SU1330413A1 - Conditioner - Google Patents

Abstract

The invention allows to increase the reliability of the air conditioner. A regenerative heat exchanger (PTO) 10 with two intermediate cavities (P) is included in the refrigerant circuit (XA) 5. P 11 is connected to the outlet 12 of the evaporator 4 and to the compressor 1. The other P is two-stage. Its circuit 13 is located between the main P 8 of the condenser 2 and the throttling device 3. The second stage 14 is located between the additional P 9 of the condenser and the inlet 15 of the cooling system 7. The heated medium in the PTO 10 is the X.A vapor. At the outlet 12 of the evaporator, this eliminates the possibility of liquid phase XA entering the compressor. The cooled medium is XA, coming from P 8 and from P 9. Cooling XA in the first stage of the PTO 10 reduces energy consumption, and cooling the HA in the second stage of the PTO 10 improves the operating conditions of the drive 6. 1 Il. S (L oo so about N oo

Description

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

The aim of the invention is to increase the reliability of operation.

The drawing shows a schematic diagram of the air conditioner.

The air conditioner contains a vapor compression refrigerating machine, having a compressor 1, a condenser 2, a throttle device 3 and an evaporator 4, which after the evaporator refrigerant vapor through the cavity 11 of the regenerative heat exchanger 10 again go to the compressor 1, from which they are sent to the additional cavity 9 where the refrigerant vapor is cooled due to heat exchange with the cooling medium.

From the additional cavity 9, the refrigerant through the second stage 14 of the regenerative heat exchanger 10 enters again into

The circulators of compressor 1 are connected between each other, where they carry out the cooling circuit 5 of the refrigerant, and the compressor 6.

the pressor 1 is kinematically connected with the lead-in regenerative heat exchanger 10

House 6. equipped with a cooling system 7, heat is exchanged between the heated heath, and the condenser 2 is made in the form of iso- and cooled media, the first of which are basic between them 8 and additional. - are refrigerant vapor at outlet 12

9 cavities, the last of which -

communicated with the cooling system 7 of the drive 6.

A regenerative heat exchanger is included in the refrigerant circuit 5

10 with two flow cavities, with 20 cavities 9 (in the second stage 14). one cavity and is connected with the outlet 12 ispa-cooling of the refrigerant in the first stage

The compressor 4 and the compressor 1, and the other are two-stage, the first stage 13 of which is located between the main cavity 8 of the condenser 2 and the throttling device 3, and the second stage 14 between the additional cavity 9 of the condenser evaporator 4, which eliminates the possibility of the refrigerant liquid phase entering the compressor and the second is the refrigerant coming from the main cavity 8 of the condenser (in the first stage 13) and from the additional

sator 2 and inlet 15 of cooling system 7.

The air conditioner works as follows.

13 regenerative heat exchanger 10 provides a reduction in energy consumption, and in the second stage 14 - improving the working conditions of the drive 6.

Claims (1)

Claims An air conditioner comprising a steam compressor chiller having a compressor, a condenser, a throttle device and an evaporator that are connected in series with an OQ refrigerant circuit, and the compressor is kinematically connected to a drive equipped with a cooling system, and the condenser is designed as isolated between the main and additional flow cavities, the second of which communicates with the drive cooling system, characterized in that, in order to increase the reliability of oy, the air conditioner is equipped with a regenerative heat exchanger with two flow cavities, one of which is connected to the evaporator outlet and a compressor, and the other is two-stage, the first stage of which is located between the main cavity of the condenser and the throttling device, and the second between additional cavity of the condenser and the inlet of the cooling system. The condensed vapor in the compressor 1 to the condenser 2 is supplied to the main cavity 8 of the condenser 2, where it is cooled and condensed as a result of heat exchange with the cooling medium, after which the liquid refrigerant flows through the first stage 13 of the regenerative heat exchanger 10 into the throttling unit 3 In the throttling device 3, the following occurs: DIT the refrigerant pressure drops to the evaporation pressure, after which it is fed through the circulation circuit 5 to the evaporator 4, in which the refrigerant boils as a result of heat exchange with the intake air that is processed, which after treatment (cooling) in the evaporator 4, a distribution duct (not shown) is supplied to the consumer. Compiled by M. Raschepkin Tehred I. Veres Corrector L. Beskil Circulation 659 Subscription VNIIPI USSR State Committee on the case of inventions and discoveries 113035, Moscow, Raushsk nab., 4/5 Production and printing company, Uzhgorod, ul. Project, 4 After the evaporator, the refrigerant vapor through the cavity 11 of the regenerative heat exchanger 10 again enters the compressor 1, from which it is sent to the additional cavity 9, where the refrigerant vapor is cooled due to heat exchange with the cooling medium. heat exchange takes place between the heated and cooled media, the first of which is refrigerant vapor at outlet 12     - cavity 9 (in the second stage 14). Cooling refrigerant in the first stage from the evaporator 4, which excludes the possibility of the liquid phase of the refrigerant entering the compressor, and the second refrigerant coming from the main cavity 8 of the condenser (in the first stage 13) and from the additional 0 cavity 9 (in the second stage 14). Cooling refrigerant in the first stage five with 13 regenerative heat exchanger 10 provides a reduction in energy consumption, and in the second stage 14 - improving the working conditions of the drive 6. Claims An air conditioner comprising a steam compressor chiller having a compressor, a condenser, a throttle device and an evaporator, which in series Q are interconnected by a refrigerant circuit, the compressor is kinematically connected to a drive equipped with a cooling system, and the condenser is designed as isolated between the main and additional flow cavities, the second of which communicates with the drive cooling system, characterized in that, in order to increase the reliability of the oy, the air conditioner is equipped with a regenerative heat exchanger with two flow cavities, one of which is connected to the evaporator outlet and a compressor, and the other is two-stage, the first stage of which is located between the main cavity of the condenser and the throttling device, and the second between additional cavity of the condenser and the inlet of the cooling system. 0