TH3198B - Methods and devices for controlling refrigerants with extended valves in refrigeration systems. - Google Patents

Abstract

This exposed refrigeration system may contain multiple compression cylinders and multiple condensing units. where the electronic expansion valve of the refrigerant is forced by a numerical output from a microcomputer which adjusts the expansion valve in Responding to the valve change signal, which is a variable of the fraction of the refrigerant vapor margin measured from static vapor, needs to be added as a factor of the constant vapor change rate of the refrigerant at computable

Claims (4)

1. Refrigeration system consisting of A) Condensers for condensing the refrigerant vapor B) Evaporators for evaporating the refrigerant in a liquid state to generate cooling C) Vapor compression compressors Of the refrigerant formed inside the evaporator and for the transmission of the compressed refrigerant vapor to the condenser. D) Adjustable refrigerant expansion valve. For controlling the refrigerant transfer from the condenser to the evaporator E) Constant vapor temperature signaling for the constant vapor temperature signaling, which is a vapor function. F) A constant vapor rate signal generator for generating a constant vapor rate signal, which is a function of the rate of change of the refrigerant's constant vapor transmitted from it. Evaporator to the compressor G) Flap control signal generator to generate valve control signal. It consists of a function of fractions of difference between constant vapor temperature signals. And a predetermined constant vapor temperature signal Added to the function of the product of Constant vapor rate signal (H), the valve control unit, which consists of an electric motor connected to the refrigerant extended valve for adjusting the refrigerant expansion valve, is a response to the valve control signal. And I) a signal component for capturing a constant vapor temperature signal to the valve control signal generator during limited high and low temperatures. Predetermined As a result, the sensitivity of the refrigerant's extended valve valves has a high deviation in the constant vapor temperature signal from a pre-set constant temperature. 2. Refrigeration system consisting of A) Condensers for condensing the refrigerant vapor B) Evaporators for evaporating the refrigerant in a liquid state for cooling C) Compressors Of the refrigerant formed inside the evaporator and for the transmission of the compressed refrigerant vapor to the condenser. D) Adjustable refrigerant expansion valve. For controlling the refrigerant flow from the condenser to the evaporator E) Constant vapor temperature signaling for the constant vapor temperature signaling, which is a function of the vapor. F) A constant vapor rate signal generator for generating a constant vapor rate signal, which is a function of the rate of change of the refrigerant's constant vapor transmitted from it. Evaporator to the compressor G) Flap control signal generator to generate valve control signal. It consists of a function of fractions of difference between constant vapor temperature signals. And a predetermined constant vapor temperature signal Added to the function of the product of the constant vapor rate signal (H) valve control, which consists of an electric motor connected to the extended valve of the refrigerant for adjusting the extended valve of the refrigerant. Cold is the feedback of the valve control signal delivered by the aforementioned microcomputer and I) the signal component for capturing a constant vapor temperature signal to the valve control signal source during limited high and low temperatures. Predetermined As a result, the sensitivity of the extended valve valve of the refrigerant has been reduced to change more In constant vapor rate signals 3. Refrigerant flow control methods in refrigeration systems with condensers. Adjustable refrigerant expansion valves, evaporators and compressors It consists of a process of A) transmission of the refrigerant from the evaporator to the compressor B) constant vapor temperature signal generation. Which is a function of the refrigerant's constant vapor passed from the evaporator to the compressor. C) generating a constant vapor rate signal which is a function of the rate of change of the refrigerant's constant vapor transmitted from the evaporator. D) Generating valve control signal, which consists of function of fractions of difference between constant vapor temperature signals. And constant vapor temperature signal And a predetermined constant vapor temperature signal added to the function of the product of the constant vapor rate signal E) Control of the refrigerant path from the condenser to the evaporator by adjusting the refrigerant expansion valve. Respond to the said valve control signal and F) Generating a constant vapor temperature signal, limiting it by giving a pre-set constant vapor temperature signal between the high and low limit temperature. And where the process of generating the electronic valve control signal consists of the generation of the valve control signal It consists of a function of a finite constant vapor temperature signal and a pre-set constant vapor temperature signal. 4. Refrigerant flow control methods in refrigeration systems with condensers. Adjustable refrigerant expansion valves, evaporators and compressors It consists of a process of A) transmission of the refrigerant from the evaporator to the compressor B) constant vapor temperature signal generation. Which is a function of the refrigerant's constant vapor passed from the evaporator to the compressor. C) generating a constant vapor rate signal which is a function of the rate of change of the refrigerant's constant vapor transmitted from the evaporator. D) Generating valve control signal, which consists of function of fractions of difference between constant vapor temperature signals. And constant vapor temperature signal And a predetermined constant vapor temperature signal added to the function of the product of the constant vapor rate signal. E) refrigerant path control. From the condenser to the evaporator by adjusting the refrigerant expansion valve to respond to the said valve control signal and F) limiting constant vapor temperature rate signal generation. By capturing a constant vapor rate signal during a predetermined rate limit And where the process of generating the electronic valve control signal consists of the generation of the valve control signal Which consists of the function of a finite constant vapor temperature signal