inventive plug connection with undercuts is derived from a dovetail connection, be it the recess or the projection, always formed directly from the structural elements forming planks. The rounded shape of the cross section of the recess and the Vorsprunges facilitate the assembly of the parts and ensure in any case an optimal anchoring and stability of the connection.
According to the invention, the plug connection with undercuts is used essentially in the connection between the supporting walls and the ceilings, while the connection without undercuts may be used for the connection between the walls and the roof structure as well as for the partitions and / or the non-supporting walls. The right (90 °) angles between two load-bearing walls are formed by squared timbers of square cross-section, the side length of the square being equal to twice the thickness of the planks forming the walls which are said squared timbers, at the two sides not visible in the mounted position, provided with blind holes for dowels which are arranged according to the same module as the holes in the walls forming the planks. In this way, a construction without holes visible from the outside and without the use of metallic fasteners is possible, with the exception of only one last floor mounted squared timbers which must be provided only on one side with through holes for the dowels.
The dowels are used according to the invention in their dried state in their seats, the dimensions between the diameter of the seat of the dowel and the diameter of the dried dowel are such that they can be introduced with a relatively low pressure, by subsequently absorbing moisture from the planks and / or from the environment then creates, by swelling the dowels, a stable connection without the use of adhesives or metallic fasteners.

In order to obtain an efficient wind bandage for the planks which form a wall or a horizontal structural element, the invention proposes wind-band elements or connecting shaped timber in front of whose lateral flanks are parallel or, for example offset by half a wavelength, wave-shaped; These Windverbandelemente, or connecting molded wood, are inserted into corresponding grooves with wave-shaped flanks which are inclined or arranged transversely with respect to the arrangement of the planks of the structural element are. The arrangement of Windverbandelemente can only inclined in one direction, inclined in two directions, cross and / or transversely at an angle of 90 ° to the arrangement of the planks done. Characterized in that the lateral flanks of the Windverbandelemente are corrugated and are inserted between the corresponding corrugated flanks of the grooves, an extremely effective Windverband and effective connection between the wall-forming planks is achieved. The peculiarity of the corrugated lateral flanks according to the invention is also applicable to joint forming timbers which are used, for example, for securing the connection between horizontally stacked and vertically resting planks or between only horizontal planks.

According to the invention, in particular between the walls and the corresponding support element or the foundation, under spaced, anchoring elements are provided which are anchored to the foundation or support element and are inserted into a corresponding groove with undercuts in the lower region of the vertical planks.

Also, the connection between the inclined planks which form the roof structure and the vertical planks which form a wall can be provided by providing "mushroom" shaped end portions under spaced vertical planks which engage in correspondingly shaped, undercut, grooves on the planks inclined planks of the roof structure are used.

