초록

A gate valve and a method for making a gate valve for use with abrasive fracturing fluids, include provided enlarged spaces in the gate valve body wherein sand or other debris from the fracturing fluid may accumulate without affecting the operation of the gate of the gate valve.

대표청구항 ▼

1. A gate valve for a fluid, comprising: a gate having upper and lower ends, at least two upper and two lower side wall surfaces defining a plurality of lateral edges of the gate, the at least two lower side wall surfaces extending downward and inward from a widest point and transitioning to a lower

1. A gate valve for a fluid, comprising: a gate having upper and lower ends, at least two upper and two lower side wall surfaces defining a plurality of lateral edges of the gate, the at least two lower side wall surfaces extending downward and inward from a widest point and transitioning to a lowermost point of the gate, and a gate opening extending through the gate, at least a portion of the gate opening being located between at least a portion of the at least two lower side wall surfaces;a valve body having a thud passageway passing through the valve body, and the gate being disposed within the valve body for upward or downward movement, whereby the gate opening may be moved between a first substantially mating, fluid transmitting relationship with the fluid passageway of the valve body defining a first gate position, and a second substantially non-mating, non-fluid transmitting relationship with the fluid passageway of the valve body defining a second gate position;the valve body having a gate cavity, having upper and lower ends, in which the gate moves upwardly and downwardly;the lower end of the gate cavity having an enlarged space below and outward from the at least two lower side wall surfaces in each of the first gate position and the second gate position, wherein sand or other debris from the fluid may accumulate; andat least one retainer plate disposed in the gate cavity, the at least one retainer plate having a central opening which mates with the gate opening of the gate when the gate opening is in the first substantially mating, fluid transmitting relationship, the at least one retainer plate having one or more additional openings, and a combined width of the one or more additional openings is greater than a width of a portion of the retainer plate proximate to the one or more additional openings, to provide an enlarged space for sand or other debris. 2. The gate valve of claim 1, wherein the lower end of the gate has at least four lower side wall surfaces which slope and taper downwardly and inwardly toward the lower end of the gate to provide the enlarged space for sand or other debris in the lower end of the gate cavity. 3. The gate valve of claim 1, wherein the lower end of the gate has a spacer member to space the gate from the lower end of the gate cavity when the gate opening is in the second substantially non-mating, non-fluid transmitting relationship. 4. The gate valve of claim 1, wherein the at least one retainer plate, has upper and lower ends, the one or more additional openings being located at the lower end of the at least one retainer plate to provide an enlarged space for sand or other debris in the lower end of the gate cavity. 5. The gate valve of claim 4, wherein the lower end of the at least one retainer plate has at least one spacer member to space the retainer plate from the lower end of the gate cavity and define a space between the retainer plate and the lower end of the gate cavity. 6. The gate valve of claim 1, wherein the at least one retainer plate, has upper and lower ends, the at least one additional opening being located at the upper end of the at least one retainer plate, providing an enlarged space for sand or other debris in the upper end of the gate cavity. 7. The gate valve of claim 1, wherein the at least two upper side wall surfaces of the upper end of the gate slope and taper upwardly and inwardly toward the upper end of the gate to provide an enlarged space for sand or other debris in the upper end of the gate cavity. 8. The gate valve of claim 1, wherein the upper end of the gate valve includes a bonnet, secured to an upper end of the valve body, the bonnet having a seating surface having a generally frustoconical configuration on the underside of the bonnet, with a stem member, having upper and lower ends, passing through the bonnet, the stem member having a seating surface which seats against the seating surface of the bonnet, and between the underside of the bonnet and the seating surface of the stem member is an enlarged space wherein sand, or other debris, from the fluid may accumulate. 9. The gate valve of claim 1, wherein the upper end of the gate valve includes a bonnet, secured to an upper end of the valve body, the bonnet having a seating surface having a generally frustoconical configuration on the underside of the bonnet, with a stem member, having upper and lower ends, passing through the bonnet, the stem member a portion disposed adjacent the seating surface of the bonnet, and between the underside of the bonnet and the portion of the stem member is an enlarged space wherein sand, or other debris, from the fluid may accumulate. 