RU215433U1 - TACTILE TILE - Google Patents

Abstract

The utility model relates to the field of construction, namely to tactile ground polymer tiles. The technical result is an increase in the strength and performance qualities of a tactile ground polymer tile, ensuring its integrity, preservation of geometric dimensions and a longer service life under increased mechanical loads. Tactile ground polymer tiles with dimensions from 100 × 100 mm to 1500 × 1500 mm, the working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations, is made of a polymer material based on crumb rubber from recycled car tires or waste rubber production fraction 1, 0-5.0 mm, and a binder, which is used as polyurethane. A spatial reinforcing grid made of springy steel wire with a diameter of 0.012 of the tile height is built into the body of the tactile ground polymer tile. The edges of the reinforcing grid are spaced from the outer walls of the tactile tile by 0.16-0.2 of the tile height. The ratio of the parts of the mixture of polymer binder and rubber crumb fraction 1 mm ÷ 5 mm from recycled tires or waste rubber production is based on 100 wt. parts of crumb rubber 7÷55 wt. parts of polymer binder and dye in the proportion of 1.5÷15 wt. parts. 2 ill.

Description

The utility model relates to the field of construction, namely to a tactile ground polymer tile, with the help of which a visually impaired person receives information about traffic routes on the streets of settlements and internal spaces and service areas of public buildings, and can be used when placing tiles on roads and streets of settlements and as a surface of floor coverings of public buildings.

Tactile tiles provide a visually impaired person with the necessary and sufficient information to facilitate self-orientation in the infrastructure of cities, microdistricts and other settlements on roads and in public buildings. The surface of the tile must be rough with anti-slip properties, different from the structure of the adjacent surface of the road or floor covering and ensure its recognition by the visually impaired.

A tactile tile is known from the technical field, the working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations (see GOST R 52875-2007). However, this type of tactile tile has insufficient resistance to cracking due to changes in ambient temperature, insufficient durability and wear resistance, especially when used in winter, does not sufficiently ensure non-slip when used in winter, and has low resistance to impact. anti-icing reagents.

Known tactile ground polymer tiles (see patent for PM RF No. 103810, IPC E01C, publ. 27.04.2011, Bull. No. 12), the outer working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations, characterized in that that it is made two-layer, containing a flat solid base with an outer working polymeric tactile layer placed on it, which is fixed on a flat solid base using any adhesive. The disadvantage of this solution is the need to glue the outer polymer layer, which, during operation, can peel off or peel off, which will not only pose a threat to the movement of visually impaired people, but also deprive them of the ability to navigate the city's infrastructure, near roads or inside public buildings.

Known tactile ground polymer tiles (prototype), the working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations, while it is made of a polymer material based on rubber crumb, while as rubber crumb polymer material tiles use finely divided waste rubber production and / or recycled used car tires with a particle size of 5 microns to 5 mm, and its polymeric material contains decorative and protective dyes of any color, while the tile is made with a thickness of 10 mm to 49 mm, and the size of the tile in the plan is selected from 100 mm × 100 mm up to 290 mm × 290 mm and from 510 mm × 510 mm to 1500 mm × 2000 mm . The disadvantage of this solution is the possibility of rapid deformation of the entire tile due to the elasticity of the material under load, which can lead to the delamination of the entire tile from the base on which it is located, and the complete loss of functionality of the coating itself.

The technical objective of this utility model is to create a tactile ground polymer tile with improved strength and performance, ensuring its integrity, maintaining geometric dimensions and longer service life, even under increased mechanical loads, and maintaining resistance to de-icing agents in the winter.

The problem is solved due to the fact that a tactile ground polymer tile is created, with sizes from 100 × 100 mm to 1500 × 1500 mm, the working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations from a polymer material based on rubber crumb from recycled automobile tires or rubber production waste with a fraction of 1.0-5.0 mm, and a binder, which is used as polyurethane, characterized in that a spatial reinforcing lattice of springy steel wire with a diameter of 0.012 of the tile height is built into the body of the tactile ground polymer tile, while the edges reinforcing grids are separated from the outer walls of the tactile tile by 0.16-0.2 tile heights, and the tile itself is a mixture of polymer binder and rubber crumb with a fraction of 1 mm + 5 mm from recycled tires or waste rubber production, based on 100 mass parts of crumb rubber 7÷55 wt. parts of a polymer binder and a dye is added in a proportion of 1.5÷15 wt. parts.

