IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0378047
(2006-03-17)
|
등록번호 |
US-8181472
(2012-05-22)
|
발명자
/ 주소 |
- Schenk, Dennis
- Truitt, Karl M.
|
출원인 / 주소 |
- Electrolux Home Products, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
29 |
초록
▼
An electronic microprocessor-based control system for a refrigerator is provided having refrigeration components including a compressor, a condenser, a condenser fan, an evaporator, a variable speed evaporator fan. Multiple temperature sensors are provided to communicate with the electronic micropro
An electronic microprocessor-based control system for a refrigerator is provided having refrigeration components including a compressor, a condenser, a condenser fan, an evaporator, a variable speed evaporator fan. Multiple temperature sensors are provided to communicate with the electronic microprocessor-based electronic control system. The electronic microprocessor-based control system controls the operation of both the refrigeration and non-refrigeration components based on information provided by the multiple temperature sensors.
대표청구항
▼
1. A refrigerator comprising: a refrigeration system having refrigeration components including a compressor, a condenser, an evaporator and an evaporator fan; and, an electronic control system, the electronic control system comprising:a first compressor speed control mode in which a calculated speed
1. A refrigerator comprising: a refrigeration system having refrigeration components including a compressor, a condenser, an evaporator and an evaporator fan; and, an electronic control system, the electronic control system comprising:a first compressor speed control mode in which a calculated speed, ωcalc, is used to control a speed of the compressor when a freezer compartment temperature is below a freezer compartment upper temperature limit; anda second compressor speed control mode in which an adjusted speed, ωadj, is used to control the speed of the compressor when a freezer compartment temperature is above the freezer compartment upper temperature limit, wherein the electronic control system calculates ωadj using an equation that includes ωcalc and, in addition to ωcalc, further includes the freezer compartment upper temperature limit;wherein ωcalc is a polynomial equation,wherein the polynomial equation, ωcalc comprises: (TF-SP)*(K1)+(TF-SP)2*(K2)+(TFF-SP)* (K3)+(TFF-SP)2*(K4)+(TA)*(K5)+(TA)2*(K6)+(K7);wherein TF-SP is the freezer compartment set-point temperature, TFF-SP is a fresh food compartment set-point temperature, TA is an ambient temperature surrounding the refrigerator, and K1 to K7 are constant values. 2. A refrigerator comprising: a refrigeration system having refrigeration components including a compressor, a condenser, an evaporator and an evaporator fan; and, an electronic control system, the electronic control system comprising:a first compressor speed control mode in which a calculated speed, ωcalc, is used to control a speed of the compressor when a freezer compartment temperature is below a freezer compartment upper temperature limit; anda second compressor speed control mode in which an adjusted speed, ωadj, is used to control the speed of the compressor when a freezer compartment temperature is above the freezer compartment upper temperature limit, wherein the electronic control system calculates ωadj using an equation that includes ωcalc and, in addition to ωcalc, further includes the freezer compartment upper temperature limit;wherein ωcalc is a polynomial equation,wherein the adjusted speed, ωadj comprises: ωcalc+{TF−(TF-UTL+4+TF-SP)}*K8;wherein TF is the freezer compartment temperature, TF-UTL is the freezer compartment upper temperature limit, TF-SP is the freezer compartment set-point temperature, and K8 is a constant value. 3. A refrigerator comprising: a compartment;a refrigeration system for cooling the compartment, the refrigeration system comprising a variable speed compressor;an electronic control system for controlling the refrigeration system;the electronic control system calculating a speed for the variable speed compressor using a polynomial equation comprising: {(TF-SP)*(K1)+(TF-SP)2*(K2)+TFF-SP)*(K3)+(TFF-SP)2*(K4)+(TA)*(K5)+(TA)2*(K6)+(K7)}+{TF−(TF-UTL+4+TF-SP)}*K8;wherein TF-SP is a freezer compartment set-point temperature, TFF-SP is a fresh food compartment set-point temperature, TA is an ambient temperature surrounding the refrigerator, TF is a freezer compartment temperature, TF-UTL is a freezer compartment upper temperature limit, and K1 to K8 are constant values. 