System and method for optimizing use of plug-in air conditioners and portable heaters

US 8,340,826 B2
Filed: 12/16/2011
Issued: 12/25/2012
Est. Priority Date: 08/20/2010
Status: Active Grant

First Claim

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1. A system for controlling plug-in air conditioners and plug-in heaters comprising:

at least one load control device at a first location comprising a microprocessor, the load control device configured to connect to a first electrical outlet and to connect to a plug-in air conditioner or plug-in portable heater, the load control device further configured to control whether the plug-in air conditioner or the plug-in portable heater is “

on”

or “

off”

, and wherein said microprocessor is configured to communicate over a computer network;

one or more processors remotely located from the load control device and the first location that receive temperature measurements from said first location, wherein said one or more processors communicate with said microprocessor in the at least one load device over said computer network, and wherein said one or more processors further receive measurements of outside temperatures from at least one other source;

one or more databases that store at least said temperature measurements obtained from said first location; and

where said load control device is located inside the space conditioned by said plug-in air conditioner or plug-in portable heater, and wherein said microprocessor in said load control device receives at least one operational instruction from said one or more processors via said computer network instructing the load control device to disconnect power to said plug-in air conditioner or plug-in portable heater based at least in part on said temperature measurements from said first location and based at least in part on said measurements of outside temperatures from said at least one other source.

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Abstract

Thermostatic HVAC and other energy management controls that are connected to a computer network. For instance, remotely managed load switches incorporating thermostatic controllers inform an energy management system, to provide enhanced efficiency, and to verify demand response with plug-in air conditioners and heaters. At least one load control device at a first location comprises a temperature sensor and a microprocessor. The load control device is configured to connect or disconnect electrical power to the an attached air conditioner or heater, and the microprocessor is configured to communicate over a network. In addition, the load control device is physically separate from an air conditioner or heater but located inside the space conditioned by the air conditioner or heater.

161 Citations

18 Claims

1. A system for controlling plug-in air conditioners and plug-in heaters comprising:
- at least one load control device at a first location comprising a microprocessor, the load control device configured to connect to a first electrical outlet and to connect to a plug-in air conditioner or plug-in portable heater, the load control device further configured to control whether the plug-in air conditioner or the plug-in portable heater is “
  
  on”
  
  or “
  
  off”
  
  , and wherein said microprocessor is configured to communicate over a computer network;
  
  one or more processors remotely located from the load control device and the first location that receive temperature measurements from said first location, wherein said one or more processors communicate with said microprocessor in the at least one load device over said computer network, and wherein said one or more processors further receive measurements of outside temperatures from at least one other source;
  
  one or more databases that store at least said temperature measurements obtained from said first location; and
  
  where said load control device is located inside the space conditioned by said plug-in air conditioner or plug-in portable heater, and wherein said microprocessor in said load control device receives at least one operational instruction from said one or more processors via said computer network instructing the load control device to disconnect power to said plug-in air conditioner or plug-in portable heater based at least in part on said temperature measurements from said first location and based at least in part on said measurements of outside temperatures from said at least one other source.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A system as in claim 1 in which said one or more databases are stored in a computer located in the same structure as the load control device.
  - 3. A system as in claim 1 in which said one or more databases are stored in a computer that is not located in the same structure as the load control device.
  - 4. A system as in claim 1 in which said plug-in air conditioner is mounted through a window.
  - 5. A system as in claim 1 in which said plug-in portable heater is a space heater.
  - 6. A system as in claim 1 in which said load control device measures at least the temperature inside said conditioned space.
  - 7. A system as in claim 1 in which said load control device measures at least one of:
    - the electrical current, and voltage passing through said control device.
  - 8. A system as in claim 1 in which said database obtains at least a measure of outside weather conditions via a network.
  - 9. A system as in claim 1 in which said load control device is configured to sense occupancy of said conditioned space.

