SU1504467A1 - Air conditioner - Google Patents

Abstract

The invention relates to refrigeration. The purpose of the invention is to reduce energy costs. The installation contains a refrigerating machine consisting of a two-stage compressor located in the refrigerant circuit, a subcooler, a refrigerant heat exchanger and connected to the latter through a switching device of the heat exchanger unit. The unit is equipped with a heat exchanger and air mixing device. 1 hp f-ly, 1 ill.

Description

The invention relates to refrigeration and can be used in particular as an installation for year-round air conditioning in passenger cut-off cars.

The purpose of the invention is to reduce energy costs.

The drawing shows a schematic diagram of the installation of air conditioning.

The air-conditioning unit contains a refrigerating machine consisting of two refrigerant circuits 2 and 2 of the compressor circulating in the circuit 1, refrigerant 4, pre-cooler 4, refrigerant heat exchanger 5 and connected to the latter via the switching unit of the unit 6 by heat exchange 15 through the grid 24 with adjustable cross-section.

Outside air is supplied in sections 11 and 12 of the air-cooled heat exchanger by fan 25, and coolant in section 13 and 14 of the cooling coil by pump 26, while sections 13 and 14 can be

NIKOV, at the same time the switching device- (O are connected on the heat carrier as on

The structure is made in the form of throttling and locking elements 7.8 and 9.10, the block 6 of heat exchangers - in the form of air-freezing sections 11 and 12 of the water-cooled sections 13 and 14.

The first stage 2 of the compressor of the refrigerating machine is connected through sub-cooler 4 to the second stage 3 of the compressor, which, in turn, is connected through the block 6 of heat exchangers to the heat exchanger 5 of the refrigerant of the refrigerating machine.

An air-cooled heat exchanger, which can be made in two sections 11 and 12, is connected by air duct 15 to room 16, and a water-cooled heat exchanger, which can be made in two sections 13 II 14, to a heat carrier consumer, for example, direct and return pipelines 17 and 18 to heat exchangers 19 located in room 16,

Heat utilizer 20 is connected by one input to section 12 of the air-cooled heat exchanger and output through throttling and shut-off elements 7.8 and 9.10 to heat exchanger 5 refrigerant of the refrigerating machine, and the other input to heat exchanger 5 freon and the other output to the first stage 2 of the compressor.

The first section 13 of the water-cooled heat exchanger is installed in the circulation circuit 1 of the refrigerant between the first and second stages 2 and 3 of the compressor, and the second section 14 between the second stage 3 of the compressor and the second section 12 of the air-cooled heat exchanger. The air mixing device 21 is connected to the room 16 and the atmosphere and is located together with the heat exchanger 5 freon

In the heat exchanger 5 of the refrigerant, which is blown by the cooling machine coming from the air mixing device 21 and the subcooler 4 with the possibility of blowing them. On the direct stream, the flow formed by the feed pipe 17 may be additional from room 16 and from the atmosphere a preheater 22 with a bypass pipe 23 is installed. The heat exchangers 19 may be communicated with

air flow (with the ability to control their ratio), there is a transition of freon to vapor

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consequently, in parallel.

Installation of air conditioning works as follows.

In the cold period of the year, refrigerant vapors from the first stage 2 of the compressor are injected into the first section 13 of the coolant heat exchanger, where they are cooled, giving off heat to the coolant, and then they are fed to the second stage 3 of the compressor, from which they are injected into the second section 14 of the coolant heat exchanger, where they are cooled again by the coolant.

From the second section 11 and 14 of the water-cooled heat exchanger, the vaporized freon vapor enters the second section 12 of the air-cooling heat exchanger, where they give off heat to the outside supply air and simultaneously condense.

After the second section 12 of the air-cooler heat exchanger, the liquid refrigerant enters the heat exchanger 20, in which it cools and at the same time heats up refrigerant vapors sucked in circulation circuit 1 with the first stage 2 of the compressor.

In the first section 11 of the air-cooled heat exchanger, the liquid refrigerant is cooled even more, giving off heat to the heated air.

The subcooled refrigerant after the first section 11 of the air-cooled heat exchanger is throttled in the throttling element 7, with the locking element 9 open and the locking element 10 closed, and entering the heat exchanger 5 of the refrigerant that operates in this period as an evaporator.

In the heat exchanger 5 of the refrigerant, which is blown out of the incoming air from the air mixing device 21, formed by the air supplied from the room 16 and from the atmosphere

the flow from the room 16 and from the atmosphere

air flow (with the ability to control their ratio), there is a transition of freon to vapor

condition. The refrigerant from the heat exchanger 5 of the refrigerant in the vapor state is sucked through the circulation circuit 1 to the first stage 2 of the compressor and then again is injected into the first section 13 of the water-cooled heat exchanger. Then the cycle repeats.

The outside air is taken from the atmosphere by the fan 25, is heated in the first and second sections 11 and 12 of the air-cooled heat exchanger and is fed through the duct 15 to the room 16 (into the carriage compartment).

The heat carrier heated in the first and second sections 13 and 14 of the coolant heat exchanger flows through the direct pipeline 17 to the heat exchangers 10.

The grill 24 serves to individually control the temperature in the room 16 by heating the air to the heat exchangers 19. From the heat exchangers 19, the cooled coolant is fed through the return pipe 18 by the pump 26 again to the first and second sections 13 n t of the water-cooling heat exchanger.

The heater 22 is used as an additional and backup source of heat supply in the event of a failure or inadequate testing of the entire equip- ment of the chiller at L kx outside air temperatures.

In the warm period of the year, refrigerant vapor after the first stage 2 of the compressor enters the subcooler 4, from which it is sucked into the second stage 3 of the compressor, after which it is fed to the heat exchanger 5 of freon,

working in this period as a capacitor.

From the heat exchanger 5 refrigerant, the coolant is throttled in the throttling element 8 with the open element 10 and the closed locking element 9 and enters the heat exchanger block 6, where, the passage section 11,

0 12 and 14,13 air-cooling and coolant heat exchangers, cools the outside air and coolant. The heat utilizer 20 in the cnc period is in a disconnected state.

5 Cooled in the first and second sections 13 and 14 of the coolant heat exchanger, the coolant through the direct pipeline 17 is supplied using a bypass pipeline 23

0 heat exchangers 19, after which the coolant is pumped through the return pipe 18 by pump 26 again to the first and second sections 13 and 14 of the water-cooled heat exchanger for cooling.

Outer air is supplied by fan 25 to the first and second sections 11 and 12 of the air-cooled heat exchanger, where it is cooled and air 15 is then supplied to room 16. From room 16, air enters air mixing device 21 for displacement with outside air and subsequent Blowing heat exchanger 5 hlyon and dry cooler 4.

The use of the invention reduces the energy costs of creating a microclimate in a conditioned room and provides

0 the ability to maintain comfortable microclimate conditions indoors throughout the year.

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Claims (1)

1. INSTALLATION OF AIR CONDITIONING, comprising a refrigeration machine, consisting of a two-stage compressor located in the refrigerant circuit, a subcooler, a refrigerant heat exchanger and connected to the latter through a heat exchanger unit, the switching device is made in the form of throttling and shut-off elements, the heat exchanger unit is in the form of air-refrigerant and water-refrigerant heat exchangers, the first stage of the compressor of the refrigeration machine is connected through a subcooler to the second stage of the compressor, which, in turn, is connected through a block of heat exchangers