Multiple environmental zone control with integrated battery status communications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24F-011/02
F24F-011/00
F24F-001/02
F24F-011/053
G05D-023/19
F24F-007/10
F24F-011/04
출원번호
US-0183091
(2014-02-18)
등록번호
US-9316407
(2016-04-19)
발명자
/ 주소
Kates, Lawrence
출원인 / 주소
Google Inc.
대리인 / 주소
Wolfe-SBMC
인용정보
피인용 횟수 :
6인용 특허 :
163
초록▼
An Electronically-Controlled Register vent (ECRV) that can be easily installed by a homeowner or general handyman is disclosed. The ECRV can be used to convert a non-zoned HVAC system into a zoned system. The ECRV can also be used in connection with a conventional zoned HVAC system to provide additi
An Electronically-Controlled Register vent (ECRV) that can be easily installed by a homeowner or general handyman is disclosed. The ECRV can be used to convert a non-zoned HVAC system into a zoned system. The ECRV can also be used in connection with a conventional zoned HVAC system to provide additional control and additional zones not provided by the conventional zoned HVAC system. In one embodiment, the ECRV is configured have a size and form-factor that conforms to a standard manually-controlled register vent. In one embodiment, a zone thermostat is configured to provide thermostat information to the ECRV. In one embodiment, the zone thermostat communicates with a central monitoring system that coordinates operation of the heating and cooling zones.
대표청구항▼
1. A system for controlling multiple environmental zones, comprising: a first zone specific device configured to alter an environmental condition of a first environmental zone of the multiple environmental zones, each environmental zone delineating a volume within a structure, the first zone specifi
1. A system for controlling multiple environmental zones, comprising: a first zone specific device configured to alter an environmental condition of a first environmental zone of the multiple environmental zones, each environmental zone delineating a volume within a structure, the first zone specific device including: a battery-based power source for at least partially powering the operation of the first zone specific device;a communication interface for communicating with a central controller, the communication interface comprising a first wireless transceiver; anda controller operatively coupled to the wireless transceiver and the battery-based power source and configured to: operate the first zone specific device in a sleep mode whereby the first wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery based power source is lower than when the first zone specific device operates in an awake mode;periodically and temporarily switch the operation of the first zone specific device from the sleep mode to the awake mode whereby, while in the awake mode, the first zone specific device is configured to transmit one or more messages indicative of a charge status of the battery-based power source. 2. The system of claim 1, wherein the system further comprises a zone thermostat that is configured to control the first zone specific device to alter the environmental condition of the first environmental zone. 3. The system of claim 1, further comprising a second zone specific device configured to alter an environmental condition of a second environmental zone of the multiple environmental zones, the second zone specific device comprising: a second battery-based power source for at least partially powering the operation of the second zone specific device; anda second communication interface for communicating with the central controller, wherein the second communication interface comprises a second wireless transceiver; anda second controller operatively coupled to the second wireless transceiver and the second battery-based power source and configured to: operate the second zone specific device in the sleep mode whereby the wireless transceiver is inoperable to transmit or receive information and consumption of power from the battery based power source is lower than when the second zone specific device operates in the awake mode;periodically and temporarily switch the operation of the second zone specific device from the sleep mode to the awake mode whereby, while in the awake mode, the first zone specific device is configured to transmit one or more messages indicative of a second charge status of the second battery-based power source, the one or more messages;wherein the central controller is further configured to communicate with the second zone specific device to determine a power status of the second battery-based power source of the second zone specific device. 4. The system of claim 3, wherein the central controller is further configured to control the first zone specific device based at least in part on information received from the second zone specific device. 5. The system of claim 1, wherein the central controller is further configured to alter an amount of airflow to the first environmental zone based at least in part on the power status of the battery based power source of the first zone specific device. 6. The system of claim 1, wherein the first zone specific device, while in the awake mode, is further configured to transmit one or more messages indicative of whether the first zone specific device is in an opened, partially opened, or closed position. 7. The system of claim 1, further comprising the central controller, which comprises a thermostat. 