Compressor motor housing as an economizer and motor cooler in a refrigeration system
First Claim
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1. A screw compressor assembly internal of which the production of flash gas for economizer coupling a refrigeration system is integrally accomplished in conjunction with the cooling of the compressor drive motor by liquid refrigerant subcooled within the assembly, for a refrigeration system having an expansion device to which the liquid refrigerant output of a condenser is directed, comprising:
- a motor housing section having an opening, said opening being in the upper portion of said motor housing section and in flow communication with said expansion device;
a compressor section defining a compression chamber and an economizer port opening into said compression chamber at a predetermined location;
a first screw rotor mounted for rotation in said compression chamber;
a second screw rotor mounted for rotation in said compression chamber, said second screw rotor being meshingly engaged with said first screw rotor;
an electric motor having a rotor and a stator penetrated by at least one passage, said motor disposed within said motor housing section and said rotor and said stator cooperating to define a gap in flow communication with the interior of said motor housing section;
means, drivingly connected to one of said first and second screw rotors, for rotatably supporting said motor rotor so that energization of said motor causes the rotation of said motor rotor, said motor rotor support means and the one of said first and second screw rotors to which said rotor support means is drivingly connected;
passage forming means opening into the interior of said motor housing section, for providing a flow path between the interior of said motor housing and said economizer port opening into said compression chamber in said compressor section; and
jacketing means defining an opening, said jacketing means for at least partially enclosing said motor stator and cooperating therewith to define a cavity in flow communication with said rotor-stator gap through said at least one passage penetrating said stator, said opening defined by said jacketing means being positioned vertically below said opening in the upper portion of said motor housing.
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Accused Products
Abstract
Liquid refrigerant produced in the condenser of a refrigeration system is directed into an expansion device. The expansion device throttles the high pressure liquid refrigerant into the compressor drive motor housing of the compressor assembly within the refrigeration system. Upon entering the motor housing a first portion of the liquid refrigerant flashes into gas at a pressure intermediate compressor suction and discharge pressure. The portion of refrigerant which remains in the liquid state is directed into a jacket surrounding the stator of the compressor drive motor. As the jacket fills with liquid refrigerant, a portion of the refrigerant is directed through passages in the motor stator into contact with the motor rotor. Liquid refrigerant overflowing the jacket and flowing out the ends of the motor through the gap between the rotor and stator drains to the lowermost portion of the motor housing from where it is directed to a second expansion device. Flash gas within the drive motor housing, together with gas generated by motor cooling, is directed out of the motor housing and into the compression chamber of the compressor assembly in order to increase the capacity and efficiency of the refrigeration system.
47 Citations
19 Claims
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1. A screw compressor assembly internal of which the production of flash gas for economizer coupling a refrigeration system is integrally accomplished in conjunction with the cooling of the compressor drive motor by liquid refrigerant subcooled within the assembly, for a refrigeration system having an expansion device to which the liquid refrigerant output of a condenser is directed, comprising:
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a motor housing section having an opening, said opening being in the upper portion of said motor housing section and in flow communication with said expansion device; a compressor section defining a compression chamber and an economizer port opening into said compression chamber at a predetermined location; a first screw rotor mounted for rotation in said compression chamber; a second screw rotor mounted for rotation in said compression chamber, said second screw rotor being meshingly engaged with said first screw rotor; an electric motor having a rotor and a stator penetrated by at least one passage, said motor disposed within said motor housing section and said rotor and said stator cooperating to define a gap in flow communication with the interior of said motor housing section; means, drivingly connected to one of said first and second screw rotors, for rotatably supporting said motor rotor so that energization of said motor causes the rotation of said motor rotor, said motor rotor support means and the one of said first and second screw rotors to which said rotor support means is drivingly connected; passage forming means opening into the interior of said motor housing section, for providing a flow path between the interior of said motor housing and said economizer port opening into said compression chamber in said compressor section; and jacketing means defining an opening, said jacketing means for at least partially enclosing said motor stator and cooperating therewith to define a cavity in flow communication with said rotor-stator gap through said at least one passage penetrating said stator, said opening defined by said jacketing means being positioned vertically below said opening in the upper portion of said motor housing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An economizer coupled refrigeration system lacking a dedicated economizer vessel and in which liquid refrigerant is employed as a motor coolant, comprising:
