A system for circulating a volatile composition throughout at least one room is provided. The system includes a central communication unit capable of receiving incoming signals and sending outgoing instructions. The central communication unit comprises a memory configured to store settings. The system includes a volatile composition dispenser capable of delivering the volatile composition into the air. The volatile composition dispenser is communicably connectable with the central communication unit through a wireless communication link. The system includes an air handling device communicably connectable with the central communication unit and configured to move air throughout the at least one room upon receipt of an outgoing instruction from the central communication unit.

The system of the present invention is for treating surfaces and airborne particles comprising. The system includes an exterior housing and an enclosed water storage tank mounted inside the exterior housing to store water. The system may also include a dry mist generator mounted on a water float to position the dry mist generator below a surface of the water stored in the enclosed water storage tank. The system may further include an air blower having an outlet connected to water storage tank above a predetermined water level. The system may still further include an oxygen tank having an outlet, and an ozone generator connected to the outlet of the oxygen tank, The system may also include a regulator and flow meter connected to the outlet of the oxygen tank and having an inlet conduit to the ozone generator to regulate a flow of oxygen into the ozone generator.

An apparatus used to disinfect viruses/bacteria contaminated exhaust air from devices, such as ventilators, CPAP, APAP, VPAP auto, BiPAO, ECMO, and also devices for air filtration used in cars, buildings, ships, planes, etc. is disclosed in this document. A heat source is used to burn the contaminated air at elevated temperatures, such as 100° C., 500° C., 1,000° C., and/or even more, in a confined environment to inactivate/destroy viruses/bacteria carried in the air. The heat sources can be, but not limited to, electrical, gases, infrared, microwave, and Ultraviolet (UV). After disinfection, the exhaust air from the apparatus is then released to the ambient environment, or to the next chamber for further treatment.

The present disclosure relates to a unique and novel antibacterial and antiviral decontamination system that can be integrated into an existing HVAC system in a vehicle, and that can be used to decontaminate and sanitize the interior of the vehicle in a safe, efficient and thorough manner. The system may be controlled manually via a switch within the cabin of the vehicle, or remotely via, for example, a smart device. The system comprises a replaceable and refillable cartridge that contains an antibacterial, antiviral, sanitizing solution, and a vaporizer that is used to vaporize the solution into a fine mist that is then dispersed throughout the interior of the vehicle via the existing HVAC system.

An anion essential-oil fragrance machine vibration-wave-conduction cup-bottom-element reinforcement and replaceable water-cup and nozzle structure; especially an anion essential-oil fragrance machine which can prevent the heat-ablation crack of the bottom of the vibration-wave-conduction cup, which is generated by the long-term action of the high-temperature and high-speed-vibration frequency of the oscillation unit. Therefore, it can improve the conduction efficiency, prevent leakage, prolong the life of the machine-body components, improve the stability of the machine-body quality, reduce the non-performing rate and the burden of after-sales maintenance man-hours, and save time and effort.

Provided are a double-layer sound insulation and noise reduction device and an atomizer. The double-layer sound insulation and noise reduction device includes a noise reduction main body, a water baffle and a connecting member, the noise reduction main body includes an annular outer wall and an annular inner wall, the annular inner wall is spaced apart from the annular outer wall to form a sound insulation cavity, and the connecting member is connected between the annular inner wall and the annular outer wall; a side of the annular outer wall is provided with an outer wall ventilation opening, a side of the annular inner wall is provided with an inner wall ventilation opening communicating with the outer wall ventilation opening, and a bottom of the annular inner wall is formed with a water passing hole.

Dispensers of the present technology are configured to receive a replaceable refill cartridge, and may include a back housing, a front cover, a control unit, a refill housing configured to receive a refill cartridge, and a switch board positioned between the refill housing and the back housing. Dispensers may also include at least one refill guide removably connected to the refill housing. The switch board may include at least one switch operatively connected to the control unit. The at least one switch may be a refill recognition switch configured to send at least a refill recognition signal to the control unit indicating that a refill cartridge is present in the refill housing, or a refill size switch configured to send a refill size signal to the control unit indicating a size of the refill cartridge.

A cartridge that is releasably connectable with a housing of a microfluidic delivery device is provided. The cartridge has a reservoir for containing a fluid composition and a microfluidic die in fluid communication with the reservoir. The microfluidic die is configured to dispense substantially all of the fluid composition in a horizontal direction or downward direction relative to horizontal. The cartridge also includes an air flow channel disposed below the reservoir. The air flow channel extends from a fan to an air outlet. The air flow channel comprises a first region disposed adjacent to a fan, a second region disposed adjacent to the air outlet, and a third region joining the first and second regions. At least the second region is angled upward to the air outlet, relative to horizontal.

A method and apparatus for decontaminating substantially enclosed environments by using ultrasonic cavitation of a cleaning fluid to produce a low pressure, low air flow mist that can be activated by a nonthermal plasma actuator to create a cloud of activated hydroxyl species with the capacity to decontaminate articles, open surfaces or substantially enclosed spaces of pathogens, including bacteria, and other pathogenic microorganisms. An automated system and related non-transitory computer medium are also disclosed.

Methods, devices and systems are described for digitally creating new scents or digitally dispensing gas, vapor, or liquid substances. A device includes a container or replaceable cartridge including one or more chambers containing one or more scented substances; a housing structured to include a compartment to hold the cartridge, an opening to allow the one or more scented or unscented substances to dispense to an outer environment from the device, and one or more transporting channels formed between the compartment and the opening, in which each of the one or more transporting channels is configured to deliver a scented substance from the corresponding chamber to the opening for delivering a scent from the one or more scented substances; and an actuator switch arranged in a corresponding transporting channel and rapidly operable to move between an open position and closed position based on an applied signal to selectively allow passage of the scented or unscented substance from the corresponding transporting path.