RU2494199C1 - Arrangement of building and structure roof - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device comprises a roof with an eaves gutter arranged in its lower part, a cover installed on the upper edge of the eaves gutter, a catch-water funnel connected with the system of internal water drainage and installed in the eaves gutter. The device is also equipped with a support structure arranged under the cover on the roof surface between the lower edge of the roof surface and the gutter, with the level of the upper surface lowering in direction of the eaves gutter. Thawed water is drained via the catch-water funnel into a system of internal water drainage.

EFFECT: increased operational reliability of a roof.

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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.

A device is known for the roof of a building and a structure for removing icicles, which is presented in the description of the copyright certificate No. 775268 of class. E04D 13/06, publ. 10.30.80 g., Bull. Number 40. The known device uses a system of blocks and two shoulders levers pivotally mounted on the corners of the walls of the building. To the ends of the levers are attached cables stretched along the roof. The short ends of the levers are connected by additional cables to a source of mechanical disturbance, for example, doors. The system of levers, blocks and cables allows the use of mechanical forces when opening doors to act on icicles. The known device provides separation and discharge from the roof of already formed icicles due to mechanical energy.

In the device for removing ice, presented in the description of the patent of the Russian Federation for the invention No. 2169245 by class. 7 E04D 13/00 (published on 06/20/2001, bull. No. 17) uses 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. The device is additionally equipped with rods spring-loaded in the opposite direction to the action of mechanical pulses, on the one hand connected with an elastic element made in the form of a linear waveguide mechanically decoupled from the roof eaves, and on the other hand, with a source of mechanical pulses. In the known device due to the spring-loaded rods, the concentration of the force pulse from the source of its perturbation to the linear waveguide is provided, thereby increasing the amplitude of the force perturbation transmitted to the icicles. What ensures their separation from the roof and discharge under the influence of their own gravity down to the ground.

If the described devices provided a solution to the problem of removing icicles from the roof, then in the technical solution presented in the description of the invention to the patent of the Russian Federation No. 2086601 Cl. 6 С09К 3/18, the problem of reducing the likelihood of the formation of ice and icicles is being solved. The solution to this problem is provided by applying non-polar rubbers to the roof surface. Coating can provide effective surface protection against 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 is known for the roof of a building and structure, including a roof, the surface of which 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 °. See RF patent No. 2244790, IPC E04D 13/076

The known technical solution allows to reduce the adhesion of freezing water to the roof surface in its lower part, and thereby reduce the likelihood of frost formation and icicles, or at least reduce the load on the roof during the removal of ice from the roof.

At the same time, taking into account that a significant part of the roofs has a small slope angle, as a result of which, even with insignificant adhesion forces, the ice with the anti-icing coating has cases of ice retention on the roof surface.

The closest technical solution to the proposed one is the roof of a building and structure containing a roof located in its lower part, at a distance of at least 0.4 m from the lower part of the edge, with a gutter, an anti-icing coating installed at an angle of at least 45 °, made in in the form of a thin-walled shell overlapping the space between the upper edge of the gutter and the lower edge of the roof surface with an inlet relative to the lower edge of the roof surface, connected to the internal drainage system and drainage funnels installed in increments of not more than 10 m in the gutter. See RF patent for the invention No. 2338853 C1, published November 20, 2008, Bull. Number 32

In this device, by organizing the drainage of melt water through the internal drainage system, the probability of icicles and ice formation on the edge of the roof is significantly reduced.

However, the use of the known device on buildings with a small angle of inclination of the roof is difficult, because it is difficult to exclude the accumulation of snow masses on the anti-icing coating, especially in wet snow, which makes it necessary to carry out additional work to clear the snow of the anti-icing coating in order to exclude the possibility of collapse of the snow mass and the probability of damage, or it is necessary to make the height of the gutter too high, which increases the cost of arrangement of the roof.

The aim of the present invention is to reduce the cost of operating the roof.

To achieve the stated goal, the known device of the roof of a building and structure, comprising a roof with a gutter located in its lower part, a coating installed on the upper edge of the gutter, connected to the internal gutter system and a drain funnel installed in the gutter, is equipped with a supporting structure installed under the cover on the roof surface between the lower edge of the roof surface and the gutter, with the level of the upper surface decreasing in the direction of the gutter.

