• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Wall structure (1), wherein each four adjacent profile support (2), each having a substantially rectangular cross-sectional basic shape around a also a substantially rectangular cross-sectional basic shape, wooden connection profile support (3) are grouped, wherein when viewing the wall cross-section of the connection profile support (3) at its four corner regions (4) in each case a spring pair (5), comprising two substantially mutually orthogonal and integrally with the connection profile carrier (3) running spring portions (5a, 5b) protrudes and the profile support (2) in their the connection profile support (3) facing corner regions (7) each have a pair of grooves (6), comprising two substantially mutually orthogonal grooves (6a, 6b), wherein each spring pair (5) engages in a corresponding pair of grooves (6). The great advantage of the wall structure (1) according to the invention lies in its particularly simple manufacturability. The cubic geometry of the inter-engaging wooden beams (2,3) can be made by simple saw blades or standard milling cutters. There is no need for special machines or special cutters. Compared to comparable wall-mounted systems, a significant efficiency and cost advantage is thus achieved.
    公开号:AT512048A4
    申请号:T49/2012
    申请日:2012-01-17
    公开日:2013-05-15
    发明作者:Georg Ganaus
    申请人:Ganaus Anna;
    IPC主号:
    专利说明:

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    • · · «* · • · ♦♦ # ··· # ·· * ♦ ♦ · I • · ♦ i
    The invention relates to a wall structure, comprising a plurality of tongue and groove interconnected wooden profile carrier, according to claim 1.
    Due to the flexible application possibilities of the material wood and the change in value of a growing customer stratum in the direction of sustainability and ecology, constructions made of wood are finding increasing demand in the construction industry.
    In addition to log cabin constructions such as Known from US 6023895 A, this wood block constructions are manufactured predominantly. In conventional timber frame construction (also: timber panel construction), a load-bearing wooden framework is sturdily mounted and then clad on both sides with panel components such as plasterboard, wood or wood fiber boards. The wooden bolt wall is covered with insulating material such as e.g. Mineralwool filled.
    In blockhouse constructions, various tongue and groove joints are used to connect individual solid wood profiles. In the case of classic tongue-and-groove connections, large gaps and thus leaks sometimes result due to material-related drying and shrinkage processes.
    A significant problem with conventional prior art wall-mountings is the need to provide vapor-barrier layers. Their manufacture and assembly requires great care and accuracy, which, however, often can not be assured in day-to-day construction practice. Even small errors in the assembly such as dirty bonding, impermeable sealing of penetrations (ventilation, sewage, electrical installation pipes) or accidental puncture by nails, Klammem and the like. Over time can lead to hard sanitized condensation and subsequently to mold damage. Even in the case of (hypothetical) ideal assembly, unpredictable factors such as component movement due to temperature cycling, vibration, material aging or insect degradation can cause damage to the tightness levels of a wall causing moisture ingress and mold. Was the mold problem earlier defused by a relatively high building air change, it comes through current
    Requirements for airtightness and thermal insulation of buildings (EU Directive EPBD 2010) are being reinforced.
    The problem of condensation and mold is therefore increasingly coming into the public eye and is currently being discussed at numerous construction conferences and 5 insurance conventions. Representative studies show that between 30 and 50% of newly constructed buildings show a condensation and mold problem. This means that in practice there is a considerable need for redevelopment, which the client could assert with knowledge of the mostly hidden damage situation in the form of warranty or compensation to the construction-executing 10 trades. The cost of a proper mold remediation according to federal guidelines in many cases equals the cost of a new building. An increasing number of private developers are also familiarizing themselves with the mold situation in their buildings and have specialist institutes carry out tests which can subsequently justify liability claims or 15 warranty claims.
    As a particularly promising future therefore wall structures are considered, which preclude a condensation and mold problems, including any health and liability risks of 20 from the outset due to their intelligent structural design. It is the object of the present invention to provide such a wall structure. Furthermore, it is a particular object of the present invention to enable a particularly simple and efficient production and assembly of a generic wooden wall structure and thereby to grant a decisive cost advantage over comparable precast systems.
