RU112924U1 - ROOF CARNISE - Google Patents

Abstract

The eaves of the roof of the building with a cantilever overhang of the roof, equipped with elements for freezing water, made in the form of rigid slats made of hydrophilic material with low thermal conductivity and significant specific heat, attached to the lower and upper sides of the cantilever overhang for the entire length of the eaves, characterized in that the slats are made of injection molding elastoplastic polymer material, for example elastomer or honeycomb, having a honeycomb bulk structure with alternating hexagonal cells open from all outer sides of the strips.

Description

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

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

The disadvantages of the known constructions are the weak cohesion forces of icicles with a cornice overhang formed during snow and ice melting, leading to the icicles detaching from the cornice under the influence of their own weight and their falling, 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 in a special sting shape, and the cornice overhang is made with an appropriate coating, and, 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 E041 13/06, publ. 1978 [2] /.

The disadvantages of the known structures are low efficiency, structural complexity, the inability to use on existing buildings, the need for a radical alteration of 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, 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 form two boards, for example, of soft wood, attached from the lower and upper sides of the cantilever overhang of the roof to the entire length of the cornice / cm. A.S. USSR No. 9531433 class 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 a 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 material of the overhang elements, the small contact area of the hanging icicles with the board, limited practically only by the top section of the icicle, does not provide reliable retention of icicles on the board without the risk of breakdown until they completely melt.

The essence of the utility model consists in the implementation of elements for freezing water in the eaves of the roof from special materials with a honeycomb volumetric structure and open cells of a given shape, which allows you to repeatedly increase the contact area of icicles with elements, and accordingly their adhesion force, which together with a significant increase in specific the heat capacity of the elements and lowering their thermal conductivity, will make it possible in the complex to ensure the possibility of reliable retention of icicles on the eaves overhang until they completely melt.

The technical result is an increase in the performance of the eaves of the roofs by providing the possibility of holding icicles on the eaves 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 cornice of the roof of the building with a cantilever overhang of the roof, equipped with elements for freezing water, made in the form of rigid slats of hydrophilic material with low thermal conductivity and significant specific heat, attached to the lower and upper sides of the cantilever overhang for the entire length of the cornice, the peculiarity is that the strips are made of molded elasto-plastic polymer material, for example, elastomer or honeycomb fin having a honeycomb three-dimensional structure with alternating, open on all sides of the outer strips hexagonal cells.

The essence of the utility model is illustrated in the drawing, which schematically shows the proposed cornice in a view of the building from the side with a cross section.

On the roof 1, with a cornice overhang 2 with a width of the order of 120-150 mm, using bolts 3 with nuts the entire length of the overhang 2 along the outer edge of the upper and lower sides of the attachment elements for freezing water with the formation of icicles 4 in the form of hard strips 5, 6 of a hydrophilic material with low thermal conductivity and significant specific heat. The strips 5, 6, each with a thickness of at least 20 mm, are made of molded elasto-plastic polymer material, for example, an elastomer or honeycomb, having a honeycomb volumetric structure with alternating hexagonal cells open on all outer sides of the strips 5, 6. The edges of the strips 5, 6 protrude outward for 50-70 pcs. Materials of this type are widely used in aircraft instrumentation / see, for example, "Materials for aircraft instrumentation and construction", ed. Acad. A.F. Belova, M., "Metallurgy", 1982, pp. 371-374 [4] /, in the manufacture of energy-absorbing vehicle bodies / cm. A.S. USSR No. 965840, 1980 [5] and A.S. USSR No. 1500529, 1987 [6] /. The presence in the material of strips 5, 6 cells allows, in comparison with a smooth tree, to dramatically increase hydrophilicity due to the multiple increase in the adhesion area of icicles 4 with elements 5, 6 for their freezing, and thereby significantly increase the adhesion forces of icicles 4. Here, the area the cohesion of the icicle 4 with the strip 5, 6 no longer coincides with the upper sectional area of the icicle 4, but increases significantly due to the formation of a connecting “root system” / cm at the base of the icicle 4 with adjacent pores / cells / strips 5, 6. Figure /, water penetration at the base of the icicle and freezing in neighboring pores. The porous structure of the strips 5, 6 sharply increases the specific heat capacity of their materials and reduces the thermal conductivity / cm. [5], p. 372, 374 /. It is thanks to these properties / cm. [5], p. The same / proposed materials are widely used for external thermal protection and internal thermal insulation of objects. Hexagonal cell shape / cm. [5] p. 374 / provides maximum rigidity and structural strength.

Thus, the proposed roof eaves, with virtually no appreciation and complexity of the design, provides the ability to hold the icicles formed until they completely melt, which will dramatically improve the performance of the eaves, and ultimately reduces the risk of icicles falling on people and objects below the building.

Claims (1)

The roof eaves of the building with a cantilever overhang of the roof, equipped with elements for freezing water, made in the form of rigid planks of hydrophilic material with low thermal conductivity and significant specific heat, attached to the lower and upper sides of the cantilever overhang for the entire length of the eaves, characterized in that the planks are made of elastoplastic polymer material, for example an elastomer or honeycomb, having a honeycomb volumetric structure with alternating cells open at all stigmatized form.