8. The system of claim 1, further comprising the central controller, which is distinct from a thermostat. 9. The system of claim 1, wherein the controller of the first zone specific device is further configured to alter a period at which the first zone specific device switches from the sleep mode to the awake mode in response to receiving an instruction from the central controller via the wireless transceiver, the period being altered from an old period to a new period, the new period being defined by the instruction. 10. The system of claim 1, wherein the first wireless transceiver of the first zone specific device is configured to determine an available radio frequency channel, determining the available radio frequency channel comprises the wireless transceiver being configured to: determine that a first radio frequency channel is in use, and select a second radio frequency channel that is not in use to wirelessly communicate the one or more messages. 11. The system of claim 1, wherein the first zone specific device is further configured to ignore wirelessly-received instructions associated with an identifier that is different from an identifier of the first zone specific device. 12. A method for controlling multiple environmental zones, comprising: altering an environmental condition of a first environmental zone of the multiple environmental zones by a first zone specific device, each environmental zone delineating a volume within a structure, the first zone specific device including: a first battery-based power source for at least partially powering the operation of the first zone specific device; anda communication interface for communicating with a central controller, the communication interface comprising a first wireless transceiver;operating the first zone specific device in a sleep mode whereby the first wireless transceiver is inoperable to transmit or receive information and consumption of power from the first battery-based power source is lower than when the first zone specific device operates in an awake mode;periodically and temporarily switch the operation of the first zone specific device from the sleep mode to the awake mode whereby, while in the awake mode, the first zone specific device is configured to transmit, via the first wireless transceiver, one or more messages indicative of a charge status of the first battery-based power source;communicating, while in the awake mode, from the first zone specific device to the central controller via the communication interface of the first zone specific device, the charge status of the first battery-based power source of the first zone specific device;operating the second zone specific device in the sleep mode whereby a second wireless transceiver of the second zone specific device is inoperable to transmit or receive information and consumption of power from a second battery-based power source of the second zone specific device is lower than when the second zone specific device operates in the awake mode;periodically and temporarily switch the operation of the second zone specific device from the sleep mode to the awake mode whereby, while in the awake mode, the second zone specific device is configured to transmit one or more messages indicative of a second charge status of the second battery-based power source;communicating, while in the awake mode, from the second zone specific device to the central controller via a second wireless transceiver of the second zone specific device, the second charge status of the second battery-based power source of the second zone specific device; anddetermining, by the central controller, the power status of the first battery-based power source of the first zone specific device and the second power status of the second battery-based power source of the second zone specific device based on the communicating. 13. The method of claim 12, further comprising: monitoring, by a zone thermostat arranged within the first environmental zone, the environmental condition of the first environmental zone; andcontrolling, by the zone thermostat arranged within the first environmental zone, the first zone specific device to alter the environmental condition of the first environmental zone. 14. The method of claim 12, further comprising: altering, by the second zone specific device, an environmental condition of a second environmental zone of the multiple environmental zones, the second zone specific device including: the second battery-based power source for at least partially powering the operation of the second zone specific device; anda second communication interface for communicating with the central controller, the communication interface comprising the second wireless transceiver. 15. The method of claim 12, further comprising altering, by the central controller, an amount of airflow to the first environmental zone based at least in part on the power status of the first battery-based power source of the first zone specific device. 16. The method of claim 12, further comprising communicating, by the central controller, the power status of the first battery-based power source of the first zone specific device and the second-battery based power source of the second zone specific device to a user.
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이 특허에 인용된 특허 (163)
Zou, Shazhou; Wang, Victor W; Mao, Jian; Wang, Tianxin, Affordable and easy to install multi-zone HVAC system.
