RU2375529C2 - Device for protecting water outlet systems of roofs against ice formation - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: invention refers to construction and repair of buildings, and namely to devices of combined roof with external water outlet at ice formation. Device for protecting water outlet systems of inclined roofs of the building against ice formation by means of heating includes downcomers, rainfall and snowmelt runoff chutes and external coverings of roofs, which contact heat carrier transfer devices, as well as exhaust systems of ventilated heated rooms of building. Exhaust systems of ventilated heated rooms of buildings are connected by means of heat carrier supplying channels to heat carrier transfer devices, which contact external coverings of roofs, rainfall and snowmelt runoff chutes, and to heat carrier transfer devices made in the form of channels located in cavities of downcomers. In heat carrier supplying channels and/or in heat carrier transfer devices there additionally installed are fans.

EFFECT: excluding additional energy consumed for heating of water outlet systems of roofs.

2 cl, 5 dwg

Description

The invention relates to the field of construction and repair of buildings, and in particular to devices for protecting roof drainage systems, including with external gutters during icing, and can be used in the household and industrial sectors during the construction and operation of buildings and structures.

In the cold season, often changes in ambient temperature relative to zero degrees. Since this value is the freezing point of water under other normal conditions, ice accumulates in the places where water accumulates. Among the most unacceptable places for the emergence and growth of ice accumulation are the drainage systems of buildings. Here, ice can lead to the complete freezing of drainpipes, the formation of heavy icicles at the edges of the roofs of buildings, deformations, a cliff, the abnormal direction of the spillway, the loss of the main operational qualities of the roof until it collapses and kills people. Material costs for maintaining the drainage systems of roofs of buildings and structures in working condition are very significant.

There are known constructions of the so-called "warm attics" in which the exits of the ventilation ducts of the rooms (attic room) are led out into the under-roof attic space (attic room), from where the air exits through the ventilation roof pipe with a deflector. The thermal insulation of roofs in such attics is reduced (see "Heat Engineering. Heat and Gas Supply and Ventilation", M .; Stroyizdat, 1991) reduced (see "Heat Engineering. Heat and Gas Supply and Ventilation", M; Stroyizdat, 1991)

However, in this case, the coolant heats the attic, and then, bypassing the thickness of the roof, without heating its outer coating is released into the atmosphere. In this case, the main heat is spent irrationally, because the attic of the building does not require heating and does not exclude the possibility of icing of roof drainage systems, including drainpipes.

The task of the claimed device is to remedy these disadvantages. The technical result is the exclusion of additional energy costs for heating the drainage systems of the roofs of the building.

The specified technical result is achieved by the fact that in the device for protection against icing of the drainage systems of inclined roofs of a building by heating, containing drainpipes, rain gutters, melt drains and external roof coatings in contact with heat transfer media, as well as exhaust systems of ventilated heated premises of the building, exhaust systems of ventilated heated rooms of buildings are connected by means of coolant supply channels with coolant transfer means in contact with een outdoor coatings roofing, rain gutters, sinks and thawed with coolant transport means made in the form of channels disposed in the cavities drainage pipes, with the coolant channels in the inlet and / or the coolant transport means additionally installed fans.

In addition, the heat transfer media are waterproofed from the roof drainage systems.

The invention is illustrated by drawings, in which

figure 1 shows a longitudinal section of the roof of the building with the supply of coolant in the thickness of the roof with an internal drain,

figure 2, 4 is a section of a building with a coolant inlet both in the thickness of the roof and in the cavity of the drainpipe,

figure 3 is a cross-section of a drainpipe along aa from figure 2,

figure 5 is a cross section of a drainpipe along BB from figure 4.

The claimed device is as follows.

The sloping roof 1 and the drainpipes 2 of the building's drainage systems are heated with a coolant in the form of air currents of warm air sent from the exhaust systems of 3 heated ventilated rooms of the building.

For this, the exhaust systems of 3 buildings are connected by channels 4 of the coolant supply with means of transfer 5 of the coolant located both in the cavity of the drain pipes and in the thickness of the roof drainage systems. Next, the exhausted cooled air is removed from the heat transfer medium through the exhaust manifolds 6, ending at the top with cap-heads 7. In this case, the condensate from the cooled air through the drainage channels 8 is removed into the cavities of the drain pipes 2, with subsequent drainage to storm or traditional sewers 9.

Means of transferring the coolant in the cavities of the drain pipes 10, 11 (Figs. 3, 5) can be made in the form of circular 12 or ring 13 channels.

To heat the elements of the drainage systems in severe frosts, fan heaters 14 can additionally be installed in the coolant supply channels and / or in the coolant transfer means to protect the condensate from freezing.

Air flows from the heated rooms of the buildings through the intake manifolds 15 of the exhaust systems 3 can be lifted through the supply channels 4 of the coolant due to natural draft or forced by fans 16.

An additional technical and economic effect is the ability to reduce the load capacity of the supporting structures of the roofs and the building itself and, as a result, reduce material costs for the construction and repair of buildings and structures, as well as ensuring their safe operation.

Claims (2)

1. Device for protection against icing of the drainage systems of inclined roofs of a building by heating, containing drainpipes, rain gutters, melt drains and external roof coatings in contact with heat transfer media, as well as exhaust systems of ventilated heated rooms of a building, characterized in that exhaust systems ventilated heated premises of buildings are connected by means of coolant supply channels with coolant transfer means in contact with the outer roof coverings, elobami rain, sewage and thawed with coolant transfer means made in the form of channels disposed in the cavities drainage pipes, with the coolant channels in the inlet and / or the coolant transport means additionally installed fans. 2. The device according to claim 1, characterized in that the heat transfer medium is waterproofed from the roof drainage systems.

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