    These objects are achieved by a wall structure with the characterizing features of claim 1. A generic wall structure comprises a plurality of tongue-and-groove connection with each other 30 connected wooden profile support. According to the invention, it is provided that in each case four adjacent profile carriers, each having a substantially rectangular, preferably square cross-sectional basic shape, are grouped around a wooden connecting profile carrier which likewise has a substantially rectangular, preferably square, cross-sectional basic shape In each case, an orthogonal to the longitudinal extent of the profile carrier extending cross-section of the wall structure of the connection profile support at its four corner regions Spring pair, comprising two substantially orthogonal extending and integral with the Verbindungsprofilträger protruding spring sections, the cross-sectional basic shape of the Verbindungsprofilträgers thus four spring pairs or eight spring sections aulweist and the profile support in their the connection profile carrier facing corner regions each comprise a pair of grooves have two substantially mutually orthogonal grooves, each spring pair in a corresponding pair of grooves, engages and wherein a plurality of profile beams and Verbindungsprofilträgem at their corners in such a manner are structurally connected to each other and together constitute a wall structure.
    The great advantage of the wall structure according to the invention lies in its particularly simple manufacturability. The cubic geometry of the interconnected wooden beams can be made by simple saw blades or standard milling cutters. There is no need for special machines or special cutters. Compared to comparable wall-mounted systems, a significant efficiency and cost advantage is thus achieved.
    The cross-section of raw round logs is optimally utilized, since the structural connection profiles are arranged in the form of cutouts or grooves respectively in the corner regions of the profile support, ie in an area in which irregularities are present in the processing of wood rounds anyway. The material waste is thus minimized.
    Furthermore, the structural arrangement of the wood profile support according to the invention eliminates the provision of steam-braking or barrier layers. Such layers or foils require a high assembly cost and involve a lack of care in the attachment a considerable risk concerning condensation and mold development in wall construction, which in practice can lead to incalculable liability or warranty risks for construction companies. Such liability risks for the construction contractor are excluded by a wall construction * according to the invention. Also for the builders there is the advantage of a completely ecological wall construction, which supports health and well-being.
    Due to the large number of interlocking angular geometries of the profile support 5 and the tightness of the wall structure is guaranteed. Due to the constructive wall construction according to the invention, relative movements in the connection region of adjacent profile carriers are easily compensated for and column formation is prevented. In order to enable a simple and cost-effective production of the wall structure, according to preferred embodiments of the invention, the following features according to the invention are provided (in this case, the features of all subclaims described below are furthermore based on a cross-sectional view of the wall structure in the viewing direction according to claim 1):
    According to a particularly preferred embodiment variant of the invention, side surfaces of the profile carrier run essentially parallel to side surfaces of the connection profile carrier, two of four side surfaces of both the profile carrier and the connection profile carrier extending essentially parallel to a wall middle plane of the wall structure, while two further side surfaces both of the profile carrier as well as the connection profile carrier extend substantially orthogonal to the wall center plane of the wall structure.
    According to a further preferred embodiment of the invention, it is provided that the spring sections of the connection profile carrier as well as the grooves of the profile carrier each extend orthogonal to those side surfaces of the profile carrier or of the connection profile carrier on which they are arranged. Thus, spring portions and grooves extend either parallel or orthogonal to the wall center plane. According to a further preferred embodiment of the invention, it is provided that the cross sections of the spring sections of the connection profile carrier are formed substantially rectangular.
    According to a further preferred embodiment of the invention, it is * * · »» · · «« · • Μ · · * * * * * * i «« * * * «« # «· *« ··· * ····· A symmetrical plane (extending through the longitudinal axis of the connection profile carrier) of the cross-sectional basic shape of the connection profile carrier peripheral side surface of the spring section is in each case coplanar with a side surface of the connection profile carrier, while one to a extending through the longitudinal axis of the profile carrier) plane of symmetry of the cross-sectional basic shape of the profile carrier peripheral side surface of the grooves each coplanar to a side surface of the profile carrier runs.
    According to a further preferred embodiment variant of the invention, it is provided that the grooves have a groove area extending beyond those for receiving the spring sections, further extending into the depth of the cross section of the connecting profile carrier grooved extension whose clear width is smaller than the clear width of the receiving spring sections certain groove area. The groove extensions ensure a solid and elastic connection between profile carriers and connection profile carriers. In the course of moisture or drying-related shrinkage and swelling processes of the wood each facing each other side or mating surfaces of the spring sections and the grooves can sealingly abut each other.
