AT506171B1 - Construct - Google Patents

Abstract

The invention relates to a building construction, in particular a truss (1) or truss (10), which comprises each other by means of nodes (2) connected to each other and not coaxially arranged rod elements (3) made of wood. The connections of the rod elements (3) forming the nodes (2) are formed by finger joints (4), whereby the finger joints (5) of at least one rod element (3) intersect the fiber direction of the wood thereof

Description

Austrian Patent Office AT506171 B1 2010-05-15

description

Construct

The invention relates to a building structure, in particular a truss or framework, comprising each other by means of nodes connected to each other and not coaxially arranged rod elements made of wood.

From the document EP 1 497 504 B1 discloses a supporting or framework work, which interconnected or connectable rod elements and between these in the region of all those joints where meet two or more rod elements whose longitudinal axes are not coaxial to each other, arranged or arrangeable connecting elements. The connecting elements have cylinder jacket-shaped openings for the hollow cylindrical rod elements, into which the latter can be inserted.

This known prior art has various disadvantages. On the one hand, in particular the complicated production of the connecting elements, for which a special tool is required, disadvantageous. In order to ensure a constant fit of the rod elements and the connecting elements, the tool must also be quickly replaced when worn, so that the tool costs are very high.

Furthermore, from the rigid shapes resulting disadvantages of lack of flexibility in the outer shape of the building to be recorded. The production of any angle is difficult to achieve and only possible by enlarging the fasteners.

In addition, the connecting elements are clunky with respect to the rod elements, since due to the fact that the rod elements are inserted into the connecting elements, a minimum amount of material projection must be present in order to allow a stable connector. As a result, the connecting elements act on the one hand optically clunky, and on the other hand, such fasteners can not be designed flush with the rod elements, so that surface constructions are possible only with much relining and thus expensive.

It is therefore an object of the invention to provide a building structure that is stable, easy to manufacture and assemble, inexpensive, lightweight and slim.

This is inventively achieved in that the nodes forming connections of the rod elements are formed by finger joints, the finger joints of at least one rod element of the same cut the grain of the wood.

As a result, a very flexible and slim design can be created. The tools used are common, inexpensive and easily replaceable, the raw materials are inexpensive and also easy to procure.

Further embodiments and modifications of the invention will become apparent from the dependent claims.

Preferably, a longitudinal extent of the finger joints of the rod elements involved in a node can lie in a plane of symmetry of the longitudinal axes of the rod elements. The finger joints of at least one of the rod teeth involved in the finger joint have an inclination angle of their extension direction with respect to a plane normal to the longitudinal axis of the respective rod element. It can thus be ensured that the forces acting on the finger joint can be introduced into the bar elements without shearing forces, so that stress fractures are avoided and the construction has high strength with a lightweight construction.

In a particularly preferred embodiment, both involved in the finger joint bar elements have a tilt angle with respect to the plane normal to the longitudinal axis of the respective rod member, which inclination angle are the same size. This 1/11 Austrian Patent Office AT506171 B1 2010-05-15

Shape is particularly easy to produce because the finger joints can always be introduced at the same angle in the rod element, and also balanced in the application of force.

The nodes forming finger joints can preferably be formed directly on the rod elements, so that expensive and large fasteners can be omitted.

According to another preferred embodiment, the finger joints forming the nodes may be formed on the rod elements and on special node elements. The node elements allow in a simple manner the realization of very narrow angle between two rod elements to be connected to each other, so that a force deflection in almost opposite directions are possible.

Preferably, the node elements can be made of layer-glued plywood, in particular standard plywood, and thus can be produced inexpensively. The node elements may be formed to correspond in width approximately to the diameter of the bar elements, thereby avoiding bulky large connecting elements.

Particularly advantageous in this context is the production of rod elements from round timber, especially from small wood, cleaning wood or Beech wood, as this is obtained in large quantities in thinning work and thus is cheap and fast renewable.

Advantageously, the round logs can be further processed into square wood, creating a space-saving construction can be created.

According to an advantageous embodiment, it can be provided that at least two rod elements lying in a plane have grooves which are formed facing each other, in which plate elements can be used and glued in particular in this, which allows a fast, inexpensive and easy stabilization of the truss structure ,

The grooves may advantageously have a polygonal, in particular a rectangular or wedge-shaped, cross-section, whereby a simple and cost-producible availability is given.

The finger jointing may preferably be fixed by gluing, which guarantees easy processing and high durability.

