SU1520309A1 - Air conditioner - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning and reduces the energy costs of driving a chiller with reduced outdoor air temperatures. The circulating circuit 17 of the intermediate heat carrier is connected to cold springs (C) 15 of a thermoelectric battery (TB) 16 and connected to a water-cooled heat exchanger (T) 6. Hot C 18 at the inlet of 19 TB 16 is connected to a water circuit 14 by T 13 12. C 18 at the outlet 20 TB 16 by means of a control valve 21 connected to the inlet T 13, and through the control valve 22 and through an air-liquid T 9 to the outlet 23 T 13. Heated in T 6 the intermediate heat transfer fluid flows to C 15, where it is cooled and re-supplied to T 6. A portion of the water in circuit 14 heated by C 18 is supplied in T 9, where it gives off heat to the air flowing into the room. 1 il.

Description

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The invention relates to a technique of ventilation and air conditioning.

The aim of the invention is to reduce the energy costs of driving a chiller at lower outdoor temperatures.

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

The installation contains a compressor 1 of a refrigerating machine, connected by means of switching elements 2-5 to a water-cooled 6 and an air-cooled 7 heat exchanger with the formation of a circulation circuit 8 of the working fluid.

The air-liquid heat exchanger 9 is in communication with exhaust 10 and supply 11 air ducts with room 12, in which at least one heat exchanger 13 is located, connected to JK circulating water circuit 14

To the cold compartments 1b of the thermoelectric battery 16 there is connected a circulating circuit 17 of the intermediate heat transfer fluid associated with the water-cooled heat exchanger 6.

The hot junctions 18 at the inlet 19 of the battery 16 are connected to the water circuit 14 behind the heat exchanger 13 of the room 12, and at the outlet 20 via the control valve 21 to the inlet of this heat exchanger 13 and through the second control valve 22 and through the Air-to-Liquid heat exchanger 9 to the outlet 23 of the heat exchanger 13 of the room 12.

Between the coolant 6 and the air-coolon 7 heat exchangers in the circuit 8 of the working fluid, the locking elements 24 and 25 and the valves 26 and 27 are installed.

The air conditioning unit operates as follows.

During the heat pump operation, the installation of the refrigerant pair is injected with the corresponding switching of elements 2-5 by compressor 1 into the coolant heat exchanger 6, where it condenses, releasing heat to the circulator in circuit G / intermediate heat carrier.

The liquid refrigerant is throttled in the valve 27 with the valve 24 closed and enters the air-cooled heat exchanger 7 where it evaporates.

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perceived heat from the outside air. ,

The refrigerant vapor is returned to compressor 1. The cycle then repeats.

The intermediate heat carrier heated in the water-cooled heat exchanger 6 goes to the cold spans m 15 of the thermoelectric battery 16, where it cools and then enters the heat exchanger 6 again.

A portion of hot water that is discharged. 18 of the water circuit 16 of the circuit 14 is supplied to the heat exchanger 9, where it is supplied to the heat-ventilating air entering the room 12 through the intake duct 11. The other part of the heated water of the circuit 14 is fed to the heat exchanger 13.

The water cooled in the heat exchanger 9 and in the heat exchanger 13 is then returned to the battery again.

16. The regulation of the water flow is carried out using the control valves qih 21 and 22.

During refrigeration operation, the installation of the refrigerant vapor is injected by the compressor 1 with the appropriate switching elements 2-5 into the air-refrigerant heat exchanger 7, where it condenses, giving off heat to the outside air.

From the heat exchanger 7, the liquid refrigerant, throttling in the valve 26 with the shut-off element 25 closed, enters the water-cooled heat exchanger 6, where the intermediate heat transfer medium evaporates and cools.

17, after which the refrigerant vapor again enters the compressor 1. Next, the cycle repeats.

The intermediate heat carrier of the circulation circuit G / takes heat from the water of circuit 14 through junctions 15 and 18 of the thermoelectric battery 16, which in this mode is disconnected from the power source, and its terminals are shorted, i.e. battery 16 is a variator.

The water cooled in the battery 16. Circuit 14 is supplied to the heat exchanger 9, where it draws heat from the ventilation air. The cooled air through the intake duct 11 is supplied to the room 12.

Claims (1)

Invention Formula Air conditioning unit containing compressor holo51520309 of the split machine, connected with a pump in the form of a thermoelectric battery, switching elements to the water and connected to its cold refrigerant and air cooler heat circuit. to exchangers with the formation of a circulating coolant, connected with the aviation circuit of the working fluid, with a coolant heat exchanger, moreover, a spirit-liquid heat exchanger, co-hot junction at the inlet of the battery connected by exhaust and inlet air to the water circuit for heat exchangers with the room, and the located room, and at the outlet, with the last heat exchanger, connected by the first control valve to the circulating water circuit, to the inlet of this heat exchanger and with the control valve, The second control valve is used to reduce the energy flow and, through the air-liquid heat exchanger to drive the chiller, to the output of the heat exchanger at lower temperatures of the outside air-15, the unit is equipped with heat