    According to a further preferred embodiment of the invention, it is provided that mutually facing side surfaces of adjacent profile beams are spaced apart by a distance from each other when connecting through the connection profile carrier, wherein between the facing side surfaces preferably a sealing element is provided, which in a particularly preferred embodiment as a wooden, Parallel to longitudinal axes of the profile carrier extending strip element is designed with T-profile cross-section.
    The cross-sectional width of the connection profile carrier is thus selected so that the side surfaces of adjacent profile carrier do not contact each other in the assembled state of the wall structure. In this way, a simple assembly or a quick telescoping of the profile carrier and the connection profile carrier is ensured in the direction of their longitudinal extent. After assembly, there is a sealing effect due to natural shrinkage and distortion of the wood material, due to natural shrinkage and distortion of the wood material Nestling of profile beams and connecting profile beams.
    According to a further preferred embodiment of the invention, it is provided that in the region of the side surfaces of the connection profile carrier an arbitrary number of relief slots preferably extending orthogonal to the side surface is provided. This feature also ensures easy installation and elasticity of the wall structure according to the invention in material-related shrinkage and twisting movements.
    According to a further preferred embodiment of the invention, it is provided that provided with adjacent profile beams engaging Schubkompensationselemente for receiving transversely to the longitudinal axes of the profile carrier and the connection profile carrier (and in particular in the horizontal direction) occurring shear stresses of the wall structure, wherein the shear compensation elements in a preferred Embodiment designed as strip-shaped elements which engage in a form-fitting manner in corresponding, transversely to the longitudinal axes of the profile carrier extending and aligned in mounting position receptacles in the region of the side surfaces of the profile carrier.
    According to a further preferred embodiment variant of the invention, it is provided that the profile carriers and the connection profile carriers of the wall structure are stationary, i. are lined up with longitudinal axes extending substantially in the vertical direction next to each other. Such a vertical arrangement of the timber support ensures settlement freedom of the wall structure and allows the installation of conventional and thus cost-effective window and door element. A providence of sliding bearing elements for windows and doors can be omitted.
    The invention will now be explained in more detail with reference to an embodiment. Show it
    Fig. 1 is a perspective view of a wall structure according to the invention, • * ·· ·: 7 :: :: ::.: ::. m · · · # · ·· «#« «« ·· «· * ···« · «· 4 4 4 44 · * · I t
    2 is a schematic representation of a wall structure according to the invention in a front view,
    3 shows the isometric view of a profile carrier according to the invention,
    FIG. 4 shows the isometric view of a connection profile carrier according to the invention FIG. 5 shows a profile carrier and connection profile carrier engaged with one another FIG. 6 shows a special detail of the wall structure according to the invention with shear compensation elements, FIG.
    6a is a detail view of an inventive
    Schubkompensationselementes in a first embodiment (vertical section)
    6b is a detail view of an inventive
    Schubkompensationselementes in a second embodiment (vertical section)
    6c shows an isometric view of the shear compensation element according to FIG. 6a
    7 is a sectional view of the wall structure according to the invention along line X-X of Figure 1,
    8 shows a group of mutually engaging profile carriers and connection profile carriers according to the invention, FIG. 9 shows a horizontal sectional representation of the group from FIG.
    10 shows a corner joint of the wall structure according to the invention in a sectional view according to FIG. 4 following viewing direction.
    11 shows an execution detail of the wall structure according to the invention;
    1 shows a perspective view of a wall structure 1 according to the invention, which is composed of profiled beams 2 shown in FIG. 3 and of connecting profile beams 3 shown in FIG. FIG. 2 shows a schematic frontal view of the wall structure 1 according to the invention in the mounting position.
    The bar-shaped profile carrier 2 and connecting profile carrier 3 are made of solid wood, preferably made of spruce. They have a longitudinal extent L of at least 2 m and each have a substantially rectangular, preferably square cross-sectional basic shape. Preferably, the 9 99 9 * 999 m 9 9 *
    Profile beam longitudinal extent L of a conventional room wall height between 2.20 m and 3.50 m.
