DE2520255A1 - LIGHTWEIGHT CONSTRUCTION ELEMENTS - Google Patents

Description

COHAUSZ & FIjORACK

PATBNTANWALTS OFFICE D-4 DÜSSELDORF · SCHUM ANN STR. Θ7

PATENT LAWYERS:
Dipl.-Ing. W. COHAUSZ Dipl.-Ing. W. FLORACK - Dipl.-Ing. R. KNAUF Dr.-Ing., Dipl.-Wirtsch.-Ing. A. GERBER ■ Dipl.-Ing. HB COHAUSZ

April 30, 1975

Applicant: Jens Frederik Larssen S - Stockholm

Patent description:

Lightweight construction elements.

The present invention relates to, and particularly relates to, component fabrication on components that are referred to as lightweight construction elements. With lightweight construction elements In this context, a support element or a box structure is understood that consists of a basic profile consists of sheet metal, which is on one side with a surface cover made of a different and stronger material is covered. The base profile and the surface cover form a solid unit in which the two Components interact statically. The component has a great flexural strength, with the surface covering lies in the pressure zone.

The structural elements according to the invention can be used for roofs, connecting beams, transverse beams, walls, etc. will. Compared with conventional construction elements, the use of lightweight construction elements brings benefits various key advantages. Due to the mutual interaction between the basic profile and the surface cover of the lightweight construction element, the surface cover is both for load support as also used as deek material. Without reducing the load capacity and strength properties becomes one less

AZ 29 133 509847/0864

Dr.Hei / H -P-

Heavy construction element for larger spans and with less material expenditure than conventional ones Construction received. The material for the surface cover can be optimal depending on the requirements and the intended functions of the component to be selected. The lightweight construction element can be manufactured in any length, and its manufacture does not require any major investment. If so desired, they can be finished stackable base profiles and the surface coverings delivered separately and glued together on the construction site will. This translates into low transportation costs. It is it is still possible to use a cheaper insulation material than before, and electrical cables and connections, Pipes for water, ventilation, etc. can be included in the lightweight construction elements. Carry in a nutshell All of the advantages mentioned above contribute to an economical and easy-to-assemble lightweight element which requires less material, is easier to manufacture, which can be used for large spans can and is still excellent to use again.

According to the invention, the component contains a number of interconnected lightweight construction elements, which are connected to one another by interlocking connection profiles, with which the connection points of the surface cover are provided, are firmly connected can. Between the basic profiles of the lightweight construction elements can be easily attached and detachable Filling cassettes are attached, which consist of any suitable insulating material and in which pipes, lines etc. can be accommodated.

The invention will now be described in detail and with reference on the accompanying drawings. Figure 1 shows a section through a component made of lightweight structural elements according to the invention. Figure 2 is a partial perspective view of three different ones Executions of the basic profile of the lightweight construction element.

- 3 509847/0864

The rigures 3> 4- and 5 show three different designs of a profile for a filling cassette, and FIG. 6 shows one of the designs of a connection profile for the lightweight construction elements. Figure 7 is an explanatory strain-stress diagram showing the curves for the components and the interacting Shows materials according to the invention.

The component according to the invention contains a number of interconnected lightweight construction elements, two of which, -1 and 2- , are shown in FIG 4- is made of a different material. The base profile 3 can be made of any suitable metal sheet such as steel or aluminum, and the surface cover 4 can consist of wood material such as plywood boards or board parts or of synthetic resin material, asbestos, cement material, plaster of paris or the like. The basic profile 3 and the surface cover are to form a statically interacting unit through a connection 5 on cLen flanges 3p. of the basic profile joined together. The "connection 5" can consist of a waterproof adhesive which gives such a firm connection between the base profile and the surface covering that a complete interaction between the two components is achieved.

The basic profile 3 can have any useful appearance, and in Figure 1 the basic profile is with narrow flanges 3a, which are bent inwards towards each other, and the surface cover is fixed on the flanges appropriate. In Figure 2, three different, modified versions of the basic profile are shown in which the flanges are directed outwards. The profile shapes shown in the drawings are only Illustration examples; many other profile types can be used.

The base profile 3 is expediently provided with an insulating material 6 in its interior.

509847/0864 - 4 -

The connection of the lightweight construction elements to a component can through the connection profiles 7 together with the filling cassettes 8, which are located between the adjacent Base profiles are located, are produced.