The proposed solution provides a slope of the surface on which the accumulation of snow masses on the edge of the roof, towards the gutter, which eliminates the fall of snow masses from the roof down, reduce the likelihood of possible damage and reduce the cost of maintenance of the roof

Figure 1-2 presents a schematic diagram of the proposed technical solution. The device includes a roof 1 with a gutter installed in its lower part 2. It is desirable to install a gutter 2 on a warm surface of the roof, i.e. the roof surface, where its temperature is ≥0 under conditions of melting snow cover on the roof surface at the lowest ambient temperature. This area of the roof is located approximately at the border of the junction of the roof with the attic space. A support structure 4 is mounted between the lower edge of the roof 3 and the gutter 2 on the roof surface 1. The support structure 4 is covered by a coating 5 installed on the upper edge of the gutter 2. The coating 5 can be made of any roofing material (roofing iron, metal tile, etc. ) Depending on the type of roofing coating material 5 selected, a support structure scheme 4 is selected. The support structure 4 is designed in accordance with the known recommendations for arranging a supporting structure under the roof. (See, for example, http://stroyplan.ru/docs.php?showitem= 10895). The height of the supporting structure 4 is made in such a way as to ensure a guaranteed slope of the coating from the edge of the roof towards the gutter 2. The minimum slope angle α (see Fig. 2) must be at least 1 ° and determined based on the conditions of guaranteed snow mass going to the side gutter 2. The fastening of the coating 5 as to the supporting structure 4, and to the upper edge of the gutter 2 can be performed by any known method. Mounting the coating on the upper edge of the gutter 2 can be carried out in accordance with the general requirements of structural design. For example, using a bolted joint 6. To seal the joint and prevent leakage of sewage under cover 5, the joint can be sealed with gasket 7. The main thing is to ensure that melt water does not get on the roof overhang (under cover 5). To prevent atmospheric precipitation from entering the coating 5, the supporting structure 4 is closed from all sides by a moisture-proof material 8, for example, roofing iron.

On the inner side of the gutter 2, in its lower part there is a drain funnel 9. The design of the node of the drain funnel 9 in the gutter can be different, for example, it can be performed according to the scheme known by Nicoll from http://www.nicoll.ru / catalog / gutters / ovation /. The main requirement for the implementation of the funnel node 9 is the tightness of the connection with the gutter 2. Given the remoteness of the gutter from the edge of the roof, the tracing of the gutter funnel to the gutter (not shown in Fig. 1-2) can be performed in different ways, subject to the conditions Do not freeze melt water at freezing temperatures. In known devices, the drain funnel is traced to a heated drain pipe (not shown in Fig. 1-2). In the proposed technical solution, if it is possible to lay an internal drain in the building, a gutter 2 is installed within the attic, and the drain funnel is traced to the internal drain system (not shown in Fig. 1-2). In the absence of an internal gutter, the tracing of the gutter funnel can be performed to the city gutter system (not shown in Fig. 1-2). In the absence of a city gutter system, a traditional scheme of water drainage from the roof through the drainpipes 10 (not shown in FIG. 2) to the territory adjacent to the building space with subsequent water drainage from the foundation of the building can be used. In such cases, the proposed device can be equipped with well-known technical solutions, for example, tray 11 (not shown in FIG. 2), and a drain funnel 9 for the winter period of roof operation is connected to the sewage system of the building (not shown in FIGS. 1-2) . In the summer period of operation, the drainage funnel 9 is closed with a stopper or is blocked by a corresponding tap (not shown in FIGS. 1-2). If it is difficult to install the gutter 2 in the warm area of the roof, the drain funnels and the piping system connecting them to the water drainage system can be equipped with a heating cable. (not shown in FIGS. 1-2). Tray 11 can be mounted on the roof surface 1 from the lower part of the gutter 2 to the lower edge of the roof, cutting the supporting structure 4 covered by a coating 5 and its upper part joined with the gutter 2, and the lower part facing the mouth of the drainpipe 10. To prevent the melt water entering the tray 11 during the winter period of operation of the roof, the device can be equipped with a jumper 12 mounted on the surface of the tray at the point of its connection to the gutter 2 over its entire width. The height h of the jumper 12 is selected based on the allowable amount of melt water entering the sewer system. Given that during the formation of icicles (when the temperature of the tray is negative and the temperature of the roof surface is positive) the volume of melt water is insignificant, the height of the bridge 12 can be 2-5 mm. To increase the reliability of the drainage of melt water, additional drainage funnels 9 can be installed along the gutter (not shown in Fig.1-2). The distance between the drain funnels 9 is selected based on the specific structural and operational features of the roof. At the same time, in order to exclude the possibility of melt water freezing in the gutter 2, the distance between the drain funnels 9 should be no more than 10 m. In order to reduce the path of melt water to the drain funnels 9, additional gutters are installed on the roof surface (Fig. 1-2 are not shown). The height of the additional gutters can be the same as that of the lintel 12 of the order of 2-5 mm or more, in the case of a large deviation of the roof surface from flatness.

