Peak load optimization using communicating HVAC systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-001/32
H02J-003/14
F24F-011/00
출원번호
US-0857685
(2010-08-17)
등록번호
US-9175867
(2015-11-03)
발명자
/ 주소
Grohman, Wojciech
출원인 / 주소
Lennox Industries Inc.
대리인 / 주소
Baker Botts L.L.P.
인용정보
피인용 횟수 :
3인용 특허 :
4
초록
An HVAC system includes a first and a second electric motor. A load manager is coupled to the first electric motor. The load manager is configured to prevent the first electric motor from operating simultaneously with said second electric motor.
대표청구항▼
1. An HVAC system, comprising: a first electric motor having a first maximum capacity and a second electric motor having a second maximum capacity; anda load manager coupled to said first electric motor, said load manager configured to selectively: prevent said first electric motor from operating si
1. An HVAC system, comprising: a first electric motor having a first maximum capacity and a second electric motor having a second maximum capacity; anda load manager coupled to said first electric motor, said load manager configured to selectively: prevent said first electric motor from operating simultaneously with said second electric motor by: determining that a first control zone associated with said first electric motor has reached a set-point temperature, said first control zone associated with a first climate-controlled structure; andin response to determining that said first control zone associated with said first electric motor has reached said set-point temperature: stopping said first electric motor from operating; andtransmitting a token to said second electric motor, wherein said token allows said second electric motor to operate; andinstruct said first electric motor and said second electric motor to simultaneously operate with said first electric motor operating at less than 100% of said first maximum capacity and said second electric motor operating at less than 100% of said second maximum capacity, wherein a total simultaneous operating capacity created by operation of said first electric motor and operation of said second electric motor is less than one of either said first maximum capacity or said second maximum capacity. 2. The HVAC system of claim 1, wherein simultaneously operating includes simultaneously starting. 3. The HVAC system of claim 1, wherein said load manager assigns a time slot to said first electric motor to start based on an identification datum of said first electric motor. 4. The HVAC system of claim 1, wherein said load manager is configured to communicate with said first electric motor via a communication network. 5. The HVAC system of claim 1, wherein said second electric motor is located within a second control zone of said first climate-controlled structure, said first control zone and said second control zone being different. 6. The HVAC system of claim 1, wherein said second electric motor is located in a second detached climate-controlled structure, said first climate-controlled structure and said second detached climate-controlled structure being different. 7. The HVAC system of claim 6, wherein said load manager is a demand server configured to coordinate the operation of electric motors located in a plurality of detached climate-controlled structures. 8. An HVAC load manager, comprising: a memory configured to store controller instructions;a communications interface adapted to transmit motor command signals to a first electric motor having a first maximum operating capacity and a second electric motor having a second maximum operating capacity; anda processor configured to issue said motor command signals in response to said controller instructions, said motor command signals selectively including: first signals being configured to prevent said first electric motor and said second electric motor from simultaneously operating by: determining that a first control zone associated with said first electric motor has reached a set-point temperature, said first control zone associated with a first climate-controlled structure; andin response to determining that said first control zone associated with said first electric motor has reached said set-point temperature: stopping said first electric motor from operating; andtransmitting a token to said second electric motor, wherein said token allows the second electric motor to operate; andsecond signals being configured to instruct said first electric motor and said second electric motor to simultaneously operate with said first electric motor operating at less than 100% of said first maximum capacity and said second electric motor operating at less than 100% of said second maximum capacity, wherein a total simultaneous operating capacity created by operation of said first electric motor and operation of said second electric motor is less than one of either said first maximum capacity or said second maximum capacity. 9. The HVAC load manager as recited in claim 8, wherein said processor prevents said first electric motor and said second electric motor from simultaneously starting. 10. The HVAC load manager as recited in claim 8, wherein said second electric motor is logically associated with a second control zone of said first climate-controlled structure, said first control zone and said second control zone being different, and said processor controls said first electric motor and said second electric motor to maintain a same temperature difference from said set-point temperature for each of said first control zone and said second control zone. 11. The HVAC load manager as recited in claim 8, wherein said processor controls said first electric motor to satisfy a first load demand for said first control zone of said first climate-controlled structure, and then said second electric motor is controlled to satisfy a second load demand for a second control zone of said first climate-controlled structure. 