SU1161792A1 - Air conditioning system - Google Patents

Abstract

AIR CONDITIONING, containing central air conditioning and air conditioning closers with heat exchangers, a heater located in the duct between the central air conditioning and air conditioning closers, the circulation circuit of the heat and coolant with pump and boiler, and the inlet and outlet heat exchangers are connected by upper and lower bridges through three-way control valves the inlet of the circulation circuit with the pump and the boiler, and the exit of the heat exchangers with a lower jumper is connected to the outlet of the circulation circuit, characterized in that, in order to improve the accuracy of air parameters and heat and energy efficiency, a check valve installed at the outlet of the circulation circuit and a bypass line with an additional check valve of the opposite direction connected to the upper jumper are inserted into the system The control circuit is equipped with two bypass lines with shut-off elements, and two shut-off valves are installed on the circulation circuit at the pump inlet and at the boiler outlet; i pump is communicated through the valve installed at the inlet to the pump, and through the first bypass “L line with the outlet from the boiler, and the outlet from. boiler through the valve installed at the outlet of the boiler, and through the second bypass line - with the entrance to the pump. l O) | with tsD

Description

The invention relates to air conditioning and can be used, in particular, in air conditioning systems of multi-storey buildings.

The purpose of the invention is to improve the accuracy of regulation of air parameters and heat-5 energy efficiency of the air conditioning system.

The drawing shows a schematic diagram of an air conditioning system.

The air conditioning system consists of a central air conditioner 1 and air conditioning units 2 with heat exchangers 3. Between the central air conditioner 1 and air conditioning units 2 in the duct 4 there is a heater 5.

The circulation circuit 6 contains 15 pump 7 and a boiler. 8, the input 9 and the output 10 of the heat exchangers 3 are connected by the upper and lower jumpers 11 and 12 through a three-way control valve 13 with the input of the circulation circuit 6 with the pump 7 and the boiler 8, and the output of the heat exchangers 3 by the lower ^{20 with the} jumper 12 is connected to the output of the circulation circuit 6, in which the check valve 14. is installed. The system comprises a bypass line 15 with a check valve 16 of the opposite direction. . 25

The circulation circuit 6 contains two bypass lines 17 and 18 with shut-off elements 19 and 20 and two shut-off valves 21 and 22 installed on it, while the inlet of the pump 7 is communicated through the valve 21 and through the first by-pass line 17 with the exit 30 from the boiler 8, and the output from the boiler 8 through the valve 22 through the second bypass line 18 with the inlet of the pump 7.

The air conditioners-closers 2 contain temperature sensors 23 of the processed air, which are connected to three-way 35 control valves 13. The heat or coolant enters the boiler 8 through shut-off valves 24, 25, 26 and 27.

The air conditioning system operates as follows. ₄ θ

In the cold season, fresh air from the central air conditioner 1 enters the air conditioners-closers 2 through the duct 4 with the temperature of the winter "dew point". During this period, the heater 5 is turned off, and the heat loss of the rooms is compensated by the heat of hot water, which is supplied by the pump 7 through the boiler 8 via the bypass line 17 to the three-way control valves 13. Depending on the temperature pulse issued by the temperature sensor 23, hot water passes through the lower jumper 12 to the heat exchanger 3 and from there through the upper jumper 11 and the bypass line 15 to the circulation circuit 6 or through the upper jumper 11 and through the bypass line 15 to the circulation circuit 6, or both wow ways.

In the circulation circuit, hot water, which has released part of its heat in the heat exchanger 3, enters through the bypass line 18 to the inlet of the pump 7. Moreover, the shut-off elements 19 and 20 are open, and the shut-off valves 2! and 22 are closed. During this period, hot water is supplied to the boiler through open shut-off valves 26 and 24, and shut-off valves 27 and 25 are closed.

In the transitional and warm periods of the year, the system switches to the circulation of water in the circulation circuit in the opposite direction. The shut-off elements 19 and 20 are closed, and the shut-off valves 21 and 22 are open. Cold water is supplied to the boiler through open shut-off valves 27 and 25, while shut-off valves 26 and 24 are closed.

Fresh air from the central air conditioner I flows to the air conditioners 2 through the air duct 4, before being heated in the heater 5 to a temperature that compensates for the heat loss of the rooms.

Cold water is supplied by the pump 7 through the boiler 8 through the circulation circuit 6 to the lower jumper 12.

Depending on the pulse emitted by the temperature sensor 23, cold water passes through the lower jumper 12 to the heat exchanger 3 and from there through the upper jumper 11 and valve 13 to the circulation circuit 6, either through the jumper 12 and valve 13 to the circulation circuit 6, or simultaneously along both described paths.

In the circulation circuit 6, the heated water through the open shut-off valve 21 enters the inlet of the pump 7.

In order to somewhat simplify the piping of the circulating circuit pipelines, it is possible to use a second pump installed parallel to the first, but working in the opposite direction.

The invention improves the accuracy of regulation of parameters of air conditioning and heat power efficiency of the air conditioning system.

„„ Compiled by M. Raschepkin

Claims (1)

AIR CONDITIONING SYSTEM, comprising a central air conditioner and air conditioning units with heat exchangers, a heater located in the duct between the central air conditioner and air conditioning units, a circulation circuit of heat and coolant with a pump and a boiler, the input and output of the heat exchangers being connected by upper and lower jumpers through three-way control valves with an input circulation circuit with a pump and a boiler, and the output of the heat exchangers with a lower jumper connected to the output of the circulation circuit Hurray, characterized in that, in order to improve the accuracy of controlling the air parameters and heat energy efficiency, a check valve is installed in the system installed at the outlet of the circulation circuit, and a bypass line with an additional opposite check valve connected to the upper jumper, the circulation circuit is equipped with two by-pass lines with shut-off elements, and two shut-off valves are installed on the circulation circuit at the inlet to the pump and at the outlet of the boiler, while the input about the pump it through the valve installed at the pump inlet, and through the first bypass I # line with the outlet from the boiler, and the exit from the IV boiler through the valve installed at the outlet of the boiler, and through the second bypass | line - with the entrance to the pump. s Ύ in