The present invention relates to a wooden lattice girder for construction comprising an upper chord and a lower chord, connected to each other by struts, having tenons each at the ends thereof, wherein the tenons on one end of the struts are glued into mortises on the upper chord, running in the longitudinal direction of the upper chord and the tenons on the other respective end of the struts are glued into mortises on the lower chord, running in the longitudinal direction of the lower chord. Such lattice girders are used, for example, as girders for the formwork in concrete structures, particularly of concrete ceilings and concrete walls.
Lattice girders of this type are known, e.g., from DE 18 07 956 B1 or DE 18 17 718 A1. In these lattice girders, the chords have mortises running in the longitudinal direction of the chords with the lateral surfaces of the mortises being aligned in parallel. As a rule these mortises are made by milling. The tenons are carved from the ends of the struts. Since in the case of lattice girders of this type, the struts usually are positioned in an oblique way on the chords, at an angle of about 45°, the basic shape of the tenons in their plane parallel to the longitudinal direction of the struts is triangular. In this case the tenons are formed by making parallel cuts into the ends of the struts in said longitudinal direction. I.e., they also have lateral surfaces which are parallel to one another.
In gluing the tenons into the mortises wood glue is applied onto the lateral surfaces of the tenons and/or mortises. Since the tenons and the mortises are made to interlock with perfect fit in analogy to a groove and tongue joint, the glue is passed from the lateral surfaces to the bottom of the tenons upon insertion of the tenons into the mortises. If the tolerance is too small the quantity of glue left on the lateral surfaces is insufficient to make sure that a permanently attached glued joint is achieved.
U.S. Pat. No. 3,452,501 discloses a wooden lattice girder for construction comprising an upper chord and a lower chord which are connected to each other by struts. Here, the tenons each at the ends of the struts are glued into mortises on the upper chord, running in the longitudinal direction of the upper chord, and the tenons at the respective other end of the struts are glued into mortises on the lower chord, running in the longitudinal direction of the lower chord.
In one embodiment of the mortises, the length of the mortises is not matched to the dimensions of the tenons, but is running along the entire length of the chords.
In another embodiment the mortises are matched to the dimensions of the tenons. These mortises have a rhombic cross-section.
The drawback of the mortises which are not matched to the tenons is that dirt and/or water may penetrate into the mortises. The latter may result in the premature dissolving of the glue.
To overcome the above-noted problems, the mortises, e.g., may be made with a rhombic cross-section. However, these may be produced at a great expense only. Even when using a milling cutter the mortises with a rhombic cross-section would be formable with great difficulties only.
The object of the invention is to provide a lattice girder and a method for producing a lattice girder overcoming the disadvantages of the prior art, wherein, in particular, a permanently attached joint between the chords and the struts is achieved having a larger range of tolerances wherein the production of the lattice girder is to be simplified.
This object is achieved by the lattice girder and the method of producing the latter according to the independent claims. The dependent claims are preferred embodiments of the invention.
The wooden lattice girder according to the invention comprises an upper chord and a lower chord which are connected to each other by struts. Each strut has tenons at the ends thereof, with the tenons being glued at one end each of the struts into mortises of the upper chord, running in the longitudinal direction of the upper chord, and the tenons at the respective other end of the struts are glued into mortises of the lower chord, running into the longitudinal direction of the lower chord. Herein the respective length of the mortises in the longitudinal direction of the chords at least largely corresponds to the dimensions of the tenon inserted and glued into the respective mortise, i.e. the mortises extend each time over a partial length of the chords only.
The lateral surfaces of a respective mortise running in the longitudinal direction encompass an acute angle and the surfaces of the tenon glued to said lateral surfaces of said mortise encompass a corresponding acute angle. The tenons are tapering by encompassing an acute angle from the lateral surfaces into the direction of their ends, and the width of the mortises perpendicular to the longitudinal direction of the chords reduces accordingly into the direction of their respective mortise bottom.