The connection profiles 7 are intended to the edges of the surface cover 4, which face each other brace; the profiles can have any useful shape. In Figure 6 is an example of a connection profile shown, which consists of a metal strip 9 with a number of slots are provided which extend from the longitudinal edge a little towards the center of the strip 9 extend. By bending the parts of the metal strip, which lie between the slot 10, alternately to the left and the right side on both the upper and Also the lower edge, as can be seen in the lower part of FIG. 6, has a number of protruding closing parts obtained by placing the lightweight construction elements on both surfaces of the surface cover secure to each other. To make it easier to close, just run along one edge of the metal strip 9 the protruding parts 11 are pre-bent; the strip is thereby connected to the protruding parts 11 provided against one face of the cover 4, and the tabs on the opposite side of the strip are down against the corresponding face is bent as shown in the figure. As explained, the profiles 7 secure a connection of the surface covers 4- of neighboring lightweight construction elements. The flaps 11 can also have staples 12 which penetrate the surfaces of the covers 4.

A filling cassette 8 made of a usable material can be inserted between the basic profiles 3. the The cassette can be concave, as shown in Figure 1, but it can just as easily be flat, convex, or any other be trained differently. For attachment, the cassette 8 with protruding pins 13 * by corresponding Go through holes in the base profile, be provided.

509847/0864

Alternatively, the basic profile 5 can be provided with grooves 17 into which the side edges of the filling cassettes engage. The filling cassette 8 can be at any reasonable height in relation be attached to the base profile, e.g. so that they are level with the lower surface of the base profile or, as shown in Figure 1, slightly raised from the lower surface. Seen from the acoustic point of view it can be useful to mount the filling cassette at a stepped height; there is still a technical advantage a better look. A layer of insulating material 14 can be provided on the upper side of the filling cassette 8, and in this insulating layer or on its top side pipes or lines 15 for electricity, water, Telephone, ventilation, etc. can be accommodated. Corresponding sockets can be found on the underside of the filling cassette or connecting parts provided. According to the invention there is a statically cooperating unit achieved from a base profile made of sheet metal and a surface cover made of plywood or other wooden board material, which is connected to the basic profile by means of an adhesive and interacts with the latter. The complete, reciprocal interaction that is ensured by the adhesive connection is one The main reason why the lightweight construction element according to the invention has an extremely high load capacity receives. To explain this, reference is made to Figure 7 of the drawing which is a tensile stress diagram shows in which the pressure loads of the various components and the optimal pressure load of the combined Lightweight construction elements (surface cover and Adhesive flanges) are recorded on the vertical axis, and in which the Zugf along the horizontal axis is applied. To assess the tension-compression curve, the properties of the two components are first shown in viewed the diagram; from this the value of the combined lightweight construction element can be seen. By the complete cooperation-between the plywood sheet and the sheet metal (adhesive flanges), which is created by the adhesive connection

509847/0884 " ⁶ "

is obtained between the components, it is possible without the security requirements for the combined To influence construction elements, the normally allowed tension (tensile stress) for the MetalMech material to exceed in the area on and near the top flanges.

In FIG. 7, the curve Ea indicates the modulus of elasticity of the sheet metal material, the curve Ey the modulus of elasticity of the plywood and the curve E _T the optimum modulus of elasticity for a lightweight construction element that interacts completely with one another. If the area of the cover plate material is denoted by Ay and the area of the sheet metal material (the adhesive flange) is denoted by Aa, the optimum modulus of elasticity for the combined lightweight construction element is obtained from the following equation:

^E I ⁼

Ey. Ay + Ea. Aa

Ay + Aa

In the diagram, ca means the normally allowed tensile stress of the sheet metal material and ay the normally allowed tensile stress of the plywood material. If a line connects the point of intersection between era and the curve Ea with the point of intersection between <ry and the curve Ey, said connecting line intersects the line or curve of the optimum modulus of elasticity Ε 'at the point (σί; £ ϊ ). As a result, it is found that, due to the interaction between the cover layer and the adhesive flanges and for the tensile stress £ l, the load on the sheet material is o * al greater than the normal permissible load ca of the sheet material and that the load on the plywood material cyl is less than the permissible load capacity for the plywood material. When the two components interact completely, it is consequently possible to increase the ίΤ value for the sheet metal material compared to the case in which the sheet metal profile and the plywood material are held together by mechanical connections that are not complete

5 0 98 47/0864 _ _? _

mutual cooperation result, as this is achieved by the adhesive connection.

