RU2244790C2 - Building or building structure roof construction - Google Patents

Abstract

FIELD: building, particularly for roof construction.

SUBSTANCE: rood includes roofing with anti-icing coating strip applied on surface thereof along lower roofing edge. Coating strip width is 0.1 - 2.5 m in dependence of climatic zone and roof inclination angle. Coating strip extends beyond roofing edge for the distance of at least 2 cm and angle between roofing surface and projecting part of coating strip is not more than 180^o.

EFFECT: prevention of ice and icicle formation on roof.

3 cl, 1 dwg

Description

The invention relates to the field of construction and operation of buildings and structures and can be used to prevent the formation of ice and icicles on the edges of the roof.

Known anti-icing coating, which includes non-polar rubbers and can be applied to the surface, preventing the buildup of ice (description of the invention to the patent of the Russian Federation No. 2086601 according to class 6 C 09 K 3/18). The coating can provide effective surface protection for a long period of time from ice buildup. However, to protect the roof from frost and icicles arising on its lower edges, the use of a known coating is expensive and not always effective. So, on sloping roofs, ice may freeze over the entire surface of the roof, the destruction of which can occur only with the growth of large icicles that threaten the safety of the population.

A device for removing icicles from overhangs of the roof of buildings is known, including a system of blocks and two shoulders levers pivotally mounted on the corners of the walls of the building, to the ends of which are attached cables stretched along the roof, the short ends of the levers being connected by additional cables to a vibration source, for example, doors; a wire is attached to the ends of the levers. Copyright certificate No. 775268 by class. E 04 D 13/06, publ. 10.30.80 g., Bull. Number 40. In this device, due to the system of levers, blocks and cables, mechanical forces when opening the doors are transferred to icicles, due to which their removal is ensured. The known device provides separation and discharge from the roof of already formed icicles due to mechanical energy. However, when icicles are torn off the roof, various types of damage to the roof are inevitable, which limits the use of known devices.

A device for removing ice from the roofs of buildings and structures. Description to the patent of the Russian Federation for the invention No. 2169245 by class. 7 E 04 D 13/00, publ. 06/20/2001, bull. Number 17. The device includes a source of mechanical impulses with a mounting unit on a building or structure and an elastic element located along the eaves of the roof, connected with a source of mechanical impulses. The device is additionally equipped with rods spring-loaded in the opposite direction to the action of mechanical pulses, on the one hand connected to an elastic element made in the form of a linear waveguide mechanically decoupled from the roof cornice, and on the other hand, to a source of mechanical pulses. In addition, the known device contains a number of additional features that improve its technical and operational characteristics. In the known device, due to the spring-loaded rods, the concentration of the force impulse from the source of its perturbation to the linear waveguide is provided, thereby increasing the amplitude of the force perturbation transmitted to the icicles, which ensures their separation from the roof and discharge under the action of its own gravity down to the ground. In this device, even when the icicles are torn off the roof, various types of damage to the roof roof are inevitable.

The aim of the invention is to reduce the load on the roof at the separation and discharge from it of icicles and ice.

To achieve this goal in the known device of the roof of the building and structure, including the roof, the surface of the roof is de-iced with a strip along the lower edge of the roof, the width of the strip depending on the climatic zone and the slope of the roof is determined by a value from 0.1 m to 2.5 m;

the coating strip is applied with an overlap relative to the roof by an overhang of at least 2 cm down from its lower edge;

the angle between the roof surface and the inlet plane does not exceed 180 °.

As an analysis of the process of frost accumulation and the formation of icicles on the roofs of buildings and structures showed, the formation of ice accumulation begins to occur at the lower edge of the roof. Under favorable conditions, under the layer of snow lying on the roof, melt water appears, which roll down. During a cold snap, water first freezes at the lower edge of the roof. Above the ridge, water is protected from freezing by a layer of snow and flows down. And since the water below has already frozen, a stagnant zone forms at the edge, which is the reason for the formation of ice and, as a result, icicles. The anti-icing coating applied at the lower edge of the roof will prevent freezing of ice and the formation of a stagnant zone, which will prevent the formation of large icicles. As an anti-icing coating, materials such as fluoroplastic, polyethylene and other materials having hydrophobic properties and reduced adhesion to snow and ice can be used. Small icicles and ice independently or with insignificant loads on them will fall down. Thus, the proposed technical solution allows to reduce the load on the roof when the icicles and ice are torn off and dumped from it. Depending on the angle of inclination and the design features of the roof, as well as the meteorological features of the area and the permissible size of the falling icicles, the width of the cover strip, the value of the overlap relative to the roof and the angle between the roof surface and the surface of the overlap are chosen.

The inlet device relative to the roof down from its lower edge will allow using the wind load to vibrate the roof edge and steady discharge of small ice growths and almost completely avoid the formation of ice and icicles.

The drawing shows the proposed device. The device includes a roof 1, on the surface of which an anti-icing coating is applied 2. The width of the strip of the applied coating, depending on the roof inclination and meteorological features of the roof operating area, is determined by a value from 0.1 m to 2.5 m.

The coating is applied with an overlap δ> 2 cm down from its lower edge.

The device operates as follows. The water formed as a result of the thaw rolls down the roof surface and falls to the ground. When cooling, the water at the lower edge begins to freeze. However, due to the presence of an anti-icing coating at the lower edge, the ice formed rolls down and falls to the ground. Insignificant icicles, formed as a result of freezing of a wet snow layer on the roof surface, are torn off as a result of the oscillation of the hanging part of the coating under the influence of wind loads. In extreme cases, if necessary, they can be removed from the roof by any of the known methods, while no loads will be transferred to the roof surface when icicles are removed, since the only force that keeps the icicles from falling will be the freezing strength of the surface layer of snow. Given that ice does not withstand bending loads, when removing icicles, the loads on the roof will be minimal, which ensures the purpose of the invention.

Based on the foregoing, we can conclude that the new significant features identified in comparison with the prototype, together with the known ones, can reduce the load on the roof when icicles and ice freeze from it.

Claims (3)

1. The roof device of a building and structure, including a roof, characterized in that the surface of the roof is de-iced with a strip along the lower edge of the roof, the width of the strip depending on the climatic zone and the slope of the roof is determined by a value from 0.1 m to 2.5 m; 2. The device according to claim 1, characterized in that the strip of coating is applied with an overlap relative to the roof by an overhang of at least 2 cm down from its lower edge; 3. The device according to claim 2, characterized in that the angle between the roof plane and the inlet does not exceed a value of 180 °.