A spray bottle assembly includes a bottle having a neck, and a spray head assembly having a base cap configured to removably attach to the neck. The base cap has a feature that rotationally locks the base cap relative to the neck to constrain the spray head assembly in a predetermined plane. A multi-label system for a spray bottle includes: at least one strip, the strip including connected labels with differing information printed on each side, each label including a ring for positioning on a neck of the spray bottle. A pumping mechanism for a spray bottle includes: a unibody plunger having a sleeve section that variably inverts and overlaps an end thereof thus defining an internal volume that varies with the disposition of the sleeve section relative to the end. A pivoting head section that allows servicing of functional seal components.

A flow guide device of a spray container which comprises a bottle, a nozzle having a flow guide pipe and a straw is configured to be connected between the flow guide pipe and a suction pipe. The flow guide device includes a connecting pipe, a check valve and a check ball. The connecting pipe is connected with the flow guide pipe, which has a plurality of back flow passages and forward flow passages formed on the inner edge thereof. The check valve is arranged between the connecting pipe and the flow guiding pipe. The check ball is arranged in the connecting pipe and located on the port of the straw. When the spray container is in an inverted state, the liquid enters the connecting pipe, the one-way valve and the flow guide pipe from the backflow channel, and the check valve, wherein the flow guide pipe through the back flow passages is finally sprayed out. Accordingly, the flow guiding device has a simple structure and is convenient to assemble and capable of reducing the overall manufacturing costs.

A flow guide device of a spray container which comprises a bottle, a nozzle having a flow guide pipe and a straw is configured to be connected between the flow guide pipe and a suction pipe. The flow guide device includes a connecting pipe, a check valve and a check ball. The connecting pipe is connected with the flow guide pipe, which has a plurality of back flow passages and forward flow passages formed on the inner edge thereof. The check valve is arranged between the connecting pipe and the flow guiding pipe. The check ball is arranged in the connecting pipe and located on the port of the straw. When the spray container is in an inverted state, the liquid enters the connecting pipe, the one-way valve and the flow guide pipe from the backflow channel, and the check valve, wherein the flow guide pipe through the back flow passages is finally sprayed out. Accordingly, the flow guiding device has a simple structure and is convenient to assemble and capable of reducing the overall manufacturing costs.

An apparatus for personal hygiene of patients with reduced mobility is presented. The apparatus includes a support casing, a housing for accommodating a removable tank, a grippable washing head, a pump, a hydraulic circuit, and a valve assembly. A working operation mode and a standby operation mode are provided. In the working operation mode, the valve assembly determines in the hydraulic circuit a water supply path from the tank, to the pump, to the washing head and finally out of the delivery mouth. In the stand-by operation mode, the valve assembly determines in the hydraulic circuit a water recirculation path from the tank, to the pump, to the washing head and finally back to the tank, without water flowing out of the delivery mouth.

A tubeless dispenser container is disclosed, which includes: a bottle part in which the filling space is formed and in an upper surface of which a supply hole for allowing a flow of the content and an air hole for allowing an inflow of air are formed; a connector part that is coupled to an upper portion of the bottle part to spatially separate the supply hole from the air hole; and a pump part that is secured to a designated position of the connector part and is configured to suction and dispense the content supplied through the supply hole, where the bottle part has a hollow channel part formed on an inner wall thereof at one side, with the channel part having one end opening to a lower portion of the filling space and the other end opening to an upper portion of the filling space.

A fluid dispensing device includes a housing and a reciprocating piston fluid pump coupled to the housing. The reciprocating piston fluid pump includes a piston disposed within a cylinder. The piston is configured to pressurize at least one pumping chamber. A motor is coupled to the housing and connected to the reciprocating piston fluid pump to actuate the piston. A wobble assembly connects the motor to the piston of the reciprocating piston fluid pump. A spray tip connected to an outlet of the at least one pumping chamber.

Exemplary table-top sanitizer dispensers and dip tube separation members are disclosed herein. An exemplary table-top sanitizer dispenser includes a container. The container has a neck that has an inside diameter. The container having an annular wall extending outward from the base of the neck. The table-top dispenser has pump that has a pump housing. The pump housing has an annular retention member at the bottom of the housing. A nozzle is secured to the pump housing. A closure is also secured to the pump housing. The table-top dispenser further includes a dip tube. The dip tube is secured to the annular retention member. A dip tube separation member extending outward from the dip tub is also included. The dip tube separation member has a biased state and an unbiased state. In the biased state the dip tube separation member has a diameter that is smaller than the inside diameter of the neck. When the separation member moves toward its unbiased state, the separation member is wider than the inside diameter of the neck. When the dip tube is connected to the annular retention member and the separation member is located inside of the container, removing the closure and the pump from the container causes the dip tube to separate from the annular retention member and the dip tube remains in the container.

Exemplary table-top sanitizer dispensers and dip tube separation members are disclosed herein. An exemplary table-top sanitizer dispenser includes a container. The container has a neck that has an inside diameter. The container having an annular wall extending outward from the base of the neck. The table-top dispenser has pump that has a pump housing. The pump housing has an annular retention member at the bottom of the housing. A nozzle is secured to the pump housing. A closure is also secured to the pump housing. The table-top dispenser further includes a dip tube. The dip tube is secured to the annular retention member. A dip tube separation member extending outward from the dip tub is also included. The dip tube separation member has a biased state and an unbiased state. In the biased state the dip tube separation member has a diameter that is smaller than the inside diameter of the neck. When the separation member moves toward its unbiased state, the separation member is wider than the inside diameter of the neck. When the dip tube is connected to the annular retention member and the separation member is located inside of the container, removing the closure and the pump from the container causes the dip tube to separate from the annular retention member and the dip tube remains in the container.

An exemplary tabletop foam sanitizer dispenser includes a bottle comprising a reservoir for containing liquid sanitizer. The bottle has a base for sitting on a surface. The base has a base diameter. The bottle has a top and a neck located proximate the top having an opening. The opening has an inner neck diameter. The base diameter is at least 3 times the inner neck diameter. A pump assembly is also included. The pump assembly has a cylindrical housing. The cylindrical housing having an outer housing diameter. The outer housing diameter is less than the inner neck diameter. The cylindrical housing is inserted into the bottle through the neck opening. A pump is located in the cylindrical housing. The pump includes a liquid inlet, an air inlet, a liquid outlet and an air outlet. A pump is motor located in the cylindrical housing. A battery is also located in the cylindrical housing. A nozzle housing is located above the cylindrical housing. A liquid and air mixing chamber located in the outlet nozzle housing. The liquid and air mixing chamber is in fluid communication with the liquid outlet and the air outlet. An outlet nozzle is in fluid communication with the mixing chamber and is located in a lower portion of the nozzle housing. The table top dispenser further includes a sensor for detecting a hand of a user positioned below the nozzle.

A handheld comminutor—spray bottle assembly includes a bottle; a comminutor; and a sprayer assembly. The bottle has an externally threaded mouth. The comminutor includes a comminutor body, with an internally threaded rim, housing a power source and an electrically connected motor. Blades connected to the motor by a shaft extend from the comminutor body. The sprayer assembly includes a spray head attached to a spray bottle cap, a siphon straw and an elongated filter housing connected with a spray head inlet, with a filter on the housing. A filter housing cap secures the filter to the housing. The spray bottle cap has an internally threaded rim and a seal ring. The comminutor rim and the spray bottle cap rim alternately connect with the mouth of the bottle. The motor rotates the shaft and the blades. Biomatter and liquid comminuted in the bottle are dispensed using the spray head.