According to the invention the cross-sections of the mortises are shaped rectangularly or substantially rectangularly. Advantageously, also the cross-sections of the tenons inserted into the mortises are formed accordingly to achieve a perfect fit of the tenons in the mortises. Advantageously, if several tenons have been inserted into a mortise, the cross-section of the structure, which is formed by the tenons and inserted into the mortise, is formed accordingly rectangularly.
Thus no glue applied to the lateral surfaces is displaced, or to a negligible extent only, into the direction of the bottoms of the mortises upon insertion of the mortises. The glue keeps stuck to the surfaces, whereby sufficient glue is kept in situ to provide a permanently attached joint. Due to the fact that the mortises are formed length-adjusted, the tenons may fill and seal the volume of the mortises such that no soil may penetrate into the mortises. Due to the rectangular configuration of the cross-sections of the mortises, the lattice girder according to the invention may be produced in a simple way since mortises of this type may be produced simply be using circular saw blades. In the process, at least two cuts with a circular saw with the cutting planes each being angular to one another are made to form the mortise in a respective chord. Thus the lattice girder may be produced in a cost-effective and expeditious way.
If the ends of the struts have two tenons each, a construction having a superior load bearing capacity is achieved without causing too great an expenditure for forming the structures to be glued.
It is preferred that there is a clearance between the mortise bottom side end of the tenons and the mortise bottom of the mortise into which the respective tenon is glued. This clearance is capable of receiving the amount of glue being squeezed out by pressing the lateral surfaces of the tenons to the lateral surfaces of the mortises such that insertion of the tenons into the mortises is possible without a displacement resistance being caused due to said amounts of glue.
If the mortise bottoms of the mortises in the longitudinal direction of the chords have a semi-circular profile each, the mortises subsequently may be cut into those of the corresponding chord by means of a plurality of canted saw blades.
Advantageously, two adjacent struts each in the region of their ends being glued into mortises of one of the chords are interlocked. This enables force to be transmitted from one strut to another. Thus, transverse loads may be taken up far better by the inventive girder.
Preferably, the glued ends are interlocked with one another by means of a dovetail fine finishing of the abutting tenons. Due to the zigzag shape formed by dovetail fine finishing, a superior contact surface of the surfaces to be joined is achieved. A high degree of strength is obtained when contact surfaces formed in such a way are glued.
It is particularly preferred when the dovetailed ends form a semi-circular profile each in the longitudinal direction of the chords. The corresponding edges of the adjacent struts positioned obliquely on top of one another in conjunction with the semi-circular profile have an ellipsoid shape. Interlocked ends or tenons, respectively, which are formed in such a way, may be positioned into accordingly formed mortises with a perfect fit. Due to the semi-circular profile the contact surfaces to be glued, namely, the lateral surfaces of the mortises and the associated lateral surfaces of the tenons, are maximized with respect to their surface area, resulting in a particularly durable bonding and thus in particularly sturdy lattice girders.
In a further embodiment of the invention the mortises in the chords have circular and/or oval-shaped partial areas when viewed in side elevation to which the corresponding dovetail shapes of the struts are matched.
To produce lattice girders according to the invention the tenons of the struts are glued into the mortises of the chords. To make the mortises, preferably by means of circular saw blade, a first lateral surface of a mortise each, running in the longitudinal direction of the chords, is formed by making a first cut with a circular saw. Thereafter, the second of the lateral surfaces of this mortise running in the longitudinal direction of the chords is formed by making a second cut using a circular saw. The cutting planes of the circular saw cuts are set in accordance with the acute angle to be generated between the lateral surfaces of the mortise.
The invention will be described in detail hereinafter based upon an exemplary embodiment with reference to the drawings.
a shows a section of the lattice girder according to the invention;
b shows an exploded view of the section of the lattice girder of
The figures of the drawings are showing the inventive subject matter in a highly diagrammatic fashion and are not to be understood as being to scale. The individual components of the inventive subject matter are illustrated such that their structure is readily shown.
