A paint sprayer includes an end bell, a motor connected to the end bell, a pump drive connected to the end bell, a pair of protrusions attached to an extending from the end bell such that each protrusion is cantilevered from the end bell, and a pump assembly comprising a pair of mounting holes and containing a piston. The pair of mounting holes is adapted to receive and slide onto the pair of protrusions to mount the pump assembly on the end bell as well as slide off of the pair of protrusions to remove the pump assembly from the end bell. The pump drive is configured to covert rotational motion output by the motor to reciprocal motion. The pump assembly is configured to pump paint when reciprocated by the pump drive while mounted on the end bell.

A paint sprayer includes an end bell, a motor connected to the end bell, a pump drive connected to the end bell, a pair of protrusions attached to an extending from the end bell such that each protrusion is cantilevered from the end bell, and a pump assembly comprising a pair of mounting holes and containing a piston. The pair of mounting holes is adapted to receive and slide onto the pair of protrusions to mount the pump assembly on the end bell as well as slide off of the pair of protrusions to remove the pump assembly from the end bell. The pump drive is configured to covert rotational motion output by the motor to reciprocal motion. The pump assembly is configured to pump paint when reciprocated by the pump drive while mounted on the end bell.

A high-volume foam spray gun assembly having a mixing section comprising a chamber bore, and a mixing chamber movingly disposed within the chamber bore. The mixing chamber further includes a first lateral orifice, a second lateral orifice, a central mixing bore, and a central mixing bore outlet. The spray gun assembly is operable to spray a foam product out of the spray tip at a rate of in the range of about 10 lbs/min to about 100 lbs/min. The first lateral orifice has a first lateral orifice diameter in the range of at least greater than 0.1 inches. The second lateral orifice has a second lateral orifice diameter in the range of at least greater than 0.1 inches.

A discharge container 1 includes a container body having a discharge face 13, on which a discharge hole 15 is formed, a cylinder part including a discharge space 2 in communication with the discharge hole 15 inside the container body, a piston 3 movable between a first position and a second position, the second position being farther than the first position from the discharge face in the discharge space 2, and a plurality of storage portions 5a to 5e for storing contents, wherein a plurality of inlet holes respectively corresponding to the plurality of storage portions 5a to 5e are formed in an inner wall of the discharge space 2, wherein, when the piston 3 is at the second position, the plurality of inlet holes 22a to 22e communicate with the discharge space 2 between a top face of the piston 3 and the discharge face, and the contents are ready to flow into the discharge space 2 from the plurality of inlet holes 22a to 22e, and wherein, when the piston 3 is at the first position, the plurality of inlet holes 22a to 22e are closed by the piston 3.

A UFB-containing liquid manufacturing apparatus includes a liquid ejecting unit having a thermal energy generating element, a flow path for leading liquid to the thermal energy generating element, a driving unit configured to drive the thermal energy generating element, and an ejection opening. The UFB-containing liquid manufacturing apparatus also includes a collecting unit configured to collect liquid ejected from the ejection opening. At this time, the driving unit drives the thermal energy generating element to cause film boiling in liquid led to the flow path and causes liquid containing ultrafine bubbles generated by the film boiling to be ejected from the ejection opening.

An apparatus for treating human skin includes an outer housing including a graspable portion, an applicator head and a cartridge connected to the applicator head. The cartridge includes a nozzle located in the applicator head. An image capture device captures images of the human skin through an opening in the applicator head. A processor analyzes the images of the human skin to identify skin deviations. A sealing assembly includes a support portion and a resiliently deformable sealing element supported by the support portion at a location within the applicator head. The sealing assembly has a closed configuration where the sealing element is sealed against the nozzle and an open configuration where the sealing element is removed outward away from the nozzle in a composition delivery direction to expose the nozzle for operation.

Disclosed is a two-fluid fog generator including: a low-pressure fog generator (10) breaking down liquid into liquid micro particles and spraying the liquid micro particles through a primary nozzle hole (16) of a nozzle body (13); and a fog generation unit (20) positioned on top of the nozzle body (13) and comprising: a conical pneumatic chamber (22) filled with compressed air; and a secondary nozzle hole (26) spraying fog, wherein the secondary nozzle hole (26) is located directly above the primary nozzle hole (16) and arranged in a concentric manner with the primary nozzle hole (16), wherein the fog includes a mixture of a compressed air and the liquid micro particles.

The present invention discloses a method for improving the solenoid dispensing water resistance, comprising a base, said base top surface of the fixed mounting support column slidably mounted threaded rod of the boom, the bottom of the threaded rod fixedly mounted may coil for dispensing of the dispensing head, when the dispensing start lifting the motor, the lifting motor drives a first gear, a first gear rotatably drives the second gear, the second gear rotates the threaded rod may be down to the coil dispensing improved dispensing manner, increasing the efficiency of dispensing can be generated after a significant reduction dispensing bubbles, to improve the quality of the coil, glue extrusion by pressurizing the way, bubbles in the glue are deposited After the dispensing is completed, use the vibration method to shake the air bubbles in the coil to make the coil have better quality.

A nozzle apparatus is described in relation to dispensing colorant liquid in a paint tinting system. The nozzle apparatus comprises: a nozzle (12, 13) with a passage (14, 15) for a colorant liquid (16), the passage (14, 15) extending to an outlet for dispensing colorant liquid from the nozzle (12, 13); and an ultrasound transducer (20) for applying ultrasonic vibration to the nozzle (12, 13) and/or to liquid (16) at the nozzle outlet.

A sticking elimination method and structure for the water control valve of a water spraying timer. The methodology includes: open/closed state sensing step: detect the open/closed mode of the water control valve and generate and send a signal to the electronically controlled processing unit; stuck state judging step: the detecting and computing module of the processing unit judges if the state of the component has gone beyond the preset abnormal value; reverse control step: if a stuck state is judged, the valve is driven to reverse; reverse state sensing step: detect if the valve has successfully reversed and returned to the open/closed mode; repeated reverse step: if the stuck state is not eliminated, repeat the reverse till set times; automatic shutdown step: if the reverse times reach the set times and it is judged that the valve is still in the stuck state, shut down the water spraying timer.