A pushing-dispensing and/or dosing element for dispensing of medium, in particular Composite Heavy Fluid Compound (CHFC) or plurality thereof, solves technical problem of implantation of a pushing-dispensing and/or dosing element that will not have sliding and/or moving parts, or it will have a limited number of said sliding and/or moving parts essentially exposed to medium, preferably CHFC, or plurality thereof by using a flexible cartridge that behaves differently during the pushing of CHFC, and differently during pumping of said CHFC's out of the tank in which they are held.

A fluid discharge apparatus includes a storage chamber, a moving body, a drive mechanism, and a coupling member. The storage chamber includes a discharge port to discharge the fluid. The moving body includes a leading end portion facing the discharge port inside the storage chamber. The drive mechanism is positioned on the opposite side of the moving body to the discharge port, and performs an operation to reciprocate the moving body. The coupling member couples the moving body to the drive mechanism such that the moving body is attachable and detachable. The coupling member includes a biasing section to apply an elastic force in a direction to move the moving body toward the drive mechanism, and, while pressing the moving body against the coupling member, to support the moving body in a state in which the moving body is capable of elastic displacement in a direction toward the discharge port.

An application device for coating components with a coating agent includes: a print head having several individual nozzles for discharging the coating agent; and a nozzle valve attached to each individual nozzle, each nozzle valve being openable for a valve opening time to discharge the coating agent from the respective nozzle. Each nozzle valve is assigned in each case a nozzle valve supply line, which nozzle valve supply line, at an outlet opening thereof, supplies the coating agent to the respective nozzle valve. Each nozzle valve supply line has an inlet opening to be closed or shut off such that a quantity of the coating agent that is metered in a defined manner or a volume of the coating agent that is metered in a defined manner is receivable in a closed off manner within the nozzle valve supply line.

A liquid discharge head for controlling discharging of liquid, the liquid discharge head including a valve body configured to be movable, and to be pressed towards a discharge port from which the liquid is discharged; and a recessed portion provided in the valve body at a position facing the discharge port.

A method for monitoring a nozzle mouthpiece for placing on a nozzle for spraying materials, in particular dispersions, emulsions or suspensions.

A lavage arrangement has an applicator housing which has a handle and an application opening for dispensing a rinsing liquid and encloses a drive receptacle which is accessible via a housing opening. The lavage arrangement has a liquid line by means of which the application opening can be connected to a reservoir of the rinsing liquid. The lavage arrangement has a drive unit of a pump that can be inserted into the drive receptacle, for conveying the rinsing liquid from the reservoir to the application opening, the drive unit having a motor, a power supply device and a pump drive shaft which can be driven by the motor. A rotor which can be driven by means of the pump drive shaft is provided, on which at least one displacement element is held and which, together with a deformable section of the liquid line forms the pump in the form of a peristaltic pump.

An oral care appliance comprises: a fluid delivery system for producing discrete fluid bursts by means of a pump (130), a regulator (132) regulating liquid in a pressurized liquid tank (134) delivered via a valve (140) through a fluid delivery path (123) in an outlet member (124), directed to a nozzle assembly (126) from which the resulting fluid bursts are directed to the teeth.

[Problem] To quickly and thoroughly flush out residual coating material remaining in a coating head.

[Solution] The coating machine of the present invention is a coating machine comprising an inkjet type coating head having an ejection surface on which a plurality of nozzles for ejecting coating material are provided, the coating machine comprising: a robot arm comprising a plurality of arm members at least including an arm member that holds the coating head; an arm control unit that controls the position and attitude of the coating head by driving the robot arm; a supply passage for supplying coating material to the coating head; a cleaning liquid supply unit which supplies cleaning liquid to the coating head via the supply passage; and a cleaning control unit which controls the cleaning liquid supply unit, wherein the arm control unit controls the driving of the robot arm during cleaning of the coating head so as to change the attitude of the coating head from a specified attitude to a tilted attitude in which the ejection surface is tilted relative to the horizontal plane, and the cleaning control unit drives the cleaning liquid supply unit to supply cleaning liquid to the supply passage in a state where the attitude of the cleaning head has been changed.

An oral care appliance comprises: a fluid pump assembly (46); a source of liquid (50); and a source of gas (12), wherein the pump is in operative communication with the sources of liquid and gas to produce a series of gas-injected fluid pulses, directed to a nozzle assembly (80) from which the resulting pulses are directed to the teeth. The individual pulses have a pulse width in the range of 0.001-0.5 seconds, a pulse height from 0.1-10 Newtons, and a rise/fall time range of 0.5-250 ms, a repetition rate in the range of 2 Hz to 20 Hz. The gas/liquid mixture range from 40-95% volume to volume, gas to liquid.

Fluid delivery devices and methods are described, where the device may comprise a piezoelectric actuator operatively coupled to an ampoule with fluid, under a preloading force. The ampoule may comprise a thin-walled thermoplastic package which includes one or more apertures positioned on the wall of the ampoule. The piezoelectric actuator may be configured to clamp at least partially around the circumference of the ampoule and apply oscillations to its wall. The oscillations, typically in ultrasonic frequency, produce cycles of acoustic pressure in the fluid, leading to ejection of the fluid droplets or streams from the apertures.