10. An apparatus for controlling a plug-in air conditioner or plug-in portable heater comprising:
- a load control device comprising a temperature sensor and a microprocessor, said load control device configured to connect to a first electrical outlet and to connect to a plug-in air conditioner or plug-in portable heater, the load control device further configured to control whether said plug-in air conditioner or plug-in portable heater is “
  
  on”
  
  or “
  
  off”
  
  , and wherein said microprocessor is configured to communicate over a computer network;
  
  a server configured to receive messages from and send messages to said load control device via said computer network, wherein said server further receives measurements of outside temperatures from at least one other source; and
  
  where said load control device receives at least one operational instruction from said server via said computer network instructing the load control device to disconnect power to said plug-in air conditioner or plug-in portable heater based at least in part on said temperature measurements from said first location and based at least in part on said measurements of outside temperatures from said at least one other source.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
- - 11. An apparatus as in claim 10 in which said server is a computer located in the same structure as the load control device.
  - 12. An apparatus as in claim 10 in which said server is not located in the same structure as the load control device.
  - 13. An apparatus as in claim 10 in which said plug-in air conditioner is mounted through a window.
  - 14. An apparatus as in claim 10 in which said plug-in portable heater is a space heater.
  - 15. An apparatus as in claim 10 in which said load control device measures at least the temperature inside said conditioned space.
  - 16. An apparatus as in claim 10 in which said load control device measures at least one of:
    - the electrical current, and voltage passing through said control device.
  - 17. An apparatus as in claim 10 in which said server obtains at least a measure of outside weather conditions via a network.
  - 18. An apparatus as in claim 10 in which said load control device is further configured to sense occupancy of said conditioned space.

Specification

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Litigation Campaign Assessment

Current Assignee
EcoFactor, Inc. (Trane Technologies plc)
Original Assignee
EcoFactor, Inc. (Trane Technologies plc)
Inventors
Steinberg, John Douglas
Primary Examiner(s)
KASENGE, CHARLES R

Application Number

US13/329,117
Publication Number

US 20120086562A1
Time in Patent Office

375 Days
Field of Search

700/276, 700/277, 700/278, 700/295, 700/299, 700/300, 236/91.D, 236/91.E, 236/91.F, 340/12.32
US Class Current

700/278
CPC Class Codes

F24F 11/00   Control or safety arrangements

F24F 11/30   for purposes related to the...

F24F 11/46   Improving electric energy e...

F24F 11/47   Responding to energy costs

F24F 11/52   Indication arrangements, e....

F24F 11/523   for displaying temperature ...

F24F 11/56   Remote control

F24F 11/58   using Internet communication

F24F 11/62   characterised by the type o...

F24F 11/63   Electronic processing

F24F 11/64   using pre-stored data

F24F 11/70   Control systems characteris...

F24F 2110/10   Temperature

F24F 2120/00   Control inputs relating to ...

F24F 2120/20   Feedback from users

F24F 2140/50   Load

F24F 2140/60   Energy consumption

G05B 15/02   electric

G05D 23/19   characterised by the use of...

G05D 23/1905   associated with tele control

G05D 23/1923 : using thermal energy, the c...

H02J 13/00004 : characterised by the power ...

H02J 13/00028 : involving the use of Intern...

H02J 2310/14 : The load or loads being hom...

H02J 3/14 : by switching loads on to, o...

Y02B 70/30 : Systems integrating technol...

Y02B 70/3225 : Demand response systems, e....

Y04S 20/222 : Demand response systems, e....

Y04S 20/244 : the home appliances being o...

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System and method for optimizing use of plug-in air conditioners and portable heaters

First Claim

0 Assignments

0 Petitions

Accused Products

Abstract

161 Citations

18 Claims

Specification

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System and method for optimizing use of plug-in air conditioners and portable heaters

First Claim

0 Assignments

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0 Petitions

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Accused Products

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Abstract

161 Citations

18 Claims

Specification

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Use Cases

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Others