    The profiled supports 2 and connection profiled supports 3 are according to a preferred arrangement variant standing, i. with longitudinal profile elements 9 extending in a substantially vertical direction or connecting profile carrier longitudinal axes 10 on a base structure 24 next to one another (FIG. 2). In the base structure 24 not shown dowel elements may be kept, whose longitudinal axes are substantially parallel to the longitudinal axes 9 of the profile beam 2, ie vertically and on which the profile support 2 are plugged, so that lower end faces 25 of the profile support 2 z.ß. contact from base timbers trained plinth structure 24 surface. Alternatively, it would also be possible to have the profile supports 2 and the connection profile supports 3 lying, i. to line up with longitudinal axes 9, 10 extending substantially in the horizontal direction. Furthermore, the wall structure 1 according to the invention can also be used as a ceiling construction.
    7 shows a sectional view of the wall structure 1 according to the invention along the line X-X in FIG. 2, from which the connection according to the invention between profile carriers 2 and connection profile carriers 3 can be seen in a schematic manner.
    A generic wall structure comprises a plurality of tongue-and-groove connection 8 interconnected wooden profile support. As can be seen, in particular, in a detail view according to FIGS. 8 and 9, according to the invention, four adjacent profile carriers 2 are grouped around a connection profile carrier 3, wherein, when viewing an orthogonal to the longitudinal extension L of the profile carrier 2, the cross-section of the wall structure 1 extends from the connection profile carrier 3 at its four Corner 4 each having a spring pair 5, comprising two substantially orthogonal extending and integral with the Verbindungsprofilträger executed spring portions 5a, 5b protrudes, the cross-sectional basic shape of the Verbindungsprofilträgers 3 thus four spring pairs 5 and eight spring sections. Corresponding to this, the profiled supports 2 each have, in their corner regions 7 facing the connection profiled support 3, a pair of grooves 6 comprising two grooves 6a, 6b extending substantially orthogonally to one another. One could also say that four adjacent profile girders 2 at their * * * ·: 9 :: • ♦ < 9 · »« * ·· * · * · • m * ·· »*« · · ι φ ft Φ · · · # Φ · ·
    Corners together form a recording. Each spring pair 5 engages in a corresponding groove pair 6, wherein a plurality of profile beams 2 and Verbindungsprofilträgem 3 at its corners 4, 7 are structurally connected to each other in such a way and together constitute a wall structure 1. The connection profile supports 3 need not necessarily extend over the entire longitudinal extension L of the profile support 2, but may also be shorter or more parts, i. in series in the axial direction, executed.
    Symmetry planes 17 of the connection profile carrier 3 and planes of symmetry 16 of the profile carrier 2 each extend parallel and orthogonal to a wall center plane 13 of the wall structure 1.
    As can also be seen in FIG. 9, side surfaces 11 of the profile carrier 2 extend essentially parallel to side surfaces 12 of the connection profile carrier 3. In this case, two of four side surfaces 11, 12 of both the profile carrier 2 and the connection profile carrier 3 extend substantially parallel to one another
    Wall center plane 13 of the wall structure 1, while two other side surfaces 11, 12 of both the profile support 2 and the connection profile carrier 3 in
    Substantially orthogonal to the wall center plane 13 of the wall structure 1 extend.
    The spring sections 5a, 5b of the connection profile carrier 3 and the grooves 6a, 6b of the profit carrier 2 each extend orthogonal to those side surfaces 11, 12 of the profile carrier 2 and the connection profile carrier 3, to which they are arranged. In other words, four spring sections 5a, 5b of the
    Verbindungsprofilträgers 3 substantially parallel to the side surfaces 12 of the connection profile carrier 3, while four further spring portions 5a, 5b in
    Substantially orthogonal to the side surfaces 12 of the profile carrier 2 extend. In the same way, four grooves 6a, 6b of the profit carrier 2 extend substantially parallel to the side surfaces 11 of the profile carrier 2, while four further grooves 6a, 6b extend substantially orthogonal to the side surfaces 11 of the profile carrier 2. Thus spring portions 5a, 5b and grooves 6a, 6b extend either parallel or orthogonal to the wall center plane 13. ♦
    The cross sections of the spring sections 5a, 5b of the connection profile carrier 3 are substantially rectangular. Corresponding thereto, the grooves 6a, 6b of the profit carrier 2 are at least partially substantially rectangular. It should be noted that with regard to the cross-sectional geometries of the profile carrier 2 and the connection profile carrier 3, in particular their tongue and groove portions, a plurality of variations is conceivable without departing from the essential inventive idea.