• Die Fig. 1 zeigt einen Teil einer Außenwand eines erfindungsgemäßen Hauses aus Massivholz an der Stelle einer Fensteröffnung und mit einem Teil einer Wand oberhalb der oberen Decke.
• Die Fig. 2 ist eine Schnittdarstellung gemäß einer vertikalen, in Fig. 1 gezeigten, Schnittebene II-II welche die Wand mit den Decken und die Fensteröffnung mit Fenstersturz und Fensterbank durchschneidet.
• Die Fig. 3 zeigt das Detail der Verbindung zwischen der tragenden Außenwand und der Decke an der Stelle eines Außenbalkons.
• Die Fig. 4 zeigt die Details der Verbindung zwischen einer tragenden Innenwand und den Bodendecken, bzw. zwischen der selben Innenwand und den oberen Decken von denen eine mit den Bohlen parallel zur Längserstreckung der Wand zusammengesetzt ist.
• La Fig. 5 zeigt die Details der Verbindung zwischen zwei Decken und einer inneren Trennwand.
• La Fig. 6 Zeigt in vergrößertem Maßstab den Querschnitt durch die Eckstruktur zweier Außenwände welche einen Winkel von 90° bilden.
• Die Fig. 7 zeigt in Vorderansicht das Detail der Verbindung zwischen den Strukturelementen am First eines Satteldaches mit zwei geneigten Dachflächen.
• Die Fig. 8 zeigt im Schnitt das Detail der Verbindung zwischen einem Sparren eines Satteldaches mit zwei geneigten Dachflächen und der Außenwand.
• Die Fig. 9 zeigt in Schnittdarstellung das Detail der Verbindung zwischen dem geneigten Sparren eines Pultdaches und der Außenwand.
• Fig. 10 zeigt einen Teil einer erfindungsgemäß aus vertikalen Bohlen zusammengesetzten Wand welche mittels profilierter eingesetzter Windverbandelemente stabilisiert ist.
• Die Fig. 11 zeigt ein Stück eines erfindungsgemäßen Windverbandelementes mit parallel gewellten Seitenflanken wodurch ein konstanter Querschnitt entstehen.
• Die Fig. 12 zeigt ein Stück eines erfindungsgemäßen Windverbandelementes mit gewellten Seitenflanken wobei die Wellung einer Flanke zur Gegenflanke um eine halbe Wellenlänge versetzt ist wodurch in Längserstreckung unterschiedliche Querschnitte entstehen.
• Die Fig. 13 zeigt in Seitenansicht das Detail der Verbindung zwischen mehreren übereinander gestapelten horizontalen Bohlen und den vertikalen Bohlen einer Wand mittels eingesetzter Formhölzer mit gewellten Längsflanken.
• Die Fig. 14 zeigt in Seitenansicht das Detail der Verbindung zwischen einigen horizontal übereinander gestapelten Bohlen welche mittels vertikaler eingesetzter Formhölzer mit gewellten Seitenflanken verbunden sind.
• Die Fig. 15 zeigt das Detail einer erfindungsgemäßen Verbindung zwischen dem oberen Teil einer Außenwand und der Dachstruktur.
• Die Fig. 16 zeigt in perspektivischer Darstellung das Detail einer erfindungsgemäßen Verbindung zwischen einem Fundament und den Bohlen einer Wand und einer Decke.

The invention will be explained in more detail with reference to a preferred embodiment of the invention of a house which has been constructed according to the construction of the invention and is shown schematically in the accompanying drawings; The drawings fulfill a purely explanatory, non-limiting purpose.

• Fig. 1 shows a part of an outer wall of a solid wood house according to the invention at the location of a window opening and with a part of a wall above the upper ceiling.
• Fig. 2 is a sectional view according to a vertical, shown in Fig. 1, sectional plane II-II which cuts through the wall with the ceiling and the window opening with lintel and windowsill.
• Fig. 3 shows the detail of the connection between the supporting outer wall and the ceiling at the location of an outdoor balcony.
• Fig. 4 shows the details of the connection between a supporting inner wall and the floor coverings, or between the same inner wall and the upper ceilings, one of which is assembled with the planks parallel to the longitudinal extent of the wall.
• Fig. 5 shows the details of the connection between two ceilings and an inner partition.
• La Fig. 6 shows on an enlarged scale the cross section through the corner structure of two outer walls which form an angle of 90 °.
• Fig. 7 shows a front view of the detail of the connection between the structural elements at the ridge of a saddle roof with two inclined roof surfaces.
• Fig. 8 shows in section the detail of the connection between a rafter of a saddle roof with two inclined roof surfaces and the outer wall.
• Fig. 9 shows a sectional view of the detail of the connection between the inclined rafter of a pent roof and the outer wall.
• Fig. 10 shows a part of a wall according to the invention composed of vertical planks which is stabilized by means of profiled inserted Windverbandelemente.
• Fig. 11 shows a piece of a wind element according to the invention with parallel corrugated side edges creating a constant cross-section.
• Fig. 12 shows a piece of a wind element according to the invention with corrugated side edges wherein the corrugation of a flank is offset from the opposite flank by half a wavelength which results in different cross-sections in the longitudinal direction.
• Fig. 13 shows in side view the detail of the connection between a plurality of stacked horizontal planks and the vertical planks of a wall by means of inserted molded wood with corrugated longitudinal edges.
• FIG. 14 shows a side view of the detail of the connection between some planks stacked horizontally one above the other, which are connected by means of vertical inserted molded woods with corrugated side flanks.
• Fig. 15 shows the detail of a connection according to the invention between the upper part of an outer wall and the roof structure.
• 16 shows a perspective view of the detail of a connection according to the invention between a foundation and the planks of a wall and a ceiling.

