CN220848487U - Anti-static artificial terrazzo - Google Patents

Abstract

The utility model discloses an antistatic artificial terrazzo, which comprises a polymer mortar board, an upper foaming concrete layer, a lower foaming concrete layer, a terrazzo layer, an insulating layer and a conductive net rack arranged in the polymer mortar board, wherein the polymer mortar board coats the conductive net rack and is subjected to structural stability enhancement by the conductive net rack; through setting up conductive net frame in polymer mortar board inside, can release static effectively, reduce the production of static, conductive net frame can form complete conductive path, ensure that static is discharged steadily, thereby protect people to avoid the interference and the injury of static, conductive net frame's setting has still strengthened polymer mortar board's structural stability, conductive net frame can provide extra support and reinforcement effect, prevent that polymer mortar board from taking place to warp, the scheduling problem of fracture, in addition, lay the insulating layer in foaming concrete layer bottom surface down, can increase the insulating properties of artificial terrazzo, avoid static to the interference of surrounding equipment and human body, improve the safety in utilization.

Description

Anti-static artificial terrazzo

Technical Field

The utility model relates to an anti-static artificial terrazzo.

Background

With the rapid development of the house industry, the demand for various floors and wall decorations for building decoration is rapidly and continuously increased, and the resource loss caused by the rapid development is quite huge. At the same time, with economic development, the aesthetic demands of people on the building are also increasing. Thus, products such as decorative wall surfaces, furniture table tops, floor tiles and the like manufactured by adopting natural stone or terrazzo are produced.

However, the existing terrazzo plates mostly have the problem that static electricity cannot be conducted and eliminated after the static electricity is generated, so people are often interfered and injured by the static electricity, and the utility model with the application number of CN202121777869.9 discloses an environment-friendly artificial terrazzo, and the problems of numerous plates are solved, but no perfect solution exists for the problems, and the problems that the static electricity cannot be eliminated, and the static electricity is easy to interfere and injure a human body exist.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide the antistatic artificial terrazzo capable of eliminating static electricity, avoiding interference and injuring human bodies.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides an antistatic artificial terrazzo, includes the polymer mortar board as the intermediate base plate, be located respectively on the polymer mortar board both sides face and with polymer mortar board laminating fixed go up foaming concrete layer and lower foaming concrete layer, lay on last foaming concrete layer surface, make things convenient for the water sand stone layer of water grinding type to and lay the insulating layer in lower foaming concrete layer bottom surface, its characterized in that still includes the conductive grid that sets up inside the polymer mortar board, the conductive grid of polymer mortar board cladding, and receive conductive grid reinforcing structural stability.

Preferably, the conductive net frame comprises an aluminum net plate, first conductive wires welded at the upper end of the aluminum net plate and sequentially penetrating through the polymer mortar plate, the upper foaming concrete layer and the water frosted layer, and second conductive wires welded at the lower end of the aluminum net plate and sequentially penetrating through the polymer mortar plate, the lower foaming concrete layer and the insulating layer.

Further, the first conductive wire is an aluminum wire.

Further, the second conductive wire is an iron wire.

Further, the first conductive wires and the second conductive wires are distributed on the aluminum screen plate in a staggered mode.

Preferably, the insulating layer is an activated carbon layer.

According to the utility model, the conductive net frame is arranged in the polymer mortar board, so that static electricity can be effectively released, the generation of the static electricity is reduced, the conductive net frame can form a complete conductive path, and stable discharge of the static electricity is ensured, so that people are protected from interference and injury of the static electricity, the structural stability of the polymer mortar board is enhanced by the arrangement of the conductive net frame, the conductive net frame can provide additional supporting and reinforcing effects, the problems of deformation, cracking and the like of the polymer mortar board are prevented, in addition, the insulating layer paved on the bottom surface of the lower foamed concrete layer can increase the insulating performance of the artificial terrazzo, the interference of the static electricity to surrounding equipment and human bodies is avoided, and the use safety is improved.

Drawings

FIG. 1 is a schematic structural view of an antistatic artificial terrazzo according to the utility model;

FIG. 2 is a schematic view in partial cutaway of FIG. 1;

FIG. 3 is a block diagram of the conductive mesh frame of FIG. 2;

Fig. 4 is a side view of fig. 3.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to limit the utility model, so that those skilled in the art may better understand the utility model and practice it.

Examples

An antistatic artificial terrazzo is shown in fig. 1-2, and comprises a polymer mortar board 1 serving as an intermediate substrate, an upper foaming concrete layer 2 and a lower foaming concrete layer 3 which are respectively positioned on two side surfaces of the polymer mortar board 1 and are attached and fixed with the polymer mortar board 1, a water frosted layer 4 which is paved on the surface of the upper foaming concrete layer 2 and is convenient for water grinding, an insulating layer 5 paved on the bottom surface of the lower foaming concrete layer 3, and a conductive net rack 6 which is arranged in the polymer mortar board 1, wherein the polymer mortar board 1 is coated with the conductive net rack 6 and is subjected to structural stability enhancement by the conductive net rack 6.