    As can also be seen in FIG. 9, the plane of symmetry 17 (extending through the longitudinal axis 10 of the connecting profile carrier 3) of the cross-sectional basic shape of the connecting profile carrier 3 peripheral side surface 14 of the spring section 5a, 5b is coplanar with a side surface 12 of the connecting profile carrier 3, while the one (Side surface 15 of the grooves 6a, 6b facing the symmetrical plane 16 of the cross-sectional basic shape of the profiled carrier 2 running through the longitudinal axis 9 of the profiled carrier 2 is substantially coplanar with the side surface 14 of the spring section 5a, 5b. When looking at the wall cross section, the spring sections 5a, 5b of the
    Thus, each of the four cross-sectional corner regions of the connection profile carrier 3 is surrounded, preferably positively connected, by the cross-section of the profile carrier 2 at at least six substantially orthogonally extending surface sections.
    As can further be seen in FIG. 9, the grooves 6a, 6b have a groove extension 18 extending beyond those for receiving the spring sections 5a, 5b and extending further into the depth of the cross-section of the connection profile carrier 3, whose inside width is smaller than the clear width of the groove for receiving the spring portions 5a, 5b determined groove area.
    In the mounting position facing each other side surfaces 11 adjacent profile beam 2 when connected by the connection profile carrier 3 by a distance shown in Figure 9 distance 19 from each other. Between the mutually facing side surfaces 11, a sealing element 22 may be provided. tt · tt ·: 1t: · ♦ · «♦» * • i • · *
    In the simplest case, the sealing element 22 is an elastic sealing strip, a filling compound or another element used for sealing purposes. In a particularly preferred embodiment, the sealing element 22 is designed as a wooden, essentially strip-shaped component running parallel to the longitudinal axes 9 of the profile girders 2 in the mounting position, which engages in corresponding anchoring grooves in the area of profiled carrier side surfaces 11 facing each other (see detailed illustration according to FIG ). The cross section of the ieistenförmigen sealing element 22 is designed in a particularly preferred embodiment as a T-profile. Shaft-shaped, parallel to the longitudinal axes 9 of the profile carrier 9 extending cavities, which can be used as cable or installation channels arise between the webs of this T-profile.
    The cross-sectional width of the connection profiled support 3 is thus selected so that the side surfaces 11 of adjacent profiled supports 2 do not contact one another in the assembled state of the wall structure 1. For mounting the wall structure 1, the profile carrier 2 and the connection profile carrier 3 in the direction of the longitudinal axes 9, 10 are pushed or knocked. By default, a factory pre-assembly of desired wall elements of the wall structure 1, which are joined together on the site.
    Preferably, the mutually assigning lateral surfaces of the profile carrier 2 and the connection profile carrier 3, in particular the spring sections 5a, 5b of the connection profile carrier 3 with the grooves 6a, 6b of the profile carrier 2, are paired with each other by means of a loose throw fit. However, selected lateral surfaces of the profile carrier 2 and the connection profile carrier 3 connected thereto, in particular spring sections 5a, 5b and grooves 6a, 6b, can also be paired with one another by means of transitional or interference fit.
    According to a further preferred embodiment of the invention, it is provided that in the region of the side surfaces 12 of the connection profile carrier 3 any number of preferably at least orthogonal to the side surface 12 extending relief slots 23 is provided. In a particularly preferred: 12 :: ·· # • · * · · * * * *
    Embodiment, the relief slot 23 is centrally located on the side surface 12 of the connection profile carrier 3 and thus substantially aligned with the running between side surfaces 11 adjacent profile beam 2 spattförmtgen distance 19 and extends substantially radially to the longitudinal axis 10 of the connection profile carrier 3. Relief slots 23, however, in other Be arranged areas of the side surfaces 12 of the connection profile carrier 3, for example adjacent to the spring sections 5a, 5b.
