RU16030U1 - BUILDING HEATING SYSTEM - Google Patents

Abstract

A building heating system containing air ducts in walls and ceilings, a heat source, characterized in that the heat source is made with an insulated casing and a smoke channel, and the outer wall on the south side of the building is made of a panel with a black surface with a glass partition.

Description

The utility model relates to construction, namely to the construction of residential buildings, and is intended to heat and reduce heat loss of a building.

A known system of solar heat and cold supply of a building, comprising a main solar collector installed on the south side of the building, an additional collector located in the attic, wall and ceiling channels, an accumulating cavity under the floor of the building, in which there is a reservoir with vegetable waste and an air humidifier. (Author's certificate No. 1590874 class F 24 J 2/42, 1990) The disadvantage of this system is the inoperability of the main heat source in the absence of solar energy and the deterioration of sanitary conditions in the building due to the presence of plant waste in the tank in the storage cavity.

The closest analogue to the proposed solution is a building heating system containing air channels formed by the exterior walls of the building and the curtain wall, interconnected to form a closed circulation circuit, and

roofing and roofing, and a warm pump with "cold and" hot channels. (Copyright certificate No. 1373984, class F 24 D 5/06, 11/02, F24 F 7/04, 1988). The disadvantage of this system is the high energy costs of the heat pump with low efficiency of the system.

The technical result of the utility model is to improve heating and reduce heat loss of the building.

The dryness of a utility model is as follows; A building heating system containing air ducts in the walls and ceilings for circulating the heated and exhaust air of the building, a heat source made with a heat-insulated casing and a smoke channel, and the outer wall on the south side of the building is made of a panel with a black surface with a glass partition.

A causal relationship between the totality of sushi; the natural features of the claimed utility model and the achieved result is as follows. The use of a heat source made with a heat-insulated casing allows the use of traditional energy sources and eliminates excessive heat loss. Using a panel with a black surface with a glass partition on the south side of the building allows you to additionally heat the building due to solar

energy. As a result, heating of the building improves, and decreases

heat loss.

In FIG. 1 shows a vertical section of a building; FIG. 2 - section aa into

FIG. 1, in FIG. 3 - section BB in FIG. 1

The heating system contains air channels 1, 2, 3, formed by external 4, internal 5 walls, ceilings 6 and a hinged facade 7, building 8, a heat source 9 with an insulated casing 10. A heat source 9 is installed in the basement 11 and communicates with the atmosphere through the smoke channel 12. The output channel 1, connected to 10, serves to supply heated air from the furnace to the building; building 8. Channel 2, formed by walls 4, 5. ceilings 6, and the hinged facade 7, serves for the circulation of warm air between the outer 4 and inner 5 walls and the hinged facade 7. The channel 3 formed by the inner wall 5 serves to receive fresh air from the attic 13. In the hinged facade 7 on the south side of the building 8 a panel with a black surface 15 with a glass partition 14 is installed, through which it is drained: there is heating due to solar energy.

The heating system of the building is as follows. Air from the atmosphere through channel 3 passes near the smoke 12 and air 2 channels, takes part of the heat from them and enters the casing 10 of the heat source 9. At 10, the atmospheric heated air is heated and

channel 1 enters the building 8. The exhaust air enters channel 2 and transfers part of its heat to the atmospheric air passing through channel 3 and enters the south wall of building 8. Air, heated by solar energy through the partition 14 and panel 15, rises and enters the outer wall 4 of the north side. Giving heat to the north wall 4, the air goes down to the chimney 12, where it is heated and then released into the atmosphere.

The proposed system makes it possible to reduce heating costs, as well as capital construction by reducing the thickness of the outer walls.

Claims (1)

A building heating system containing air ducts in walls and ceilings, a heat source, characterized in that the heat source is made with an insulated casing and a smoke channel, and the outer wall on the south side of the building is made of a panel with a black surface with a glass partition.