TH2648B - Methods and devices for regulating the flow of refrigerants in refrigeration systems - Google Patents

Abstract

The water cooling system is the described cooler with an expansion valve. Which is controlled by the use of digital to force the stepper motor to work The system includes a first temperature relay for generating an analog signal at the same temperature as the saturated refrigerant temperature in the evaporator. And a temperature relay device of the refrigerant that enters the compression part of the main compressor from which it has passed in the exchange Changed the heat relative to the compressor motor. The microcomputer receives the generated temperature signal. And provide digital signal output to the stepper motor fast And correct to adjust the refrigerant to flow from the condenser to the evaporator according to the constant vapor state of the refrigerant entering the compressor.

Claims (9)

1. The cooling system consists of (a) an evaporator for evaporating the liquid refrigerant. For cooling (b) condensers for condensing refrigerant vapors (c) compressors for compressing refrigerant in vapor form in the evaporator and for compressing the refrigerant vapor into the condenser Such air compressor Including the housing The compression is placed inside the housing for the refrigerant vapor, while the motor is placed inside the housing to drive the compression. The passage of the refrigerant is within the said housing. To allow the refrigerant vapor to pass through the housing in the relative heat exchange with the said motor part. (D) adjustable expansion valve for controlling the flow of refrigerant from the condenser to the evaporator and (e) control for adjusting the expansion valve in response to constant vapor of The refrigerant after it has passed from such motor section in relative heat exchange with the motor part. But before it goes through the compression 2. The cooling system as set out in claim 1, where the controller includes the temperature sensor in the said housing. That are installed in the passage of such refrigerants For sensing the temperature of the refrigerant that enters the compressor After it has passed through such a motor part with heat exchange. 3. Refrigeration system as defined in claim 1, where the control consists of an expansion valve adjusting part in response to the function of the refrigerant's constant vapor entering the compressor. After it has passed through such a motor part with heat exchange. 4. The cooling system consists of (a) an evaporator for evaporating the liquid refrigerant. For cooling (b) condensers for condensing refrigerant vapors (c) compressors for compressing refrigerant in vapor form in the evaporator and for compressing the refrigerant vapor into the condenser Such air compressor Including the housing The compression is placed inside the housing for the refrigerant vapor, while the motor is placed inside the housing to drive the compression. The passage of the refrigerant is within the said housing. To allow refrigerant vapors through such housings in relative heat exchange with such motor sections D) Adjustable expansion valve for controlling the flow of refrigerant from the condenser to the evaporator and (e) control for adjusting the expansion valve in response to constant vapors. It is cooled after passing through the motor section with heat exchange but before passing through the compressor. The control consists of (1) the first temperature sensing device. Placed at a position in the system for first temperature relay At the same temperature as the refrigerant saturation temperature in the evaporator (2) the second temperature senser Placed in such a housing, the second temperature sensing position is the same as the temperature of the refrigerant passing through the housing. In between the said motor And the aforementioned compression and (3) signal processing to provide constant vapor control signal to the said expansion valve Which is a function of the difference between the aforementioned secondary temperatures And the first such and (f) the motor throttle is attached to the such refrigerant's adjustable expansion valve for adjusting the expansion valve in response to the constant vapor control signal generated by the signal processor. 5. The cooling system, as set out in claim 4, where (a) the first temperature sensing device And the second one consists of The temperature-sensitive part for arranging the first and second analogue electrical temperature signals (b). The signal processor contains a programmable microcomputer. And is connected to arrange a constant digital vapor control signal to the said motor throttle in response to the analogue signal of the first temperature. And the second temperature and (c) such motor throttle consist of Digitally controlled stepper motor Which is stimulated in response to a constant vapor control digital signal It was created by the aforementioned microcomputer to optimize the refrigerant expansion valve in response to a constant vapor control digital signal. 6. Methods of regulating the flow of refrigerants in refrigeration systems with condensers. Expansion valve, refrigerant adjustment, evaporator And compression bearings where the compressors include the compressor housing, encapsulation motors, compressors And the compressor is driven by the compressor motor This consists of the process of (a) passing the refrigerant from the evaporator in a relative heat exchange with the compressor motor (b) sensing the temperature of the refrigerant passing through the compressor housing from the compressor motor into the section. Compression (c) generation of control signals Which is a function of perceived refrigerant temperature and (d) regulating the refrigerant passage from the condenser to the evaporator of such refrigeration system. By adjusting the refrigerant expansion valve in response to the control signal 7.The methods of regulating the flow of refrigerants in refrigeration systems are set out in claim 6, where the phase of control signal generation consists of regeneration of control signals, a function of The constant vapor of the refrigerant that passes from the compressor motor to the compressor. 8.The methods of regulating the flow of refrigerants in the refrigeration system are set out in Clause 6 where (a) the procedure for generating a valve control signal consists of Generates a digital control signal and (b) a procedure of controlling the refrigerant's passage from the condenser to the evaporator consists of an adjustment of the refrigerant expansion valve in response to a digital control valve. 9. Methods of regulating the flow of refrigerants in refrigeration systems with condensers. Expansion valve, refrigerant adjustment, evaporator And compressors Where the compressor includes the compressor housing, encapsulation motor, compressor And the compression part is driven by the compressor motor It consists of the process of (a) passing the refrigerant from the evaporator in the heat conversion relative to the compressor motor (b) perceiving the first temperature in the system corresponding to the saturation temperature of the refrigerant in Evaporator And generation of the first temperature signal Which is a function of such first temperature (c) sensing the second temperature inside the compressor housing. Which is the same temperature as the temperature of the refrigerant that passes from the compressor motor to the compressor And generate temperature signals at Two which are functions Of the aforementioned second temperature (d) regeneration of the valve control signal Which is a function of the difference in the second temperature signal And (e) control of the refrigerant passage from the condenser to the evaporator of the refrigerant system. By adjusting the expansion valve in response to the control signal of the tongue 1 0. Methods of regulating the flow of refrigerants in refrigeration systems as defined in Clause 9, where (a) the procedure for generating a constant vapor control signal consisting of generating a digital control signal. Static vapor and (b) the procedure for controlling the refrigerant passage from the condenser to the evaporator consists of Refrigerant expansion valve in response to a digital signal regulates constant vapor.