WO2013010792A2

WO2013010792A2 - Floor construction

Info

Publication number: WO2013010792A2
Application number: PCT/EP2012/062991
Authority: WO
Inventors: Holger Sasse
Original assignee: Novo-Tech Gmbh & Co. Kg
Priority date: 2011-07-21
Filing date: 2012-07-04
Publication date: 2013-01-24
Also published as: EP2734685B1; EP2734685A2; WO2013010792A3; PL2734685T3; DE102011052048A1

Abstract

The invention relates to a floor construction (1), in particular a sports floor, comprising a plurality of panels (2) which are produced by extrusion and consist of a blend of natural fibres and a polymer material. Said panels (2) are fixed to a substructure (7, 8, 9) that can be laid on a floor (10) and the panels (2) are elastically mounted above the substructure (7, 8, 9). A sports floor with a large surface area can thus be simply laid, even outdoors.

Description

floor structure

The present invention relates to a floor structure, in particular sports floor, with a plurality of panels, which are produced by an extrusion process and from a mixture of natural fibers and a

Polymer material consist, the panels are fixed to a substructure, which can be laid on a floor. EP 1 524 385 discloses a floor covering with extruded panels consisting of a mixture of natural fibers and a polymeric material. The panels have a profiled anti-slip surface and are fixed to a substructure, for example, for terraces and other outdoor walkways. The construction shown there has proven itself, but is not suitable for use as a sports floor.

In addition, sports floors from sports halls are known in which a surface elastic sports floor is resiliently mounted on a substructure. The sports floor comprises glued and coated woods, which form a flat surface that can be used for various ball sports. However, it is not possible to use these sports floors made of wood-based materials outdoors because the materials used are not weather-resistant. In addition, the maintenance effort is high and the useful life is low.

It is therefore an object of the present invention to provide a floor structure, in particular a sports floor, which can also be used outside of halls and easy to install. This object is achieved with a floor structure with the features of claim 1.

According to the invention, the extruded panels of a mixture of natural fibers and a polymer material are resiliently mounted on the substructure, so that the floor structure can also be used as a sports floor. The extruded panels are weather-resistant and can be laid outdoors. The advantage is used that the panels due to the material used from a mixture of a Polymer and natural fibers do not shrink significantly and the joints after assembly are not significantly larger.

Preferably, the travel of the panels at a load of 80 kg is at least 2 mm, preferably at least 3 mm. As a result, a sufficient elasticity is provided in order to use the floor structure as a sports floor, for example, for ball sports, such as handball, basketball or other sports that otherwise take place only in sports halls. The panels preferably have a flat surface. The distance between two panels is at least on the long sides between 1 and 4 mm, in particular 2 to 3.5 mm in size. This ensures that in the event of rain, the water can drain between the panels and no larger puddles form. The gap between the panels is preferably set to less than 3 mm, since then a risk of injury from pinched fingers on the columns can be excluded. In this case, the advantageous effect is utilized that the extruded panels of a mixture of natural fibers and a polymer material expand after installation by absorbing moisture at most slightly, but otherwise remain dimensionally stable and not aufschüsseln, as is the case with wood-based materials.

Each panel preferably has a groove on the longitudinal sides, to which at least one clip is inserted for attachment to the substructure. This allows the panels to be laid so that no fasteners protrude from the top.

For stable support of the panels, the substructure comprises beams. Under the bars are preferably damping pads for loading the elastic see storage of the panels, so that a surface-elastic bottom of the panels is provided by the damping pads below the bars. The damping pads are preferably made of a resilient plastic, rubber, rubber or a mixture of these materials. For adjusting the damping properties, the thickness of the damping pads and / or the Shore hardness can be adjusted accordingly.

Furthermore, the substructure preferably comprises plates on which the damping pads rest. The slabs can be made of stone or concrete. be placed and have a high weight. This prevents the floor structure from shifting or lowering during use.

Preferably, the beams of the floor structure are secured by at least one screw on a plate against lifting. The screws are used to fix the beams to the panels, while the panels are fixed to the beams by means of appropriate clamps so that the floor structure forms a coherent unit after installation. In order to avoid a displacement of the panels in the horizontal direction, an elastic element, in particular a strip is arranged on the beam, preferably, on which a panel rests with a bottom. As elastic elements are strips of rubber, elastic plastic materials or other materials are used, which are embedded or fixed to the top of the beams and prevent slipping of the panels in the horizontal direction.

The panels are preferably weather-resistant and have a proportion of natural fibers over 50 percent, preferably over 65 percent. In particular, wood fibers, wood chips, straw, hay,

Rice husks or other fibrous natural products are used. The material mixture is chosen so that even under moisture no appreciable expansion or shrinkage of the panels and the joints remain substantially constant.

The invention will be explained in more detail using an exemplary embodiment with reference to the accompanying drawings. Show it:

Figure 1 is a view of a floor structure according to the invention laid

Status;

Figure 2 is a sectional side view through the bottom structure of Figure 1; Figure 3 is a detail view of the floor structure in an edge region, and Figure 4 is a view of the floor structure without panels.

