RU2104448C1 - Refrigerating plant and centrifugal compressor unit of refrigerating plant - Google Patents

Abstract

FIELD: refrigerating engineering. SUBSTANCE: refrigerating plant uses a condenser, evaporator, two-stage centrifugal compressor unit with an electric motor having a cooling system. The condenser inlet is connected to the compressor outlet, and through its outlet over a single line through an additional throttling element, vessel-separator and the first throttling element it communicates with the evaporator inlet, and over an additional line through the second throttling element - with the cooling system. The evaporator outlet communicates with the compressor inlet. The specific feature of the plant is the fact that it is furnished with an additional throttling element, vessel-separator, recuperative heat exchanger, and the cooling system is isolated from the electric motor frame interior by a cooling jacket, whose space is positioned between the stator and rotor and communicates through an additional coolant supply duct with the outlet of the second throttling element, and through an additional coolant discharge duct - with the vessel-separator installed in succession with the additional throttling element of the line running from the condenser to the evaporator. As to the gas phase, the vessel-separator is connected through the gas coolant supply duct to the electric motor frame space; the gas coolant discharge duct is connected to the inlet of the compressor second stage. EFFECT: improved design. 7 cl, 2 dwg

Description

 The invention relates to a power system and can be used in refrigeration.

 Known refrigeration unit containing a condenser, evaporator, two-stage centrifugal compressor unit, made with a built-in electric motor between the stages of the centrifugal compressor, having a cooling system with channels for supplying and discharging gas refrigerant, communicated with the internal cavity of the electric motor housing, while the condenser is connected to the output of the two-stage centrifugal compressor, and the output along one line is communicated through the first throttling element with the input of the evaporator and additional line via a second throttle element with the electric motor cooling system evaporator outlet communicates with a line input of a two-stage centrifugal compressor, and the refrigerant gas outlet channel is connected to the output of the second stage centrifugal compressor duhstupenchatogo [1].

 The disadvantages of the known refrigeration unit are low efficiency and low operational reliability due to the possibility of wet steam entering the first stage suction of a two-stage centrifugal compressor and the presence of oil in the system, low regulation range, and the inability to use environmentally friendly refrigerants.

 Known centrifugal compressor unit of a refrigeration unit, containing two centrifugal compressor stages with impellers, diffuser channels, prefabricated chambers and inlets and outlets of the second stage, an electric motor built between the stages of the centrifugal compressor, the rotor of which is located with the impellers of centrifugal stages on one shaft mounted on one shaft bearings, and the stator of the electric motor is fixed in its case with the formation of a cooling jacket between them, and in the case the electric motor A channel is formed for supplying a gas refrigerant and a gas refrigerant outlet channel, communicating with the input conduit of the second centrifugal compressor stage [1].

 The disadvantages of the known centrifugal compressor unit of a refrigeration unit are low reliability due to the unsatisfactory design of the motor cooling system, the lack of full compensation of axial forces on the unit shaft, and the large dimensions of the electric motor.

 The invention in terms of the refrigeration unit is aimed at increasing efficiency, operational reliability while ensuring environmental safety due to the possibility of using environmentally friendly refrigerants, as well as expanding the range of regulation.

 In terms of the centrifugal compressor unit of the refrigeration unit, the invention is aimed at increasing reliability and reducing dimensions.

 In the claimed refrigeration unit comprising a condenser, an evaporator, a two-stage centrifugal compressor unit, made with an electric motor built-in between the stages of the centrifugal compressor, having a cooling system with gas refrigerant supply and exhaust channels communicated with the internal cavity of the electric motor, the condenser being connected to the output of the two-stage by its input centrifugal compressor, and the output along one line is communicated through the first throttling element with the input of the evaporator and an additional line through a second throttling element with an electric motor cooling system, the evaporator output is communicated by a line with the input of a two-stage centrifugal compressor, and the gas refrigerant exhaust channel is connected with the output of the second stage of a two-stage centrifugal compressor, it is proposed to provide it with an additional throttling element, a separator vessel, regenerative heat perform the cooling system of the electric motor with the cooling isolated from the internal cavity of the motor housing a drain, the cavity of which is located between the stator and the motor housing and is connected with additional channels for supplying and discharging refrigerant, with an additional throttling element made in the form of a thermostatic valve, which is regulated by the pressure and temperature of the refrigerant at its inlet, and the separator vessel is sequentially installed in line , communicating the output of the condenser with the evaporator, in front of the first throttling element, in the gas phase, the separator vessel is connected to the gas refrigerant supply channel, and the recuperator The indirect heat exchanger is connected through the cooling medium to the line communicating the evaporator output with the compressor inlet, and through the cooled medium to the line connecting the condenser output to the evaporator inlet, behind the separator vessel, the additional line coming from the condenser is connected to the additional cooling refrigerant supply channel jacket, an additional channel for the removal of refrigerant is connected to the separator vessel, and the second throttling element located in the additional line is made in the form of a thermostatic valve, emogo pressure and temperature of the coolant channel in the additional refrigerant outlet.