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compressor means, having a suction port and a discharge port and defining a compression chamber into which an economizer port opens, for increasing the pressure of refrigerant gas from a suction to a discharge pressure; means for condensing refrigerant gas discharged from said discharge port of said compressor means; an expansion device connected to said condensing means and receiving the entire refrigerant output thereof; housing means, connecting to said expansion device and in flow communication with said compression chamber in said compressor means through said economizer port, for internally producing, in cooperation with said expansion device, a two-phase mixture of liquid refrigerant flash gas at a pressure intermediate the suction and discharge pressures of said compressor means; means, connected to said housing means and to said suction port of said compressor means, for vaporizing liquid refrigerant received from said housing means and for delivering vaporized refrigerant to said suction port of said compressor means; an electric motor having a rotor concentrically mounted within an externally jacketed stator and cooperating therewith to define a rotor-stator gap which opens into the interior of said housing means and is in flow communication with the jacketed portion of the stator, said motor being disposed in said housing means so that at least a portion of the liquid refrigerant portion of said two-phase mixture produced in said housing means is directed into the jacket of said stator, whereby said motor is cooled by continuously replenished liquid refrigerant and, refrigerant flash gas at a pressure intermediate the suction and discharge pressures of said compressor means is delivered from said housing means to said compression chamber in said compressor means through said economizer port. - View Dependent Claims (10)
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11. Motor-cooling economizer apparatus, for a refrigeration system which includes an evaporator, a refrigerant compressor section defining a compression chamber into which an economizer port opens, a condenser, an expansion device, all serially connected respectively, and, an electric motor drivingly connected to the compressor section and having a rotor and a stator, the stator being penetrated by a passage and cooperating with the rotor to define a gap therebetween open at at least one end of the motor and in flow communication with the passage penetrating the stator, the motor cooling-economizer apparatus comprising:
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motor housing means in flow communication with said compression chamber in said compressor section through said economizer port and sealingly disposed around said motor, said motor housing means being serially connected for flow between said expansion device and said evaporator to close said refrigeration system and said motor housing means defining an opening through which refrigerant is received from said expansion device, said motor housing means for producing, in cooperation with said expansion device, a two-phase mixture of liquid refrigerant and refrigerant flash gas in the area adjacent said opening through which refrigerant is received in said motor housing means from said expansion device, said flash gas being produced at a pressure intermediate the pressure at which refrigerant gas flows into said compressor section from said evaporator and the pressure at which refrigerant gas is discharged from said compressor section to said condenser; and jacketing means defining an opening and at least partially enclosing said motor stator so that said stator and said jacketing means cooperate to define a cooling cavity in flow communication with said passage penetrating said stator, said opening in said jacketing means disposed with respect to said opening in said motor housing means to receive at least a portion of the subcooled liquid refrigerant produced adjacent said opening in said motor housing means, whereby subcooled liquid refrigerant fills said cooling cavity, flows through said passage penetrating said stator, into said rotor-stator gap and out of said rotor-stator gap into said motor housing means to cool said motor while refrigerant flash gas produced in said motor housing means simultaneously passes out of said motor housing means and into said compression chamber of said compressor section through said economizer port to increase the efficiency of said refrigeration system. - View Dependent Claims (12, 13, 14)
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15. In a refrigeration system having components which include an evaporator, a compressor section defining a compression chamber into which an economizer port opens, a condenser, an expansion device and a motor housing in which is disposed an electric motor drivingly connected to the compressor section and having a rotor concentrically mounted within an externally jacketed stator and spaced apart therefrom by a rotor-stator gap, all of the system components being serially connected for flow to close the system, and, wherein the motor housing is in flow communication with compression chamber in the compressor section through the economizer port opening thereinto, a method of economizer coupling the refrigeration system while simultaneously cooling the compressor section drive motor comprising the steps of:
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passing the entire liquid refrigerant output of the condenser into the expansion device; passing the liquid refrigerant thus received in the expansion device through the expansion device and directly into the motor housing to produce a two-phase mixture of subcooled liquid refrigerant and refrigerant flash gas at a pressure intermediate the suction and discharge pressures of the compressor section; directing at least a portion of the subcooled liquid refrigerant portion of the two-phase mixture thus produced into the stator jacket; bathing the jacketed exterior of the motor stator in liquid refrigerant thus directed into the stator jacket; passing liquid refrigerant out of the stator jacket and into the rotor-stator gap and thereby into intimate heat exchange relationship with the interior surface of the stator and the exterior of said rotor; flowing liquid refrigerant thus passed into the rotor-stator gap out of the rotor-stator gap into the interior of the motor housing with the result that liquid refrigerant continuously flows through the stator jacket, into the rotor-stator gap and out of the rotor-stator gap into the motor housing; passing the flash gas portion of the two-phase mixture in the motor housing into the compression chamber of the compressor section through the economizer port opening thereinto; and passing the liquid refrigerant which passes out of the rotor-stator gap into the motor housing, together with liquid refrigerant not immediately directed into the stator jacket within the motor housing and any liquid refrigerant which overflows the stator jacket, out of the motor housing to the evaporator. - View Dependent Claims (16, 17, 18, 19)
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Current AssigneeAmerican Standard Companies Incorporated (Ideal Standard International Topco SCA)
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Original AssigneeAmerican Standard Companies Incorporated (Ideal Standard International Topco SCA)
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InventorsLarson, James W., Tischer, James C.
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Primary Examiner(s)Capossela, Ronald C.
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Application NumberUS06/708,301Time in Patent Office365 DaysField of Search62/84, 62/115, 62/468, 62/469, 62/505, 310/64, 418/97US Class Current62/115CPC Class CodesF25B 1/047 of screw typeF25B 2400/13 EconomisersF25B 43/00 Arrangements for separating...