If it is difficult to carry out the support structure 4 of a high height for roofs with a large slope angle, the support structure can be mounted not on the lower edge of the roof 3, but in the gap between the lower edge 3 and the gutter 2 (see Fig. 3). In this case, it is necessary to provide a slope angle of the moisture-protective material 8 of at least 60 °, at which, as shown by experiments, the accumulation of snow masses is practically eliminated. Reducing the likelihood of accumulation of snow mass is also facilitated by measures to treat the surface of the moisture-proof material 8 with an anti-icing coating and structural measures to initiate vibrations of the moisture-proof material 8 under wind exposure.

The proposed device operates as follows. Atmospheric precipitation, falling on the roof 1, flows to the gutter 2 and is discharged from the building through the drain funnels 9. In winter, at negative air temperatures, the roof surface is covered with snow. Snow masses falling on the cover 5, due to the inclination of the cover 5 towards the gutter 2, are kept on its surface, or slide into the gutter 2. Melted snow formed due to the melting of the snow cover of the upper part of the roof due to solar radiation, or heat flows of the under roof the spaces are delayed by the gutters 2 and through the drain funnels 9 are diverted from the building. The freezing of melt water in the gutter is prevented by the heat flows coming from the gutters 9, or, when the funnels are equipped with an electric heating cable, the heat flows from the cable. In the absence of a drainage system, when the system is equipped to drain melt water into the sewage system, drainage funnels 9 are closed in summer, the jumper 12 is removed, and precipitation through the tray 11 is sent to the drainpipe 10 as in all known systems for draining water from a pitched roof. In the winter period of operation, a jumper 12 is installed, the drain funnels 9 open and the melt water through the drain funnels 9 is sent to the sewage system. With proper design and quality installation of the heat flow system from the sewage system, it is enough to prevent the funnels from freezing 9. They can be closed from above with snow, ice, but inside the funnel they will be free for unhindered passage of melt water moving under snow and ice over the roof surface. With intense melting of snow and heavy rainfall at a positive ambient temperature during the winter period of operation, water will flow through jumpers 12 and be discharged through drainpipes 10, eliminating overflow of the sewage system. Thus, choosing the height of the jumpers 12, the diameter of the funnels 9 is determined by the maximum possible filling of the sewage system with melt water. Considering that the surface of the coating faces its slope inside the gutter, the probability of collapse of snow masses and especially ice and icicles down from the roof of the building is virtually eliminated.

Thus, 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 likelihood of snow mass falling on ice and icicles from the roof of the building and thereby reduce the cost of operating the roof and achieve the intended purpose inventions.

Claims (1)

The roof device of a building and structure, comprising a roof with a gutter located in its lower part, a coating installed on the upper edge of the gutter, connected to the internal gutter system and a drainage funnel installed in the gutter, characterized in that it is provided with a supporting structure mounted under the cover on the roof surface between the lower edge of the roof surface and the gutter, with the level of the upper surface decreasing in the direction of the gutter.

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