SU916904A1 - Central heating system - Google Patents

Description

(54) HEATING SYSTEM

The invention relates to heat engineering and can be used in the design and construction of water heating systems in residential and public buildings. The known building heating system containing water heaters, piping, heating devices, circulating and charging pumps and expansion tank 1. The disadvantage of this heating system is the need to locate a heating tank above the heating pipelines, usually in a special superstructure on the high roof. building that requires additional costs and is unacceptable in architectural terms. The closest to the proposed one is a heating system containing a water heater, a circulating pump, circulation piping, outlets, heating devices, a hydropneumatic tank (hydrophore) with a jet regulator of air reserve 12; 1. The disadvantage of this system is the need to install an additional air compressor in it to supply air to the tank with automatic control of its operation, which requires special supervision and additional operating costs. In addition, the reliability of the heating system is reduced due to the dependence of this reliability, c. In this case, from the efficiency of the compressor, the purpose of the invention is to increase the reliability and lower the operating costs. The goal is achieved by the fact that the jet air supply controller is connected to the circulation pipe after the circulation pump. The drawing shows the heating system. It contains a water heater 1, circulation piping 2, stand ki 3,

heaters 4, circulating pump 5, poppet pump 6, hydro-pneumatic tank 7 with jet regulator 8 for air-supply and turnip pressure 9. The hydropneumatic tank 7 is connected by pipeline 10 to the circulating pipe by pipe 2 of the heating system to the circulating pump 5, and the jet regulator 8 of the air supply is connected by pipe 11 to the circulating pipe Trubopodvodsm 2 after the circulating pump 5 is connected to pipelines 10 11 thermal network 12. Hydropnematic valve box with pressure reducing valve 13.

During the operation of the circulation pump 5, the water in the system passes through the water heater 1, the circulation pipes 2, the stations 3, the heating devices 4. Part of the flow rate supplied by the circulation pump 5 comes from its pressure circulation pipe The pipe 11 through the jet regulator 8 supplies air into the hydropneumatic tank 7. Air flows from the jet regulator 8 together with the water. From the bottom of the tank, water flows through the connecting pipe 1O and enters the suction inlet of the circulating pump 5. If there are leaks when the water in the heating system is cooled, the water level in the hydropneumatic tank 7 is lowered and air enters the tank 8 of the air supply. When the pressure in the tank 7 drops below the permissible limit for filling the system, the pressure switch 9 gives a signal to turn on the charge pump 6, which, taking water from the return line of the heating network, supplies it to the tank 7. When the required pressure of water in the tank is reached gives a signal to turn off the pump 6.

When the temperature of the air cooler in the system increases, due to its volumetric expansion, the level and pressure of water in the tank 7 increases due to the compression of the air volume. When the pressure in the tank exceeds the calculated value, a part of the air from the tank is removed through the pressure reducing valve 13.

By connecting the air flow regulator with the circulation pipe after the circulation pump between the connection points of the connecting pipes 1O and 11, a pressure difference is created, equal to the pressure of the circulation pump 5, and the air is automatically supplied to the hydropneumatic tank, which allows the air compressor to be rejected , the costs associated with its operation and increase the reliability of the heating system.

Claims (2)

1.Orlov A.I. Heat supply and ventilation. 1957, p. 102, fig. 66 2. Maksimov G. A., Orlov A. I. Heating and ventilation, part 1. 1948., p. 131-: 134, fig. 80 (prototype).