A barrel (20) adapted for use with a spray gun (2) is disclosed. The barrel (20) comprises a boost feed port (44) fluidly connected to a boost passageway (48), the boost passageway (48) being integral to the barrel (20). The boost passageway (48) is adapted to convey a pressurized boost fluid originating in the spray gun (2) to a boost delivery port (56) to assist in urging a coating fluid from a compatible coating fluid reservoir (80) for spraying by the spray gun (2).

Spray head assemblies, including an air-handling saddle that is attachable to a liquid spray gun platform, a liquid-handling core that is slidably engagable into the air-handling saddle, and an air cap; spray guns using such assemblies; and, methods of using such assemblies.

A fuel injector (10) includes a fuel feed tube into which fuel gas (F) is introduced inward from a first end side in an axis direction in which an axis (O) extends, an upstream support plate connected to the fuel feed tube, a downstream support plate defining a plenum (P) inside along with the upstream support plate, and plurality of premixing tubes (16) into which air is introduced. When viewed in the axis direction, the plurality of premixing tubes (16) are disposed at positions excluding a position on the axis, that is, at positions of vertexes of virtual equilateral triangles (T1) when a cross-sectional region of the plenum (P) which is perpendicular to the axis is partitioned to closely dispose a plurality of virtual equilateral triangles (T1) around the axis.

A fuel injector (10) includes a fuel feed tube into which fuel gas (F) is introduced inward from a first end side in an axis direction in which an axis (O) extends, an upstream support plate connected to the fuel feed tube, a downstream support plate defining a plenum (P) inside along with the upstream support plate, and plurality of premixing tubes (16) into which air is introduced. When viewed in the axis direction, the plurality of premixing tubes (16) are disposed at positions excluding a position on the axis, that is, at positions of vertexes of virtual equilateral triangles (T1) when a cross-sectional region of the plenum (P) which is perpendicular to the axis is partitioned to closely dispose a plurality of virtual equilateral triangles (T1) around the axis.

A needle for a jet device includes a needle body and a tapered part arranged at the end of the needle body, in which the needle body is circumferentially provided with supporting bodies, so that when the needle is assembled in a nozzle of the jet device, the outer surfaces of the supporting bodies are coordinated with an inner chamber of the nozzle to limit the position of the needle body and form fluid channels among the supporting bodies, thereby to effectively prevent the needle from deviating from the spout of the nozzle or from radially swinging.

A needle for a jet device includes a needle body and a tapered part arranged at the end of the needle body, in which the needle body is circumferentially provided with supporting bodies, so that when the needle is assembled in a nozzle of the jet device, the outer surfaces of the supporting bodies are coordinated with an inner chamber of the nozzle to limit the position of the needle body and form fluid channels among the supporting bodies, thereby to effectively prevent the needle from deviating from the spout of the nozzle or from radially swinging.

An injector apparatus and methods for use, where the injector apparatus comprises: (a) hydraulic stage having first and second ends and including a housing defining a cavity, a primary plunger disposed in the cavity and a secondary plunger, (b) a pressurization system coupled to the hydraulic stage's first end, where the primary plunger is in fluid communication with the pressurization system and is in mechanical communication with the secondary plunger, (c) a reservoir bore defined in the hydraulic stage housing and configured to receive the primary plunger's second end, where the secondary plunger is disposed within the reservoir bore and (d) a nozzle assembly including a housing, a gas tube and a nozzle capillary, where the nozzle capillary is partially disposed in and is substantially coaxial with the gas tube, where the nozzle capillary's first end is in fluid communication with the reservoir bore's second end.

The invention relates to a nozzle head for a spray device, comprising a central material nozzle, an air ring nozzle surrounding said material nozzle, and preferably at least two laterally projecting horns, into each of which at least one horn air nozzle is incorporated, and optionally comprising a material-conducting needle, characterized in that at least one nozzle (3, 3a, 3b, 5, 5a, 12, 12a, 12b, 15, 16, 17, 17a, 17b, 17c, 18, 18a, 18b1, 18b2, 18b3, 300a, 300b), preferably at least one horn air nozzle (15, 16, 17, 17a, 17b, 18, 18a, 18b1, 18b2, 18b3, 300a), has a non-cylindrical shape.

A material deposition device includes a solution supply component, a gas supply component, and a co-axial discharge mechanism. The co-axial discharge mechanism includes a solution discharge mechanism, and a gas discharge mechanism co-axial with the solution discharge mechanism. The material deposition device further includes an alignment component that aligns the solution discharge mechanism in a center of the gas discharge mechanism; and an orifice plate with a number of turbulence inducing structures that induce turbulence in gas exiting the gas discharge mechanism.

Disclosed is a gas distributor, including: a nozzle unit formed by joining a pair of nozzle members together such that the nozzle members face each other with a first nozzle gap defined between the nozzle members; and a nozzle assembly in which at least two nozzle units are assembled together in parallel, in which the nozzle gap includes a first flow path formed in parallel in a direction of the nozzle member, and a second flow path extended from the first flow path, formed with a smaller width than a width of the first flow path along a bonded surface, and discharging gas through an end portion of one side of the second flow path, and the second flow path is extended with the first flow path, and is inclinedly provided so that a width is gradually decreased in a portion adjacent to the first flow path.