 In addition, the first throttling element installed in the line going from the condenser to the evaporator is made in the form of a thermostatic valve, controlled by pressure and temperature of the refrigerant at the outlet of the evaporator.

 The refrigeration unit is equipped with a control unit for the speed of the electric motor according to the temperature of the air leaving the evaporator.

 In the inventive centrifugal compressor unit of a refrigeration unit, comprising two centrifugal stages with impellers, diffuser channels, prefabricated chambers and an inlet and outlet nozzle, wherein the outlet duct of the first stage is communicated by a pressure channel with an inlet of a second stage, an electric motor, a rotor built between the degrees of the centrifugal compressor which is located with the impellers of centrifugal compressor stages on one shaft mounted on bearings, and the stator of the electric motor is fixed in its the housing with the formation of a cooling jacket between them, and in the electric motor housing there is a gas refrigerant supply channel and a gas refrigerant exhaust channel in communication with the inlet of the second stage centrifugal compressor inlet, it is proposed that the stator cooling jacket be formed by longitudinal grooves made on the stator surface facing the housing, sections of which are communicated with annular grooves made on the inner surface of the motor housing, each of which is annular grooves co respectively, with additional channels for supplying or discharging gas refrigerant, and channels for supplying and discharging gas refrigerant are connected to the internal cavity of the motor housing from different sides of its stator.

 In addition, longitudinal grooves are made on the surface of the stator facing the rotor.

 At a centrifugal compressor unit, the shaft can be mounted both on radial gas-dynamic bearings and on rolling bearings.

 The centrifugal compressor unit can be equipped with a double-sided axial bearing mounted on a shaft in the internal cavity of the motor housing between the stator and one of the channels for supplying or removing gas refrigerant.

 Figure 1 presents a diagram of a refrigeration unit; figure 2 is a longitudinal section of a centrifugal compressor unit of a refrigeration unit.

 The refrigeration unit (Fig. 1) contains a condenser 1, an evaporator 2, a two-stage centrifugal compressor unit, made with an electric motor 6 built between the steps 3 and 4 of the centrifugal compressor 5, having a cooling system with channels for supplying and discharging gas refrigerant communicated with the internal cavity 9 of the housing 10 of the electric motor 6, while the capacitor 1 is connected with its input 11 to the output 12 of the two-stage centrifugal compressor 5, and the output 13 is connected via a single line 14 through the first throttling element 15 with input the casing 16 of the evaporator 2 and through an additional line 17 through the second throttling element 18 with the cooling system of the electric motor 6, the output 19 of the evaporator 2 is connected by a line 20 to the input 21 of a two-stage centrifugal compressor 5, and the channel 8 of the gas refrigerant exhaust is connected to the input 22 of the second stage 4 of a two-stage centrifugal compressor 5, and the installation is equipped with an additional throttling element 23, a separator vessel 24, a regenerative heat exchanger 25, and the cooling system of the electric motor 6 is made with isolated from the inside the lower cavity 9 of the housing 10 of the electric motor 6 with a cooling jacket 26, the cavity 27 of which is located between the stator 28 and the housing 10 and is in communication with additional channels 29 and 30 for supplying and discharging refrigerant, while the additional throttling element 23, made in the form of a temperature-controlled valve, regulated by pressure and the temperature of the refrigerant at its inlet, and the separator vessel 24 is installed in line 14, which communicates the output 13 of the condenser 1 with the evaporator 2, before the first throttling element 15, in the gas phase, the separator vessel 14 is connected to gas supply line 7, and the recuperative heat exchanger 25 is connected through a cooling medium to line 20, which communicates the output 19 of the evaporator with input 21 of a two-stage compressor 5, and via a cooled medium to line 14, which communicates the output 13 of condenser 1 with output 16 of the evaporator 2, behind the vessel a separator 24, the additional line 17 coming from the condenser 1 is connected to the additional channel 29 for supplying refrigerant to the cooling jacket 26, the additional channel 30 for removing refrigerant is connected to the separator vessel 24, and the second throttling element 18, located in the additional line 17, made in the form of a thermostatic valve, controlled by pressure and temperature of the refrigerant in the additional channel 30 of the refrigerant discharge.

 The first throttling element 15, installed in a line running from the condenser 1 to the evaporator 2, is made in the form of a thermostatic valve, which is regulated by pressure to the temperature of the refrigerant at the outlet 19 of the evaporator 2.

 The refrigeration unit is equipped with a control unit 31 for controlling the rotational speed of the electric motor 6 according to the temperature of the air leaving the evaporator 2 from the temperature sensor 32.