Agrawal Prathima ; Chen Jyh-Cheng ; Kishore Shalinee ; Sivalingam Krishna M., CDMA mobile station wireless transmission power management with adaptive scheduling priorities based on battery power level.
Payne, Peter P.; Schmidt, Stephan E.; Powers Goppel, Kristin; King, Darrell J.; Tobin, Stephen M.; Fowler, J. Thomas, Constant current flame ionization circuit.
Kidder Kenneth B. (Coon Rapids MN) Smith Gary A. (Albuquerque NM) Wacker Paul C. (St. Louis Park MN), Demand limit control by integral reset of thermostats.
Aggers John R. (Apple Valley MN) Brindle Ralph C. (Minnetonka MN) Kidder Kenneth B. (Coon Rapids MN) Ullestad David C. (Brooklyn Park MN), Distributed environmental/load control system.
Dushane Steven D. (17170 Los Alamos St. Granada Hills CA 91344) Anderson Kenneth K. (Simi Valley CA) Bohm Grant E. (Redding CA), Dwelling heating and air conditioning system.
Dushane Steven D. (17170 Los Alamos St. Granada Hills CA 91344) Anderson Kenneth K. (Simi Valley CA) Bohm Grant E. (Redding CA) Simoni Wayne (West Hill CA), Dwelling heating and air conditioning system.
Brown ; Jr. Robert J. (6688 Serena La. Boca Raton FL 33433) Romanowiz James D. (2919 Banyan Rd. Boca Raton FL 33432) Staples Charles W. (270 NW. 36th St. Boca Raton FL 33431), Energy management and home automation system.
Zillner ; Jr. Anthony H. (438 Lotus La. Glenview IL 60025), Environmental control system using poled diodes to allow additional controlled devices in existing four wire system.
Shah Dipak J. (Eden Prairie MN) MacArthur J. Ward (Minneapolis MN) Buchholz Robert L. (Eden Prairie MN) Grald Eric W. (Lyme NH) Nelson Lorne W. (Bloomington MN), Error based zone controller.
DiTucci Joseph ; Phelps Stephen K. ; Zabielski Martin F., Fail safe gas furnace optical flame sensor using a transconductance amplifier and low photodiode current.
Chapman, Jr.,John Gilman; Ashworth,Nicholas; Burt,Robert; Wallaert,Timothy E., Hazardous condition detection system and method and thermostat for use therewith.
Beilfuss Robert C. (Coppell TX) Lanier David M. (Richardson TX) Bammel Stanley E. (Duncanville TX) Huang Terry J. (Garland TX) Banks David M. (Richardson TX), Ignition control system for a gas appliance.
Mierzwinski Eugene P. (Ft. Wayne IN) Grunden Michael T. (Ft. Wayne IN) Youtz Stephen E. (Ft. Wayne IN), Integrated furnace control and control self test.
Grunden Michael T. (Fort Wayne IN) Youtz Stephen E. (Fort Wayne IN) Mierzwinski Eugene P. (Fort Wayne IN), Integrated furnace control having ignition and pressure switch diagnostics.
Grunden Michael T. (Fort Wayne IN) Youtz Stephen E. (Fort Wayne IN) Mierzwinski Eugene P. (Fort Wayne IN), Integrated furnace control having ignition switch diagnostics.
Genga ; Jr. Richard A. (East Greenwich RI) Pishdadian Hamid (Warwick RI) McCarthy Michael (Cranston RI), Integrated zoning circulator with priority controller.
Berkeley Arnold D. (10687 Weymouth St. ; Apt. 102 Bethesda MD 20814) Bernstein Alec (Baltimore MD) Carney Daniel C. (Baltimore MD), Interactive electronic thermostat with installation assistance.
Berkeley Arnold D. (Potomac MD) Bernstein Alec (Pasadena CA) Jefferson Donald E. (Silver Spring MD) Carney Daniel C. (Baltimore MD), Interactive electronic thermostat with minimum and maximum temperature thermal limit switches.
