RU52003U1 - FLOORING - Google Patents

Abstract

The utility model relates to building materials, in particular, to floor carpet tiles.

The purpose of the proposed utility model is to increase wear resistance, sound insulation, ensuring dimensional stability.

The device operates as follows. The flooring in the form of tiles 1 is laid out face up 2 on the prepared surface of the floor. To the floor surface, tile 1 fits snugly with the lower surface of the third bituminous reinforced layer 12, thereby providing good adhesion to the floor surface. The tiles 1 of the floor covering are end-to-end tightly to each other, while the boundaries of the connection of the tiles are invisible. The combination in the multilayer flooring, the performance of loops of a certain size (3-8 mm) in the front layer 3 and the mutual orientation of the fiberglass webs together provide an optimal distribution of external loads on the flooring, which significantly increases its wear resistance. In general, a floor covering in the form of multilayer tiles 1 is not only economical when laying, makes it possible to replace individual tiles in places with heavy traffic, but also has increased wear resistance, sound insulation, dimensional stability, and also creates increased comfort for consumers, provides ample opportunities for floor design .

Description

The utility model relates to building materials, in particular, to floor carpet tiles.

The closest technical solution is a modular carpet tile (PROXIMA construction company [Electronic resource]: reference data on construction and company information; © 2005 Proxima. - Electron, data. - Reference and information site "PROXIMA construction company", 2005. - Mode access: http://www.proxima.com.ua, free. - Heading from the screen), which is a square tile, consisting of a front layer and a base. The front layer is made in the form of carpet, the base consists of one layer of bitumen (or polyvinyl chloride) reinforced with fiberglass. The front surface of a modular carpet tile is a pile carpet, woven on the basis of natural or vegetable fibers. The base is attached to the wrong surface of the face layer. Such a modular carpet tile is convenient and economical when laying, however, due to the presence of one layer of fiberglass having a predominant orientation of the fibers, it has an unequal linear deformation in two perpendicular directions (in length and width). For the same reason, the corners of the tiles can twist, which violates the integrity of the coating of modular carpet tiles and leads to its premature damage. Due to the small thickness, this modular carpet tile has insufficient flexibility and durability, low sound insulation, and low comfort when walking.

A disadvantage of the known technical solution is the low wear resistance and sound insulation, dimensional instability.

The purpose of the proposed utility model is to increase wear resistance, sound insulation, ensuring dimensional stability.

This goal is achieved due to the fact that in a floor covering made in the form of tiles with a front surface and containing a front layer,

bitumen layers and fiberglass layers parallel to said front surface, said front layer is made in the form of a non-woven fabric with threads passing through it to form loops facing outward, said front layer is located on the first bitumen layer, said first bitumen layer is located on the first fiberglass layer , said first layer of fiberglass is located on the second bitumen layer, said second bitumen layer is located on the second layer of fiberglass, said second layer of fiberglass p found on the rear third reinforced bitumen layer, said first and second layers are made of fiberglass, with a predominant fiber orientation, wherein said preferred orientation of the fibers in their mutually orthogonal, and the height of said loops is equal to 3-8 mm.

The utility model is illustrated by the drawing, which shows the structure of the floor covering on the example of one tile.

The utility model is implemented as follows. The floor covering is a multilayer tile 1. Tile 1 consists of layers made of different raw materials (in particular, canvas, fiberglass, bitumen, reinforced bitumen), parallel to the front surface 2 and in a certain order interconnected. The first is the top layer 3, which is a kind of carpet made in the form of a non-woven fabric 4 (in particular, jute fiber webs). Filaments 5 are passed through a non-woven fabric 4 so that they form loops 6 on the side of the front surface 2, the height of which is in the range from 3 to 8 mm. Between two adjacent loops 6, threads 5 pass through a non-woven fabric 4 and are brought out to its wrong side 7. In the same way, the threads 5 are placed throughout the non-woven fabric 4. The raw materials from which the threads 5 are made can be different, for example, synthetic, artificial, natural fibers or a mixture thereof. Used threads 5 should have increased wear resistance, crease resistance, dirt-repellent properties, etc. The front layer 3 is connected to the first bitumen layer 8 on the wrong surface 7, opposite the front surface 2. Next, the following layers are located in the following sequence: the first layer of fiberglass 9, the second bitumen layer 10, the second layer of fiberglass 11, the third bitumen reinforced layer 12. The first 9 and the second 11 layers of fiberglass are made of canvases, the fibers in which have a predominant orientation in any one direction (the presence of a predominant orientation of the fibers means that with a general multidirectionality stake in the web there is a direction for which

