RU107228U1 - ROOF KARNIS - Google Patents

Abstract

 The roof eaves of the building with a cantilever overhang of the roof, equipped with an element for freezing water, made of hydrophilic material with low thermal conductivity and significant specific heat attached to the outer edge of the cantilever overhang of the roof along the entire length of the eaves, characterized in that the element for freezing water is made in the form of freely hanging down strips of elastic mesh with rectangular cells attached to the overhang of the roof of one of the long sides and made of high-strength cotton fabric th weave.

Description

The utility model relates to the construction of roofs of residential and industrial buildings, eliminating the fall of the formed icicles.

Known cornices on attic and combined roofs having a coating of sheet iron, fiber-asbestos cement sheets, etc. / see Osipov L.G. and other Civil and industrial buildings., M., "Higher School", 1964, p.231, Fig. 129 [1] /.

The disadvantages of the known designs is the weakness of the adhesion forces generated by: melting snow and ice of icicles with a cornice overhang, leading to the separation of icicles from the cornice under their own weight and their fall, which is dangerous for people and objects below.

There are also known designs of cornices with the prevention of the formation of icicles, in which the edge of the cornice is made of a special gutter-like shape, and the cornice overhang is made with an appropriate coating, in particular, the edges of the metal gutter are lined with rubber or special hydrophobic materials that are not wetted by water / cm. Germany patent No. 2643348, class E04D 13/06, publ. 1978 [2] /.

The disadvantages of the known designs is the structural complexity, the impossibility of using existing buildings, the need for a radical alteration of the cornices, which is associated with large material and labor costs.

The closest device of the same purpose to the claimed utility model in terms of essential features is the roof eaves of the building, in which the cantilever overhang of the roof is equipped with elements for freezing water from a hydrophilic substance with increased ability to wet with water, having low thermal conductivity and significant specific heat, and made in the shape of two boards, for example, of soft wood, attached to the lower and upper sides of the cantilever overhang of the roof over the entire length of the cornice / cm. A.S. USSR No. 953143, cl. E04D 13/06, 1982 [3] /, and adopted as a prototype.

This design provides an extension of the heating time of the elements for freezing water, as well as stronger freezing of icicles to them, which leads to a longer retention of icicles on the elements during their melting. However, for any characteristics of the materials of the overhang elements, the small contact area of the hanging icicles with the board, limited almost exclusively by its upper section, does not allow for reliable retention of the icicles on the board without the risk of breakdown until they completely melt.

The essence of the utility model is to create a roof eaves, equipped with a special device that ensures that the icicles come in contact with the eaves when they freeze almost over the entire icicle body, and due to this, the icicles can be kept on the eaves for the necessary time to completely melt.

The technical result is an increase in the operational qualities of the device by providing the ability to effectively hold icicles on the roof of the building until they completely melt.

The specified technical result in the implementation of the utility model is achieved by the fact that in the well-known roof eaves of the building with a cantilever overhang of the roof, equipped with an element for freezing water, made of a hydrophilic material with low thermal conductivity and significant specific heat, attached to the outer edge of the cantilever overhang along the entire length of the eaves , the peculiarity lies in the fact that the element for freezing water is made in the form of an elastic mesh with rectangular cells, freely hanging down, with rectangular cells, lennoy to the eaves of the roof of one of the longest side and made of high-strength cotton cord fabric weave.

The essence of the utility model is illustrated by drawings, where schematically in figure 1 shows a cornice of the roof in a side view with a slit; figure 2 - a view of figure 1.

The eaves of the roof 1 of building 2 with a cantilever overhang 3 of the roof is equipped with an element 4 for freezing water with the formation of icicles 5 made of a hydrophilic material with low heat conductivity and significant specific heat attached to the outer edge of the cantilever overhang 3 of the roof along the entire length of the eaves, while element 4 for freezing water, it is made in the form of a strip freely hanging down from an elastic grid with rectangular cells, attached to an overhang 3 of the roof of one of the long sides and made of high-strength cotton cord fabric. For fastening to the overhang 3 of the roof in the grid 4 in its upper part, free bends / lace segments / 6 are periodically made along the length, tied to the overhang 3 of the roof using the holes made along its edge 7. The vertical elements of the grid 4 are guides for draining along the grid with roof 1 of water - the last one, when snow and ice melts, will only drain over the roof, and then along mesh 4. At the same time, the vertical and horizontal elements of mesh 4 are reinforcement for the formation of icicles on it 5. When icicles 5 freeze to mesh 4, not only o contact with the overhang 3 over the area of the upper cross section of the icicle, as in the prototype device [3], and the clutch with the grid 4 is practically over the entire body of the icicle. This is due to the complete coverage of the vertical elements of the grid by the icicle and the partial coverage of the horizontal elements of the grid 4, due to which the holding force of the icicles on the grid increases sharply, as well as the partial freezing of the outer surface of each icicle to the vertical and horizontal elements of the grid 4. All of the above ensures maximum retention efficiency icicles 5 on a grid 4 when freezing. The fabrication of mesh 4 from cotton cord fabric, while maintaining the elasticity of mesh 4, provides its high strength, wear resistance under all climatic conditions in high humidity, frost resistance, etc. Fabrics of this type are usually used to reinforce rubber tires on wheels of transport, fiberglass. The physical parameters of these fabrics are close to those of soft wood: the specific heat is about three times higher than that of steel, thermal conductivity is 5-7 times less than that of steel. hydrophilicity, that is, the ability to wet with water is even higher than that of a tree. These parameters / cm. in detail in the description to [3] /, along with the above main characteristic - a significant contact area of frozen icicles with a grid - provide the most severe freezing of icicles to the grid, slow heating of the grid from the roof and from the surrounding air, and as a result, the possibility of holding with high reliability icicles on the grid until they melt completely without the danger of falling on lower objects. As experiments show, the sizes of the sides of rectangular mesh cells that are optimal for solving the above problems should be about 6-8 cm.

Claims (1)

The roof eaves of the building with a cantilever overhang of the roof, equipped with an element for freezing water, made of a hydrophilic material with low thermal conductivity and significant specific heat, attached to the outer edge of the cantilever overhang of the roof along the entire length of the eaves, characterized in that the element for freezing water is made in the form of freely hanging down strips of elastic mesh with rectangular cells attached to the overhang of the roof of one of the long sides and made of high-strength cotton fabric th weave.