INTEGRATING SENSING SYSTEMS INTO THERMOSTAT HOUSING IN MANNERS FACILITATING COMPACT AND VISUALLY PLEASING PHYSICAL CHARACTERISTICS THEREOF

US 20140346362A1
Filed: 05/29/2014
Published: 11/27/2014
Est. Priority Date: 10/21/2011
Status: Active Grant

First Claim

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1-13. -13. (canceled)

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Abstract

An occupancy sensing electronic thermostat is described that includes a thermostat body, an electronic display that is viewable by a user in front of the thermostat, a passive infrared sensor for measuring infrared energy and an infrared energy directing element formed integrally with a front surface of the thermostat body. The passive infrared sensor may be positioned behind the infrared energy directing element such that infrared energy is directed thereonto by the infrared energy directing element. The thermostat may also include a temperature sensor and a microprocessor programmed to detect occupancy based on measurements from the passive infrared sensor.

8 Citations

33 Claims

1-13. -13. (canceled)

14. An occupancy-sensing thermostat comprising:
- a thermostat body;
  
  an electronic display that is viewable by a user in front of the thermostat;
  
  a passive infrared sensor for measuring infrared energy;
  
  an infrared energy directing element shaped conformally with a front surface of the thermostat body such that a visually pleasing appearance of the thermostat body is maintained, said passive infrared sensor being positioned behind said infrared energy directing element such that infrared energy is directed thereonto by said infrared energy directing element;
  
  a first temperature sensor in thermal communication with the front surface of the thermostat body for making temperature measurements used for a calculating an ambient temperature; and
  
  a second temperature sensor positioned within the thermostat body in a location closer than the first temperature sensor to one or more heat generating components within the thermostat body, wherein the calculation of ambient temperature is based at least in part on a comparison between measurements from the first and second temperature sensors;
  
  wherein occupancy is detected based at least in part on measurements made by the passive infrared sensor.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
- - 15. A thermostat according to claim 14 wherein the first temperature sensor is in thermal communication with the front surface of the thermostat body using thermal grease.
  - 16. A thermostat according to claim 14 wherein the first temperature sensor is located behind the infrared energy directing element.
  - 17. A thermostat according to claim 14 further comprising a second passive infrared sensor for measuring infrared energy, the infrared energy directing element being shaped and the second passive infrared sensor being positioned such that it is provided with a substantially downwardly directed field of view when the thermostat is wall mounted, and the microprocessor being further programmed to detect an approaching user that will likely directly interact with the thermostat based at least in part on the measurements made by the second passive infrared sensor.
  - 18. A thermostat according to claim 14 wherein the passive infrared sensor, the first temperature sensor, and the second temperature sensor are located in a common chamber of the thermostat body.
  - 19. A thermostat according to claim 14 wherein the passive infrared sensor, the first temperature sensor, and the second temperature sensor are located behind the infrared energy directing element.
  - 20. A thermostat according to claim 14 wherein the infrared energy directing element comprises a smooth outer surface that extends across only a portion of a curved exterior front surface of the thermostat body, the infrared energy directing element being shaped and curved so as to conform to and form a part of the curved exterior front surface of the thermostat body.
  - 21. A thermostat according to claim 14 further comprising a mechanically rotatable annular ring surrounding the electronic display and the infrared energy directing element, the annular ring being rotatable around a front-to-back axis of the thermostat, and said annular ring is inwardly pressable along a direction of the front-to-back axis.

22. An occupancy sensing electronic thermostat comprising:
- a thermostat body;
  
  an electronic display that is viewable by a user in front of the thermostat;
  
  a passive infrared sensor for measuring infrared energy;
  
  an infrared energy directing element shaped conformally with a front surface of the thermostat body, said passive infrared sensor being positioned behind said infrared energy directing element such that infrared energy is directed thereonto by said infrared energy directing element, wherein occupancy is detected based at least in part on measurements made by the passive infrared sensor; and
  
  a mechanically rotatable user interface component surrounding the electronic display and the infrared energy directing element, the mechanically rotatable user interface component being rotatable around a front-to-back axis of the thermostat, and said mechanically rotatable user interface component being inwardly pressable along a direction of the front-to-back axis.

23. An occupancy sensing electronic thermostat comprising:
- a thermostat body;
  
  an electronic display that is viewable by a user in front of the thermostat;
  
  a passive infrared sensor for measuring infrared energy;
  
  an infrared energy directing element shaped conformally with a front surface of the thermostat body, said passive infrared sensor being positioned behind said infrared energy directing element such that infrared energy is directed thereonto by said infrared energy directing element, wherein occupancy is detected based at least in part on measurements made by the passive infrared sensor; and
  
  a second passive infrared sensor for measuring infrared energy, the infrared energy directing element being shaped and the second passive infrared sensor being positioned such that it is provided with a substantially downwardly directed field of view when the thermostat is wall mounted, and the microprocessor being further programmed to detect an approaching user that will likely directly interact with the thermostat based at least in part on the measurements made by the second passive infrared sensor.
- View Dependent Claims (24, 25, 26)
- - 24. A thermostat according to claim 23 wherein a state of one or more processors within the thermostat is changed from an inactive state to an active state based on detections by the microprocessor of an approaching user, thereby enhancing responsiveness to a user while conserving energy at times when user interaction is unlikely.
  - 25. A thermostat according to claim 23 wherein the second passive infrared sensor mounted above the passive infrared sensor, and the second passive infrared sensor is tilted downwards so as to enhance detection of an approaching user.
  - 26. A thermostat according to claim 23 wherein an exterior front surface of the thermostat is substantially free of vents and grilles.