10. A method for making a gate valve for use with an abrasive fracturing fluid, comprising: providing a gate having upper and lower ends, at least two upper and two lower side wall surfaces defining a plurality of lateral edges of the gate, the at least two lower side wall surfaces extending downward and inward from a widest point and transitioning to a lowermost point of the gate, and a gate opening extending through the gate, at least a portion of the gate opening being located between at least a portion of the at least two lower side wall surfaces;providing a valve body having a fluid passageway passing through the valve body, and disposing the gate within the valve body for upward or downward movement, whereby the gate opening may be disposed in a first substantially mating, fluid transmitting relationship with the fluid passageway of the valve body defining a first gate position or in a second substantially non-mating, non-fluid transmitting relationship with the fluid passageway of the valve body defining a second gate position;providing the valve body with a gate cavity, having upper and lower ends, in which the gate moves upwardly and downwardly;providing the lower end of the gate cavity with an enlarged space below and outward from the at least two lower side wall surfaces in each of the first gate position and the second gate position, wherein sand or other debris from the abrasive fracturing fluid may accumulate;urging debris into the enlarged space by moving the gate between the first and second position; andproviding the gate valve with at least one retainer plate and disposing the at least one retainer plate in the gate cavity, the at least one retainer plate having a central opening which mates with the gate opening of the gate, when the gate opening is in the first substantially mating, fluid transmitting relationship; and disposing in the at least one retainer plate one or more additional openings, a width of the one or more additional openings is greater than a width of a portion of the retainer plate proximate to the one or more additional openings to provide an enlarged space for sand or other debris. 11. The method of claim 10, including providing the lower end of the gate with at least four lower side wall surfaces and making the at least four lower side wall surfaces slope and taper downwardly and inwardly toward the lower end of the gate to provide the enlarged space for sand or other debris in the lower end of the gate cavity. 12. The method of claim 10, including disposing on the lower end of the gate a spacer member to space the gate from the lower end of the gate cavity when the gate opening is in the second substantially non-mating, non-fluid transmitting relationship. 13. The method of claim 10, wherein the at least one retainer plate has upper and lower ends, the method further comprising disposing the one or more additional openings in the lower end of the at least one retainer plate to provide an enlarged space for sand or other debris in the lower end of the gate cavity, and further comprising the step of urging the debris through the one or more additional openings by moving the gate from the first position to the second position. 14. The method of claim 13, including disposing on the lower end of the at least one retainer plate at least one spacer member to space the retainer plate from the lower end of the gate cavity and define a space between the retainer plate and the lower end of the gate cavity. 15. The method of claim 10, wherein the at least one retainer plate has upper and lower ends, the method further comprising disposing the at least one additional opening in the upper end of the at least one retainer plate, providing an enlarged space for sand or other debris in the upper end of the gate cavity, and further comprising the step of urging the debris through the one or more additional openings by moving the gate from the first position to the second position. 16. The method of claim 10, including making the at least two upper side wall surfaces of the upper end of the gate slope and taper upwardly and inwardly toward the upper end of the gate to provide an enlarged space for sand or other debris in the upper end of the gate cavity. 17. The method of claim 10, including: providing the upper end of the gate valve with a bonnet, secured to an upper end of the valve body; providing the bonnet with a seating surface having a generally frustoconical configuration on the underside of the bonnet; disposing a stem member, having upper and lower ends, to pass through the bonnet; providing the stem member with a seating surface which seats against the seating surface of the bonnet; and providing between the underside of the bonnet and the seating surface of the stem member an enlarged space wherein sand, or other debris, from the fracturing fluid may accumulate. 18. The method of claim 10, including: providing the upper end of the gate valve with a bonnet, secured to an upper end of the valve body; providing the bonnet with a seating surface having a generally frustoconical configuration on the underside of the bonnet; disposing a stem member, having upper and lower ends, to pass through the bonnet; providing the stem member with a portion disposed adjacent the seating surface of the bonnet; and providing between the underside of the bonnet and the portion of the stem member an enlarged space wherein sand, or other debris, from the fracturing fluid may accumulate.