The invention will be described below with reference to preferred embodiments with reference to the drawings. In the drawings: Fig. 1 shows a highly schematic representation of a rod element with a knot in a framework according to the invention, Figs. 2A-B are highly schematic enlarged views of the node according to Fig. 1, Figs 3 AB highly schematic perspective representations of a node of a

Square wood trusses with finger joints, FIGS. 4A-D are highly schematic representations of a truss with Ausführungsbei play inventive node connections in round and square wood, Fig. 5 is a highly schematic perspective view of a node element of FIG. 4D without attached rod elements 6 shows a highly schematic perspective view of a node element with bar elements attached by means of finger joints, and [0027] FIGS. 7A-E show highly schematic perspective views of staggered frameworks according to the invention in round and square wood with stiffening elements.

In the figures, the same components of the better orientation half are provided with matching reference numerals. Fig. 1 shows a highly schematic perspective view of a framework 1 of two interconnected via a node 2 bar elements 3, wherein the rod elements 3 are elongated such that a axial length is much larger than a diameter of the rod elements 3. The rod elements 3 may be formed in particular from round wood.

As a node 2, a connection point of rod elements 3 in a framework 1 is called in the structural analysis. The rod elements 3 can be articulated or rigidly connected to one another there.

In the first embodiment shown in FIG. 1, a simple round timber-finger jointing connection 4 is shown. Such finger jointing 4 have been used for straight connection of bar elements 3 made of round wood or square wood. According to the invention, the connection is now mitred, that is to say for non-coaxially oriented bar elements 3, as shown in FIG. 1. The finger joints 4 are fixed in a conventional manner by gluing.

Depending on the static stress of the framework 1 finger joint 4 are performed with short or long finger joint 5. The holding force of the finger joint 4 is next to the tine length also mainly dependent on an opening angle between the finger joint 4.

In Figs. 2A and 2B are greatly schematized enlarged, perspective views of the finger joint 4 shown in FIG. 1. The finger joints 5 are designed so that an arbitrary miter angle is adjustable. This is inventively achieved in that the finger joints 5 of at least one node 2 forming a rod element 3 cut the same direction of the grain of the wood, the rod elements 3 are thus not arranged coaxially to each other. In other words, the finger joints 5 of at least one of the bar elements 3 involved in the finger joint 4 have an inclination angle α of their longitudinal extension L with respect to a plane normal to the longitudinal axis of the rod element 3. As a result, a force on the contact surfaces of the finger joint 5 in the bar elements 3 is possible, whereby fractures of the finger joints 5 are avoided and the construction remains stable with a lighter and simpler design.

If both involved in the finger joint 4 rod elements 3 have an inclination angle α with respect to the plane normal to the longitudinal axis of the respective rod member 3, a particularly preferred embodiment is to carry out the inclination angle α equal, so that a symmetrical finger joint is formed. This shape is particularly easy to produce, since the setting angle of the tool for introducing the finger joint 5 can maintain a constant value. In addition, the force is balanced in the rod elements 3 for reasons of symmetry.

The inclination and the direction of the longitudinal extension L of the finger joints 5 can be clearly seen, for example, from FIGS. 3A and 3B.

As mentioned, finger jointing 4 can be performed not only with round woods, but also with square cut or flattened woods, with the radii of the round logs remain visible in the former. An embodiment thereof can be seen from FIGS. 3A and 3B. Trestles 1 made of square timbers can be combined, depending on the static load, with glued-in panel elements 6, as will be described in more detail below with reference to FIGS. 7A to 8E.

In addition to roundwood, in particular so-called weak or cleaning wood as well as limp wood can also be used for the invention. The former accumulates in large quantities in first thinnings and is characterized by the fact that it is very cost-effective. So far, cleaning wood was not used for constructive purposes, but at best used as fuel. Harlow wood is defined as a roundwood that has been pruned to a square shape and thus prepared for storage. Again, this is a cost effective and well suited for the invention raw material alternative. 3.11

Claims (13)

