What is presented is a system and method for bubble creation in a fluid injection nozzle for the injection of a gas into a liquid to divide the gas into the smallest possible bubble size with the largest cumulative surface area by maximizing the percentage of gas at the highest possible kinetic energy that is in contact with the liquid. The fluid injection nozzle comprises a convergent inlet for receiving a fluid and a divergent outlet for exhausting the fluid. The divergent outlet has multiple exhaust ports.

Provided is a container processing system capable of improving a speed of processing containers with a simple configuration and providing a compact production line. The container processing system (10) includes a container conveyer (20) having a container conveying path (21a) that conveys containers (C) arranged in a row and a container processor (40) that performs processing on the containers (C) in a container processing area (A2) set lateral to a container transfer area (A1) set in a segment of the container conveying path (21a). The container conveyer (40) includes a container carrier (21) conveying the containers (C) arranged in the row along the container conveying path (21a) and a container transferrer (22) moving a container row including the plurality of containers (C) arranged in the row in the container transfer area (A1) toward the container processing area (A2).

Provided is a container processing system that inhibits, a processing liquid that is used to process containers from being attached to peripheral equipment. A container processing system (10) includes a chamber (30) having in an inside thereof a gas flow control chamber (35) and a container processor (40) including container treaters (51) and (61) that perform processing on containers (C). The chamber (30) has container processing openings (36) and (37) making the gas flow control chamber (35) and an outside of the chamber (30) communicate with each other. The container treaters (51) and (61) are configured to perform, from inside the gas flow control chamber (35), processing on the containers (C), which are inserted into the chamber (30) through the container processing openings (36) and (37), or on the containers (C), which is opposed to the container processing openings (36) and (37), outside the chamber (30).

An online wheel water blowing device, comprises wheel positioning part and wheel water blowing part, and can meet requirement of on-line wheel water removal.

Methods and apparatus are disclosed for a coupling nozzle for cryogenic fluid. An example nozzle comprises a flow body defining a conduit, an inlet, and an outlet. A pneumatic cylinder is configured to slide between an extended position and a contracted position. The pneumatic cylinder is coupled to and configured to actuate the flow body. A locking mechanism is configured to secure the coupling nozzle to a receptacle. A flow control assembly comprises a valve seat fixed to the flow body adjacent the inlet and a plug configured to slide. When the locking mechanism is locked and the pneumatic cylinder actuates to the extended position, the valve seat is to disengage from the plug to open the flow control assembly. When the locking mechanism is locked and the pneumatic cylinder actuates to the contracted position, the valve seat is to engage the plug to close the flow control assembly.

The invention pertains generally to an improved fluid dispensing device, particularly a dispensing device which employs at least one hemispherical domed cannister source of reactants and which uses a color-changing dispensing plastic tip to inform the end-user if the reactants are at a proper use temperature.

An apparatus for dispensing fluid includes a fluid source; a nozzle having an inner layer and an outer layer, the inner layer defining a bore in fluid communication with the fluid source; and a plurality of pins each moveable to be in physical contact with the outer layer, wherein the plurality of pins is operable to apply a force towards the outer layer to adjust a cross-section of the bore.

Embodiments of the present disclosure generally relate to organic vapor deposition systems and substrate processing methods related thereto. In one embodiment, a processing system comprises a lid assembly and a plurality of material delivery systems. The lid assembly includes lid plate having a first surface and a second surface disposed opposite of the first surface and a showerhead assembly coupled to the first surface. The showerhead assembly comprises a plurality of showerheads. Individual ones of the plurality of material delivery systems are fluidly coupled to one or more of the plurality of showerheads and are disposed on the second surface of the lid plate. Each of the material delivery systems comprise a delivery line, a delivery line valve disposed on the delivery line, a bypass line fluidly coupled to the delivery line at a point disposed between the delivery line valve and the showerhead, and a bypass valve disposed on the bypass line.

A tool interface for coupling a tool to a robot. The tool interface has an abutment face for abutting a corresponding abutment face of the tool, and a coupling device for mechanically coupling the tool to the tool interface. A discharge device is provided for producing a discharge air flow in the region of the abutment face. The discharge device has a plurality of nozzle openings for discharging the discharge air flow, and the nozzle openings are supplied with compressed air by a common compressed air connection of the tool interface.

A cleaning apparatus for cleaning a nozzle of a liquid dispensing device is disclosed. The cleaning apparatus includes a base member supporting a receiving head including a receiving opening for receiving a portion of the nozzle to be cleaned, a gas inlet for receiving pressurized gas, and an outlet at the receiving head for applying pressurized gas to the nozzle for flushing the nozzle. The receiving opening can include a sealing edge for sealing the receiving head against the nozzle when the nozzle is received in the receiving opening. The cleaning apparatus can also include at least one of a discharge tube, a collection vessel and a filter element.