EP0558767A1 - Flooring system - Google Patents

Abstract

The intention is to develop a large-surface-area flooring system which comprises planar floor slabs, can be easily constructed and dismantled and, even on irregular ground, can span large widths of from 2.50 m to 3.0 m without underfilling. This is made possible by the cavity elements 1 to 4, in a flooring system comprising a plurality of cavity elements consisting of metallic material, being provided with guide and clamping parts 4, 5 running on the longitudinal sides. The surfaces of the open end sides of the cavity elements terminate flush with in each case a delimiting profile 6, 7 which comprises an aluminium extruded section with a rectangular cross-section and an extended base surface which serves as bearing surface for the end sides of the cavity elements, the ends of the delimiting profiles 6, 7 being connected in a positively locking and/or frictionally locking manner to the respectively outwardly located cavity element 1, 4. <IMAGE>

Description

The invention relates to a floor system consisting of a plurality of hollow chamber elements made of metallic material, preferably of aluminum, which are assembled to form repeatedly removable and removable floor panels for tent or hall constructions.

From DE-PS 32 46 576 a floor for tent or hall constructions is known which consists of rectangular individual fields which are interchangeable and can be repeatedly assembled and disassembled. The individual fields essentially consist of wooden elements, which are held on the edges by frame-like hollow profiles. The assembly and disassembly of the known floors is time-consuming, since the individual fields are connected to one another and to the narrow sides with rail beams by screws.

On the other hand, base plates made of aluminum are known, individual aluminum extrusion profiles being joined together to form larger surface elements by welding. As a result, the floor panels are permanently connected to one another and cannot be used for repeated assembly and removal of floor systems. In addition, there is a risk that the temperatures occurring during welding lead to a warping of the large base plates, so that complex straightening procedures may be required.

The object of the present invention is to avoid the disadvantages described and to develop a floor system for large-area, flat floor slabs which is easy to assemble and disassemble and also bridges large spans of 2.50 m to 3 m without relining without relining.

The object is achieved according to the invention by the features specified in the patent claims.

Through the use of laterally extending groove / tongue systems, thin-walled, extruded hollow chamber elements are connected to one another over a large area. A special corrugation in the longitudinal and transverse direction of the self-supporting floor panels improves the slip resistance and at the same time creates a visually particularly structured floor system that is particularly suitable for marquees and representative hall constructions.

The invention is explained in more detail below with the aid of several exemplary embodiments.

Figur 1

Querschnitt durch ein erfindungsgemäßes Fußbodensystem;

Figur 2

das erfindungsgemäße Fußbodensystem in Draufsicht;

Figur 3

das erfindungsgemäße Hohlkammerelement.

Show it:

Figure 1

Cross section through a floor system according to the invention;

Figure 2

the floor system according to the invention in plan view;

Figure 3

the hollow chamber element according to the invention.

According to FIG. 1, the hollow chamber elements 1, 2, 3, 4 are put together to form a floor system, guide parts 14, 15, 16 and clamping parts 17, 18, 19 being arranged on the long sides 11, 12, 13.

The end faces of the hollow chamber elements 1, 2, 3, 4 are shown open in cross section according to FIG. 1, so that the hollow chamber struts, e.g. 1a, 1b, 1c. The open end faces of the hollow chamber profile are flush with a boundary profile.

The boundary profile can be seen in Figure 2. It essentially consists of an extruded aluminum profile with a rectangular cross-section and an extended base B1, B2, which serves as a support surface for the end faces of the hollow chamber elements.

The limiting profile 7 is positively and / or non-positively connected to the respective external hollow chamber elements 1, 4. This is usually done by a screw connection that connects the base surface B1 or B2 to the corresponding hollow chamber element.

Of course, the floor system can be expanded beyond the shape shown in FIG. 2 on both sides of the free contact surfaces of the boundary profiles 6 or 7. Extensions of the hollow chamber elements are also possible in the transverse direction, provided that corresponding guiding and clamping parts are provided on the long sides. Flushness is ensured even on uneven floors, since the stiffness and bending strength of the hollow chamber elements are sufficient to bridge even large floor depressions or to form smaller bumps due to their own weight.

It can be seen from FIG. 3 that the lateral guide grooves 4 of the hollow chamber elements have a rectangular cross section. Based on numerous tests, this has proven to be optimal for a sufficient manager in difficult terrain under favorable assembly conditions. The width of the recess should be between 20 and 30% of the total width of the hollow chamber element, so that sufficient stability of the flooring system is ensured.