The essence of the utility model is illustrated by the figure, in which: Fig. 1 - tactile tiles and types of surface corrugation.

Fig. 2, a, b - tactile tiles with a reinforcing grating and a diagram of the operation of the grating under external load.

Tactile ground polymer tile 1 with a corrugated surface 2 of various types (see Fig. 1, Fig. 2, a), with overall dimensions of the sides L / gp and height Htp (see Fig. 1 and Fig. 2 a, b), equipped with a spatial reinforcing grid 3 (see Fig. 2, a) made of springy steel wire with a diameter of 0.025 Ntp of the height of the tactile tile, while the edges of the reinforcing grid 3 are spaced from the outer walls of the tactile tile 1 by 0.16 - 0.2 Ntp of the height of the tactile tiles (see Fig. 2, a), and the tactile tile itself is a mixture of a polymer binder - polyurethane and rubber crumb with a fraction of 1 mm 5 mm from recycled tires or waste rubber production, based on 100 wt. parts of crumb rubber 7 55 wt. hours of polymer binder and dye is added in a proportion of 1.5 to 15 wt. h. The presence of a spatial reinforcing grid 3 allows you to improve the strength properties of the tactile tile 1, and ensure its performance and integrity for a longer period than similar tactile tiles made only of polymer material, since the reinforcing grid 3, when an external load P occurs on tile 1, perceives it on itself and deforms by a certain amount Adf (see Fig. 2, b), and after its disappearance, due to its springy properties, it restores its shape, and with it the shape of the tactile tile. As a result, external loads on the inner layers of the tactile tile are transferred to the reinforcing grid, which absorbs them by elastic deformation and, thereby, ensures the integrity and mechanical resistance of the entire tactile tile during operation for a longer period, and at the same time allows you to maintain the correct geometric shape of the tactile tiles and its tight fit to the base on which it is laid, as well as resistance to the effects of anti-icing agents in the winter.

Tactile ground polymer tiles are made as follows:

Rubber crumb, with a fraction of 1.0-5.0 mm, obtained as a product of the processing of tires and rubber industry waste, is mixed with a polymer binder, for example, polyurethane, in a proportion of 100 wt. hours crumbs 7-55 wt.h. parts of polyurethane, and add a dye (if necessary) in a proportion of 1.5-15 wt.h. All components are thoroughly mixed in a mixer, after which the resulting mixture is placed in a mold, where a reinforcing grid is previously placed, placed under pressure, and loaded into a drying chamber, where it is subjected to temperature heating to 130 ° C for 60 to 90 minutes. After this time, the tactile tile is removed from the mold and sent to the road construction site.

The elastic properties of a mixture of polyurethane and rubber crumb from recycled car tires or waste rubber production, in combination with a reinforcing grid, make it possible to obtain a tactile ground tile that is resistant to external, including dynamic, loads, as well as the chemical effects of snow control agents in winter time period. The presence inside the tactile tile of a reinforcing grid made of springy steel wire ensures the restoration of the geometric shape of the tactile tile, while maintaining its integrity, without any significant residual deformations or physical destruction of individual parts, which is of particular importance, taking into account what such an element is intended for road construction.

As the practical application of the proposed tactile ground polymer tile has shown, it is very convenient for laying, due to the greater rigidity imparted to it by the reinforcing lattice inside, and at the same time it provides good adhesion to the surface, including the soles of shoes, excluding accidental falls in the period of rain or snow, and the use of secondary resources for its manufacture in the form of crumb rubber obtained from car tires or rubber production waste, can reduce the cost of the product and protect nature from pollution.

Claims (1)

Tactile tiles with dimensions from 100×100 mm to 1500×1500 mm, the working surface of which is corrugated with longitudinal, cone-shaped, square or diagonal corrugations, made of material based on crumb rubber from recycled car tires or waste rubber production with a fraction of 1.0-5 0.0 mm, and a polymeric binder, for which polyurethane is used, characterized in that a spatial reinforcing lattice made of springy steel wire with a diameter of 0.012 of the height of the tile is built into the body of the tactile tile, while the edges of the reinforcing lattice are 0.16 from the outer walls of the tactile tile -0.2 tile height, and the ratio of parts of the tile mixture is selected based on 100 wt. parts of crumb rubber 7÷55 wt. parts of the polymer binder and dye in the proportion of 1.5÷5 wt. parts.

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