SU1073535A1 - Building heating system - Google Patents

Abstract

BUILDING HEATING SYSTEM with frontier understatement, containing lower supply and return lines, supply and return pipelines of front heating systems with heating devices installed in pairs in each room, characterized in that, in order to level the air temperature in the rooms, the supply pipe one facade heating system in the upper part is connected by a jumper to the return pipe of the other front heating system. (L with O1 with 01

Description

The invention relates to a heating system and can be used in district heating systems of consumers having a facade connection of heating appliances.

A known heating system of a building with facade zoning, containing lower supply and return pipes, supply and return pipes of facade heating systems with heating devices installed in pairs in each room [I].

A disadvantage of the known heating system is that it does not provide equalization of the air temperature in the rooms along the facades and can be applied only in cases where the building has sufficient heat transfer possibilities from the facade to the facade due to convective flows of internal air between the facades.

To equalize the air temperature in the rooms along the facades, such a heating system is equipped with temperature controllers, which increases the cost of the heating system and reduces the reliability of its operation, increases the cost of electric energy for pumping hot water by introducing additional local resistance of the regulator into the hydraulic circuit.

The purpose of the invention is the alignment on the facades of the air temperature in the premises.

This goal is achieved in that the building heating system with facade zoning, comprising lower supply and return pipes, supply and return pipes of facade heating systems with heating devices installed in pairs in each room, the supply pipe of one facade heating system in the upper part is connected via a jumper to return pipe of another facade heating system.

The drawing shows a diagram of a building heating system with facade zoning.

The heating system contains the lower feed distribution pipes I, return distribution pipes 2, supply pipes 3 and return pipes 4 of the front heating systems 5 and 6, heaters 7 and 8, installed in pairs in each room, jumpers 9 connecting the supply pipes 3 of one facade system with return pipes 4 of another facade system.

The heating system operates as follows.

Hot water from the heating network enters through the lower supply lines I to the supply pipes 3 of one of the garden heating systems 5 and 6, through which hot water enters the heating devices 7, via jumper 9, hot water enters the return pipes 4 of another facade heating system, through which it enters the heating devices 8, from the return pipelines 4, the chilled water enters the lower distributing return lines 2 and returns to the heating network.

Due to the fact that the heaters 7 and 8 are installed in pairs in the same room, the average surface temperature of the heaters remains approximately constant for appliances located on different floors of the building.

Let the air temperature in the rooms heated by one of the facade heating systems, for example in system 5, increase and become higher than in the other facade heating system 6. Then the temperature of the hot water at the outlet of the supply pipes 3 of the facade heating system 5 will be higher than at the outlet of the supply piping 3 of the front heating system 6, and since the hot water from the supply piping 3 through the jumpers enters the return piping 4, the temperature of the heaters 8 in the facade heating system 5 will be is lower than the temperature of the heating devices 8 in the facade heating system 6. Thus, the average temperature of the pair of heating devices 7 and 8 of the facade heating system 5 will decrease in relation to the average balance, and the average temperature of the heating devices 7 and 8 of the facade heating system 6 will increase. Such a change in the average temperature of the heating devices will cause a decrease in air temperature in the rooms heated by the facade heating system 5, and an increase in air temperature in the rooms of another facade.

. The jumpers 9 connecting the supply pipes 3 of one of the facade heating systems to the return pipes 4 of another facade heating system are used to heat the warm attic of the building, and since their length is much less than the supply and return pipes of a single-pipe differential bifilar heating system (prototype) , then the metal consumption of the proposed building heating system is reduced compared to the prototype.

The use of the proposed building heating system according to expert estimates allows to reduce heat loss by eliminating the overheating of the facade premises from 5 to 7% per 1 ° C lowering the temperature of the warm facade and to obtain comfortable temperature conditions on the building facades without the use of expensive temperature controllers.

Claims (1)

A HEATING SYSTEM OF A BUILDING with facade façade, containing lower supply and return pipes, supply and return pipes of facade heating systems with heating devices installed in pairs in each room, characterized in that, in order to equalize the temperature of the air in the rooms, the supply pipe of one facade the heating system in the upper part is connected via a jumper to the return pipe of another facade heating system.