A system for dispensing fluid in response to a sensed property such as an ambient sound comprises a sensor for detecting one or more properties, a processing stage for determining if the one or more sensed properties is/are within a predetermined range and/or above and/or below a predetermined level and dispenser for dispensing a fluid into an area surrounding the system if the one or more sensed properties is/are determined by the processing stage to be within a predetermined range and/or above and/or below a predetermined level and/or value.

A system and method for mixing and dispensing one or more pesticides includes a plurality of pesticide containers (5) for containing pesticide and at least one dosing device (7) associated with the pesticides containers and adapted to dose pesticide from the pesticide containers. A mixing device (9) receives pesticide from the dosing device and mixes the pesticide to form at least one of a pesticide solution and a pesticide mixture. A computer device (21) includes a processor and is adapted to receive an input from a user and based on that input operate the dosing device to dose a quantity of pesticide from one or more of the pesticide containers.

Provided are a mosquito control aerosol which can produce a good control effect on mosquitoes over a long period of time while reducing influence on humans and pets, and a mosquito control method using the mosquito control aerosol. The mosquito control aerosol includes: a pressure-resistant container equipped with a metering spray valve, that contains a liquid aerosol-forming material including an insect pest control component and an organic solvent, and a propellant; and a spray button having a spray outlet connected to the metering spray valve. The volume of the liquid aerosol-forming material sprayed when the spray button is pressed down once is adjusted to 0.1 to 0.4 mL, and the spray force thereof as measured at a distance of 20 cm from the spray outlet at 25 C. is adjusted to 0.3 to 10.0 g.Math.f.

A multifunctional misting system having a housing assembly, a frame assembly, a mist blower assembly, a valve assembly, a recess control panel assembly, a pump-motor assembly, a tank assembly, and a handle assembly. The housing assembly has first and second flat panels, a front panel, a rear panel, a top panel, a bottom panel, and locking corners. The frame assembly has first and second frames, and a battery with a battery retainer. The mist blower assembly has a blower and nozzles. The pump-motor assembly is a motor attached to a pump. The motor has a motor-battery bracket fixed to the motor and a spacer. The handle assembly is positioned onto the top panel of the housing assembly. The multifunctional misting system may operate as a mist blower.

A method of generating a low-CFM fog with a portable, battery-powered fogging apparatus is provided. Airflow is initiated through at least one passageway of fogging apparatus with a DC powered blower motor receiving power from at least one battery. A quantity of pressurized fogging liquid is expelled through a nozzle positioned proximate to an opening within a mixing chamber, wherein the quantity of pressurized fogging liquid exits the nozzle with at least 90% of an atomized micron particulate size between 5 and 60 microns. The expelled quantity of pressurized fogging liquid is atomized with the airflow to produce a fog at 190 CFM and at a velocity of less than 190 MPH.

A portable fogger apparatus includes a portable fogger body having at least one airflow passageway. A DC blower motor is connected to the fogger body proximate to the airflow passageway and receives power from a battery, wherein the DC blower motor produces an airflow through the passageway. A mixing chamber is positioned along the at least one passageway, wherein at least a portion of the airflow is movable through the mixing chamber. A quantity of pressurized fogging liquid is housed within a container connected to the fogger body. The pressurized fogging liquid is dispensable from the container into the mixing chamber where it is expelled through a nozzle and mixed with the airflow to produce a fog. The fog has an atomized micron particulate size between 5 and 60 microns. An activation switch controls activation of the DC blower motor and/or dispensing of the pressurized fogging liquid.

An upper assembly has a housing adapted to receive a spray can of the type including a button with an exhaust port. The upper assembly has a lateral opening, an upper support arm is secured to and extends laterally from the housing, and a lower support arm. An actuating lever has an interior end pivotably coupled to the housing adjacent to the lateral opening, an exterior end formed with an upper aperture, and a central extent located above the button. A lower assembly has a cylindrical support and a trigger. The trigger has a pivot end rotatably coupled to the cylindrical support, a free end adapted to be depressed to rotate the pivot end of the trigger, a lower aperture adjacent to the pivot end, and a spring between the cylindrical support and the free end of the trigger.

Methods for sanitizing or killing bed bugs include identifying infested surfaces for treatment, shaking a spray dispenser containing an insecticide composition, and spraying insects and/or infested surfaces from a prescribed distance (e.g., 6 to 8 inches away) for at least 3 seconds with the insecticide composition. The insecticide composition includes about 50% to about 90% alcohol (e.g., ethanol) and about 5% to about 45% water, by weight. The composition has been found to be very effective against bed bugs, and has a safer flammability rating compared to other aerosol products intended to kill bed bugs. The method may result in greater than 90% mortality against bed bugs after 96 hours, and/or greater than 80% mortality against bed bugs after 24 hours. For example, such 80%, or 90% mortality thresholds can be achieved within 1 hour.

The bug terminator system includes a bug terminator assembly including a docking station having a housing with at least one container-receiver, a logic circuit, at least one electromechanical valve, necessary electrical circuitry, a powerer, a motor, an actuator, at least one inputting means, and at least one pressurized-container for removably containing a dispensable liquid to control pests and alternately to dispense room fresheners or other liquids in an atomized form.

An arthropod trap with an aerosol dispenser that is remotely controllable to dispense spray doses of an active ingredient such as a pheromone or other semiochemical. Images are captured of trapping media within the trap and are wirelessly communicated to a remote server or application. The dispenser is preferably upside down with the nozzle near the lower extremity of the inverted dispenser. An actuation mechanism controls the spray dose according to a schedule or according to individual sprays commands, each of which may be received wirelessly by the trap. Images of the trapping media may be used as feedback for verifying or modifying the metered dosing schedule.