Abstract: A method of and system for automatically adjusting airflow and sensors for use therewith are disclosed. A sensor assembly includes a first face on an opposite side of the sensor assembly relative to a second face. The assembly includes an electrical plug on the first face and an electrical outlet on the second face. The electrical outlet is of a same type that is complimentary to the electrical plug on the first face. The assembly includes a sensor for sensing a value of an environmental variable in a space and a sensor communication system for transmitting and receiving information. A sensor system includes a plurality of sensor assemblies disposed in a building. Each sensor assembly includes a sensor for sensing a value of an environmental variable of the space within which the sensor is placed. The system determines gradient values for the sensed environmental variable.
Abstract: A method of and system for determination of measured parameter gradients for environmental system control is presented. A system includes a sensor assembly with a first face opposite to and spaced apart from a second face and first and second sensors. The first sensor is adjacent to the first face and senses a first value of an environmental variable nearby. The second sensor is adjacent to the second face and senses a second value of the environmental variable nearby. The system includes a processor and a memory with instructions that cause the processor to: receive the first and second values and estimate a third value of the environmental variable at a distance spaced apart from the second face based on the first and second values. The system includes a sensor communication system for transmitting information including at least one of the first, second, and third value of the environmental variable.
Abstract: A method of and system for automatically adjusting airflow is presented. A system includes a controlled supply register that has an airflow adjusting mechanism that controls an aperture through which air passes and a register sensor that senses a value of an environmental variable in system duct work. The register also includes a communication system and a processor system that controls the airflow adjusting mechanism. The system also includes a sensor platform that senses an environmental variable in a space and transmits and receives information. The system also includes a controller that receives information about the environmental variables and a desired set point for the environmental variable in the space. The controller determines a target airflow to achieve the desired set point and transmits information about the target airflow. The register receives information about the target airflow and controls the register adjusting mechanism to achieve the target airflow.
Type:
Application
Filed:
April 29, 2014
Publication date:
May 14, 2015
Applicant:
ECOVENT CORP.
Inventors:
Dipul PATEL, Yoel KELMAN, Nicholaus Ray LANCASTER, Shawn Heen ROSE, Joseph M. SPADA, Nicholas JOHNSON
Abstract: A method of and system for automatically adjusting airflow and sensors for use therewith are disclosed. A sensor assembly includes a first face on an opposite side of the sensor assembly relative to a second face. The assembly includes an electrical plug on the first face and an electrical outlet on the second face. The electrical outlet is of a same type that is complimentary to the electrical plug on the first face. The assembly includes a sensor for sensing a value of an environmental variable in a space and a sensor communication system for transmitting and receiving information. A sensor system includes a plurality of sensor assemblies disposed in a building. Each sensor assembly includes a sensor for sensing a value of an environmental variable of the space within which the sensor is placed. The system determines gradient values for the sensed environmental variable.
Type:
Application
Filed:
April 29, 2014
Publication date:
May 14, 2015
Applicant:
EcoVent Corp.
Inventors:
Dipul PATEL, Yoel KELMAN, Nicholaus Ray LANCASTER, Shawn Heen ROSE, Joseph M. SPADA, Nicholas JOHNSON