12. The HVAC load manager as recited in claim 8, wherein said first electric motor has an associated first priority, and said second electric motor has an associated second priority, said second priority being lower than said first priority, and said motor command signals are configured such that said first electric motor satisfies a first load demand before said second electric motor satisfies a second load demand. 13. The HVAC load manager as recited in claim 8, wherein said second electric motor is located in a second detached climate-controlled structure, said first climate-controlled structure and said second detached climate-controlled structure being different. 14. The HVAC load manager as recited in claim 13, wherein said processor is configured to communicate with a second processor located within said second detached climate-controlled structure and to control operation of said first electric motor in response to an instruction received from said second processor. 15. A method of manufacturing an HVAC load manager, comprising: configuring a memory to store controller instructions;adapting a communications interface to transmit motor command signals to a first electric motor having a first maximum capacity and a second electric motor having a second maximum operating capacity; andconfiguring a processor to issue said motor command signals in response to said controller instructions, said motor command signals being configured to selectively: prevent said first electric motor from operating simultaneously with said second electric motor by: determining that a first control zone associated with said first electric motor has reached a set-point temperature, said first control zone associated with a first climate-controlled structure; andin response to determining that said first control zone associated with said first electric motor has reached said set-point temperature: stopping said first electric motor from operation; andtransmitting a token to said second electric motor, wherein said token allows said second electric motor to operate; andinstruct said first electric motor and said second electric motor to simultaneously operate with said first electric motor operating at less than 100% of said first maximum capacity and said second electric motor operating at less than 100% of said second maximum capacity, wherein a total simultaneous operating capacity created by operation of said first electric motor and operation of said second electric motors is less than one of either said first maximum capacity or said second maximum capacity. 16. The method as recited in claim 15, wherein said processor prevents said first electric motor and said second electric motor from simultaneously starting. 17. The method as recited in claim 15, wherein said second electric motor is logically associated with a second control zone of said first climate-controlled structure, said first control zone and said second control zone being different, and said processor controls said first electric motor and said second electric motor to maintain a same temperature set-point excursion for each of said first control zone and said second control zone. 18. The method as recited in claim 15, wherein said processor is configured to control said first electric motor to satisfy a first load demand for said first control zone of said first climate-controlled structure, and then said second electric motor is controlled to satisfy a second load demand for a second control zone of said first climate-controlled structure. 19. The method as recited in claim 15, wherein said first electric motor has an associated first priority, and said second electric motor has an associated second priority, said second priority being lower than said first priority, and said motor command signals are configured such that said first electric motor satisfies a first load demand before said second electric motor satisfies a second load demand. 20. The method as recited in claim 17, wherein said second electric motor is located in a second climate-controlled structure, said first detached climate-controlled structure and said second detached climate-controlled structure being different. 21. The HVAC system of claim 1, wherein said load manager is a first load manager physically collocated with and coupled to said first electric motor, and further comprising a second load manager physically collocated with and coupled to said second electric motor, said second load manager configured to cooperate with said first load manager to manage operation of said first electric motor and said second electric motor. 22. The HVAC system of claim 1, wherein said first electric motor has an HVAC role, and said second electric motor has no HVAC role. 23. An HVAC system, comprising: a first electric motor;a second electric motor; anda load manager coupled to said first electric motor, said load manager configured to prevent said first electric motor from operating simultaneously with said second electric motor by: determining that a first control zone associated with said first electric motor has reached a set-point temperature, said first control zone associated with a first climate-controlled structure; andin response to determining that said first control zone associated with said first electric motor has reached said set-point temperature:stopping said first electric motor from operating; andtransmitting a token to said second electric motor, wherein said token allows said second electric motor to operate; andwherein said second electric motor is located in a second detached climate-controlled structure, said first climate-controlled structure and said second detached climate-controlled structure being different. 24. The HVAC system of claim 23, wherein said first electric motor has an HVAC role, and said second electric motor has no HVAC role. 25. The HVAC load manager of claim 8, wherein said first electric motor has an HVAC role, and said second electric motor has no HVAC role. 26. The method of claim 15, wherein said first electric motor has an HVAC role, and said second electric motor has no HVAC role.
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