RU77313U1 - KIT OF ELEMENTS AND PLATE FOR DOUBLE FLOOR FLOORING (OPTIONS) - Google Patents

Abstract

The proposed utility model relates to construction, in particular, to a set of elements for double flooring and a height-adjustable double floor support and to a plate in which a film in the form of a strip of conductive plastic is applied using at least one side of the plate using hot-melt adhesive. with the help of which electrical conductivity is created between the upper and lower surfaces of the plate, providing reliable removal of electrostatic charge from the upper surface of the plate to the metal support, while between the plate 1 and the upper bearing base metal gasket is provided from an electrically conductive plastic with upwardly directed projections entering into the gap between adjacent plates to create contact between the conductive film and the metal support. The technical result of the proposed utility model consists in simplifying the manufacturing process of the plate and reliably removing electrostatic charge from the plate. The technical result is achieved due to the fact that at least one side of the plate using hot-melt adhesive is applied a film in the form of a strip of conductive plastic, using which creates electrical conductivity between the upper and lower surfaces of the plate, providing reliable removal of electrostatic charge from the top surface of the plate to the metal support e. In this case, the use of thermoplastic glue allows you to refuse impregnation of the sides of the carrier layer, while laying from the electrically conductive layer, creating additional contact between the electrically conductive film and the metal support, also contributes to the reliable removal of electrostatic charge from the plate.

Description

The invention relates to a set of elements and a panel for double flooring, in which a plate is mounted on a base through a support.

From the publication WO 03/064 786 (E04F 15/024, 2003), there is known a double flooring board having a carrier layer of chipboard material and a sheet metal coating. On the upper side of the plate is a decorative layer of vinyl tile, surrounded at the edge by a strip or tape of hot melt glue, melting at high temperatures, which serves to strengthen the edge. In this known solution, it is quite difficult to completely cover the wood chip material with a metal layer, since this requires additional operations, which include applying to the upper edge of the plate a strip of hot-melt adhesive that melts at high temperatures, which must have a certain cross-sectional shape to ensure the edge is clean .

The technical result of the proposed utility model is to simplify the manufacturing process of the plate and reliable removal of electrostatic charge from the plate ..

The technical result is achieved due to the fact that at least one side of the plate using hot-melt adhesive is applied a film in the form of a strip of conductive plastic, which creates electrical conductivity between the upper and lower surfaces of the plate, providing reliable removal of electrostatic charge from the top surface of the plate to metal support. In this case, the use of thermoplastic adhesive allows you to refuse impregnation of the sides of the carrier layer.

The invention is explained below on the basis of the drawings, which show

figure 1 - floor design with a plate on the supports,

figure 2 is a cross section of a plate,

figure 3 is a perspective view of a plate on a support to improve the process of removal of electrostatic charge.

1, the number 1 denotes a rectangular or square plate supported by corners on a metal support 2, by which the plate 1 is mounted on the base R. The support 2 has an upper metal support plate 2a, on which the corners of the plate 1 are attached, and a lower metal support plate 2b , with which the support is attached to the base. Preferably, the support 2 is made adjustable in height, for example, by means of a threaded rod 2c fixed to the lower support plate. The threaded rod 2c is inserted into the tube 2d provided with a nut. Figure 1 schematically shows a textile coating 7 located on the upper surface of the plate 1.

Figure 2 shows a plate 1 having a carrier layer 1A of chipboard with a thickness of 30-38 mm The density of the carrier layer of the plate varies in cross-section of the plate and lies in the range of 400-800 kg / m ³ , in particular, approximately 680 kg / m ³ .

Due to this density, a sufficiently light plate is obtained, which allows it to absorb sufficiently large loads. The ultimate (destructive) load of the plate is 1.2-8 kN with the dimensions of the test sample 25 × 25 mm. Such plates are suitable for use in offices at fairly high loads.

The side surfaces of the plate have bevels made at an angle equal to or less than 4.4 °, as a result of which the lower surface of the plate is smaller than the upper surface of the plate, as shown in FIG. This allows for high stability of the plate and higher insensitivity of the upper edge of the plate to impact during installation and, accordingly, to reduce damage, since the angle at the upper edge is almost obtuse. Due to this, it is possible to provide a large contact surface of adjacent plates, which in turn improves the stability of the floor structure.

A film 3 is applied to the side surfaces of the plate, overlapping the side of the plate from the top surface of the plate to the bottom surface. This ensures the protection of the side surfaces of the panel made of wood chip material and having a sufficiently porous surface.

The film 3 can be made of ABS plastic (styrene rubber acrylonitrate-butadiene). This material does not contain polyvinyl chloride (PVC) and is easy to process.

