Discharge pressure control system for transport refrigeration unit using suction modulation
First Claim
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1. A method of operating a refrigeration system having high and low pressure sides, a data processor, a memory unit, a condenser fan, a suction solenoid valve, a suction modulation valve and a compressor, said method comprising the steps of:
- providing a high pressure sensor in the high pressure side of the refrigeration system;
storing high pressure side data retrieved from the high pressure sensor in the memory unit;
turning the condenser fan on when the high pressure side data is greater than a first predetermined value and the condenser fan is simultaneously off;
closing the suction solenoid valve when the high pressure side data is greater than the first predetermined value and the suction solenoid valve is simultaneously open and the condenser fan is simultaneously on;
closing the suction modulation valve and ramping the suction modulation valve open in predetermined increments when the high pressure side data is greater than the first predetermined value and the suction solenoid valve is simultaneously closed and the condenser fan is simultaneously on; and
shutting the compressor off when the high pressure side data is greater than the first predetermined value and the suction modulation valve is simultaneously at least partially open and the suction solenoid valve is simultaneously closed and the condenser fan is simultaneously on.
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Abstract
A compressor discharge pressure control system employed on a container refrigeration unit utilizes a pressure transducer located in the high pressure side of the system and a data processor to control and limit the compressor discharge pressure to a maximum value when the normal condenser pressure controls are inactive. The pressure control system operates the suction modulation valve in a manner that significantly reduces compressor cycling and increases refrigeration system capacity during pull-down periods. The pressure control system also operates during water-cooled operation of a refrigeration system having a water-cooled condenser thereby eliminating the need to provide a water pressure switch in the refrigeration system.
45 Citations
17 Claims
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1. A method of operating a refrigeration system having high and low pressure sides, a data processor, a memory unit, a condenser fan, a suction solenoid valve, a suction modulation valve and a compressor, said method comprising the steps of:
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providing a high pressure sensor in the high pressure side of the refrigeration system; storing high pressure side data retrieved from the high pressure sensor in the memory unit; turning the condenser fan on when the high pressure side data is greater than a first predetermined value and the condenser fan is simultaneously off; closing the suction solenoid valve when the high pressure side data is greater than the first predetermined value and the suction solenoid valve is simultaneously open and the condenser fan is simultaneously on; closing the suction modulation valve and ramping the suction modulation valve open in predetermined increments when the high pressure side data is greater than the first predetermined value and the suction solenoid valve is simultaneously closed and the condenser fan is simultaneously on; and shutting the compressor off when the high pressure side data is greater than the first predetermined value and the suction modulation valve is simultaneously at least partially open and the suction solenoid valve is simultaneously closed and the condenser fan is simultaneously on. - View Dependent Claims (2, 3, 4)
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5. A refrigeration system comprising:
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a compressor having a discharge port coupled to a high pressure side of the refrigeration system, and further having a suction port coupled to a low pressure side of the refrigeration system; a pressure transducer coupled to a predetermined portion of the high pressure side of the refrigeration system; a suction solenoid valve coupled to a predetermined portion of the low pressure side of the refrigeration system; a suction modulation valve coupled to a predetermined portion of the low pressure side of the refrigeration system; a condenser fan operatively coupled to the refrigeration system; and a control system in communication with the pressure transducer, the condenser fan, the suction solenoid valve, the suction modulation valve, and the compressor, the control system comprising; a data processor; a data input device in communication with the data processor; an algorithmic software directing the data processor; and a data storage unit, wherein discrete data associated with the pressure transducer, the condenser fan, the suction solenoid valve, the suction modulation valve and the compressor is stored and supplied to the data processor such that the data processor, directed by the algorithmic software, can control operation of the condenser fan, the suction solenoid valve, the suction modulation valve and the compressor using the discrete data and algorithmically defined interrelationships between the data associated with the pressure transducer, the condenser fan, the suction solenoid valve, the suction modulation valve and the compressor such that a predetermined maximum pressure level can be maintained within the high pressure side of the refrigeration system. - View Dependent Claims (6, 7, 8)
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9. A refrigeration system comprising:
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a compressor having a discharge port coupled to a high pressure side of the refrigeration system, and further having a suction port coupled to a low pressure side of the refrigeration system; pressure sensing means coupled to a predetermined portion of the high pressure side of the refrigeration system for sensing a pressure level defined by the compressor; gating means coupled to a predetermined portion of the low pressure side of the refrigeration system for gating a flow of refrigerant supplied to the compressor from the low pressure side of the refrigeration system; modulating means coupled to a predetermined portion of the low pressure side of the refrigeration system for modulating a flow of refrigerant supplied to the compressor from the low pressure side of the refrigeration system; a first condenser coupled to the high pressure side of the refrigeration system; cooling means operatively coupled to the refrigeration system for cooling the condenser; and a control system in communication with the pressure transducer, the cooling means, the gating means, the modulating means, and the compressor, the control system comprisingprocessorata procesor; a data input device in communication with the data processor; an algorithmic software directing the data processor; and
a data storage unit, wherein discrete data associated with the pressure transducer, the condenser cooling means, the gating means, the modulating means and the compressor is stored and supplied to the data processor such that the data processor, directed by the algorithmic software, can control operation of the condenser cooling means, the gating means, the modulating means and the compressor using the discrete data and algorithmically defined interrelationships between the data associated with the pressure transducer, the condenser cooling means, the gating means, the modulating means and the compressor such that a predetermined maximum pressure level can be maintained within the high pressure side of the refrigeration system. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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Specification
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Current AssigneeCarrier Corporation (Carrier Global Corporation)
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Original AssigneeCarrier Corporation (Carrier Global Corporation)
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InventorsLee, Joseph H., Johnsen, Martin O.
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Primary Examiner(s)Tanner, Harry B.
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Application NumberUS08/997,028Time in Patent Office525 DaysField of Search62/217, 62/181, 62/183, 62/184, 62/228.1, 62/228.3, 62/DIG. 17, 62/180US Class Current62/217CPC Class CodesF25B 2700/195 of the condenserF25B 41/20 Disposition of valves, e.g....F25B 41/24 Arrangement of shut-off val...F25B 49/022 Compressor control arrangem...Y10S 62/17 Condenser pressure control
