RU221084U1 - AVALANCHE PROTECTION DEVICE - Google Patents

Abstract

The utility model relates to the field of anti-avalanche measures, in particular to technical means of protection against the effects of snow avalanches, and can be used in mountainous areas as a protective measure against snow avalanches during the construction and operation of railways and highways, industrial facilities, settlements, ski resorts etc. The proposed design solves the problem of expanding the possibilities of using the device on steep slopes or in the presence of high snow in an avalanche collection area. To achieve this result, the following set of essential features is used: in an avalanche protection device, made in the form of racks connected in a row by transverse crossbars, placed across an avalanche-prone mountain slope and connected by horizontal and inclined ties with anchors fixed to the slope, unlike the prototype, in At the base of the racks there are supporting elements fixed at an angle of ≈ 90° to the surface of the slope, with some ends of the ties fixed to the racks at the top, bottom and middle points, and the other ends are combined with each other and connected to a horizontal cable attached to the anchors. To ensure the possibility of adjusting the tension, the ties are equipped with turnbuckles. 1 salary f-ly, 2 ill.

Description

The utility model relates to the field of avalanche control measures, in particular to technical means of protection against the effects of snow avalanches. The utility model can be used in mountainous areas as a protective measure against avalanches during the construction and operation of railways and highways, industrial facilities, settlements, ski resorts, etc.

A number of anti-avalanche protective analogues are known: retaining and guiding walls, galleries, overpasses, wedges, avalanche cutters, etc., which are concrete or stone engineering structures of a capital type, acting as a mechanical obstacle to avalanches (see A.K. Dunin “In the Kingdom of Snow”, publishing house “Science”, Siberian Branch, Novosibirsk, 1983).

The disadvantages of these structures are their high material and labor intensity, which requires large investments for their construction.

Among the known analogues, the closest to the claimed utility model (prototype) is the device described in Pat. RF No. 2031193, IPC E01F 7/02, publ. 03/20/1995 and is a metal truss with racks. Farms are reinforced in several rows across an avalanche-prone slope. The number of rows is determined by the size of a particular avalanche collection. A plank deck is attached horizontally to the truss. Flooring boards are laid with gaps measuring 0.02 m. The width of the device is selected depending on the possible height of snow in the avalanche collection area. At the base of the truss there are three U-shaped ties, one of which is placed horizontally, and the other two - obliquely on the sides.

The device works as follows. After snow falls, rows of trusses installed across an avalanche-prone slope increase the roughness of the latter and prevent avalanches. At the same time, the soil snow cover is not disturbed. Due to the horizontal position of the flooring, the snow layer on it is raised, as a result of which the temperature and temperature gradient in this snow are much lower than in natural conditions. This leads to a decrease in mass transfer and prevents the formation of weakened horizons along the entire height of the snow on the floor. Thus, the monolith formed on the flooring increases the reliability of snow retention. The presence of gaps in the flooring leads to the fact that snow deposited on the flooring penetrates into the gaps and, when frozen, helps to improve adhesion to the flooring.

The disadvantage of the prototype is the limited possibility of using the structure on slopes with great steepness or in the presence of high snow in the avalanche area. This is due to the fact that in order to create the necessary obstacle to an avalanche under these conditions, an increase in the width of the flooring will be required and, accordingly, an increase in the dimensions of the truss. In addition, constructing a base for racks on dispersed soils will require concrete work, which is labor-intensive in mountainous areas.

The proposed utility model solves the problem of ensuring the possibility of using the device on slopes with great steepness or in the presence of high snow in an avalanche collection area.

To achieve this result, the following set of essential features is used: in an avalanche protection device, made in the form of posts connected in a row by transverse crossbars, and placed across an avalanche-prone mountain slope, while the posts are connected by horizontal and inclined ties with anchors fixed to the slope, in contrast from the prototype, the racks at the base are equipped with supporting elements fixed to the slope with the possibility of installing racks in them at an angle of ≈ 90° to the surface of the slope, with one end of the couplers fixed to the racks at the top, bottom and middle points, and the other - connected to each other and connected to a horizontal cable attached to the anchors. To ensure the possibility of adjusting the tension, the ties are equipped with turnbuckles.

The essence of the utility model is to act as a mechanical barrier for avalanches, providing effective protection against avalanches for railways and highways, industrial facilities, populated areas, ski resorts and other objects. Due to the possibility of adjusting the tension of the ties, the proposed design allows you to choose an angle within 90° to the slope surface. The structure is easily installed on an avalanche-prone slope, and depending on the snow loads, the height of the snow cover and the terrain features, it can be reconstructed without much labor in terms of the height of the structure, the number of rows and the distance between the rows. Compared to well-known analogues, the device does not require large investments.

A comparison of the proposed utility model and the prototype showed that the task set - ensuring the possibility of using the device on slopes with great steepness or in the presence of high snow in an avalanche collection - is solved as a result of a new set of features, which proves compliance with the utility model, the elements of which are in structural unity and in a functional relationship, the patentability criterion is “novelty”.

The essence of the claimed utility model is illustrated by graphic materials, where:

Figure 1 shows a schematic diagram of the device;

Fig.2 is a view along arrow A of a vertical stand with ties.

The avalanche protection device (Fig. 1, 2) is a structure consisting of vertical posts 1, connected in rows by transverse crossbars 2. The structure is installed across an avalanche-prone mountain slope at an angle of ≈ 90° to the surface of the slope. The posts 1 are connected by horizontal 3 and inclined 4.5 ties with anchors 6 fixed to the slope. At the base of the racks there are supporting elements 7. The ties 3,4,5 are fixed with one end to the racks at the top 8, bottom 9 and middle 10 points, and the second at the point of union 11 are connected to a horizontal cable 12 attached to the anchors 6. To ensure the possibility Tension control ties 3,4,5 are equipped with turnbuckles 13. The length of the posts 1, the angle of inclination of the ties 3,4,5 and the type of anchor 6 are selected depending on the soil and snow loads in the area where the structures are installed. The height of the structure, the number of rows and the distance between the rows are selected depending on the height of the snow cover, snow loads and terrain features. All metal parts of the structure have a reliable anti-corrosion coating. Due to the possibility of adjusting the tension of the ties, the proposed design allows you to choose an angle within 90° to the slope surface.

The structure is easily installed on an avalanche-prone slope, and depending on the snow loads, the height of the snow cover and the terrain features, it can be reconstructed without much labor in terms of the height of the structure, the number of rows and the distance between the rows. Compared to well-known analogues, the device does not require large investments.

The utility model was tested at one of the ski resorts in Krasnaya Polyana and showed its effectiveness. The foregoing allows us to conclude that the claimed utility model meets the “industrial applicability” criterion.

Claims (2)

1. An anti-avalanche protective device, made in the form of racks connected in a row by transverse crossbars, and placed across an avalanche-prone mountain slope, while the racks are connected by horizontal and inclined ties with anchors fixed to the slope, characterized in that the racks at the base are equipped with supporting elements, fixed on a slope with the possibility of installing racks in them at an angle of 90° to the surface of the slope, with some ends of the ties secured to the racks at the top, bottom and middle points, and the other - combined with each other and connected to a horizontal cable attached to the anchors. 2. The device according to claim 1, characterized in that the ties are equipped with lanyards.