It is preferable to make the film 3 from an electrically conductive polyvinyl chloride, which allows for the conductivity of the plate, respectively, the electrical resistance between the upper and lower surfaces of the plate is more than 100 ohms. Conductivity can also be ensured by the inclusion of additional substances in the film material 3. To create electrical conductivity between the upper and lower surfaces of the plate, an electrically conductive film can be provided on at least one of the four sides. Can also be placed

an electrically conductive film on two opposite sides of the plate or respectively on the other sides to provide conductivity in the transverse direction of the plate.

The electrically conductive film 3 improves the removal of electrostatic charge from the upper surface of the plate to the lower surface compared to the known solution in which only the adhesive between the non-conductive film and the carrier layer of the plate made of wood material is electrically conductive, since the electrically conductive film makes the outer, respectively side surface of the plate 1 and in this case, the electrically conductive adhesive layer is not located under the non-conductive film.

Depending on the application of the floor structure, the electrical resistance of the film may vary from 10 ² to 10 ⁹ ohms, preferably from 10 ⁶ to 10 ⁹ ohms. The highest conductivity is used for floors in offices, laboratories and other similar premises.

Due to the conductivity of the plate from the upper surface to the lower, the electrostatic charge is discharged through the metal support 2 to the zero potential of the base. This prevents the transmission of electrostatic charge to personnel moving on the floor. This is of great importance, for example, in the rooms in which electrical appliances are located.

Due to the small slant angle of the side surfaces of the plate, not exceeding 4.4 °, the electrical contact between the conductive film 3 and the conductive coating on the surface of the plate 1 is also improved, since the relatively obtuse angle between the film and the upper surface of the plate makes it easier to provide contact than sharp angle.

As the material of the film 3, a preferably fireproof material is used. Fire resistance can be obtained by introducing appropriate additives into the film material. In case of fire, the film melts on adjacent plates, as a result of which the gap between adjacent plates is filled with melt, which prevents smoke from escaping.

The film thickness is selected in the range of 0.1-2 mm, which is quite enough to protect the sides of the plate and has a sufficient cross section to ensure electrical conductivity and fire resistance.

It is advisable to introduce into the film material a means to increase the sliding effect of the film, for example, graphite, which prevents the creak from occurring when the side surfaces of adjacent plates are mutually displaced.

The material of the film 3 in color can match the color of the coating to create a unified impression in the case of using plates 1 directly as floor plates, while the film 3 on the side surfaces should remain visible. The film material in its color scheme can correspond, for example, to the color of the parquet on the top surface of the slab, to a coating imitating stones, or to any other coating.

As the adhesive for applying the film 3 to the side surfaces of the plate, a hot-melt adhesive or hot melt adhesive, which melts at high temperature, is preferably used. Hot-melt adhesive has the advantage that after application it quickly cools and hardens, due to which the film is quickly glued while ensuring a sufficiently high elasticity of the joint. In this case, there is no need for additional impregnation of the side surface of the plate, necessary when using water-soluble glue, since hot-melt adhesive or hot-melt adhesive, melting at high temperatures, creates a high-quality connection without additional impregnation.

When hot melt glue is used, melting at high temperatures, obtained by mixing hot-melt adhesive and polyurethane, hot-melt adhesive provides fast bonding due to its high binding properties, and polyurethane gives a high bond strength, since polyurethane can penetrate deeper into the plate material, t. to. it requires significantly longer hardening time compared to hot-melt adhesive.

The upper and / or lower surfaces of the plate 1 may have a coating 4 or 5 of different materials, as shown in figure 2. In this case, for coating 4 or 5, dispersion adhesive based on ethylene vinyl acetate (EVA dispersion adhesive) is mainly used, if we are talking about a carpet or other coating for which contact with moisture during operation is completely excluded. Dispersion glue is an inexpensive glue, which is better to use with the use of equipment, since the apparatus and machines used to obtain the adhesive can be washed with water. In addition, dispersion adhesives are environmentally friendly, because they do not contain isocyanates.

When using polyurethane adhesive for coating 4 or 5 as a result of hardening of the polyurethane, a sufficiently rigid joint is formed, which affects the statics of the plate. The hardened polyurethane adhesive acts as a reinforcement and as an element that gives the board rigidity.

Coatings 4 or 5 can be made, for example, of aluminum foil with a thickness of 0.02-0.1 mm Also, on the lower side of the plate, it is possible to place a coating of sheet steel with a thickness of 0.2-1 mm, and to cover the upper surface of the plate with aluminum foil. This has a more favorable effect on the removal of electrostatic charge to metal supports 2.

As another material for coating the plates 1, a high-density laminate material can be used, consisting of several layers of kraft paper impregnated with resin, which in the pressed state can have a thickness of 0.4-0.8 mm.

