A dispensing unit (100) for controlling flow of a substance (101) comprises a nozzle (102) and a plug (110). The nozzle comprises an outlet (122) and a channel (104) that comprises a longitudinal symmetry axis (130), a sealing surface (106), and an alcove surface (108), contiguous with the sealing surface (106) and outwardly recessed relative to the sealing surface (106); and a plug (110). The plug (110) comprises a wall (112) that comprises an outer surface (114) and that also comprises a first aperture (116), fully penetrating the wall (112) through the outer surface (114) of the wall (112) of the plug (110). The outer surface (114) of the wall (112), comprising the first aperture (116), is complementary with the sealing surface (106) of the channel (104). The plug (110) is movable in the channel (104).

A system may include a spray device having a body with a first liquid passage configured to flow a first liquid and a second liquid passage configured to flow a second liquid. The spray device also may include a spray head configured to output a spray of the first liquid and the second liquid. In addition, the spray device may include a multi-component container coupled to the body, wherein the multi-component container comprises a first container portion having a first outlet configured to supply the first liquid to the first liquid passage and a second container portion having a second outlet configured to supply the second liquid to the second liquid passage, and the first and second outlets are positioned in close proximity to one another.

A fuel injection system designed for an internal combustion engine includes at least one fuel injection nozzle which, by way of a cylindrical shell body, is inserted at least in regions into a bore of a cylinder head and which, by way of a nozzle tip, feeds fuel to a combustion chamber between the cylinder head and a reciprocating piston. The fuel injection nozzle is held in position on a housing section of the internal combustion engine with the interposition of a holding device and, for example, a fastening bolt. The holding device braces a first end region of the fuel injection nozzle against a bore stop within the bore in the cylinder head. To optimize this fuel injection system, the holding device has, outside the bore, a fixing bushing to which the shell body is fixed axially and radially by way of a radial insert element. A spring system acts between a first radial stop of the fuel injection nozzle and a second radial stop of the fixing bushing as viewed in the axial direction of the shell body of the fuel injection nozzle. The spring system seeks to move the fixing bushing, by way of a third radial stop, against a locking element system of the insert element, which is supported on a fourth radial stop applied to the shell body.

A dispensing valve comprising a metering valve for a pressurized aerosol application. The dispensing valve comprises a mounting cup, a gasket, a valve body and a valve housing defining a cavity. The valve housing is captively retained by the mounting cup and a spring biasing the valve body against the gasket into a normally closed position. A lower portion of the valve housing communicating with the product to be dispensed. A valve stem is coupled to the valve body and an actuator is supported by the valve stem. The metering valve is delimited by a metering valve seat and a stop. A metering member is movable, within the metering chamber, to dispense a predetermined quantity of product. The metering valve seat comprising at least one micro vent which facilitates supplying air to the metering valve seat to break a seal formed by surface tension of the product to be dispensed.

A spray valve has a valve body, a moving pin, an air-passage seat, and a nozzle structure. The moving pin is mounted within the valve body, is linearly movable relative to the valve body, and has an impact end. The air-passage seat has a connecting portion screwed onto the valve body and a positioning groove. The nozzle structure has a nozzle seat and a spray nozzle. The nozzle seat is movably accommodated in the positioning groove. The spray nozzle is in sliding fit with the nozzle seat and has a positioning conical portion. The positioning conical portion corresponds to the impact end of the moving pin and is configured to contact the impact end of the moving pin.