NL1031125C2 - Floor system comprising plastic tiles and feet, used for temporary events, have metal strips on the tile undersides for discharging static - Google Patents

Abstract

The tiles (1) have metal strips (6, 7) on their underside which extend diagonally across the tile and/or along the tile edges. The tile contains two or more cable ducts which are sealed with cable caps in contact with the diagonal strip. The corners of the tiles are supported by height adjustable plastic coupling pieces.

Description

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Floor system

The invention relates to a floor system consisting of plastic tiles with metal strips, which can be used for temporary events, such as, for example, the exhibition building. The plastic tiles are supported at the corners by height-adjustable plastic coupling elements and are provided on the underside with metal strips that ensure the bearing capacity and also serve as a conduction of the static electricity. Each tile is provided with two or more cable entries that are closed by plastic cable caps.

In many situations it is important that the floor is antistatic, so that the static electricity is properly transmitted or transmitted. This applies to floors of computer rooms, as well as exhibition floors or other situations where there may be an electrostatic charge during use.

Known from European patent EP 0 321 411 is a floor that is laid with a grid of electrically conductive wires, which entails a considerable amount of extra work and is difficult to move.

Floor tiles are also known from PCT application WO 01/77460 in which metal strips are laid flat in the surface of the tile and are converted to the bottom, while any cable penetrations are missing.

The floor system according to the invention attempts to eliminate these drawbacks, because each tile is preferably provided on the underside with a number of metal strips which are arranged along the edges and / or diagonally. It is also preferred that each tile is provided with two or more cable lead-throughs that are closed with cable caps that make contact with the strip arranged diagonally.

The conduction of the static electricity is preferably effected by means of the conductive cable caps, which via the diagonal strip make contact with the corner elements, which during assembly then make contact with the upper surface of the system feet, which is provided with a pattern of conductive material. , which makes contact with the metal foot of the system foot.

1031125 -2-

The present floor system will be further described with reference to the following figures: Figure 1 (A, B and C) shows the system tile in elevation;

Figure 2 (A, B and C) shows the corner element in views;

Figure 3 (A and B) shows the system foot in views;

Figure 4 (A, B and C) shows the cable cap in views.

The floor system according to the invention consists of a tile 1 with a size of 50 x 50 cm, which is supported in the corners by system feet 3. At the bottom there is arranged in each corner of the tile 1 a corner element 2 into which a system base 3 fits. . These system feet 3 provide a space below the floor of at least 50 mm height that can be used for concealing cables and pipes. Each tile 1 is provided with two or more cable entries 4 with a diameter of 130 mm, which are closed with cable caps 5. All this is shown in figure 1 (A, B and C), while figure 2 (A, B) represents the corner element 2, figure 3 (A, B) shows the system base 3 and figure 4 (A, B, C) shows the cable cap 5. Due to a symmetrical design, the tile 1 can be rotated in four positions so that the passage of cables and pipes is possible in very many places without having to drill or saw into the tile 1. Each tile 1 can be used in any position as a corner, border or center tile. A system foot 3 can support one, two or four tiles and is continuously adjustable in height from 0 to 70 mm.

The tile 1 has a construction height of a few centimeters, the upper surface of which is reinforced by a (honey) comb construction on the underside. The tile 1 is also reinforced by means of steel strips which are arranged vertically on the underside. For each tile 1, several steel strips are applied, which are arranged along each side 6 and diagonal 7. The strips 6 and 7 are held in place by the corner elements 2, which are permanently mounted in the tile. All corners are supported during installation by a height-adjustable system base 3. The system base 3 can support one, two or four tiles and thus connects the individual tiles to a floor. The geometric design of the tile 1 ensures that the strips 6 and 7 are loaded perpendicularly without being able to fall over, because they are clamped in the comb construction on the underside of the tile 1.

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By increasing the load-bearing weight, the construction is compressed harder, making the composition even stronger.

All strips 6 and 7 are made of steel and / or spring steel. The use of spring steel instead of standard cold-rolled steel makes a load possible that is more than four times higher than standard steel.

The height-adjustable coupling element, "the system base" 3, which is provided on the upper surface 8 with a pattern of conductive material 9, with which the corner elements 2 of the tile 1 make contact and are therefore in contact with the metal adjusting screw 10 of the system base 3.

15 The floor system is fully ESD (electro static discharge) or anti-static. This is achieved by applying electrically conductive material. for the different components. The material of the cable caps 5 and the corner elements 2 and the rubber damping material of the system feet 3 transmit the static charge. The cable caps 5 make contact with the diagonal strip 7, which in turn makes contact with the corner elements 2 and is thereby in contact with the other strips 6 along the edges of the tile 1. The corner element 2 rests on the damping rubber of the system base 3. The electrical charge is then passed on to the substrate via the metal adjusting screw 10 of the system base 3.

The use of this method of guiding has the advantage that no additional assembly operations need to be carried out to connect the various parts to each other. Irrespective of the intensity of use, the various parts hardly wear, if at all. The steel strips connect all corners to each other, guaranteeing the discharge of the electrical charge. The steel strips also ensure that each tile has a relative mass that can absorb a certain amount of current.

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Claims (4)

Floor system consisting of system tiles and system feet, characterized in that each tile (1) is provided on the underside with a number of metal strips (6, 7), which are arranged along the edge and / or diagonally. Floor system according to claim 1, characterized in that each tile (1) is provided with two or more cable entries (4) that are closed with cable caps (5) that make contact with the strip (7) arranged diagonally. 3. Floor system as claimed in claim 1 or 2, characterized in that conduction of the static electricity is achieved by means of the conductive cable caps (S), which contact the corner elements (2) via the diagonal strip (7), which make contact with the upper surface (8) of the system feet (3) during assembly, which is provided with a pattern (9) of conductive material, which makes contact with the metal set screw (10) of the system foot (3) during assembly · Floor system according to one of the preceding claims, characterized in that all components, such as the system tile (1), the cable cap (5), the corner element (2) and the system base (3) are made of electrically conductive material. 1031125