A floor structure 1 comprises a plurality of panels 2, which in one

Extrusion processes are made and made from a mixture of natural fibers and a polymer material. The natural fibers may include wood fibers, wood chips, straw, hay, rice husks or other natural fibers, while the polymeric material may be polypropylene, polyethylene or other polymers. In addition, the panels may also contain a proportion of cement or other additives. The material mixture is chosen so that no significant change in shape of the panels 2 takes place under the influence of weather. To increase the roughness, the surface of the panels 2 may be brushed. The panels 2 form a flat surface and are spaced apart. On the longitudinal sides of the panels 2, a gap 3 is formed, which has a width between 1 and 4 mm, preferably 2 to 3.5 mm. At the end faces also a gap 4 is formed, which may have the same width as the gap. 3

The panels 2 are resiliently mounted on a substructure, as shown in Figure 2. The substructure comprises a plurality of beams 7, which are aligned substantially parallel to each other and on soft the panels 2 rest. The beams 7 are made of extruded profiles of a mixture of natural fibers and a polymer material and may be made of the same material as the panels 2. The beams 7 are formed as hollow profiles and ensure that the panels 2 at a distance from a floor 10 are arranged. The bars 7 rest on damping pads 8, which provide elastic support of the panels 2. The damping pads 8 may be made of an elastic plastic, rubber, rubber or a mixture of these materials, wherein the damping pads have a thickness of 1 cm to 5 cm, in particular 1, 5 cm to 4 cm. To adjust the elasticity of the panels 2, the Shore hardness can be adjusted accordingly.

The damping pads 8 rest on plates 9 made of stone or concrete, so that it is ensured that the floor structure has a sufficient weight and can not slip. The plates 9 are supported on a floor 10, which consists for example of a gravel bed.

The substructure of the beams 7, the damping pads 8 and the plates 9 is held together by screws 1 1, which pass through the beams 7 and the damping pads 8 and fixed in the plates 9. The screws 1 1 prevent the beams 7 from being lifted upwards. the. A movement of the beams 7 due to the resilient mounting by the damping pads 8, however, is possible.

Elastic elements, preferably strips 12 of a rubber material, which are glued or extruded on the upper side of the beams 7, are also fastened to the beams 7. The panels 2 rest with an underside on the elastic elements 12 and are thus secured against slipping in the horizontal direction. The panels 2 also have on their longitudinal sides grooves 5, are inserted into the brackets 6 with protruding arms. The brackets 6 are bolted to the beams 7, so that no fastening means on the top of the panels 2 protrude. In this case, distributed over the length of the panels 2 several brackets 6 may be provided for fixing. The panels 2 may have a length between 15 cm and 3 m, preferably 1 m to 2 m. The width of the panels 2 is in a range between 10 cm and 40 cm, in particular 15 cm to 25 cm.

FIG. 4 shows the substructure with the beams 7 and the strip-shaped elastic elements 12 arranged thereon. The bars 7 rest on the perpendicular to the bars 7 aligned plates 9, which in turn rest on the gravel bed 10. The panels 2 can now be placed on this substructure and fixed to the beams 7 via the clamps 6.

In the illustrated embodiment, the surface elasticity of the floor structure is obtained via the damping pads 8, which are arranged under the beams 7. Of course, it is also possible to provide a plurality of elastic elements in the substructure, which together allow a surface elastic mounting of the panels 2.

The floor construction shown is particularly suitable for outdoor installation as a sports floor, for example, for basketball courts, handball courts or other sports. List of reference floor construction

panels

gap

groove

clip

bar

attenuation pads

plates

ground

screw

Elastic element

Claims

claims

1 . Floor structure (1) in particular sports floor with a plurality of panels (2) produced by an extrusion process and consisting of a mixture of natural fibers and a polymeric material, the panels (2) being fixed to a substructure (7, 8, 9) , which is laid on a floor (10), characterized in that the panels (2) on the substructure (7, 8, 9) are resiliently mounted.

2. Floor structure according to claim 1, characterized in that the

Spring travel of the panels (2) at a load of 80 kg at least 2 mm, preferably at least 3 mm.

3. Floor structure according to claim 1 or 2, characterized in that the panels (2) have a flat surface.

4. Floor structure according to one of the preceding claims, characterized in that the distance between two panels (2) is at least on the longitudinal sides between 1 to 4 mm, in particular between 2 to 3.5 mm.

5. Floor structure according to one of the preceding claims, characterized in that each panel (2) on the longitudinal sides of a groove (5), in which at least one clip (6) for fixing to the substructure (7, 8, 9) is inserted ,

6. Floor structure according to one of the preceding claims, characterized in that the substructure comprises beams (7) on which the panels (2) are supported.

7. Floor structure according to claim 6, characterized in that under the bar (7) damping pads (8) for resilient mounting of the panels (2) are arranged.

8. Floor structure according to claim 7, characterized in that the

Damping pads (8) are made of a resilient plastic, rubber, rubber or a mixture of these materials.

9. Floor structure according to one of the preceding claims, characterized in that the substructure comprises plates (9) on which rest the damping pads (8).

10. Floor structure according to claim 9, characterized in that the plates (9) are made of stone or concrete.

1 1. Floor structure according to one of the preceding claims, characterized in that the bars (7) via at least one screw (1 1) on a plate (9) are secured against lifting.

12. Floor structure according to one of the preceding claims, characterized in that on a bar (3) at least partially an elastic element (12), in particular a strip is arranged on which at least one panel (2) rests with the underside.

13. Floor structure according to one of the preceding claims, characterized in that the panels (2) are weather-resistant.

14. Floor structure according to one of the preceding claims, characterized in that the proportion of natural fibers in the panels over 50 percent, preferably over 65 percent.