A relative increase in the area of the plywood material in relation to the area of the sheet material on the adhesive flanges leads to the effect that the curve E _T comes closer to the working curve for the plywood material Ey and the relative load-bearing capacity of the plywood within the combined element (plate and adhesive flange) increases; the tensile stress of the plywood panel cryi comes closer to er y, whereas the tensile stress of the sheet material er ai at the adhesive flange of said sheet material becomes greater and comes closer to the boundary point Os. This is possible without endangering the safety of the construction as a whole, since the reduced safety of the sheet metal material is offset by the increased safety of the plywood material.

As can be seen from the above, it is therefore possible without the dimensions of the component parts to increase, to obtain a significantly increased load-bearing capacity of the combined lightweight construction element than with a comparable component in which the sheet metal profile and the cover plate are mechanically Parts are connected.

In a practical implementation, a beam construction for a flat roof with a span of 12 m, executed with lightweight construction elements according to the invention. The basic profiles had a height of 25 cm and they were made of thin sheet metal Manufactured with a thickness of 1.0 - 1.25 mm. The distance between the lightweight construction elements was 120 cm and the width of the basic profiles was 60 cm. The cover plate was made of plywood that was 19 mm thick. Calculations and practical tests showed that this lightweight roof 'that' has a large span and the relatively large distance between the basic profiles, had a carrying capacity with a great deal of certainty.

It must be understood that the above description

509847 / 086Λ -S-

is exemplary only and that all kinds of modifications are made to the invention with reference to the appended claims are. It is also clear to a skilled person how the invention can be changed by replacing the materials and elements with equivalent materials and elements can without, however, deviating from the basic idea and spirit of the invention.

509847/0 864

Claims (9)

Dr.Η / Η Patent claims : 1- / A component composed of a number of Lightweight construction elements and designed to be installed horizontally between support points and from above to be loaded, characterized in that each lightweight construction element (1,2) has a lower Contains basic profile for absorbing the expansion stress, which consists of a box profile (3) made of thin sheet metal that is open at the top and facing inwards or outwards at its top Has flanges (3a), and a surface cover (4-) made of plywood or other wood material to absorb the compressive stress in this zone, and which is made of a material that differs significantly in every respect from the sheet metal of the Basic profile, and in that the surface cover (4) by an adhesive connection (ρ), which extends over the entire upper surface of the base profile flange (3a) extends, firmly connected to the base profile (3), so that the upper cover (4) and the base profile (3) form a statically alternating supporting structure result. 2. Component according to claim 1, characterized in that the surface cover (4) of each lightweight construction element (1,2) is larger than the basic profile (3) and extends over both of its long sides extends outside beyond the base profile (3). 3. Component according to claims 1 or 2, characterized in that the connection of adjacent Lightweight construction elements (1, 2) are produced by a connection profile (7) or the like, that with a lashing strip that extends along the adjacent edges of the surface cover (4) and with protruding connection parts (11) 47/0864 -10- touches the top and bottom surfaces of the surface cover. 4. Component according to any one of the preceding claims, characterized in that a filling cassette (8) bridged the gap between the profiles (3). 5. Component according to claim 4, characterized in that that the filling cassette (8) with pins (13) in corresponding Holes in the sides of the base profiles (3) engages. 6. The component according to claim 4, characterized in that the filling cassette (8) has flat side edges which in Engage longitudinal grooves (17) in the sides of the base profiles (3). 7. Component according to claims 4, 5 or 6 thereby characterized in that the filling cassette (8) has a concave or convex shape and is set back between the basic profiles (3) is stretched. 8. The component according to any one of claims 4-7 thereby characterized that the Füllkassettö (8) pipes, lines and connecting parts (15 »16) for electricity, Includes telephone, ventilation, etc. 9. The component according to any one of claims 4-8, characterized in that the basic profile (3) along the The bottom and / or the sides is designed with insulating material (6) and that the filling cassettes (8) likewise are provided with insulating material (14). 4 7/0884 Blank page