    As schematically illustrated in FIG. 6, shear stressing elements of the wall structure 1 which engage with adjacent profiled supports 2 are provided for receiving shear stresses occurring transversely to longitudinal axes 9, 10 of the profiled supports 2 and the connecting profile supports 3 (and in particular in the horizontal direction). The shear compensation elements 20 are formed in a preferred embodiment as strip-shaped elements, which in corresponding, transversely to the longitudinal axes 9 of the profile beam 2 extending and aligned in the mounting position receptacles 21 in the region of
    Side surfaces 11 of the profile carrier 2 engage positively. Preferably, the strip-shaped shear compensation elements 20 and the receptacles 21 are substantially orthogonal to the longitudinal axes 9 of the profile carrier 2. The Schubkompensationselemente 20 and the receptacles 21 may be parallel to the wall center plane 13 and / or orthogonal thereto. In the present embodiment, the strip-shaped shear compensation element 20 has a rectangular cross-section. The recessed into the side surfaces 11 of the profile carrier 2 shots 21 have a cross-section of the Iistenförmigen
    Schubkompensationselemente 20 corresponding light receiving width (see Fig.6b). When the structure of the profile carrier 2 is stationary, the strip-shaped shear compensation elements 20 or the aligned receivers 21 thus extend in the horizontal direction. Any number of shear compensation elements 20 may be provided. Preferably, at least two shear compensation elements 20 are superimposed, i. arranged distributed over the longitudinal extension of the profile carrier 2. The shear compensation elements 20 can run continuously over an arbitrarily long section of the wall structure 1 and thus connect any desired number of profile carriers 2 to one another (the connection profile carriers 3 can in this case * * Μ Μ «···» Ί2 * · t «« «» *
    *. »4 * * f * * * *« IV ** ··· «Φ I * ··· * ·· * ··· be penetrated by the shear compensation elements 20). It is also possible for a plurality of separate shear compensation elements 20 to be strung together in the direction of their longitudinal axes. The Schubkompensationseiemente 20 may in a special embodiment of Fig.6c also a dovetail cross-section aulweisen, which engages in corresponding dovetail grooves adjacent profiled beams 2 (see also detail of Figure 6a). In the simplest case can also be used as shear compensation elements 20 dowels, screws, nails or staple elements, which connect two or more profile beam 2 and / or connecting profile carrier 3 together. Alternatively, it is also possible that shear compensation elements 20 extend substantially parallel to the longitudinal axes 9, 10 of the profile carrier 2 or connecting profile carrier 3 and are held between facing side surfaces 11 of the profile carrier 2, i. engage in corresponding grooves in the region of the profile carrier side surfaces 11.
    In Fig.10 a corner joint of a wall structure 1 according to the invention is shown. On the outer and inner sides of the wall structure half profile support 2 are arranged in each case, i. rectangular profile carrier 2, which are provided only at two (the wall center plane 13 facing) corner areas with groove pairs 6 described above. The remote from the wall center plane 13 side surface of such a profile support 2 is preferably planed smooth.
    权利要求:
    Claims (8)
    [1]




    1. Wall construction (1) comprising a plurality of wooden profile beams (2) interconnected by tongue and groove connection, characterized in that in each case four adjacent profiled supports (2) each having a substantially rectangular, preferably square cross-sectional basic shape are grouped around a wooden connecting profile carrier (3) which likewise has a substantially rectangular, preferably square cross-sectional basic shape, the orthogonal to the longitudinal extent (L) being considered Profile carrier (2) extending cross-section of the wall structure (1) from the connection profile support (3) at its four corner regions (4) each have a spring pair (5), comprising two substantially orthogonal extending and integrally with the connection profile carrier executed spring portions (5a, 5b ) projects, the cross-sectional basic shape of the connection profile carrier (3) thus four spring pairs (5) or eight spring sections and the profiled supports (2) in their the Verbindungsproftlträger (3) facing corner regions (7) each have a pair of grooves (6) comprising two substantially mutually orthogonal grooves (6a, 6b), wherein each spring pair (5) engages in a corresponding pair of grooves (6) and wherein a plurality of profile beams (2) and connecting profile beams (3) at their corner regions (4, 7) are structurally connected to each other in such a way and together Constituting the wall structure (1).