After assembly and erection of the first vertical wall in the traditional way on the base 11, parallel to the longitudinal extent of this wall, the horizontal planks 8 which form the substructure for the floor laid, the planks 8 can be assembled by means of dowels 12 into a package and the entire area which for the floor is intended to take. The ends of the planks 8 are provided on the upper side with a concave groove 8b and a convex projection 8a. Subsequently, in the region of the ends with grooves 8b of the planks 8, the vertical planks 1 are laid which form the outer walls of the lower floor and at the lower ends a concave groove 1x and a projection 1y which the groove 8b and the projection 8a of the horizontal planks 8 correspond, while the end of the vertical end portions 1g rests on the foundation 11 and the end faces of the planks 8 are thereby covered. The vertical planks 1 are then laid one behind the other where the connection is done by means of dried wooden dowels. The invention makes it possible that with continuous laying of the planks 8 and the planks 1, takes place with displacement of at least one plank. The planks 1 have at their upper end the same concave groove 1x and the same convex projection 1y on the seat for the use of the horizontal planks 5 which form the upper ceiling to create. These planks 5 have at the ends a "rounded dovetail" which is formed by the concave grooves 5b and the convex projections 5a. The vertical planks 1 constituting the wall of the upper floor are inserted from above onto the horizontal planks 5, the end faces thereof being half covered by the end portion 1f of the vertical planks 1 of the lower floor and the other half by the end portion 1f of the planks 1 of the upper floor become. The frontal support between the end portions 1f, or 1e of the planks 1 causes the load of the upper units acts directly on the lower units, or on the foundation 11. The end faces of the end regions 1e, 1f of the planks 1 can be planar surfaces or surfaces provided with a tongue and groove connection A (FIGS. 4, 8), the groove and the tongue having a rounded cross section. The connection under the planks 8, 1, 5 and their progressive mounting make it possible to obtain a stable structure which requires no support and which can be covered directly and progressively or in the shortest possible time by means of tarpaulin, whereby an efficient protection against precipitation is given.
According to the invention, horizontal planks 16 (FIG. 16) which have a groove 16c can be laid on the foundation 11 or on a supporting structure this being shaped so that it can receive the foot from mutually spaced anchoring elements 17. These anchoring elements 17 have at the bottom a projection 17a on which is formed that it corresponds to the cross section of the groove 16c while above it a "mushroom-like" part which corresponds to the cross section of the groove 1 m at the lower end of the planks 1 which form the wall , The anchoring elements 17 are penetrated by a fastening element 18, for example a screw passing through the horizontal screed 16, which is anchored to the foundation, for example by means of dowels.

At the location of a window opening F, the use of a lintel 6 and a window sill 6b is provided; The lintel and the window sill may have the same cross-section with a longitudinal groove with lateral rounded portions 6 a which correspond to the end portions of the planks 1 which are tailored to the height in question and the window sill 6 b, or to the fall 6, rounding 1 a and projections 1 s exhibit. Of course, in the case of doors a fall which has the same cross-section and a threshold used which has a different cross section, corresponding to the floor covering.
The invention does not exclude that the elements which form the ceiling 5, or the walls 1, of the upper floor are subsequently mounted after the elements which form the lower floor by the assembly offset by at least one element with respect to the elements of the lower floor takes place.

In the case of external balconies at least part of the planks 5 have such a longitudinal extent that they protrude with the horizontal end portions 5x on the vertical, composed of planks 1, wall, at the end regions 5x, the planks have no end portions 1f. The planks 5 which form a ceiling can also be arranged parallel to the longitudinal extent of the inner or outer wall, wherein the first molded screed 5y is inserted into the corresponding seats between the planks 1 of the lower and the upper floor.

In the case of inner load-bearing walls or walls with a certain wall thickness, the planks 1 are used below with the projection 1 d between the corresponding end portions of the planks 8 of the ceiling for the flooring and held above by means of projections 5a. While the end parts 1f, 1g advantageously measure approximately 2/3 of the width of the planks 1, the end parts 1 d, 1 e correspond to approximately 1/3 of the width of the planks 1.
In the case of partitions or bar walls which have no mutual anchoring or supporting functions, they can be constructed by means of vertical planks 9 which are connected to each other by means of dowels 12 which have a length equal to the thickness of the planks 9. According to the invention, the planks 9 have rounded portions 9b at the lower end and are provided at the upper end with grooves 9a with rounded edges which correspond to the cross-section of a strip 10 which is secured by plugs below the planks 5 forming the upper ceiling. After a groove 8d with rounded portions 8c is provided at the lower ceiling composed of the planks 8, which corresponds to the lower end portions of the planks 9 in terms of shape and dimensions, these planks can be successively used as the ceiling 8 and 5 are assembled be used or subsequently in a slightly inclined position between the two ceilings 8, 5 except for the last planks 9 which occupy the position near the opposite wall and adjacent to this and which must therefore be used before building this counter wall. This mounting system is also suitable for the subsequent construction of originally unplanned partitions.

