A valve arrangement comprises a rotatable part 32 rotatable relative to a stationary part 12, wherein one of the rotatable part 32 and the stationary part 12 includes an abutment surface 36a, 36b engageable with a stop associated with the other of the rotatable part 32 and the stationary part 12, wh
A valve arrangement comprises a rotatable part 32 rotatable relative to a stationary part 12, wherein one of the rotatable part 32 and the stationary part 12 includes an abutment surface 36a, 36b engageable with a stop associated with the other of the rotatable part 32 and the stationary part 12, wherein the stop comprises a stop pin 40 of hollow, substantially cylindrical form.
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1. A valve arrangement comprising a rotatable part rotatable relative to a stationary part, wherein one of the rotatable part and the stationary part includes an abutment surface engageable with a stop associated with the other of the rotatable part and the stationary part, wherein the stop comprise
1. A valve arrangement comprising a rotatable part rotatable relative to a stationary part, wherein one of the rotatable part and the stationary part includes an abutment surface engageable with a stop associated with the other of the rotatable part and the stationary part, wherein the stop comprises a stop pin of hollow, substantially cylindrical form, wherein the stop pin is provided with a region of reduced wall thickness, defining a shear line at which shearing of the stop pin will preferentially occur, the region of reduced wall thickness being located such that, in use, in the event of shearing of the stop pin at the shear line, no remaining part of the stop pin attached to the said other of the rotatable part and the stationary part is able to engage the said one of the rotatable part and the stationary part including the abutment surface, the stationary part comprising a valve housing, and the region of reduced wall thickness being located beneath a surface of the valve housing. 2. An arrangement according to claim 1, wherein the stop pin is designed to shear in the event that a torque greater than a predetermined level is applied to the rotatable part once the abutment surface engages the stop, the shearing of the stop pin allowing the rotatable part to continue to rotate, thereby reducing the risk of damage to an actuator or the like applying the torque to the rotatable part. 3. An arrangement according to claim 1, wherein the stop pin includes an inner bore, the diameter of which is selected to determine the torque level at which the stop pin shears. 4. An arrangement according to claim 3, wherein the inner bore is a blind bore. 5. An arrangement according to claim 1, wherein the said one of the stationary part and the rotatable part including the abutment surface includes two abutment surfaces, one of the abutment surfaces engaging the stop when the valve arrangement occupies a fully open position and the other engaging the stop when the valve arrangement occupies a fully closed position. 6. An arrangement according to claim 1, wherein the stop is associated with the stationary part and the abutment surface is provided on the rotatable part. 7. An arrangement according to claim 1, wherein the region of reduced wall thickness is defined by an annular groove formed in the outer surface of the stop pin. 8. A valve arrangement comprising a rotatable part rotatable relative to a stationary part, wherein one of the rotatable part and the stationary part includes an abutment surface engageable with a stop associated with the other of the rotatable part and the stationary part, wherein the stop comprises a stop pin of hollow, substantially cylindrical form, wherein the stop pin includes an inner bore in the form of a blind bore, the diameter of which is selected to determine the torque level at which the stop pin shears, wherein the stop pin is orientated such that the end part of the stop pin including the blind end of the bore is the part of the stop pin engageable with the abutment surface. 9. An arrangement according to claim 8, wherein the stop pin is provided with a region of reduced wall thickness, defining a shear line at which shearing of the stop pin will preferentially occur. 10. An arrangement according to claim 9, wherein the region of reduced wall thickness is defined by an annular groove formed in the outer surface of the stop pin. 11. An arrangement according to claim 9, wherein the region of reduced wall thickness is located such that, in use, in the event of shearing of the stop pin at the shear line, no remaining part of the stop pin attached to the said other of the rotatable part and the stationary part is able to engage the said one of the rotatable part and the stationary part including the abutment surface. 12. An arrangement according to claim 11, wherein the stationary part comprises a valve housing, and the region of reduced wall thickness is located beneath a surface of the valve housing. 13. A valve arrangement comprising a rotatable part rotatable relative to a stationary part, wherein one of the rotatable part and the stationary part includes an abutment surface engageable with a stop associated with the other of the rotatable part and the stationary part, wherein the stop comprises a stop pin of hollow, substantially cylindrical form, the stop pin being provided with a region of reduced wall thickness, defining a shear line at which shearing of the stop pin will preferentially occur, the stationary part comprising a valve housing, and the region of reduced wall thickness being located beneath a surface of the valve housing.
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이 특허에 인용된 특허 (5)
Priese Werner K. (Barrington IL), Ball valve with compound closure movement.
Conley Richard W. (Pittsburgh PA) Tremblay Richard P. (Pittsburgh PA) Bolam Charles W. (Canonsburg PA) Logan James E. (Pittsburgh PA) Krueger David A. (Harleysville PA), Plastic service valve.
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