Abstract: A polarized LED filter. The polarized LED filter comprises one or more components which are designed to attract and conglomerate particulates, allowing sub-micron sized contaminants to be easily captured. The polarizing effect delivers high-efficiency filtration with low static pressure. The combination of LED disinfecting arrays and anti-microbial coatings offer surface disinfection which reduces microbial growth, biological blow-off, airborne odors and VOCs while allowing for safer handling and servicing of the HVAC system and filter.
Abstract: An air quality monitoring and management system adapted to be mounted between an existing thermostat and a wall in which the thermostat was previously mounted, or directly at the HVAC system. The air quality monitoring and management system contains various wires for connecting to both a thermostat and HVAC system, thereby effectively intercepting the signal between the thermostat and HVAC system. The air quality monitoring and management system includes air quality measuring sensors, a housing for mounting between the wall and thermostat, and a controller that supplies electrical signals to the HVAC system through use of the aforementioned wires to supplement the control of the HVAC fan in conjunction with the thermostat to help increase air flow in the affected area. The air quality monitoring and management system may include an air quality management controller mounted to an HVAC air handling unit, and wirelessly connected to sensors.
Type:
Grant
Filed:
October 21, 2016
Date of Patent:
December 17, 2019
Assignee:
Triatomic Environmental, Inc.
Inventors:
Christopher C. Willette, Christopher Lee Miller
Abstract: A contamination control system for ductless air conditioners is disclosed. The contamination control system may be formed from one or more decontamination lamps contained within a tubular housing that is hollow and includes an internal cavity extending from the first end to the second end with at least one longitudinally extending sight window positioned between first and second tubular end regions. The decontamination lamp may be positioned within the internal cavity in the tubular housing. The tubular housing may be held in place with a mounting system including at least one tubular housing receiver in which the tubular housing is secured. The tubular housing is slidably held within the mounting system such that the tubular housing is slidable longitudinally relative to the tubular housing receivers and is rotatable within the tubular housing receivers. The decontamination lamp may be activated with a photo activated sensor.