Abstract: A solenoid-actuated three-way fluid control valve having a paramagnetic valve body and a ferromagnetic adjustable end stop connected by a ferromagnetic tubular sleeve and forming a housing defining a valve chamber containing an axially elongate generally cylindrical ferromagnetic solenoid plunger supported for axial reciprocal movement between a pair of axially opposed valve seats. The plunger is biased toward seating engagement with an associated one of the seats and is moveable out of seating engagement with the one seat and into seating engagement with the other seat in response to energization of a surrounding solenoid coil. An annular ferromagnetic flux ring disposed adjacent one end of the coil cooperates with a diametrically enlarged portion of the plunger to define a portion of a flux path. The position of the end stop relative to the sleeve is adjusted during manufacture to set the clearance between the valve plunger and the one valve seat thereby enabling accurate valve calibration.

Abstract: A solenoid-actuated three-way fluid control valve having a paramagnetic valve body and a ferromagnetic adjustable end stop connected by a ferromagnetic tubular sleeve and forming a housing defining a valve chamber containing an axially elongate generally cylindrical ferromagnetic solenoid plunger supported for axial reciprocal movement between a pair of axially opposed valve seats. The plunger is biased toward seating engagement with an associated one of the seats and is moveable out of seating engagement with the one seat and into seating engagement with the other seat in response to energization of a surrounding solenoid coil. An annular ferromagnetic flux ring disposed adjacent one end of the coil cooperates with a diametrically enlarged portion of the plunger to define a portion of a flux path. The position of the end stop relative to the sleeve is adjusted during manufacture to set the clearance between the valve plunger and the one valve seat thereby enabling accurate valve calibration.

Abstract: Photoconductive cadmium sulfide of high photosensitivity suitable for use in electrophotography. Such photoconductive cadmium sulfide is produced by subjecting cadmium sulfide powder to a heat treatment conducted at a temperature ranging from 200.degree. to 600.degree. C in an oxygen-containing inert gas atmosphere, incorporating the treated cadmium sulfide powder with a flux, an activator and sulfur in an amount of 0.002-0.05% by weight based on the cadmium sulfide powder and then baking the mixture in an inert gas atmosphere.