Austrian Patent Office AT506171 B1 2010-05-15 Fig. 4A to 4C show further preferred embodiments according to the invention ausgestalteter, in the embodiments of two-dimensional, building structures of several rod elements 3, which are assembled into a truss 10. The rod elements 3 may also be formed as round or square wood. Mixed forms, as shown for example in FIG. 4C, are also possible. 4B and 4C also show grooves 7, in which springs 11 can be used, which can cooperate with the finger joints 4, so that the longitudinally extending rod elements 3 need not be provided with finger joints 5. In Fig. 4D is a particularly easy-to-use, as shown modular embodiment of a building structure. The connection is made in this embodiment by means of node elements 8 of layer-glued standard plywood or plywood. Such a node element 8 is shown schematically in FIG. Again, finger joints 5 are provided, which are formed on at least one side surface 9 of the node element 8. In the exemplary embodiment, the node element 8 on seven side surfaces 9, four of which are provided with finger joints 5. However, it is also possible, as shown in Fig. 4D, the finger joints 5 to be arranged on more or fewer side surfaces 9 of the node element 8 so as to be able to design not only a two-dimensional, but also a three-dimensional framework 10. From Fig. 6 shows an exemplary finger joint 4, according to which two rod elements 3 are combined with a node element 8 so that a nearly parallel arrangement of the rod elements 3 is possible. Each of the rod elements 3 in this case has terminal finger joints 5, which can be brought into engagement with the finger joints 5 of the node element 8. Thus, any miter angle can be realized. For the stiffening of two- or three-dimensional wooden structures or trusses 10, which are exposed to high static loads, 3 plate elements 6 can be used between the rod elements. The plate elements 6 are used in particular in grooves 7, which are preferably milled into the rod elements 3. The grooves 7 may have different shapes. Preferred are angular grooves 7, which are easy to produce, in particular rectangular or trapezoidal grooves 7. In Fig. 3A and in Figs. 7A to 7E are illustrations of rod elements 3 with a rectangular groove 7 is shown. FIGS. 7A to 7E show various representations of a plate element 6 inserted between two bar units 1 lying in a plane, which can be glued to the adjacent bar elements 3 in particular. The grooves 7 of the rod elements 3 are formed facing each other. Further, not shown grooves 7 may be present at different angles on the circumference of the rod elements 3 and thus allow the construction of a three-dimensional construction with other plate elements 6. Almost all types of two- and three-dimensional rod and truss structures 1, 10 can be produced with the finger jointing connections 4 described. They are characterized by flexibility in design, high static strength, low raw material costs and a slim design. 1. Construction, in particular truss (1) or truss (10), comprising each other by means of nodes (2) connected to each other and not coaxially arranged rod elements (3) made of wood, characterized in that the nodes (2) forming connections of the rod elements (3) are formed by finger joints (4), wherein finger joints (5) of at least one rod element (3) cut the same direction of the wood of the wood. 2. Construction according to claim 1, characterized in that a longitudinal extent (L) of the finger joints (5) of a node (2) involved rod elements (3) in a plane of symmetry to the longitudinal axes of the rod elements (3). (Fig. 3A, 3B) 4/11 Austrian Patent Office AT506171 B1 2010-05-15 3. The construction according to claim 2, characterized in that the longitudinal extension (L) of the finger joints (5) at least one of the finger joint (4) bar elements involved (3) has an inclination angle (a) relative to a plane normal to the longitudinal axis of the respective rod element ( 3). 4. Construction according to claim 3, characterized in that both at the finger joint connection (4) involved rod elements (3) have an inclination angle (a) relative to the plane normal to the longitudinal axis of the respective rod member (3), wherein the inclination angle (a) is equal are. 5. Construction according to one of claims 1 to 4, characterized in that the nodes (2) forming finger joints (5) are formed directly on the rod elements (3). 6. Construction according to one of claims 1 to 4, characterized in that the nodes (2) forming finger joints (5) on the rod elements (3) and at node elements (8) are formed. 7. Construction according to claim 6, characterized in that the node elements (8) are made of layer-glued plywood, in particular standard plywood. 8. Construction according to one of claims 1 to 7, characterized in that the rod elements (3) are made of round wood, in particular made of small wood or cleaning wood. 9. Construction according to claim 8, characterized in that the round logs are processed into square wood, in particular to limewood. 10. The building structure according to one of claims 1 to 8, characterized in that at least two rod elements lying in a plane (3) have grooves (7) which are formed facing each other. 11. Construction according to claim 10, characterized in that plate elements (6) in the grooves (7) can be used and in particular in these are glued. 12. Construction according to claim 10 or 11, characterized in that the grooves (7) have a polygonal, in particular a rectangular or trapezoidal, cross-section. 13. The building structure according to one of claims 1 to 12, characterized in that the finger joints (4) are fixed by gluing. For this 6 sheets drawings 5/11