For the erection of outer walls which form an angle of 90 °, the invention proposes to provide to the planks 1b which are the last planks at the apex of the angle, a longitudinal bevel 1 c for the compound miter during the remaining cross-section, for the purpose of shaping the outer Edge, a square timber 7 is used with square cross-section. With the exception of the last edge of each floor assembled in this way, an attachment of the square timber 7 by means of blind holes used conventional dowels 12 possible only on the square timber 7 which forms the last edge are on one side through holes for the dowels 12a which are longer than the square timber thickness provided. According to the invention, the planks which form the outer walls and / or the inner walls can be provided with vertical grooves which possibly have undercuts to favor the adhesion of plaster layers and / or to facilitate the installation of pipes (FIG. 6).

Advantageously, the module for the design of the various wooden elements for the construction of the construction of the thickness of the planks 1, 5, 8, 9. The strength of the squared timbers 7 may be equal to the screed thickness x 2. Of course, the invention does not exclude other modules and proportions.

The roof structure provides for the presence of a horizontal Fußpfette 3, 31 in front of which three connected by dowels 12 planks 3a, 3b, 3c; 31 a, 31 b, 31 c is formed and which rests on the upper edge of the composite of planks 1 side walls of the top floor. These planks 1 have for this purpose a central projection 1s and lateral parallel milling with rounded 1a on the compound purlin 3, 31 which on the lower side has a, the projection 1 s corresponding groove to record, while this groove is through staggered arrangement of the central plank 3a, 31a with respect to the lateral planks 3b, 3c; 31 b, 31 c formed which are rounded at the inner edge 3d, 31d. On the upper side, the purlins 3, 31, depending on the inclination of the roof surfaces, or the planks 4, 4a which form the basic structure of the roof, have different shape and rounded portions are at these seats with rounded portions 4c corresponding to the rounded portions 3d, 31d intended; The connector between the purlins 3, 31 and the corresponding planks 4, 4a of the roof structure may possibly be secured by known fasteners. In the case of a pitched roof with two inclined roof surfaces a ridge purlin 2 is provided which is composed for example of four planks, two of which are in the central position 2a and two in the outer position 2b wherein each pair has a mirror-image identical cross-section having. The planks 2a, 2b are connected by transversely driven dowels 12 and the upper outer edges of the two lateral outer planks 2b are rounded 2c so that they engage in the rounded grooves 4c on the planks 4 of the roof structure.
In the case of roofs with two inclined roof surfaces (FIG. 7), the planks 4 of a roof surface in the region of the ridge alternately have longer and shorter end regions 4b so as to obtain a multiple interlocking plug connection between the two roof surfaces in the region of the ridge.

According to the invention, the inclined planks 4 of a roof structure can be connected to the vertical planks 1 of the wall (FIG. 15) by mutually spaced planks 1 of the wall at the upper end regions having a vertical extension 1z with "mushroom" end portion 1h corresponding to the cross section of a corresponding one , provided on the underside of the planks 5, provided with undercut groove, is used. Plank pieces 32e can be inserted between the said extensions 1z, these are covered laterally by a horizontal outer plank 32b and an inner horizontal plank 32c which form the Fußpfette 32.

Optionally, all rounding 1a, 1x, 1y, 2c, 3d, 4c, 5a, 5b, 6a, 8a, 8b, 8c, 9a, 31d have the same radius of curvature, wherein the minimum radius is determined by the diameter of the milling head.
In order to achieve a high degree of precision, the invention proposes to carry out the bores for the dowels 12 in a first phase and to carry out the milling of the outer contour of the planks 1, 5, 8 together with the milling of the projections and grooves for the plug connection in a subsequent phase.

