In an electrostatic atomization coating apparatus including a nozzle head including a plurality of coating material ejection ports; a coating material chamber that is provided inside the nozzle head and to which a coating material is supplied via a coating material supply path, each of the coating material ejection ports being in communication with the coating material chamber via an individual branch coating material path; and a voltage application device that provides a potential difference between the nozzle head and an object to be coated, the coating material ejected from each of the coating material ejection ports via the coating material supply path, the coating material chamber, and the branch coating material path being brought into a charged state through application of a voltage by the voltage application device, an open/close valve device that opens and closes all of the branch coating material paths, or opens and closes a specific subset of a plurality of branch coating material paths out of all of the branch coating material paths is provided. Thus, it is possible to prevent external air from entering the nozzle head, and the coating material from leaking to the outside of the nozzle head.

Embodiments of the present disclosure provide for coaxial nozzles, capsule fabrication systems comprising coaxial nozzles, and methods of capsule fabrication using capsule fabrication systems. In certain embodiments, coaxial nozzle configurations, capsule fabrication systems, and methods as described herein can be used for multi-layered capsule fabrication.

Embodiments of the present disclosure provide for coaxial nozzles, capsule fabrication systems comprising coaxial nozzles, and methods of capsule fabrication using capsule fabrication systems. In certain embodiments, coaxial nozzle configurations, capsule fabrication systems, and methods as described herein can be used for multi-layered capsule fabrication.

The present disclosure relates to a dual flow fitting that permits a user to select between a first, low flow rate and a second, high flow rate, as well as variable flow rates there between. The fitting includes a plunger within a housing body. A plurality of longitudinal grooves are defined along either the inside of the housing body or the outside of the plunger. At least one of the grooves has a varying portion along which the cross-sectional area of the groove varies over a length of the groove. This varying portion can be moved relative to a seal member positioned between the housing body and the plunger, thus allowing for variation of the flow rate through the fitting. The larger the cross-sectional area of the groove(s) at the point of contact with the seal member, the greater the flow rate through the fitting.

The present disclosure relates to a dual flow fitting that permits a user to select between a first, low flow rate and a second, high flow rate, as well as variable flow rates there between. The fitting includes a plunger within a housing body. A plurality of longitudinal grooves are defined along either the inside of the housing body or the outside of the plunger. At least one of the grooves has a varying portion along which the cross-sectional area of the groove varies over a length of the groove. This varying portion can be moved relative to a seal member positioned between the housing body and the plunger, thus allowing for variation of the flow rate through the fitting. The larger the cross-sectional area of the groove(s) at the point of contact with the seal member, the greater the flow rate through the fitting.

A nozzle system includes a head part having a spray part formed at a location corresponding to a sensor part and a body part having a portion of the head part inserted thereinto and located therein. The body part includes an inlet part configured to allow fluid to flow into the body part therethrough. The nozzle system includes a delay part insertable into at least the portion of the head part and located in the body part. The delay part protrudes in a movement direction of the head part. The fluid flows into the body part and the head part is moved along the delay part and the fluid is sprayed out of the spray part of the head part when the head part is located at and clear of an end of the delay part.

Embodiments of the present disclosure provide for coaxial nozzles, capsule fabrication systems comprising coaxial nozzles, and methods of capsule fabrication using capsule fabrication systems. In certain embodiments, coaxial nozzle configurations, capsule fabrication systems, and methods as described herein can be used for multi-layered capsule fabrication.

An injection valve including a valve body defining an inlet, an outlet, and a fluid flow path connecting the inlet and the outlet. A valve shaft is disposed in the valve body, and a valve plug is operatively connected to the valve shaft. The valve plug is movable between an open position, in which the valve plug permits fluid flow between the inlet and the outlet, and a closed position, in which the valve plug limits flow between the inlet and the outlet. A seat ring defines a valve seat and is proximally disposed relative to the outlet of the valve body. The valve plug moves away from the valve seat when moving in a direction toward the valve body, and toward the valve seat when moving in a direction away from the valve body.