RU2264508C1 - Antistatic panel with carpet covering - Google Patents

Abstract

FIELD: building, particularly antistatic panels adapted to use for raised floor construction in rooms equipped with electrostatic charge-sensitive electronic devices.

SUBSTANCE: antistatic panel has textile floor covering produced, for instance, of fiber-knitted or needled material glued onto upper surface of load-bearing layer. At least two opposite side faces of the panel have polyvinylchloride film glued thereto, lower surface thereof is provided with thin metal sheet. Load-bearing layer is formed of flakeboard material with uniform or variable density. Contact surfaces thereof covered with polyvinylchloride film and textile coating are impregnated with primer and covered with aqueous adhesive. Primer and aqueous adhesive have acrylic base and include dag.

EFFECT: increased bending strength of load-bearing panel layer, increased strength of panel edges and increased efficiency of electrostatic charge removal from panel surface.

12 cl, 3 dwg

Description

The invention relates to the field of construction, in particular to antistatic plates with carpet, designed for raised floors, mainly in rooms equipped with electronic devices, for which static discharges can cause problems, and for personnel working in these rooms, discomfort.

Known plate raised floor, made of a carrier layer, surrounded on all sides by a metal sheet, and having carpet wool, placed on the upper side of the plate, on its 4 lateral edges and partially on the lower surface of the plate.

The electrical conductivity from the upper surface of the carpet is provided by an electrically conductive element made in the form of a flange of the lower metal sheet placed in the junction between the plates (US 3811237, class E 04 B 5/43, 1974).

The known solution by increasing the size of the lower metal sheet of the plate, necessary for the formation of the rebate, increases the metal structure, and the presence of a gap between adjacent edges of the plate to accommodate the rebate does not ensure the tightness of the joint.

The closest analogue to the claimed invention is an antistatic carpet floor, including a textile floor covering made, for example, of tufted or needle-punched material, glued to a carrier layer (DE 3343656, class E 04 F 15/02, 1985).

To remove static electricity, each plate of the known solution is equipped with at least one metal spark gap that passes through the carrier layer and is in contact with the textile coating.

The installation of arresters in each plate leads to additional labor costs during its installation and increases the metal consumption of the plate.

In addition, given that the textile coating does not distribute concentrated loads, the load layer must withstand all the loads. These loads, as you know, are especially great in office rooms, where chairs and armchairs are installed on casters. In this regard, plates with textile coating should have high strength of the carrier layer and adhesive bonding.

The technical task of the present invention is to improve the performance of a plate with a textile coating by increasing the bending strength of its bearing layer, strengthening the edges of the plate and removing electrostatic charges from its surface caused by the movement of people and equipment on the floor surface.

This problem is solved due to the fact that in the antistatic floor slab with carpet, it is polygonal, mainly square in shape, including a textile floor covering made, for example, of tufted or needle-punched material, glued to the upper surface of the carrier layer, at least a polyvinyl chloride film is glued to two opposite lateral sides of the plate, and a thin metal sheet is glued to its lower surface, the bearing layer is made of wood-chip material having a constant or variable density, and its contacting surfaces with a polyvinyl chloride film and textile coating are impregnated with a primer, followed by applying water-based acrylic adhesive with graphite dust on it, and the electrical resistance between the outer surfaces of the opposite faces of the plate coated with a polyvinyl chloride film is not more than 0.1 ohms.

The connection of the coating of the polyvinyl chloride film with the carrier layer of the plate is carried out by means of thermal pressing under a pressure of 6-8 kg / cm ² with heating to 150-300 ° C and holding for 3-5 s.

To reduce the electrification, the textile coating of the plate may contain filaments of synthetic fibers with wool or staple yarn or viscose fiber.

To increase abrasion, the textile coating may contain polyamide or propylene or polyester yarns with tensile strength of 20-50 kgf / mm ² .

Tufted or needle-punched plate material may contain a foam base.

The thickness of the textile coating of the plate is 2-6 mm.

Needle-punched material of the plate can be multilayer.

The thin metal sheet of the plate, which serves as the reinforcing element, can be made of aluminum or galvanized steel with a thickness of 0.4-1 mm, mainly 0.4-0.5 mm

The end faces of the slab can be beveled to the base at an angle of 5-8 °, preferably 6 °.

The carrier layer of variable density wood chip material may have one or more high density intermediate layers.

Layers of wood chip material in contact with a textile coating and a metal sheet have a density of more than 800 kg / cm ² and tensile strength in the range of 0.785-1.777 MPa.

The thickness of the plate is from 10 to 40 mm, mainly 38 mm, and the size in terms of 600 × 600 mm.

The invention is illustrated by drawings, which depict:

figure 1 - installation of panels on adjustable supports raised floor;

figure 2 - floor plate with carpet in a perspective view;

figure 3 is a section of a plate.

The antistatic plate 1 of the floor is predominantly square in plan, intended for installation on adjustable floor supports 2.

The thickness of the plate is from 10 to 40 mm, mainly 38 mm, and the size in terms of 600 × 600 mm.

The plate consists of a textile floor covering 3, made, for example, of tufted (pile) or needle-punched (felt) material, 2-6 mm thick.

The textile floor layer is made mainly of synthetic fibers, for example polyamide, propylene or polyester with a tensile strength of 20-50 kgf / mm ² .

To reduce the electrification, yarns made of synthetic fibers can be combined with wool or staple yarn or viscose fiber.

In the case of using a coating with a low and sparse pile, the textile material can be made on a foam base, which provides better insulation of the coating from shock sounds and lower heat absorption coefficient.

Needle-punched material of the plate can be multilayer.

The textile coating is rigidly connected to the carrier layer 4 of wood chip material having an equal or variable density along the height of the section, by means of an adhesive joint.