In this scheme, through setting up conductive net frame 6 inside polymer mortar board 1, can release static effectively, reduce the production of static, conductive net frame 6 can form complete conductive path, ensure that static discharges steadily, thereby protect people to avoid the interference and the injury of static, conductive net frame 6's setting has still strengthened the structural stability of polymer mortar board 1, conductive net frame 6 can provide extra support and reinforcement effect, prevent that polymer mortar board 1 from taking place to warp, the scheduling problem of fracture, in addition, lay insulating layer 5 at the bottom surface of lower foaming concrete layer 3, can increase the insulating properties of artificial terrazzo, avoid the interference of static to surrounding equipment and human body, improve the safety in utilization.

The conductive net frame 6 includes an aluminum net plate 61, a first conductive wire 62 welded at an upper end of the aluminum net plate 61 and sequentially passing through the polymer mortar plate 1, the upper foamed concrete layer 2 and the terrazzo layer 4, and a second conductive wire 63 welded at a lower end of the aluminum net plate 61 and sequentially passing through the polymer mortar plate 1, the lower foamed concrete layer 3 and the insulating layer 5. The first conductive wires 62 are aluminum wires, and specifically, when the first conductive wires 62 located on the water-polishing stone layer 4 can be polished along with the water-polishing machine, the first conductive wires and the water-polishing stone layer 4 are in the same horizontal plane, so that polishing processing of the water-polishing machine is not easy to be hindered. The second conductive wire 63 is an iron wire, and specifically, the iron wire has a relatively strong hardness, and can pass through the lower foamed concrete layer 3 and the insulating layer 5, and support the polymer mortar board 1, the upper foamed concrete layer 2 and the water frosted layer 4 in cooperation with the lower foamed concrete layer 3 and the activated carbon insulating layer 5. The first conductive wires 62 and the second conductive wires 63 are distributed on the aluminum mesh plate 61 in a staggered manner.

In the scheme, the conductive net frame 6 can effectively conduct static electricity through the arrangement of the aluminum net plate 61 and the conductive wires, so that the risk of static electricity accumulation is reduced, the aluminum wires and the iron wires have good conductive performance, complete conductive paths can be formed, stable discharge of static electricity is ensured, and the antistatic effect is improved; the first conductive wires 62 are made of aluminum wires, so that the first conductive wires and the water-frosted stone layer 4 can be kept at the same horizontal plane, and the polishing processing of a water mill is not hindered, so that the water-milling is more convenient and smooth, and the expected smoothing effect can be achieved; and the second conductive wire 63 is made of iron wires, has stronger hardness and bearing capacity, can pass through the lower foamed concrete layer 3 and the insulating layer 5 and is matched with the lower foamed concrete layer to provide support, so that the structural stability and durability of the whole artificial terrazzo are enhanced. Therefore, the advantages of this scheme include that the conductibility is strong, and the terrazzo processing is convenient and the structure is firm durable, and this makes antistatic artificial terrazzo can satisfy antistatic demand, possesses good performance simultaneously.

The insulating layer 5 is an activated carbon layer, and can prevent water on the ground from penetrating into the polymer mortar board 1 through the upper foamed concrete layer 2.

In the scheme, the activated carbon layer is adopted as the insulating layer, so that ground moisture can be effectively prevented from penetrating into the polymer mortar board through the upper foamed concrete layer, the problem that the structure is loosened, corroded or damaged due to moisture penetration can be avoided, and the service life of the artificial terrazzo is prolonged.

In this scheme, the active carbon layer is as the insulating layer to can not exert an influence to the conductive property of electrically conductive rack, it can cooperate with lower foaming concrete layer, provides the support to the conductive wire, and ensures the continuity of conductive path, keeps static stable effect of discharging.

The above-mentioned embodiments of the present utility model are not intended to limit the scope of the present utility model, and the embodiments of the present utility model are not limited thereto, and all kinds of modifications, substitutions or alterations made to the above-mentioned structures of the present utility model according to the above-mentioned general knowledge and conventional means of the art without departing from the basic technical ideas of the present utility model shall fall within the scope of the present utility model.

Claims (6)

1. The utility model provides an antistatic artificial terrazzo, includes the polymer mortar board as the intermediate base plate, be located respectively on the polymer mortar board both sides face and with polymer mortar board laminating fixed go up foaming concrete layer and lower foaming concrete layer, lay on last foaming concrete layer surface, make things convenient for the water sand stone layer of water grinding type to and lay the insulating layer in lower foaming concrete layer bottom surface, its characterized in that still includes the conductive grid that sets up inside the polymer mortar board, the conductive grid of polymer mortar board cladding, and receive conductive grid reinforcing structural stability.

2. An antistatic artificial terrazzo according to claim 1, characterized in that: the conductive net frame comprises an aluminum net plate, first conductive wires and second conductive wires, wherein the first conductive wires are welded at the upper end of the aluminum net plate and sequentially penetrate through the polymer mortar plate, the upper foaming concrete layer and the water frosted layer, and the second conductive wires are welded at the lower end of the aluminum net plate and sequentially penetrate through the polymer mortar plate, the lower foaming concrete layer and the insulating layer.

3. An antistatic artificial terrazzo according to claim 2, characterized in that: the first conductive wire is an aluminum wire.

4. An antistatic artificial terrazzo according to claim 2, characterized in that: the second conductive wire is an iron wire.

5. An antistatic artificial terrazzo according to claim 2, characterized in that: the first conductive wires and the second conductive wires are distributed on the aluminum screen plate in a staggered mode.

6. An antistatic artificial terrazzo according to claim 1, characterized in that: the insulating layer is an active carbon layer.