 The centrifugal compressor unit of the refrigeration unit contains (Fig. 2) two centrifugal compressor stages 3 and 4 with impellers 33 and 34, diffuser channels 35 and 36, prefabricated chambers 37 and 38, and inlet and outlet nozzles 39 and 40, while the outlet nozzle 40 the first stage 3 is communicated by the pressure channel 41 with the inlet pipe 39 of the second stage 4, built-in between the stages 3 and 4 of the centrifugal compressor 5 of the electric motor 6, the rotor 42 of which is located with the impellers 33 and 34 of the centrifugal compressor stages 3 and 4 on one shaft 43 mounted onbearings 44, and the stator 28 of the electric motor 6 is fixed in its housing 10 with the formation of a cooling jacket 26 between them, and in the housing 10 of the electric motor 6 there is a channel 7 for supplying gas refrigerant and a channel 8 for removing gas refrigerant in communication with the pipe 39 of the inlet of the second stage 4 of the centrifugal compressor 5, wherein the cooling jacket 26 of the stator 28 is formed by longitudinal grooves 46 made on the surface 45 facing the housing 10, the end sections of which are communicated with the annular grooves 47 and 48, made on the inner surface and 49 of the housing 10 of the electric motor 6, each of the annular grooves 47 and 48 respectively connected with additional channels 29, 30 for supplying and discharging gas refrigerant are connected to the internal cavity 9 of the housing 10 of the electric motor 6 from different sides of its stator 28.

 On the surface 50 of the stator 28, facing the rotor 42, longitudinal grooves 51 are made. The shaft 43 is mounted on radial gas-dynamic bearings or rolling bearings.

 The centrifugal compressor unit is equipped with a double-sided axial bearing 52 on a gimbal suspension 53 mounted on a shaft in the inner cavity 9 of the housing 10 of the electric motor 6 between the stator 28 and one of the channels 7 or 8 for supplying or discharging gas refrigerant.

 The refrigeration unit and the centrifugal compressor unit operate as follows. An electric voltage is supplied to the electric motor 6. The electric motor 6 drives the centrifugal compressor 5. The refrigerant vapor is sucked out from the evaporator 2 and, having passed through the regenerative heat exchanger 25, are heated. In the first stage 3 of the centrifugal compressor 5, the refrigerant vapor is compressed and sent to the inlet 22 of the second stage 4, where it is mixed with the refrigerant vapor entering the gas refrigerant exhaust channel 8 from the internal cavity 9 of the motor housing 6.

 In the internal cavity 9, the refrigerant vapor comes from the separator vessel 24 through the gas refrigerant inlet channel 7. The refrigerant vapor passing through the gap between the stator 28 and the rotor 42 and along the grooves 51 made on the surface 50 of the stator 28, cool the rotor 42 and the stator 28 of the electric motor 6 to the gas refrigerant exhaust channel 8. After mixing, the refrigerant vapor is compressed in the second stage 4 of the centrifugal compressor 5 and from its output 12 are directed to the input 11 of the condenser 1. In the condenser, the refrigerant vapor condenses due to the removal of heat by cooling air.

 Most of the liquid refrigerant from the condenser 1 through line 14 is sent to the separator vessel 24 through the first throttling element 23, made in the form of a thermostatic valve, operating on the principle of supercooling of the liquid refrigerant, while the liquid refrigerant is throttled to an intermediate pressure in the separator vessel 24, in which is the hydrodynamic separation of the vapor-liquid mixture of refrigerant into steam and liquid.

 A small part of the liquid refrigerant from the condenser 1 through an additional line 17 through the second throttling element 18 is directed to the additional channel 29 for supplying refrigerant and then to the cavity 27 of the cooling jacket 26 of the electric motor 6, where part of the liquid refrigerant is evaporated due to heat removal from the stator 28. From the cavity cooling jacket 26 pairs of refrigerant is discharged through an additional channel 30 of the refrigerant discharge and sent to the separator vessel 24.

 The liquid refrigerant from the separator vessel 24, passing through the recuperative heat exchanger 25, is supercooled by refrigerant vapor leaving the evaporator 2 through line 20 and then going to the inlet 21 of the first stage 3 of the centrifugal compressor 5. After the regenerative heat exchanger 25, the liquid refrigerant is throttled on the first throttling element 15 and enters the input 16 of the evaporator 2. Thus, the refrigerant is circulated in the refrigeration unit.

 The cooling capacity of the refrigeration unit is continuously controlled by changing the number of revolutions of the rotor 42 using the control unit 31 for controlling the rotor speed of the electric motor by a signal from the temperature sensor 32.

 Using the control unit 31 for controlling the rotational speed of the rotor 42 of the electric motor 6, the rotor 42 is gradually accelerated to revolutions at which the shaft 43 with the rotor 42 and the impellers 33 is detached from the surface of the radial gas-dynamic bearings 44.

