A pump operated lid that pushes liquid through the lid. The pump operated lid includes an enclosure having an interior volume and an outer perimeter, wherein the outer perimeter is designed to removably secure to a cup. An air pump is within the interior volume along with a power source and a control circuit, each operably connected to the air pump. A switch is on the enclosure and operably connected to the air pump, such that the switch is designed to activate the air pump. One or more valves are on the upper surface and designed to allow air into the interior volume when the air pump is activated. An aperture is on the upper surface and extends through the enclosure and is designed to receive a straw therethrough.

An adjustable misting system and method for treating a region of a biological surface is presented. In an embodiment, a reconfigurable misting nebulizer includes a first misting panel having a plurality of apertures configured to atomize a formulation, and a second misting panel coupled to the first misting panel having a plurality of apertures configured to atomize the formulation. In some embodiments, a relative position of the first misting panel with respect to the second misting panel is adjustable.

A fluid dispenser having a reservoir (1), a dispenser head (T) provided with a dispenser orifice (62), a dip tube (22), a pusher (6) axially movable over a determined stroke, an electric pump (4) that delivers air into the reservoir (1) so as to force the fluid through the dip tube (22) and actuated by the pusher (6), and a fluid outlet valve (7). All of the air coming from the electric pump is delivered into the reservoir. The electric pump (4) is activated by the pusher (6) as soon as it leaves its high rest position, and the outlet valve (7) is opened only in the proximity of the low depressed position, such that the electric pump (4) is electrically powered before the outlet valve (7) is opened and delivers air into the reservoir (1) with an increase in pressure that is less than 1 Bar.

A hand-held dispenser to dispense fluid includes a casing to fit into a hand of a user, a nozzle in the casing to dispense a mist, a fluid reservoir contained in the casing to hold a fluid to be turned into the mist, a filament extension atomizer contained in the casing to generate the mist, an air source contained in the casing to provide air flow to direct the mist to the nozzle, a motor contained in the casing to operate the filament extension atomizer, an actuator positioned on the casing to activate the dispenser, a control circuit contained in the casing to receive a signal from the actuator and to send a signal to the motor to cause the motor to actuate, and a power source contained in the casing to provide power to the motor upon receive a signal from the control circuit.

This present invention provides a gas cartridge sprayer attachment for a garden hose that is to be used in conjunction with a standard garden hose connector and increase pressure in the water flow, and thereby vary the spray distance in a manner suitable for gardening needs. The sprayer attachment has a pistol-shaped body, with a barrel portion provided with an on/off switch in its forward part, a trigger switch, which opens and closes fluid flow from the garden hose into the sprayer attachment, and a gas cartridge delivering pressuring gas into the water flow passing through the sprayer attachment body. The sprayer attachment is provided with an independent power source. A gas release switch is coupled to the power source and the gas cartridge for releasing the gas from the gas cartridge.

A tank holding a quantity of liquid releasably connects to a portable pump assembly through a connector to provide a portable sprayer. The tank connects to a feed line that supplies spray nozzle with the liquid. The connector combines a quick disconnect connector with a pressure relief valve. The portable pump assembly includes an electric pump, a switch assembly, and a check valve. The portable pump assembly directs gas through the check valve into the connector to increase the gas pressure in the tank and force the liquid in the tank to flow through the feed line and out the spray nozzle. The switch assembly turns off the electric pump when the gas pressure in the tank exceeds a predetermined limit while maintaining the flow of liquid through the spray nozzle.

A pressurized liquid delivery assembly has at least one liquid delivery module. Each module may include a housing and an associated compartment. The compartment may be located within the housing and may be moveable with respect to the housing to permit access to the compartment by a user. The compartment may define a space adapted to receive a replaceable pressurised receptacle containing liquid to be dispensed by the assembly. A liquid dispenser may be operatively associated with the receptacle and adapted to dispense liquid. The dispenser may include a conduit that may be extendable from a dispensing nozzle to a liquid receiving connector. The liquid receiving connector may be adapted to releasably connect to the liquid receptacle in use.

A fluid dispenser includes a bottle having an opening, a fluid dispensing tube inside the bottle, an inner cap having a top surface having first and second openings separated from each other, a lower cylindrical post extending from the top surface and being coupleable to the opening of the bottle, and an upper cylindrical post extending from the top surface and in an opposite direction relative to the lower cylindrical post; and a cap connector detachably coupled to the upper cylindrical post, the cap connector expanding and contracting between an expansion position and a contraction position and providing an extension path of the fluid dispensing tube in the bottle.

A hand-held cosmetic dispenser having a housing with a first end and a second end, the housing having a nozzle coupled to a first end of the housing, a power source disposed within the housing, a spray button coupled to the housing, a cosmetic fluid compartment disposed within the housing and configured to receive and retain a fluid cosmetic, a gas compartment configured to receive and retain a gas cannister, and a gas controlling system disposed within the housing. The gas controlling system having a control mechanism that controls how much gas can leave the gas cannister. The power source is electrically coupled to the spray button and the gas controlling system. A method of using the same.

A pump operated lid that pushes liquid through the lid. The pump operated lid includes an enclosure having an interior volume and an outer perimeter, wherein the outer perimeter is designed to removably secure to a cup. An air pump is within the interior volume along with a power source and a control circuit, each operably connected to the air pump. A switch is on the enclosure and operably connected to the air pump, such that the switch is designed to activate the air pump. One or more valves are on the upper surface and designed to allow air into the interior volume when the air pump is activated. An aperture is on the upper surface and extends through the enclosure and is designed to receive a straw therethrough.