27. An occupancy sensing electronic thermostat comprising:
- a thermostat body;
  
  an electronic display that is viewable by a user in front of the thermostat;
  
  a passive infrared sensor mounted within the thermostat so as to measure infrared energy tending to indicate a user is likely to interact with the thermostat;
  
  an infrared energy directing element shaped conformally with a front surface of the thermostat body, said passive infrared sensor being positioned behind said infrared energy directing element such that infrared energy is directed thereonto by said infrared energy directing element; and
  
  one or more energy consuming thermostat components that have active and inactive states, the one or more components consuming less energy in the inactive states than in the active states, wherein the transition from inactive to active states is based at least in part on measurements from the passive infrared sensor.
- View Dependent Claims (28, 29, 30, 31, 32, 33)
- - 28. A thermostat according to claim 27 further comprising a first temperature sensor that is in thermal communication with the front surface of the thermostat body.
  - 29. A thermostat according to claim 28 wherein the first temperature sensor is in thermal communication with the front surface of the thermostat body using thermal grease.
  - 30. A thermostat according to claim 28 wherein the first temperature sensor is located behind the infrared energy directing element.
  - 31. A thermostat according to claim 29 further comprising:
    - a second passive infrared sensor for measuring infrared energy, the infrared energy directing element being shaped and the second passive infrared sensor being positioned such that it is provided with a substantially downwardly directed field of view when the thermostat is wall mounted, anda microprocessor being programmed to detect an approaching user that will likely directly interact with thermostat based at least in part on the measurements made by the second passive infrared sensor.
  - 32. A thermostat according to claim 27 wherein the infrared energy directing element comprises a smooth outer surface that extends across only a portion of a curved exterior front surface of the thermostat body, the infrared energy directing element being shaped and curved so as to conform to and form a part of the curved exterior front surface of the thermostat body.
  - 33. A thermostat according to claim 27 further comprising a mechanically rotatable annular ring surrounding the electronic display and the infrared energy directing element, the annular ring being rotatable around a front-to-back axis of the thermostat, and said annular ring is inwardly pressable along a direction of the front-to-back axis.

Specification

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Current Assignee
Google LLC (Alphabet Inc.)
Original Assignee
Nest Labs Incorporated (Alphabet Inc.)
Inventors
FILSON, JOHN BENJAMIN, DANIELS, ERIC B., HUPPI, BRIAN

Granted Patent

US 9,234,669 B2
Time in Patent Office

Days
Field of Search
US Class Current

250/349
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 11/50   characterised by user inter...

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 11/70   Control systems characteris...

F24F 11/89   Arrangement or mounting of ...

F24F 2110/00   Control inputs relating to ...

F24F 2110/10   Temperature

F24F 2120/10   Occupancy

F24F 2120/12   Position of occupants

F24F 2120/14   Activity of occupants

F24F 2140/60   Energy consumption

G01J 5/0025   Living bodies ear thermomet...

G01J 5/041 : Mountings in enclosures or ...

G01K 1/02 : Means for indicating or rec...

G01R 31/26 : Testing of individual semic...

G05B 15/02 : electric

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

G05D 23/1902 : characterised by the use of...

G05D 23/1919 : characterised by the type o...

G05D 23/1932 : to control the temperature ...

G05D 23/24 : the sensing element having ...

G05D 23/2454 : using photoelectric elements

G05D 23/27 : with sensing element respon...

G05D 23/275 : with sensing element expand...

G06F 1/3231 : Monitoring the presence, ab...

G06F 1/3265 : Power saving in display device

G06F 1/3287 : by switching off individual...

G06F 3/011 : Arrangements for interactio...

G06F 3/016 : Input arrangements with for...

G06F 3/02 : Input arrangements using ma...

G06F 3/0202 : Constructional details or p...

G06F 3/0304 : Detection arrangements usin...

G06F 3/0362 : with detection of 1D transl...

G06F 3/042 : by opto-electronic means

G06F 3/0482 : Interaction with lists of s...

G06F 3/04842 : Selection of displayed obje...

G06F 3/04847 : Interaction techniques to c...

G06F 3/0487 : using specific features pro...

G06F 3/167 : Audio in a user interface, ...

G06N 20/00 : Machine learning

H01H 25/06 : Operating part movable both...

H04L 67/10 : in which an application is ...

Y02B 70/30 : Systems integrating technol...

Y02D 30/50 : in wire-line communication ...

Y02D 30/70 : in wireless communication n...

Y02T 10/88 : Optimized components or sub...

Y04S 20/20 : End-user application contro...

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INTEGRATING SENSING SYSTEMS INTO THERMOSTAT HOUSING IN MANNERS FACILITATING COMPACT AND VISUALLY PLEASING PHYSICAL CHARACTERISTICS THEREOF

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

8 Citations

33 Claims

Specification

Solutions

Use Cases

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INTEGRATING SENSING SYSTEMS INTO THERMOSTAT HOUSING IN MANNERS FACILITATING COMPACT AND VISUALLY PLEASING PHYSICAL CHARACTERISTICS THEREOF

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

8 Citations

33 Claims

Specification

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Solutions

Use Cases

Quick Links