Abstract:
A thermostat includes a housing, a touch-sensitive display configured to display visual media and receive user inputs, and processing electronics configured to operate the touch-sensitive display. The housing includes a base and a display mount. The base includes a top wall, a bottom wall, a front wall connecting the top wall to the bottom wall, a first side wall connecting the top wall to the bottom wall, and a second side wall connecting the top wall to the bottom wall. The top wall, the bottom wall, the first side wall, and the second side wall define an internal volume. The display mount is cantilevered away from the top wall and includes a mounting surface. The display is attached to the mounting surface. The processing electronics are positioned within the interior volume.
Abstract:
A multi-function thermostat for a building includes a touch-sensitive display, a communications interface, and a processing circuit. The touch-sensitive display is configured to present information to a user and receive input from the user. The communications interface is configured to receive weather information from a weather server and building emergency information from at least one of a building management system and a building device. The processing circuit configured to cause the touch-sensitive display to display emergency response directions when the weather information indicates emergency weather conditions or the building emergency information indicates a building emergency.
Abstract:
A thermostat includes a transparent touch screen display, wherein the matter behind the display is visible in the non-active display portions and a control bar connected to one side of the transparent touch screen display. The control bar includes a housing, processing circuitry operably connected to the transparent touch screen display and configured to monitor and control building equipment, and a temperature sensor operably connected to the processing circuitry.
Abstract:
A multi-function thermostat for a building includes a sensor configured to measure an environmental condition of a building space, a communication interface, and a processing circuit. The communications interface is configured to communicate with an emergency server and receive occupant health data from a health sensor configured to monitor an occupant. The processing circuit is configured to determine a health metric associated with the occupant based on the occupant health data and cause the communications interface to send a distress message to the emergency server when the health metric associated with the occupant indicates a medical emergency.
Abstract:
A control device for a building management system (BMS) including a touch screen display configured to mount to a mounting surface, a communications interface configured to communicate with the BMS, a near field communication (NFC) sensor configured to receive information from a NFC device, a microphone configured to detect vocal input, and a processing circuit coupled to the touch screen display. The processing circuit including a processor and memory coupled to the processor, the memory storing instructions thereon that, when executed by the processor, cause the control device to receive user input from at least one of the touch screen display, the NFC sensor, or the microphone, validate an identity of a user based on the user input, and cause the BMS to control an environmental variable of a space based on the validation.
Abstract:
A multi-function thermostat for a building includes a sensor configured to measure an environmental condition of a building space, a communication interface, and a processing circuit. The communications interface is configured to communicate with an emergency server and receive occupant health data from a health sensor configured to monitor an occupant. The processing circuit is configured to determine a health metric associated with the occupant based on the occupant health data and cause the communications interface to send a distress message to the emergency server when the health metric associated with the occupant indicates a medical emergency.
Abstract:
A thermostat includes a housing, a touch-sensitive display configured to display visual media and receive user inputs, and processing electronics configured to operate the touch-sensitive display. The housing includes a base and a display mount. The base includes a top wall, a bottom wall, a front wall connecting the top wall to the bottom wall, a first side wall connecting the top wall to the bottom wall, and a second side wall connecting the top wall to the bottom wall. The top wall, the bottom wall, the first side wall, and the second side wall define an internal volume. The display mount is cantilevered upward from the top wall and includes a mounting surface perpendicular to the top wall of the base. The housing is not opaque. The display is attached to the mounting surface and is not opaque. The processing electronics are positioned within the interior volume.
Abstract:
A thermostat includes a housing, a touch-sensitive display configured to display visual media and receive user inputs, and processing electronics configured to operate the touch-sensitive display. The housing includes a base and a display mount. The base includes a top wall, a bottom wall, a front wall connecting the top wall to the bottom wall, a first side wall connecting the top wall to the bottom wall, and a second side wall connecting the top wall to the bottom wall. The top wall, the bottom wall, the first side wall, and the second side wall define an internal volume. The display mount is cantilevered away from the top wall and includes a mounting surface. The display is attached to the mounting surface. The processing electronics are positioned within the interior volume.