In order to further facilitate the assembly between the individual hollow chamber elements, it is particularly advantageous if the surfaces 8 of the hollow chamber elements are chamfered at an angle between 8 ° and 12 ° on the sides facing the lateral elevation. This beveling is intended to make it easier to push the hollow chamber elements into one another, in particular to promote the engagement of the tongue / groove system assigned to the surfaces. It has been found from many tests that the spring elements 5.1 must have a special shape under the weather conditions prevailing outdoors, so that they engage with an appropriate force in the corresponding grooves 5.2 on the surfaces of the adjacent hollow chamber elements. The shape of the spring elements can be seen from FIG. 3.

The slip resistance on the surface, which is given in the examples according to the invention by longitudinal and transverse corrugation, is particularly important for floor elements. The longitudinal corrugation 9.1 to 9.4 is usually introduced into the hollow chamber elements by appropriate shaping of the die during extrusion. A transverse corrugation 10 is preferably produced by subsequent mechanical processing, at least the peaks or upper elevations of the longitudinal corrugation having to be deepened accordingly.

The base plate shown in FIG. 2 is designed as a self-supporting unit with a length of 2.50 m to 3 m and a width of 1 m. It consists of individual hollow chamber profiles 1, 2, 3, 4, each of which has a chamber height of 45 mm to 55 mm and a wall thickness of 1.5 mm to 2 mm. Due to the special structural conditions, a maximum degree of rigidity is made possible in the flooring system according to the invention, while at the same time having thin-walled and thus lightweight hollow chamber elements. This is particularly important for assembly on site, in difficult terrain and when transporting over long distances.

The use of natural-colored aluminum profiles in the arrangement of longitudinally-guided hollow chamber elements and transversely arranged boundary profiles results in a particularly visually appealing structure through dark-colored corrugation. This results in a particularly festive look in hall constructions that are created at trade fairs or for other representative purposes. which represents a significant advance in connection with the technical advantages over the previous floor systems using wooden elements.

Claims (7)

Floor system, consisting of several hollow chamber elements made of metallic material, preferably of aluminum, which are assembled to form repeatedly removable and removable floor plates for tent or hall constructions, characterized in that

that the hollow chamber elements (1 to 4) are provided with guiding and clamping parts (21/22) running on the longitudinal sides, the open end faces of the hollow chamber elements (1 to 4) being flush with a limiting profile (6, 7) each, which from there is an extruded aluminum profile with a rectangular cross-section and an elongated base surface which serves as a support surface for the end faces of the hollow chamber elements, the ends of the boundary profiles (6, 7) being connected to the outer hollow chamber element (1/4) in a positive and / or non-positive manner. Floor system according to claim 1, characterized in

that the guiding and clamping parts consist of a tongue and groove system,

wherein the spring elements (5.1) protrude on the side surfaces of the hollow chamber elements and engage in corresponding grooves (5.2) on the surfaces of the adjacent hollow chamber elements, and

that depressions (4.2) or elevations (4.1) are arranged approximately in the middle of the side surface of the hollow chamber elements for large-area guidance of the adjacent hollow chamber elements with one another. Floor system according to one of the preceding claims, characterized in that

that the lateral guide grooves (21/22) in the hollow chamber elements have a rectangular cross-section, the width of the depression being between 20 and 30% of the total width of the hollow chamber element. Floor system according to one of the preceding claims, characterized in that

that a groove with a rectangular cross section is arranged on the surfaces (8.1) facing the lateral elevation of the hollow chamber elements, at a distance of 20 to 30% from the long side of the hollow chamber element,

the surfaces (8.2) of the hollow chamber elements falling towards the side by an angle between 8 ° and 12 °. Floor system according to one of the preceding claims, characterized in that

that longitudinal corrugations (9.1 to 9.4) are arranged in the longitudinal direction on the surface of the hollow chamber elements, transverse corrugation (10) being provided at least on the tips of the longitudinal corrugations to increase the slip resistance. Floor system according to one of the preceding claims, characterized in that

that the self-supporting base plate with a length of 2.50 m to 3 m has a width of 1 m. Floor system according to one of the preceding claims, characterized in that

that the height of the hollow chamber profile is between 45 and 55 mm with a wall thickness of 1.5 mm to 2 mm.

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