Compressor protection
First Claim
1. In a microprocessor controlled system including a motor, a compressor driven by the motor, a condenser, an expansion device, an evaporator, means for supplying refrigerant for cooling the motor, and compressor regulating means, a method for providing refrigeration responsive to a signal indicating a requirement for refrigeration including the steps of:
- supplying power to an electronic module which is thereby placed in a power-on reset start-up routine including the serial steps of;
a) determining static discharge pressure;
b) starting the compressor;
c) determining the discharge pressure; and
d) if the discharge pressure is more than 10 psi below the static discharge pressure within fifteen seconds after starting the compressor, the compressor is stopped;
sensing the motor temperature;
sensing the discharge temperature;
if the sensed motor temperature is at or above a first temperature, liquid refrigerant is supplied to the motor until the first temperature is lowered by a first predetermined amount;
if the sensed motor temperature exceeds the first temperature by a second predetermined amount, the motor is shut off;
if the sensed discharge temperature is at or above a second temperature, liquid refrigerant is supplied to the motor until the second temperature is lowered by a third predetermined amount;
if the sensed discharge temperature exceeds the second temperature by a fourth predetermined amount, the motor is shut off.
1 Assignment
0 Petitions
Accused Products
Abstract
Responsive to a request for refrigeration, a start up sequence is initiated and, if start up is achieved, a number of motor and compressor parameters of operation are sensed for controlling and protecting the compressor. Depending upon the nature of the sensed conditions, if necessary, the motor, and thereby the compressor, is either disabled or corrective action is initially taken to bring the parameters within an acceptable range. If corrective action is ineffective, the motor and thereby the compressor, is disabled.
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Citations
10 Claims
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1. In a microprocessor controlled system including a motor, a compressor driven by the motor, a condenser, an expansion device, an evaporator, means for supplying refrigerant for cooling the motor, and compressor regulating means, a method for providing refrigeration responsive to a signal indicating a requirement for refrigeration including the steps of:
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supplying power to an electronic module which is thereby placed in a power-on reset start-up routine including the serial steps of; a) determining static discharge pressure; b) starting the compressor; c) determining the discharge pressure; and d) if the discharge pressure is more than 10 psi below the static discharge pressure within fifteen seconds after starting the compressor, the compressor is stopped; sensing the motor temperature; sensing the discharge temperature; if the sensed motor temperature is at or above a first temperature, liquid refrigerant is supplied to the motor until the first temperature is lowered by a first predetermined amount; if the sensed motor temperature exceeds the first temperature by a second predetermined amount, the motor is shut off; if the sensed discharge temperature is at or above a second temperature, liquid refrigerant is supplied to the motor until the second temperature is lowered by a third predetermined amount; if the sensed discharge temperature exceeds the second temperature by a fourth predetermined amount, the motor is shut off. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A refrigeration system including a closed circuit serially including a compressor, a condenser, an expansion device and an evaporator, further including a motor for driving said compressor, a refrigerant line branching downstream of said condenser and supplying liquid refrigerant to said motor for cooling comprising:
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means for sensing suction pressure; means for sensing discharge pressure; means for sensing motor temperature; means for sensing discharge temperature; means for controlling compressor capacity; means for controlling flow in said liquid refrigerant line; means for starting said motor responsive to a request for refrigeration and for controlling said motor, said means for controlling compressor capacity and said means for controlling flow in said liquid refrigerant line; said means for controlling said motor being controlled responsive to inputs from said means for sensing discharge pressure, said means for sensing motor temperature and said means for sensing discharge temperature; said means for controlling compressor capacity being controlled responsive to inputs from said means for sensing suction pressure and said means for sensing discharge pressure; and said means for controlling flow in said liquid refrigerant line being controlled responsive to inputs from said means for sensing motor temperature and said means for sensing discharge temperature.
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Specification