Abstract: A non-sliding solenoid valve has an armature supported by a spring for movement with no sliding contact with other valve surfaces. An inner perimeter of the spring is snapped into position adjacent to an inner perimeter reference surface on the armature. An outer perimeter of the spring engages a reference surface on a shell of the valve, and another reference surface spaced, from the spring reference surface, receives an outer perimeter of a seat for the valve. When the seat is positioned against its reference surface, this urges the inner and outer perimeters of the spring against respective reference surfaces and completes the assembly with assured accuracy.
Abstract: A solenoid valve moves an armature back and forth translationally between valve open and valve closed positions without the armature having any sliding engagement with any fixed valve part. This is accomplished by supporting the armature with a spring having one periphery engaging a fixed valve surface and another periphery engaging the armature so that armature movement causes flexure of the spring, but no sliding contact. This helps prevent generation of dirt within the valve and ensures accurate armature movement to make the valve durable and reliable. Springs in both washer and cylindrical helical shapes can accomplish this, and the armatures supported by such springs can accommodate valve closing seals of different materials and shapes.