4. A refrigerator, comprising: a freezer compartment;a fresh-food compartment;a variable speed compressor;a freezer compartment temperature sensor that generates a freezer compartment temperature signal;an electronic control system that receives the freezer compartment temperature signal and executes a compressor speed control algorithm that controls a speed of the variable speed compressor, wherein the compressor speed control algorithm includes calculating said speed of the variable speed compressor using a mathematical compressor speed equation, wherein the mathematical compressor speed equation includes a plurality of terms including a freezer compartment temperature, a freezer compartment set-point temperature, and a freezer compartment upper temperature limit,a damper to regulate air flow between the freezer compartment and the fresh-food compartment;a fresh-food compartment temperature sensor that generates a fresh-food compartment temperature signal; andan ambient temperature sensor that generates an ambient temperature signal,wherein the electronic control system receives the fresh-food compartment temperature signal and the ambient temperature signal and controls an operation of the damper, andwherein when the fresh-food compartment temperature sensor fails, the electronic control system opens and closes the damper at calculated time intervals that are calculated using at least one mathematical equation that includes a further plurality of terms including an ambient temperature, the freezer compartment set-point temperature, and a fresh-food compartment set-point temperature. 5. The refrigerator of claim 4, wherein the variable speed compressor operates when the freezer compartment temperature is less than a freezer compartment lower temperature limit and the electronic control system controls the speed of the variable speed compressor, when the freezer compartment temperature is less than the freezer compartment lower temperature limit, using a different mathematical compressor speed equation comprising the freezer compartment temperature and the freezer compartment set-point temperature. 6. The refrigerator of claim 4, wherein the electronic control system includes a fail safe mode of operation in which the electronic control system closes the damper upon sensing that an evaporator fan is improperly not rotating or sensing that the evaporator fan is rotating improperly. 7. A refrigerator, comprising: a freezer compartment; a fresh-good compartment; a variable speed compressor; a freezer compartment temperature sensor that generates a freezer compartment temperature signal; and an electronic control system that receives the freezer compartment temperature signal and, when a freezer compartment temperature is less than a predetermined value, the electronic control system controls a speed of the variable speed compressor by calculating said speed using a first polynomial equation, and, when the freezer compartment temperature is greater than the predetermined value, the electronic control system controls the speed of the variable speed compressor by calculating said speed using a second polynomial equation that includes the first polynomial equation and additional parameters, a damper to regulate air flow between the freezer compartment and the fresh-food compartment; a fresh-food compartment temperature sensor that generates a fresh-food compartment temperature signal; an ambient temperature sensor that generates an ambient temperature signal, wherein the electronic control system receives the fresh-food compartment temperature signal and the ambient temperature signal and controls an operation of the damper, wherein when the fresh-food compartment temperature sensor fails, the electronic control system opens and closes the damper at calculated time intervals that are calculated using at least one mathematical equation that includes a plurality of terms including an ambient temperature, a freezer compartment set-point temperature, and a fresh-food compartment set-point temperature. 8. The refrigerator of claim 7, wherein the second polynomial equation includes the freezer compartment temperature, the freezer compartment set-point temperature, and a freezer compartment upper temperature limit. 9. The refrigerator of claim 8, wherein the first polynomial equation includes the freezer compartment set-point temperature, the fresh-food compartment set-point temperature, and the ambient temperature. 10. The refrigerator of claim 7, wherein the variable speed compressor operates when the freezer compartment temperature is less than a freezer compartment lower temperature limit and the electronic control system controls the speed of the variable speed compressor, when the freezer compartment temperature is less than the freezer compartment lower temperature limit, using a third polynomial equation that is determined from the first polynomial equation. 11. The refrigerator of claim 7, wherein the electronic control system includes a fail safe mode of operation in which the electronic control system closes the damper upon sensing that an evaporator fan is improperly not rotating or sensing that the evaporator fan is rotating improperly.
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