In the
The dimensions of the lattice girder 1 are comparable to those customary for lattice girders in the field of construction. The lattice girder 1 has a length of several meters, and the struts 2 and the chords 4, 5 thereof have a thickness of several centimetres. The lattice girder 1 comprises an upper chord 4 and a lower chord 5. Chords 4, 5 are connected to one another via struts 2. The struts 2 are positioned obliquely onto chords 4, 5, with the struts 2 encompassing an angle of about 45° in conjunction with chords 4, 5. The struts 2 have two tenons 7 each at the ends thereof. Chords 4, 5 have mortises 9 in the longitudinal direction thereof, with one mortise 9 each being associated with a tenon 7. In the assembled condition a tenon 7 each is glued into the associated mortise 9. I.e., the tenons 7 at one end of the struts 2 each are glued into mortises 9 of the upper chord 4, and the tenons 7 of the respective other end of the struts 2 are glued into the mortises 9 of the lower chord 5. The lateral surfaces 12 running in the longitudinal direction of a mortise 9 each encompass an acute angle and the surfaces 10 of the tenon 7 glued to said lateral surfaces 12 of the respective mortise 9 encompass a corresponding acute angle. Thus, the respective lateral surfaces 10, 12 of tenons 7 and/or mortises 9 are not aligned in parallel. Due to this the tenons 7 are tapering towards the ends thereof. Accordingly, the width of the mortises 9 perpendicularly to the longitudinal direction of the chords 4, 5 towards the bottom of the mortises is reduced due to the fact that an acute angle is encompassed. In the assembled condition the tenons 7 are glued with the respective lateral surfaces 10, 12 of the mortises 9 with a perfect fit. Two struts 2 each adjacent to each other are interlocked in the region of the ends thereof which are glued into the mortises 9 of one of the chords 4, 5. For this purpose the ends of the struts 2 and the tenons 7 in their abutting regions have a dovetail fine finishing 14. This dovetail fine finishing 14 each consists of a zigzag profile formed in these regions of the regions, with the profiles of the regions adjacent to one another being formed in a complementary fashion such as to interlock fittingly so that the lateral surfaces of the tenons 7 and the struts 2 corresponding to each other are each running in a plane. In the figures the zigzag profiles of the dovetail fine finishing 14 are recognizable in those regions adjacent to tenon 7 of the struts 2.
The mortise bottoms of mortises 9 have a semi-circular profile each in the longitudinal direction of the chords 4, 5. The ends of the struts 2, which are interlocked with one another, and/or the dovetailed tenons 7 in the longitudinal direction of the chords 4, 5 each form a respective semi-circular profile 16. I.e., an ellipsoidal shape is formed together with the associated edges of the struts 2. This enables the lateral surfaces 10 which are glued with one another to be formed generously.
In
The invention proposes a wooden lattice girder 1 for construction comprising an upper chord 4 and a lower chord 5, connected to each other by struts 2, having tenons 7 each at the ends thereof, wherein the tenons 7 at one end each of the struts 2 are glued into mortises 9 on the upper chord 4, running in the longitudinal direction of the upper chord 4 and the tenons 7 at the respective other end of the struts 2 are glued into mortises 9 on the lower chord 5, running in the longitudinal direction of the lower chord 5. The lateral surfaces 12 of a respective mortise 9 running in the longitudinal direction thereof encompass an acute angle and the surfaces 10 of the tenon 7 glued to said lateral surfaces 12 of the said mortise 9 encompass a corresponding acute angle to each other.
The invention is not restricted to the above-mentioned embodiments. Rather, a number of variants are conceivable which may make use of the features of the invention even if they have a basically different design.
Number | Date | Country | Kind |
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10 2006 021 731.4 | May 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE2007/000661 | 4/17/2007 | WO | 00 | 11/4/2008 |