Tinsley Timothy M. (Coon Rapids MN) Schwarz Edward L. (Minneapolis MN), Locally powered control system having a remote sensing unit with a two wire connection.
Brown, Michael Wayne; Lawrence, Kelvin Roderick; Paolini, Michael A., Managing an environment according to environmental preferences retrieved from a personal storage device.
Mueller, Carl J.; Toth, Bartholomew L.; Albanello, Frank A., Method and apparatus for automatically transmitting temperature information to a thermostat.
Schanin,David J.; van der Hoop,Daniel Bernard, Method and apparatus for power management control of a cooling system in a consumer accessible appliance.
Podgorny, Marek; Beca, Luke; Markowski, Roman; Bogucz, Edward A.; Santanam, Suresh; Lipson, Edward; Roman, Paul; Michalak, Greg; Lewandowski, Gregg; Gelling, Paul D., Open web services-based indoor climate control system.
Bohrer, Philip J.; Merten, Gregory J.; Schnell, Robert J.; Atlass, Michael B., Profile based method for deriving a temperature setpoint using a `delta` based on cross-indexing a received price-point level signal.
Bohrer, Philip J.; Merten, Gregory J.; Schnell, Robert J.; Atlass, Michael B., Profile based method for deriving a temperature setpoint using a ‘delta’ based on cross-indexing a received price-point level signal.
Brown Bernard T. (St. Louis County MO) Perry David L. (Jefferson County MO) Jaeschke Horst E. (Jefferson County MO) Patil Krishna H. (St. Louis County MO), Programmable digital thermostat with means for enabling temporary connection of a battery thereto.
Elliason Kurt L. (12725 54th Ave. North Plymouth MN 55422) Schnell Robert J. (15415 47th Ave. No. Plymouth MN 55446) Bohrer Philip J. (5900 Amy Dr. Edina MN 55436) Merten Gregory J. (3753 Windtree Dr, Real time and/shed load based on received tier pricing and direct load control with processors for each load.
MacArthur J. Ward (Minneapolis MN) Wahlstedt David A. (Minneapolis MN) Woessner Michael A. (Minneapolis MN) Foslien Wendy K. (Minneapolis MN), Receding horizon based adaptive control having means for minimizing operating costs.
McHugh Thomas K. (127 Hewett Rd. Wyncote PA 19095) Steadman ; Jr. Arthur L. (4727 Melon St. Philadelphia PA 19139), Setpoint limiting for thermostat, with tamper resistant temperature comparison.
Kaminski Donald F. (Sidney OH), Storage battery monitoring and recharging control system with automatic control of prime mover driving charging generato.
Zekan Boze N. (11 Boese Court St. Catharines ; Ontario CAX L2N 7E7) Dellasmirra Luciano (40 Sumbler Road Welland ; Ontario CAX L3C 3N9), Switched mode power supply for single-phase boost commercial AC users in the range of 1 kw to 10 kw.
Chapman, Jr.,John Gilman; Ashworth,Nicholas; Burt,Robert; Wallaert,Timothy E.; Rao,Joseph P., System and method for controlling appliances and thermostat for use therewith.
Mueller, Carl J.; Sartain, John M.; Carey, Steven L.; Fredricks, Thomas J.; Miles, Ronald E.; Vogel, G. Scott; Garozzo, James P., Thermostat capable of displaying received information.
Butler William P. (St. Louis MO) Toth Bartholomew L. (Crestwood MO), Thermostat providing electrical isolation therein between connected heating and cooling transformers.
Simon ; deceased Bernard S. (late of St. Louis Park MN by Barbara J. Simon ; executor) Smith Wade W. (Plymouth MN), Two-way wireless HVAC system and thermostat.
Salazar Joe Andrew ; Molero-Castro Luis,ESX, Wireless and wired communications, command, control and sensing system for sound and/or data transmission and reception.
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