the total magnitude of the absolute projections of all fibers is greater than for other directions). In this case, the first layer of fiberglass 9 and the second layer of fiberglass 11 are arranged relative to each other so that the preferred orientation of the fibers in the webs of which they are made is mutually orthogonal. The third reinforced bitumen layer 12 is made, in particular, using fiberglass as a reinforcing element (fiberglass can be located both in the middle of the reinforced bitumen layer 12 and on its surface). All these layers 3, 8, 9, 10, 11 are interconnected without the use of glue, for example, by hot pressing. The specified method involves heating the billet flooring, composed of the above layers (except the front layer 3), in the furnace until the surface of the bitumen is softened and the subsequent pressing of the layers in a heated state. The front layer 3 is last attached on top of the first bitumen layer 8 after pressing, when the workpiece has not yet cooled.

The device operates as follows. The floor covering in the form of tiles 1 is laid out face up 2 on the prepared floor surface, in particular, for example, on metal floors of a raised floor (it is possible to lay on the floor from concrete, plywood, chipboards). To the floor surface, tile 1 fits snugly with the lower surface of the third bituminous reinforced layer 12, thereby providing good adhesion to the floor surface. The tiles 1 of the floor covering are end-to-end tightly to each other, while the boundaries of the connection of the tiles are invisible.

The implementation of tiles 1 flooring multilayer significantly increases the strength, wear resistance, dimensional stability of the flooring. The use of a combination of layers of bitumen and fiberglass makes tiles 1 quite rigid, while maintaining the flexibility necessary for laying flooring. The location of the first 9 and second 11 layers of fiberglass is mutually orthogonal with respect to the preferred orientation of the fibers in the webs of which they are made, helps to maintain the same dimensions of the tile 1 of the floor covering and prevents the twisting of the corners of the tile 1. The combination of these properties is especially useful when using the specified floor covering for raised floors where quick access to cable connection replacement points is required, and multiple movement of floor tiles is required. The implementation of the front layer 3 on a nonwoven fabric with a pile of loops 6 and the presence of the first bitumen layer 8 under the front layer 3 provide improved consumer properties of the floor covering, namely increased resistance to pollution and

comfort when walking. The combination in the multilayer flooring, the performance of loops of a certain size (3-8 mm) in the front layer 3 and the mutual orientation of the fiberglass webs together provide an optimal distribution of external loads on the flooring, which significantly increases its wear resistance. In general, a floor covering in the form of multilayer tiles 1 is not only economical when laying, makes it possible to replace individual tiles in places with heavy traffic, but also has increased wear resistance, sound insulation, dimensional stability, and also creates increased comfort for consumers, provides ample opportunities for color and structural floor design.

Claims (1)

A floor covering made in the form of a tile with a front surface and containing a front layer, bituminous layers and fiberglass layers parallel to said front surface, characterized in that said front layer is made in the form of a non-woven fabric with threads passed through it with the formation of loops facing outward , said front layer is located on the first bitumen layer, said first bitumen layer is located on the first fiberglass layer, said first fiberglass layer is located on the second bitumen the layer, the specified second bitumen layer is located on the second fiberglass layer, the specified second fiberglass layer is located on the third bitumen reinforced layer, the specified first and second layers of fiberglass are made with the preferred orientation of the fibers, and the specified preferred orientation of the fibers in them is mutually orthogonal, and the height of these loops is equal to 3-8 mm.