    [2]
    2. Wall structure (1) according to claim 1, characterized in that side surfaces (11) of the profile carrier (2) extend substantially parallel to side surfaces (12) of the connection profile carrier (3), wherein two of four side surfaces (11, 12) of the Profile carrier (2) and the connection profile carrier (3) extend substantially parallel to a wall center plane (13) of the wall structure (1), while two further side surfaces (11, 12) of the profile carrier (2) and the connection profile carrier (3) substantially orthogonal to Wall center plane (13) of the wall structure (1) extend. * · »T ·» * · »4 ♦ · *%
    [3]
    3. wall structure (1) according to claim 1 and 2, characterized in that the spring portions (5a, 5b) of the connection profile carrier (3) and the grooves (6a, 6b) of the profile carrier (2) each orthogonal to those side surfaces (11, 12 ) of the profile carrier (2) or of the connection profile carrier (3), on which they are arranged. 10 15 20 25
    [4]
    4. wall structure (1) according to one of claims 1 to 3, characterized in that the cross-sections of the spring portions (5a, 5b) of the connection profile carrier (3) are formed substantially rectangular. Wall structure (1) according to one of Claims 1 to 4, characterized in that a peripheral side surface (12) of the spring section (5a, 5b), in each case coplanar with a side surface (11), is parallel to a plane of symmetry (17) of the cross-sectional basic shape of the connecting profile carrier (3). of the connection profile carrier (3) runs, while a side surface (15) of the grooves (6a, 6b) extending to a plane of symmetry (16) of the cross-sectional basic shape of the profile carrier (2) extends in each case coplanar with a side surface (11) of the profile carrier (2). 6. Wall structure (1) according to any one of claims 1 to 5, characterized in that the grooves (6a, 6b) a more about those for receiving the spring portions (5a, 5b) certain groove area further into the depth of the cross section of the connection profile carrier (3 ) extending groove extension (18), the clear width is less than the clear width of the receiving the spring portions (5a, 5b) certain groove area.
    [5]
    7. Wall structure (1) according to one of claims 1 to 6, characterized 30 characterized in that facing each other side surfaces (11) of adjacent profile support (2) when connected by the connection profile carrier (3) by a distance (19) are spaced from each other, wherein between the facing side surfaces (11) is preferably a sealing element (22) is provided, which in a v * t * · * * * * * · · · Particularly preferred embodiment variant as a wooden, parallel to the longitudinal axes (9) of the profile support (2) extending strip element is designed with T-profile cross-section.
    [6]
    8. Wall structure (1) according to one of claims 1 to 7, characterized in that in the region of the side surfaces (11) of the connection profile carrier (3) any number of preferably orthogonal to the side surface (11) extending relief slots (23) is provided.
    [7]
    9. wall structure (1) according to one of claims 1 to 8, characterized in that with adjacent profile beams (2) in engagement Schubkompensationsetemente (20) for receiving transversely to the longitudinal axes (9, 10) of the profile carrier (2) and the connection profile carrier (3) occurring shear stresses of the wall structure (1) are provided, wherein the shear compensation elements (20) are formed in a preferred embodiment as strip-shaped elements which in corresponding, transversely to the longitudinal axes (9) of the profile support (2) extending and in assembly position with each other aligned receptacles (21) in the region of the side surfaces (11) of the profile carrier (2) engage positively.
    [8]
    10. Wall structure (1) according to one of claims 1 to 9, characterized in that the profile carrier (2) and the connection profile carrier of the wall structure (1) standing, i. are aligned side by side with longitudinal axes (8, 9) extending substantially in the vertical direction.
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    同族专利:
    公开号 | 公开日
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE9403157U1|1994-02-25|1995-06-29|Rixen Wolfgang|Connection of profile bars|
    EP0892123A2|1997-07-18|1999-01-20|Alusuisse Technology & Management AG|Beam, in particular hollow polygonal section made from extruded light metal alloys, and building set comprising such beams|
    WO2001071114A1|2000-03-17|2001-09-27|Georg Ganaus|Wooden wall or ceiling element|
    AT513844B1|2013-06-12|2014-08-15|Ganaus Anna|System wall made of timbers|
    AT514424B1|2013-07-11|2015-01-15|Ganaus Anna|Shear-resistant wall and ceiling element|
    RU2663854C1|2017-11-29|2018-08-10|Общество с ограниченной ответственностью "ВСС"|Wooden wall design|
    法律状态:
    2017-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20170117 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA49/2012A|AT512048B1|2012-01-17|2012-01-17|WOOD WALL SYSTEM|ATA49/2012A| AT512048B1|2012-01-17|2012-01-17|WOOD WALL SYSTEM|
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