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 sprayer for spraying fluid includes a pump, a motor that drives the pump, a drive cycle indicator, a wireless module configured to send and receive information, and control circuitry. The drive cycle indicator outputs an indication of cycle status of the pump. The control circuitry is configured to receive the plurality of cycle status indications of the pump, determine a plurality of output values representing paint spray fluid output volume over a plurality of time windows based on the plurality of cycle status indications of the pump, store the plurality of output values in memory, and cause the wireless module to transmit one or more of the stored plurality of output values externally from the sprayer.

A system having a material sensor system coupled to a material tank is provided. The material tank is configured to receive a quantity of the material and output a flow of the material. The material sensor system includes a float system coupled to an inner surface of the material tank. The float system includes a float configured float within a float cavity. The material sensor system includes a switch coupled to an outer surface of the material tank. The switch is communicatively coupled to the float system through a wall of the material tank, and the switch is configured to send one or more signals to a control system when the float engages the switch.

A hand sanitizer device is disclosed. The hand sanitizer device can include one or more storage chambers configured to store at least one of water and salt. The hand sanitizer device can be configured to receive a request for an amount of electrolyzed saltwater product for performing a hand disinfecting action. In response to receiving the request, the hand sanitizer device can automatically introduce a predetermined amount of water and a predetermined amount of salt into a reaction chamber and can be configured to provide a current of electricity from an electricity source and through the reaction chamber, thereby electrolyzing the contents in the reaction chamber to form an electrolyzed saltwater product.

A foreign matter removal device (1) is configured to remove foreign matters on a lens (101) of an in-vehicle camera (100) attached to a vehicle so that the lens (101) of the in-vehicle camera (100) is exposed toward an outside of a body panel of the vehicle. The foreign matter removal device includes a single-cylinder type reciprocating pump (5) configured to generate high-pressure air and a nozzle (22) configured to inject the high-pressure air toward the lens (101). A volume of an internal space of the pump is 10 cm.sup.3 or less. Exhaust time (t1) per cycle required for exhausting the air in the internal space is 0.03 seconds or less.

A method of actuating a double-action pump assembly with a reciprocating plunger includes signaling the reciprocating plunger to stop for a changeover period; while the pump is stopping, signaling the first inlet and outlet valves to close; while the first inlet and outlet valves are closing, signaling the second inlet and outlet valves to open, such that the second inlet and outlet valves begin to mechanically open at least a dwell period after the first inlet and outlet valves have entirely closed; and signaling the reciprocating plunger to begin moving while the second inlet and outlet valves are closing.

A system and method of use are provided for a hand sanitizer dispenser bottle. Disclosed herein is a system comprising a hand sanitizer dispenser bottle, including a reservoir configured to contain sanitizing liquid, an arm extending from the reservoir, a nozzle positioned on a lower surface of an upper portion of the arm, the nozzle configured for dispensing sanitizing liquid, and a sensor for detection the presence of a user's hand. In some embodiments, the nozzle is a dual-headed nozzle.

Modular mechanically driven diaphragm pump features are presented herein. Such a diaphragm pump can include a motor, a drive mechanism, and a coupling mounted on a wheeled frame. A diaphragm pump can be mounted to the coupling by forming mechanical static and dynamic connections to brace a housing of the diaphragm pump relative to a drive rod which is moved by the drive mechanism to operate the pump. These mechanical static and dynamic connections can be broken to dismount the pump for replacement or servicing. In some cases, a gas charge can be introduced on the non-working fluid side of the diaphragm to boost performance and/or a dampener can be integrated into the housing of the diaphragm pump and mounted/dismounted with the diaphragm pump.

The invention relates to a pump for the application of fluids, which comprises: a piston in which the head (3) of the plunger (1) is surrounded by two packing rings (4) separated from one another to form a channel (5), where a lubricant is added; a tubular case (6) for accommodating the tubular body (2) of the piston; a set of valves provided at the outlet end of the tubular body (2) of the piston, for suctioning and expelling fluids; an elbow (29) connected to the free end of a second valve container (22) to join the set of valves to a first pipe (30) that supplies fluid to the pump; and a second pipe (32) connected to the free end of a third section (18) of a first container (14), for receiving the fluids that exit the piston and transporting same to a nozzle (33) for the final application of the fluid.

Various embodiments concern a handheld paint sprayer for spraying a paint. The sprayer can comprise a shell body comprising a door that, when opened, exposes an opening into an interior of the shell body, the door configured to close over the opening. The sprayer can further comprise a trigger connected to a handle, a motor in the interior, and a paint reservoir connected to the shell body. The sprayer can further comprise a nozzle in fluid communication with the reservoir and a pump located in the interior of the shell body. The pump is operated by the motor, the pump configured to pump the paint from the reservoir out of the nozzle as a spray. The pump is removable from the interior of the shell body through the opening when the door is opened but is not removable through the opening when the door is closed.