The carrier layer of wood chip material has at least two layers of high density in excess of 800 kg / cm ² and a tensile strength in the range of 0.785-1.777 MPa. These layers are located in areas of the carrier layer bordering the textile layer and the metal sheet.

When using slabs for floors that accept heavy loads, for example, from equipment or having a large span between adjustable supports, the number of reinforcing layers can be increased, i.e. in addition to the mentioned surfaces of the high density layers of particleboard material, there may be one or more intermediate layers arranged alternately with lower density layers.

To install floor slabs 1 on height-adjustable supports 2 having protruding vertical ribs for fixing the slabs, the side faces of the slabs are made beveled inside the slab to its base at an angle of 5-8 °, mainly 6 ° (the angle between the inclined face of the carrier layer and the vertical plane )

To ensure the dissipation of electrostatic charges, as well as to prevent the destruction of the edges of the plate, at least two opposite lateral sides of the plate are impregnated with a primer, followed by the application of water glue 5 and a coating 6 of polyvinyl chloride film on it. If the panel is square in plan, it is preferable to cover with a film all four side faces of the panel.

The primer and water glue are made on an acrylic basis with the addition of a conductive component made in the form of graphite dust. In this case, the electrical resistance between the outer surfaces of the opposite faces of the plate covered with a polyvinyl chloride film is not more than 0.1 ohms. Going beyond the specified value does not ensure the achievement of the set result.

To increase the bending strength of the plate, its lower surface is covered with a thin metal sheet 7 of a thickness of 0.4-1 mm, mainly 0.4-0.5 mm, of aluminum or galvanized steel.

The metal sheet, rigidly connected to the carrier layer of wood chip material, serves as the reinforcing element of the plate and increases its fire resistance.

The manufacturing process of the carrier layer of the plate, depending on the equipment of enterprises with automatic or semi-automatic lines, is as follows.

First, a chipboard is made. For this, a formalin solution is loaded into the reactor under reflux and the pH is adjusted to 8.0-8.4. Then urea is charged. At temperatures up to 60 ° C, the mixture is kept, after which a modifying additive is introduced into it. After the introduction of the modifying additive, exposure to the reaction mixture raises the temperature. Upon reaching miscibility with water 1: 1.5-2, the mixture is cooled to 60-65 ° C, after which a second portion of urea is loaded. The mixture is cooled to 30 ° C. Then carry out the pressing of the plates with lowering the temperature to 20-30 ° C.

At enterprises equipped with the simplest equipment, including lines using contact adhesives and roller presses, ready-made chipboards that can be cut into specified dimensions can be used as the bearing layer.

Next, prepare the glued surfaces, i.e. applying a primer layer on the side faces and on the upper surface of the chipboard with impregnation to a depth of 2-3 mm. Then, water glue is applied to the primer layer, using an acrylic based primer and water glue with the addition of a conductive component made in the form of graphite dust. Contact adhesive is used on the bottom surface of the chipboard, which is used to glue wood with metal, mainly on a vinyl basis.

Then, a sheet of metal is laid on the bottom surface of the carrier layer prepared for gluing and pressed under pressure of 6-8 kg / cm ² with heating to a temperature of 150-300 ° C and holding for 3-5 s. In a similar manner, a polyvinyl chloride film is glued.

The use of a primer and glue with the addition of a conductive component in the form of graphite dust reduces the cost of the panel and makes it commercially available.

Claims (12)

1. Antistatic floor slab with carpet polygonal, mainly square, shape in plan, including a textile floor covering made, for example, of tufted or needle-punched material, glued to the upper surface of the carrier layer, characterized in that at least two the opposite side faces of the plate are glued with a polyvinyl chloride film, and a thin metal sheet is glued to its lower surface, the bearing layer is made of wood chip material having an equal or variable density, and its contacting surfaces with a polyvinyl chloride film and textile coating are impregnated with a primer followed by applying water-based acrylic adhesive with graphite dust on it, and the electrical resistance between the outer surfaces of the opposite faces of the plate coated with a polyvinyl chloride film is not more than 0, 1 ohm 2. The plate according to claim 1, characterized in that the connection of the coating of the polyvinyl chloride film with the carrier layer is carried out by means of thermal pressing under a pressure of 6-8 kg / cm ² with heating to 150-300 ° C and holding for 3-5 s. 3. The plate according to claim 1, characterized in that to reduce the electrification of the textile coating contains filaments of synthetic fibers with woolen or staple yarn or viscose fiber. 4. The plate according to claim 2, characterized in that to increase the abrasion, the textile coating contains polyamide or propylene polyester yarns with tensile strength of 20-50 kgf / mm ² . 5. The plate according to claim 1, characterized in that the tufted or needle-punched material is provided with a foamed subbase. 6. The plate according to claim 1, characterized in that the thickness of the textile coating is 2-6 mm 7. The plate according to claim 1, characterized in that the needle-punched material is multilayer. 8. The plate according to claim 1, characterized in that the thin metal sheet that performs the function of the reinforcing element is made of aluminum or galvanized steel with a thickness of 0.4-1 mm, mainly 0.4-0.5 mm 9. A plate according to any one of claims 1 to 8, characterized in that its end faces are beveled to the base at an angle of 5-8 °, preferably 6 °. 10. The plate according to claim 1, characterized in that the carrier layer of particleboard material with variable density has one or more intermediate layers of high density. 11. The plate according to claim 1, characterized in that the layers of wood chip material in contact with a textile coating and a metal sheet have a density of more than 800 kg / cm and tensile strength in the range of 0.785-1.777 MPa. 12. A plate according to any one of claims 1 to 11, characterized in that its thickness is from 10 to 40 mm, preferably 38 mm, and the plan size is 600 × 600 mm.

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