SE504713C2 - Bearing frame beam for building - Google Patents

Abstract

The strips (3) in each pair are arranged on opposite sides of and bound to the plate (2) along its entire length to form flanges along the beam length. The strips in each pair run at a specific distance from a corresponding longitudinal edge of the plate, so that the plate edge parts extend outside the respective strip pair, forming a longitudinal tongue (4) along each of the beam flanges. The tongue has a longitudinal central part (14) intended to work in conjunction with a narrowing part of a groove (7) in a building component, such as a board, when it is fitted on the construction beam (1). The tongues are bevelled towards their free edges and formed to work in conjunction with a groove in a building component, the groove having towards a narrowed part a wedge-shaped narrowing outer part.

Description

504,713 flanges made of wooden slats in the same way as when using wooden beams.

The main object of the present invention is to provide a building construction element which has the advantages of the above-mentioned beams with disc-shaped body portions, but which allow a simpler mounting of boards or the like thereon. The beams must also be able to be used for all load-bearing structures in a house, such as floor beams, wall joists, trusses, etc., and form a building system in which the beams and the boards mounted on them control each other during assembly, so that they automatically forms perpendicular constructions with correct modular dimensions.

The particular characteristic of a structural element of the type specified in the first paragraph is that the strips in each pair run at a certain distance from an associated longitudinal edge of the disc, so that the edge portions of the disc extend beyond the respective strip pairs, to form a longitudinal tongue along each of the flanges of the beam.

The tongues thus obtained can be used for cooperation with corresponding grooves in boards or the like which are to be mounted on the flanges of the beam, which i.a. allows you to automatically obtain constructions with correct module dimensions and right angles.

It is preferred that the tongues are made with a longitudinal waist portion arranged to cooperate with a tapered part of a groove in a building element, such as a board or the like, when mounting it on the construction element. The tongues are then preferably chamfered against the free edge and arranged to co-operate with a groove, which has an outer part which tapers substantially wedge-shaped towards a tapered part. 504 713 The board is preferably made of wood fibers or wood veneer, the strips consisting of wooden strips.

The invention also relates to a building element, such as a board or the like, intended to be mounted on a load-bearing structural element as above. The building element then has at least one groove on one of its main surfaces, which groove is arranged to be able to cooperate with a tongue-and-groove on the construction element when the building element is mounted thereon.

The building element can be constituted by a board or the like, said groove running in the transverse direction over one main surface of the board, substantially perpendicular to the fiber direction.

For splicing such boards, these are suitably made with a tongue-and-groove along one end edge and a corresponding groove along the other end edge, the tongue-and-groove having a waist portion and the groove having a tapered portion cooperating with such a waist portion.

When splicing two boards with this design end to end, a very strong splice is obtained, substantially with the same strength as a so-called finger joint. Other features of the invention appear from the appended claims.

The invention will be described in more detail below with reference to the embodiments shown as examples of the accompanying drawings.

Fig. 1 shows two I-beams according to the invention forming part of a floor layer.

Fig. 2 shows a part of an end view of a floor constructed according to Fig. 1. 504 713 Fig. 3 illustrates the use of beams according to the invention in a house construction.

Fig. 4 illustrates how a groove used according to the invention in a building element can be achieved.

Pig. 5 illustrates mounting of a building element on a beam according to the invention.

Fig. 6 shows cross-splicing of two building elements according to the invention.

In Fig. 1, 1 denotes a beam according to the invention, which comprises a disc-shaped web portion 2 consisting of a disc of MASONITE or plywood. Along each of the opposite, longitudinal edges of the disc 2 run a pair of wooden strips 3, which form the flange portions of the beam. The wooden strips 3 are permanently connected to the board 2 along its entire length, for example by means of glue. During the gluing procedure, the paired strips can be kept pressed against the intermediate board by means of wooden plugs. By using wooden strips attached to the board in this way, a very rigid and load-resistant I-beam is produced.

As can be seen from Fig. 1, the strips 3 are glued to the disc 2 at a certain distance from its edges, so that a longitudinal tongue-and-groove 4 is obtained along both flange portions of the beam.

When using such beams in building constructions, conventional building elements, such as boards 5, 6, can be easily mounted on the beams by providing them in advance with grooves 7 corresponding to the tongues 4. During assembly, the tongues 4 are coated with a thin layer of glue, after which the boards 5, 6 are pressed onto the beams 1, as illustrated in Fig. 1. 504 713 Because the building elements such as the boards 5, 6, boards or the like, are provided with grooves 7 at the factory, these will run exactly perpendicularly over the building element and also in dependent of utilized modular system in advance carefully determined mutual distances. In this way, perpendicular constructions with precise modular dimensions can be achieved in a very simple manner without the use of aids, such as angle brackets and rulers. Furthermore, the individual boards do not need to be nailed to the beams, which means a further rationalization of the construction.

In Fig. 1, the invention has been illustrated in connection with a floor, in which the boards 5 can consist of floorboards in one floor and the boards 6 of roof boards in an underlying floor.