 In the proposed centrifugal compressor unit, the effective cooling of the stator 28 of the electric motor 5 from the side of the cooling jacket 26 is due to the formation of its inner cavity 27 by longitudinal grooves 46 made on the surface 45 of the stator 28, which provides a large cooling surface of the stator, and ring grooves 47 and 48 made on the inner the surface 49 of the housing 10 of the electric motor 5, along one of which the flow of refrigerant coming through an additional channel 29 for supplying refrigerant is distributed along the longitudinal grooves 46, and along the other annular groove, the refrigerant is collected and supplied to the additional refrigerant removal channel 30.

 The arrangement of the double-sided axial bearing 52 with the gimbal 53 on the shaft 43 in the housing 10 of the electric motor 5 between the stator 25 and one of the channels for supplying and discharging the gas refrigerant 7, 8 ensures its cooling by the refrigerant passing through it.

 The proposed refrigeration unit due to the features of its solution scheme, as well as due to the structural design of the centrifugal compressor unit, which is part of the refrigeration unit, has the ability to operate on ozone-safe refrigerants with a high molecular weight, for example, refrigerants RC318, R218 and their mixtures.

Claims (7)

 1. A refrigeration unit containing a condenser, an evaporator, a two-stage centrifugal compressor unit, made with an electric motor built-in between the stages of the centrifugal compressor, having a cooling system with gas refrigerant supply and exhaust channels communicated with the internal cavity of the electric motor body, and the condenser is connected to the output by its input a two-stage centrifugal compressor, and the output along one line is communicated through the first throttling element with the input of the evaporator and additionally the line through a second throttling element with an electric motor cooling system, the evaporator output is communicated by a line with the input of a two-stage centrifugal compressor, and the gas refrigerant exhaust channel is connected to the input of the second stage of a two-stage centrifugal compressor, characterized in that the installation is equipped with an additional throttling element, a regenerative separator vessel heat exchanger, and the cooling system of the electric motor is made with an electric motor insulated from the internal cavity I have a cooling jacket, the cavity of which is located between the stator and the housing and is in communication with additional channels for supplying and discharging refrigerant, with an additional throttling element made in the form of a thermostatic valve, which is regulated by the pressure and temperature of the refrigerant at its inlet, and the separator vessel is sequentially installed in a line connecting the condenser output with the evaporator, in front of the first throttling element, in the gas phase, the separator vessel is connected to the gas refrigerant supply channel, and the recuperative The heat exchanger is connected through a cooling medium to a line reporting the evaporator output to the compressor inlet and to a cooled medium to a line connecting the condenser output to the evaporator inlet, behind the separator vessel, the additional line coming from the condenser connected to the separator vessel, and the second the throttling element located in the additional line is made in the form of a thermostatic valve, controlled by pressure and temperature of the refrigerant in the additional channel of the refrigerant drain.  2. Installation according to claim 1, characterized in that the first throttling element installed in the line going from the condenser to the evaporator is made in the form of a thermostatic valve, which is regulated by the pressure and temperature of the refrigerant at the outlet of the evaporator.  3. Installation according to claim 1, characterized in that it is equipped with a control unit for the rotational speed of the rotor of the electric motor according to the temperature of the air leaving the evaporator.  4. The centrifugal compressor unit of the refrigeration unit, comprising two centrifugal compressor stages with impellers, diffuser channels, prefabricated chambers and inlet and outlet nozzles, while the outlet stage of the first stage is connected by a pressure channel with the inlet of the second stage, an electric motor built between the stages of the centrifugal compressor, the rotor of which is located with the impellers of the compressor stages on one shaft mounted on bearings, and the stator of the electric motor is fixed in its housing with the formation of a cooling jacket between them, and in the electric motor casing, a gas refrigerant supply channel and a gas refrigerant removal channel communicating with the inlet of the second stage centrifugal compressor inlet, characterized in that the stator cooling jacket is formed by longitudinal grooves made on the stator surface facing the housing, end sections of which are communicated with annular grooves made on the inner surface of the motor housing, each of which annular grooves co respectively, with additional channels for supplying or discharging refrigerant, and channels for supplying and discharging gas refrigerant are connected to the internal cavity of the motor housing from different sides of its stator.  5. The assembly according to claim 4, characterized in that longitudinal grooves are made on the surface of the stator facing the rotor.  6. The unit according to claim 4, characterized in that the unit shaft is mounted on radial gas-dynamic bearings or rolling bearings.  7. The unit according to claim 4, characterized in that it is provided with a double-sided axial bearing on a gimbal mounted on a shaft in the inner cavity of the motor housing between the stator and one of the gas refrigerant supply or exhaust channels.

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