Apparatus and method for monitoring refrigeration system
First Claim
1. An apparatus for monitoring a refrigeration system, the system having a compressor with an outlet connected to an inlet of an expansion valve through a condenser by a liquid line, and an evaporator having an inlet connected to an outlet of the expansion valve and an outlet connected to an inlet of the compressor by a suction line, comprising:
- a sub-cooler having a liquid process circuit with an inlet for connection to an outlet of a condenser in a refrigeration system and an outlet for connection to an inlet of an expansion valve in the refrigeration system for passing liquid refrigerant from the condenser to the expansion valve, said sub-cooler having a refrigerating circuit with an inlet connected to said liquid process circuit outlet and an outlet for connection to a suction line connected to an inlet of a compressor in the refrigeration system;
a pair of temperature sensor means, one of said sensor means mounted at said liquid process circuit inlet for generating a first temperature signal representing the temperature of refrigerant entering said sub-cooler, and the other of said sensor means mounted at said liquid process circuit outlet for generating a second temperature signal representing the temperature of the refrigerant leaving said sub-cooler; and
control means having inputs connected to said temperature sensor means and responsive to a predetermined relationship between said first and second temperature signals for generating an output signal indicating a loss of refrigerant in the refrigeration system including the condenser, the compressor and the expansion valve.
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Accused Products
Abstract
A flash gas filter system detects a low level of refrigerant flowing in a conduit of a refrigeration system by measuring a temperature drop across a sub-cooler connected to the conduit. The sub-cooler has a liquid process circuit for passing the refrigerant and a refrigerating circuit connected by a manual expansion valve to an outlet of the liquid process circuit for producing a predetermined temperature drop across the sub-cooler when the refrigeration system is fully charged. The temperature drop in the refrigerant is reduced by the presence of bubbles caused by a low refrigerant level. The reduced temperature drop is detected and an alarm signal is generated by a computerized filter system control. The control also can monitor liquid line temperature for protection against malfunctioning condensers generate maintenance information and warn of potential malfunction conditions.
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Citations
16 Claims
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1. An apparatus for monitoring a refrigeration system, the system having a compressor with an outlet connected to an inlet of an expansion valve through a condenser by a liquid line, and an evaporator having an inlet connected to an outlet of the expansion valve and an outlet connected to an inlet of the compressor by a suction line, comprising:
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a sub-cooler having a liquid process circuit with an inlet for connection to an outlet of a condenser in a refrigeration system and an outlet for connection to an inlet of an expansion valve in the refrigeration system for passing liquid refrigerant from the condenser to the expansion valve, said sub-cooler having a refrigerating circuit with an inlet connected to said liquid process circuit outlet and an outlet for connection to a suction line connected to an inlet of a compressor in the refrigeration system; a pair of temperature sensor means, one of said sensor means mounted at said liquid process circuit inlet for generating a first temperature signal representing the temperature of refrigerant entering said sub-cooler, and the other of said sensor means mounted at said liquid process circuit outlet for generating a second temperature signal representing the temperature of the refrigerant leaving said sub-cooler; and control means having inputs connected to said temperature sensor means and responsive to a predetermined relationship between said first and second temperature signals for generating an output signal indicating a loss of refrigerant in the refrigeration system including the condenser, the compressor and the expansion valve. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A refrigeration system comprising:
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a conduit for cycling refrigerant; a compressor connected to said conduit for compressing gaseous refrigerant, said compressor having an inlet for receiving gaseous refrigerant from said conduit and an outlet for discharging compressed gaseous refrigerant to said conduit; a condenser connected to said conduit for liquefying compressed gaseous refrigerant, said condenser having an inlet for receiving compressed gaseous refrigerant from said compressor and an outlet for discharging liquid refrigerant to said conduit; a sub-cooler connected to said conduit, said sub-cooler having a liquid process circuit with an inlet for receiving liquid refrigerant from said condenser and an outlet for discharging liquid refrigerant into said conduit to an expansion valve, said sub-cooler having a refrigerating circuit with an inlet connected to said liquid process circuit outlet and an outlet connected to a suction line connected to said compressor inlet for generating a predetermined temperature drop Δ
t in liquid refrigerant passing through said liquid process circuit;a first temperature sensor for generating a first temperature signal representing the temperature of refrigerant entering said sub-cooler, said first temperature sensor means mounted at said inlet of said liquid process circuit; a second temperature sensor for generating a second temperature signal representing the temperature of refrigerant exiting said sub-cooler, said second temperature sensor means mounted at said outlet of said liquid process circuit; control means having inputs connected to said temperature sensors and being responsive to said first and second temperature signals for generating an output signal indicating a loss of refrigerant flowing in said conduit; an expansion valve connected to said conduit for reducing the pressure of liquid refrigerant, said expansion valve having an inlet for receiving refrigerant from said sub-cooler and an outlet for passage of refrigerant with a reduced pressure to said conduit; and an evaporator connected to said conduit for converting reduced pressure liquid refrigerant to gaseous refrigerant, said evaporator having an inlet for receiving reduced pressure liquid refrigerant from said expansion valve outlet and an outlet for passage of said gaseous refrigerant to said compressor inlet via the suction line. - View Dependent Claims (12, 13)
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14. An apparatus for monitoring a refrigeration system, the system having a compressor, a condenser, an expansion valve and an evaporator connected in series by a conduit, comprising:
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a sub-cooler having a liquid process circuit with an inlet for connection to an outlet of a condenser and an outlet for connection to an inlet of an expansion value, said sub-cooler having a refrigerating circuit with an inlet for connection to a liquid line portion of a conduit connected between the condenser and the expansion valve and an outlet for connection to a suction line portion of the conduit connected between an evaporator and the compressor, said sub-cooler liquefying flash gas in liquid refrigerant passing through said liquid process circuit; manual expansion valve (MXV) connected between said liquid process circuit outlet and said refrigerating circuit inlet for generating a temperature difference between a temperature of the refrigerant entering said liquid process circuit and a temperature of the refrigerant leaving said liquid process circuit; and means for detecting a loss of refrigerant flowing in a conduit connecting the compressor, the condenser and the expansion valve, said means for detecting being responsive to a value of said temperature difference for indicating a loss of refrigerant flowing in the conduit connecting the compressor, the condenser and the expansion valve. - View Dependent Claims (15, 16)
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Specification