Fig. 2 shows a part of an end view of a floor layer constructed according to Fig. 1. This figure could also illustrate a section through a wall, the I-beams 1 being used as standing bars in the wall. The boards 5, 6 thereby form the two outer layers of the wall. These boards can also be replaced by, for example, chipboard provided with grooves arranged at the same mutual distance as the distance between the rebates 4 of the I-beams 1.

The construction method described above provides very stable constructions. However, should this be required, the boards 5, 6 or the like can of course also be nailed to the strips 3.

Fig. 3 illustrates how I-beams 1 according to the invention can be used in a house construction. The beams are used here as well as standing joists for the walls, such as trusses and rafters. Exterior roof boards 8 are then easily pressed onto the tongues 4 projecting on the upper side of the roof trusses, while ceiling boards 9 are pressed onto the grooves 4 running along the undersides of the roof beams. illustrated in Fig. 1.

This example shows that it is possible to use I-beams according to the invention for all load-bearing structures in a house and thereby substantially rationalize the construction, when e.g. many nailing moments can be ruled out. Furthermore, as above, a right-angled construction with correct module dimensions is automatically obtained.

Fig. 4 schematically illustrates how the grooves in a building element intended for mounting on I-beams according to the invention, such as a board 10, can be produced. The board is provided with a transverse groove 7 by means of a blade or cutter 11, which processes the board from two different angles to produce a groove which in cross section has the shape of a double cone.

This facilitates mounting on an I-beam, see Fig. 5.

The disc 2 may have a slightly greater thickness than the tapered portion of the groove 7 so that a certain pressing force is required to press the board 10 onto the tongue 4. The tongue may optionally be provided with a groove or waist-shaped portion 14 in the middle of the narrowest part of the groove 7 . In this case, a snap action can be achieved by utilizing a certain resilient property of the board 10 when it is mounted on the tongue 4. The insertion of the tongue into the groove 7 is facilitated by the fact that it is slightly tapered towards its free edge. In the figures, the conformity of note 7 has been exaggerated for the purpose of clarification.

The above-described shape of the tongue and groove can also be used for cross-splicing boards, see Fig. 6. One end edge of each board is then provided with a tongue-and-groove 12 with the profile shown with a waist portion 16, while the other end edge is provided with a tongue 13 with a corresponding shape.

At the joining, the tongue 12 is glue-coated, the result being a joint with a strength which substantially corresponds to the strength of a conventional finger joint, but which can be achieved at a much lower cost.

The invention has been described above in connection with some embodiments. However, these can be varied in several respects within the scope of the claims. Thus, for example, the shape of the strips 3 can be varied as desired. This also applies to the profile of the projecting tongue and groove 4 and the corresponding groove in the main surfaces of the building elements to be mounted on I-beams according to the invention.

Claims (10)

504 713 PATENT CLAIMS Load-bearing building structural element substantially in the form of an I-beam (1) with a body portion formed by a disc (2) and at least two pairs of stiffening strips running in the longitudinal direction of the body portion (3), the strips in each pair being arranged on opposite sides of and bonded to the disc along its entire length to together form one of the longitudinal flanges of the beam, characterized in that the strips (3) in each pair run at a certain distance from an associated longitudinal edge of the disc (2), so that the edge portions of the disc extend beyond the respective pair of strips, to form a longitudinal tongue (4) along each of the flange's' of the beam. Construction element according to claim 1, characterized in that said tongue and groove (4) are made with a longitudinal waist portion (14) arranged to cooperate with a tapered part of a groove (7) in a building element (5; 6; 10) , such as a board or the like, when mounting it on the construction element (1). Construction element according to claim 1 or 2, characterized in that the tongue-and-groove (4) is bevelled against the free edge and arranged to cooperate with a groove (7) in a building element (5; 6; 10), such as a board or similarly, which groove has an outer part (15) which tapers substantially wedge-shaped towards a tapered part. Construction element according to one of Claims 1 to 3, characterized in that the board (2) is made of wood fiber or wood veneer and that the strips (3) consist of wooden strips. Building element, such as a board or the like, intended to be mounted on a load-bearing structural element (1) according to any one of claims 1-4, characterized in that it has at least one groove (7) on one of its main surfaces and that this note is arranged to be able to cooperate with a tongue (4) on the construction element (1) during the mounting of the building element (5; 6; 10) thereon. Building element according to claim 5, characterized in that the groove (7) has a tapered part arranged to cooperate with a waist portion (14) on the tongue (4). Building element according to claim 6, characterized in that the groove (7) has a substantially wedge-shaped tapered outer part (15) towards the tapered part and an inner part which widens substantially wedge-shaped from the tapered part and in the direction of the groove. bottom. Building element according to any one of claims 5-7, characterized in that it consists of a board (5; 6; 10) or the like and that said groove (7) runs in the transverse direction over one main surface of the board, substantially perpendicular towards the fiber direction. Building element according to claim 8, which along one end edge is made with a tongue and groove and along the other end edge is made with a corresponding groove, characterized in that the tongue (12) has a waist portion (16) and that the groove (13 ) has a tapered part cooperating with such a waist portion. Building element according to claim 9, characterized in that the tongue (12) and the groove (13) have substantially wedge-shaped inclined parts on both sides of the waist portion (16) and the tapered part, respectively.