As another coating material, paper with aluminum sprayed onto it can be used. Paper with sprayed aluminum has a higher tensile strength compared to aluminum foil, as well as a lower specific gravity per unit area.

The above coatings can be used in various combinations on the upper and lower surfaces of the plates, which allows you to coordinate the floor design with the requirements of the customer.

Figure 3 presents the gasket 6, made of electrically conductive plastic, mounted on the upper support plate 2a of the support 2 and provided with four upwardly projecting ridges 6a that enter the gap between two adjacent plates. These protrusions provide contact with the electrically conductive film 3, which ensures the removal of electrostatic charge from the upper surface of the plate 1 to the supports 2 even when a non-conductive coating 5 is placed on the lower side of the plate 1, and an electrically conductive film 3 is provided only on the sides slabs.

Claims (18)

1. A set of elements for a double flooring, in which the plates are mounted through supports on the base, the flooring plate having a carrier layer of wood-particle material, a coating of electrically conductive material is located on the underside of the plate, and a polyvinyl chloride coating is located on the top surface of the plate, characterized in that at least one side of the plate with the help of hot-melt adhesive is applied a film in the form of a strip of electrically conductive plastic, with which an electrical conductivity is created between the upper and lower surfaces of the plates, ensuring reliable removal of electrostatic charge from the top surface of the plate to a metal support. 2. A slab for a double flooring, in which the slabs are mounted on a base through a support, and the slab has a carrier layer of wood-chip material, a coating of electrically conductive material is located on the underside of the slab, and a polyvinyl chloride coating is located on the top surface of the slab, characterized the fact that at least one side of the plate with the help of hot-melt adhesive is applied a film in the form of a strip of electrically conductive plastic, which creates electrical conductivity between the upper th and lower surfaces of the plate, providing reliable removal of electrostatic charge from the upper surface of the plate to the metal support. 3. The stove according to claim 2, characterized in that the electrical resistance between the upper and lower surfaces of the stove is more than 100 ohms. 4. The plate according to claim 2, characterized in that the film 3 is made of fire-resistant material. 5. The plate according to claim 2, characterized in that the film 3 has a thickness of 0.1-2 mm 6. The plate according to claim 2, characterized in that the material of the film 3 further comprises a means for increasing sliding, allowing adjacent films to easily slide against each other and prevent creaking of the plates. 7. The plate according to claim 2, characterized in that the film 3 is made of ABS plastic (styrene rubber acrylonitrate-butadiene). 8. The plate according to claim 2, characterized in that the ultimate (destructive) load is 1.2-8 kN with the dimensions of the test sample plate 25 × 25 mm 9. The plate according to claim 2, characterized in that the density of the plate is 400-800 kg / m ³ . 10. The plate according to claim 2, characterized in that the film 3 in its color corresponds to the color of the coating deposited on the upper surface of the plate. 11. The plate according to one of paragraphs.2-10, characterized in that the upper and / or lower surface of the plate is coated with aluminum foil 0.02-0.1 mm thick. 12. A stove according to one of claims 2 to 10, characterized in that a paper coating with aluminum sprayed onto it is applied to the upper and / or lower surfaces of the plate. 13. The plate according to one of paragraphs.2-10, characterized in that on the upper and / or lower surfaces of the plate is a coating of steel or metal sheet. 14. A plate according to one of claims 2 to 10, characterized in that polyurethane or ethylene vinyl acetate dispersion adhesive is used as an adhesive for coating the upper and / or lower surface of the plate. 15. The stove according to claim 11, characterized in that a polyurethane or ethylene vinyl acetate dispersion adhesive is used as the adhesive for coating the upper and / or lower surfaces of the plate. 16. The stove according to claim 12, characterized in that a polyurethane or ethylene vinyl acetate dispersion adhesive is used as an adhesive for coating the upper and / or lower surfaces of the plate. 17. The plate according to item 13, wherein the adhesive for coating the upper and / or lower surface of the plate is a polyurethane or ethylene vinyl acetate dispersion adhesive. 18. A slab for a double flooring, in which the slabs are mounted on a base through a support, the slab having a carrier layer of chipboard material, a coating of electrically conductive material is located on the underside of the slab, and a polyvinyl chloride coating is located on the top surface of the slab a film in the form of a strip of electrically conductive plastic is applied to at least one side of the plate using hot-melt adhesive, which creates electrical conductivity between the upper and lower surfaces the plate surface, which provides reliable removal of electrostatic charge from the top surface of the plate to the metal support, characterized in that between the plate 1 and the upper base of the metal support 2 there is a gasket 6 made of electrically conductive plastic with upwardly projecting ridges 6a entering the gap between adjacent plates to create contact between the electrically conductive film 3 and the metal support 2.