The type of progressive connection, by means of dowels 12 which have a length approximately corresponding to the plank thickness, between the planks 1, 5, 8, 9 which form walls and ceilings, between planks 2a, 2b; 3a, 3b; 31 a, 31 b soft composite purlins 2, 3, 31 form and form between planks 4, 4 a, which structural elements for the roof, together with the connectors and with the formation of the edge portions of two mutually at an angle of 90 ° walls, allow the progressive assembly of various structural elements of the same house, simultaneously on several floors, including the roof structure, with the only condition that the elements which form the lower structural units and as a support for the elements forming the upper structural units, with the priority of at least an element with respect to the progressively upper elements, wherein minimal support work is to be carried out, and wherein the structure offers itself for a progressive efficient coverage by means of tarpaulins.

In order to optimize the wind band on the structural elements and the connection between different structural elements or between planks which form a structural element, the invention proposes the use of wind band elements 13 and of molded timbers 14, 15. Be it the wind band elements 13 as well as the connecting molding wood 14, 15 have corrugated side edges with parallel or, for example, offset by a half shaft corrugation, on. The wind band elements 13 are used according to the invention in corresponding grooves which can be inclined with the longitudinal axis 13a or transverse, 90 ° to the longitudinal extent of the planks 1 (Fig. 10). The Windverbandelemente 13 may according to the course of the corrugation of the flanks have a constant cross section 13b (parallel course of the corrugation) or a minimum cross section 13c and a maximum cross section 13d (offset corrugation) have.
The connecting molds 14 (Figure 13) connect a structural element of vertical planks 1 (wall) to a structural element of a plurality of horizontal planks 19 (basic structure).
For example, the joint molds 15 connect the planks 32 of a composite beam (Figure 14).

Claims (14)

