Claims
- 1. An improved method for operation of a diaphragm flush valve utilized in a plumbing system, the improvement to which comprises:(a) causing the relief valve sleeve member to be positioned in non-operative contact with the flush valve plunger pin after the relief valve has been unseated, and (b) retaining said sleeve member in a position of non-operative contact for a predetermined period of time at least one second greater than the time for said sleeve member to travel to said position under free fall conditions.
- 2. An improved method according to claim 1 wherein said predetermined period of time is at least five seconds.
- 3. An improved method according to claim 2 wherein said predetermined period of time is between about ten seconds and about sixty seconds.
- 4. A relief valve for use in a diaphragm flush valve, the improvement to which comprises the relief valve stem, the relief valve sleeve member, or a combination thereof, constructed to require the time for said sleeve member to travel from a first position wherein said sleeve member is out of operative contact with the diaphragm flush valve plunger pin to a second position wherein said sleeve member can be operatively engaged by said plunger pin to be at least one second greater than the time for said sleeve member to travel from said first position to said second position in free fall.
- 5. A relief valve according to claim 4 for use in a diaphragm flush valve contained in a fluid flow control plumbing fixture having a vacuum breaker assembly, wherein the sleeve member of the relief valve is constructed to have a density that requires the time for said sleeve member to travel from said first position to said second position to be at least one second greater than the time for said sleeve member to travel from said first position to said second position in free fall.
- 6. In a relief valve according to claim 5 said sleeve member being constructed to have a density less than said fluid.
- 7. In a relief valve according to claim 6 said sleeve member being constructed at least in part from material having a density less than said fluid.
- 8. A relief valve according to claim 5, wherein said sleeve member and said stem are positioned in frictional contact with one another during movement of said sleeve member.
- 9. A relief valve according to claim 8, further comprising a member having predetermined elastomeric properties attached to said sleeve member and said seating member or said stem in a manner to reduce the rate of descent of said sleeve member to a rate less than the rate of a free fall descent.
- 10. A relief valve according to claim 5, further comprising a member having predetermined elastomeric properties attached to said sleeve member and said seating member or said stem in a manner to reduce the rate of descent of said sleeve member to a rate less than the rate of a free fall descent.
- 11. A relief valve according to claim 4, wherein said sleeve member and said stem are positioned in frictional contact with one another during movement of said sleeve member.
- 12. A relief valve according to claim 11, wherein a helical groove extends along the outer surface of said stem and wherein a nib extends outward from the interior wall surface of said sleeve member a sufficient distance and is sized to fit within said groove to cause said sleeve member to revolve around said stem when said sleeve member moves vertically relative to said stem.
- 13. A relief valve according to claim 12, further comprising a member having predetermined elastomeric properties attached to said sleeve member and said seating member or said stem in a manner to reduce the rate of descent of said sleeve member to a rate less than the rate of a free fall descent.
- 14. A relief valve according to claim 11, wherein a helical groove extends along the interior wall surface of said sleeve and wherein a nib extends from the exterior surface of said stem and is sized to fit within said groove to cause said sleeve member to revolve around said stem when said sleeve member moves vertically relative to said stem.
- 15. A relief valve according to claim 14, further comprising a member having predetermined elastomeric properties attached to said sleeve member and said seating member or said stem in a manner to reduce the rate of descent of said sleeve member to a rate less than the rate of a free fall descent.
- 16. A relief valve according to claim 4, further comprising a member having predetermined elastomeric properties attached to said sleeve member and said seating member or said stem in a manner to reduce the rate of descent of said sleeve member to a rate less than the rate of a free fall descent.
- 17. In a relief valve for use in a diaphragm flush valve contained in a fluid flow control plumbing fixture having a vacuum breaker assembly, wherein the plumbing fixture is constructed to permit at least a portion of any fluid trapped in the outlet chamber of the diaphragm flush valve by the vacuum breaker assembly to drain therefrom when the relief valve is seated, the improvement to which comprises the sleeve member of the relief valve being constructed to have a density that requires the time for said sleeve member to travel from a first position wherein said sleeve member is out of operative contact with the diaphragm flush valve plunger pin to a second position wherein said sleeve member can be operatively engaged by said plunger pin to be at least one second greater than the time for said sleeve member to travel from said first position to said second position in free fall.
- 18. In a relief valve according to claim 17 said sleeve member being constructed to have a density less than said fluid.
- 19. In a relief valve according to claim 18 said sleeve member being constructed at least in part from material having a density less than said fluid.
RELATED APPLICATION
This is a divisional application of U.S. Ser. No. 09/185,999 filed on Nov. 4, 1998 and entitled Apparatus to Prevent Multiple Flushing.
US Referenced Citations (13)