Construction method for the construction of solid wood houses wherein the individual planks which form the different building structures are connected by means of a series of transversely placed dowels to a joint and wherein the wooden planks which form the vertical walls are arranged vertically, characterized in that the assembly of the planks (1, 8, 5) is carried out individually or in groups by at least partially the lower horizontal structure is created in a first phase which is composed of planks (8) and serves as a support for the subsequent vertical, consisting of planks (1) structures this being the lower structures are used and in turn by the following horizontal upper, formed from planks (5), structures and / or finally in the upper region by the possibly inclined structures which form, composed of planks (4, 4a), roof construction, are connected the assembly of the individual planks in progressive durc is carried out by different structures simultaneously, with a difference of at least one screed, in relation to the number of planks forming the respective lower, serving as a seat, as a seat or anchoring structure, with the possibility that the progressive assembly of the various structures, which may include more than one floor and the roof construction, without the use of metallic fasteners takes place. Design for the construction of solid wood houses according to claim 1, characterized in that the plug connection between the vertical, of planks (1) composite, components and the horizontal, of planks (5, 8) assembled, components is formed by the fact that at the end regions the horizontal planks (8) in the upper corner region a rounded transverse groove (8b) is then provided to a in the outermost position arranged rounded transverse projection (8a), wherein a seat is formed in which the lower End portion of the vertical planks (1) which form a vertical building structure and with corresponding, consisting of a rounded projection (1y) and a rounded groove (1x), seat is used, wherein the vertical end part (1g) of the same planks (1g) 1) completely covers the end face of the planks (8) which form the horizontal building structure, and rests on the foundation (11) and that in the case of a horizontal building structure (5) which is inserted between a lower and an upper vertical building structure (1), the individual planks (5) which form this structure have at the end regions the same transverse grooves (5b) and transverse projections (5a) at both upper and two lower sides, thus creating a rounded dovetail which corresponds to the seat at the upper end region of the planks (1) which form the lower structure is provided and corresponds to the seat which is provided at the lower end portion of the planks (1) which the above form a structure, wherein each of the remaining end portions (1f) of the planks (1) cover the end face of the inserted planks (5) which form the horizontal structure and the end portions (1f, 1e) mutually directly rest. Design for the construction of solid wood houses according to claims 1 and 2, characterized in that the end parts (1f, 1e) of the vertical planks (1) which form the bearing walls, as mutual bearing surfaces, flat end grain surfaces or a spring and groove connection (A ), wherein the spring and the corresponding groove have rounded cross section. Design for the construction of solid wood houses according to claim 1, characterized in that in the region of the falls (6) and parapets (6a) the planks (1) which form the vertical structures in the central region with a projection (1 s) which end by lateral milling with rounded portions (1a) and that the cross section of this projection corresponds to the cross section of a longitudinal groove (6s) which is provided on the lintel (6) or on the parapet (6b). Design for the construction of solid wood houses according to claim 1, characterized in that the formation of the edges which are formed by two mutually aligned at an angle of 90 ° walls, by the use of two planks (1 b) takes place which, the walls forming, vertical planks (1) are identical but are cut along one of the inner longitudinal sides at an angle of 45 ° to be attached to the last plank (1) of a wall and then outside of the screed (1b) a square timber ( 7) with a square cross-section, that the second with 45 ° cut screed (1 b) is then attached to the adjacent with 90 ° surface of the same square timber to make a connection in miter (1c) with the first plank (1 b) then proceed with the construction of the second wall by attaching vertical planks (1) and that only for the assembly of the last outer edge, as the last component d As squared timber (7) is attached which only in this case on only one outside through holes for the insertion of dowels (12a) requires which are longer than the strength of the square timber. Structure for the construction of solid wood houses according to claim 1, characterized in that the vertical structural units which form partitions without anchoring functions of planks (9) with rounded at the bottom edges (9b) which ends in a corresponding, on the horizontal lower structure (8 ) are provided while the upper end of the front side a transverse groove having rounded (9a) inner edges which serves as a seat for a strip (10) with a corresponding cross-section which is fixed below the upper horizontal structure (5). Construction for the construction of solid wood houses according to claim 1, characterized in that the planks forming the walls have their inside vertical with any undercuts equipped grooves. Design for the construction of solid wood Housing according to claim 1, characterized in that the planks (4, 4a) of the roof structure in the region of the eaves purlin (3, 31) or the ridge board (2) seats with rounded edges (4c) which have corresponding to the cross section of the upper part of said purlins (2, 3, 31) and that these purlins consist of at least three adjacent planks (2a, 2b; 3a, 3b, 3c; 31a, 31b, 31c) connected by dowels (12) become. Design for the construction of solid wood houses according to claim 1, characterized in that the planks (4) which form the structure of a saddle roof in the region of the ridge are alternately cut with longer (4b) and shorter end portions to a plug connection between the planks (4) to create composite structures of the two roof areas. Construction method for the construction of solid wood houses according to claim 1, characterized in that the connection between the vertical planks (1) forming a wall and the inclined planks (4) forming a roof structure are provided by vertical extensions (1z) of the planks (1) wherein the extensions have a "mushroom-like" end region (1 h) which engages in a corresponding groove provided on the underside of the planks (4) and in that between these extensions (1z) plank pieces (32e) are inserted which extend from an outer horizontal plank (Fig. 32b) and an inner screed (32c) which form the Fußpfette (32) are formed. Design for the construction of solid wood houses according to claim 1, characterized in that at least the planks (8, 1, 5) which form the supporting vertical and horizontal structures in a first Phase for receiving the dowels (12) to be drilled and milled in a subsequent phase to the areas of the connectors together with the entire outer contour using the same milling device to create the previously performed holes serve as evidence for the subsequent milling. Construction method for the construction of solid wood houses according to claim 1, characterized in that the vertical structural elements formed by the vertical planks (1) are held by anchoring elements (17) which are fixed to the foundation (11) or to the corresponding one by known fastening elements (18) Substructure are attached and that these anchoring elements have a mushroom-shaped cross section to engage in a corresponding groove (1 m) with undercuts which at the lower end of the planks (1) is provided. Design for the construction of solid wood houses according to claim 1, characterized in that the structural elements which are composed of a plurality of vertical planks (1) are stabilized by means of Windverbandelemente (13) wherein the lateral edges of these parallel or offset wavy run and that these Windverbandelemente (13) in corresponding grooves with, for the longitudinal extension of the planks (1), inclined or 90 ° transverse longitudinal axis (13a) are used. Design for the construction of solid houses according to claim 1, characterized in that the connection between structural elements which consist of planks (33) with the same orientation or between structural elements which consist of planks (1, 19) with different orientation, by molding wood (14, 15 ) is secured with corrugated side edges, which may be corrugated parallel or wavy offset by half a wave and in corresponding grooves are used which extend over several boards to be joined (1, 19, 33).

Images