Claims
- 1. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port; a pair of seats mounted in respective seat pockets formed in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough; a valve stem threadedly connected to the gate; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively; and wherein each seat comprises a generally cylindrical body portion having a substantially uniform outer diameter and first and second end faces which are adapted to seal with the gate; whereby each seat may be mounted in its seat pocket with either the first face or the second face adjacent the gate.
- 2. The gate valve of claim 1, wherein each seat further comprises first and second annular grooves formed on the outer diameter of the body portion, and wherein only one of the grooves is positioned within the seat pocket when the seat is mounted in the seat pocket.
- 3. The gate valve of claim 2, further comprising an annular sealing member disposed in the groove which is positioned within the seat pocket.
- 4. The gate valve of claim 2, wherein each groove is located a specific distance from the end face nearest such groove, whereby the grooves are symmetrical on the body portion.
- 5. The gate valve of claim 1, further comprising:
a gate cavity extending through the valve body and intersecting the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; the valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore in the bonnet and into the gate cavity; wherein the gate cavity comprises a first chamber located below the flow passage and a second chamber located above the flow passage, and wherein the cross sectional area of the first chamber in a plane perpendicular to the valve stem is less than the cross sectional area of the second chamber in a plane perpendicular to the valve stem.
- 6. The gate valve of claim 5, further comprising:
a bearing support ring rotationally received within the bonnet cap, the bearing support ring including first and second axial ends and an axial bore through which the first portion of the valve stem is inserted; a bearing pin positioned in corresponding holes in the bearing support ring and the valve stem to connect the bearing support ring to the valve stem; and a first thrust bearing washer disposed between the bonnet cap and the first axial end of the bearing support ring.
- 7. The gate valve of claim 6, wherein the first thrust bearing washer is constructed of a non-metallic material.
- 8. The gate valve of claim 6, further comprising:
a second thrust bearing washer disposed between the bonnet and the second axial end of the bearing support ring.
- 9. The gate valve of claim 8, wherein the first and second thrust bearing washers are constructed of a non-metallic material.
- 10. The gate valve of claim 5, further comprising a single lip seal disposed between the valve stem and the bore of the bonnet.
- 11. The gate valve of claim 10, wherein the lip seal is comprised of a non-metallic material.
- 12. The gate valve of claim 11, wherein the lip seal comprises a first annular sealing lip for engaging the valve stem, a second annular sealing lip for engaging the bore, and a metallic spring member for urging the first and second sealing lips into engagement with the valve stem and the bore, respectively.
- 13. The gate valve of claim 10, wherein the valve stem comprises a reduced diameter notch formed in a portion of the valve stem above the lip seal, whereby the valve stem will fail at the notch under an applied maximum torque.
- 14. The gate valve of claim 5, further comprising:
an annular seal disposed between the stem and the bore of the bonnet; a retainer for restricting axial movement of the seal within the bore, the retainer comprising a radial flange which is secured between the bonnet and the bonnet cap; wherein axial forces exerted on the retainer by the seal are transmitted to the bonnet cap via the flange.
- 15. The gate valve of claim 5, further comprising:
a “V” thread formed on the second portion of the valve stem; a corresponding “V” thread formed in a longitudinal hole extending into the gate from a top surface thereof; wherein when the second portion of the valve stem is threaded into the longitudinal hole, the “V” threads form a threaded interface between the valve stem and the gate which converts rotation of the valve stem into translation of the gate.
- 16. The gate valve of claim 15, wherein the threaded interface is sufficiently loose to allow the gate to move laterally and contact a seat when the gate valve is in the closed position.
- 17. The gate valve of claim 5, further comprising:
a “V” thread formed on the second portion of the valve stem; an insert mounted in a longitudinal hole extending into the gate from a top surface thereof, the insert comprising a through bore having “V” threads formed therein; wherein when the second portion of the valve stem is threaded into the insert, the “V” threads form a threaded interface between the valve stem and the gate which converts rotation of the valve stem into translation of the gate.
- 18. The gate valve of claim 5, wherein the valve body comprises an outer wall and the thickness of the wall between the bonnet and the inlet and outlet ports is approximately uniform.
- 19. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore and into the gate cavity; a pair of seats mounted in respective seat pockets formed in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough, the gate being threadedly connected to the second portion of the valve stem; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively; and wherein the gate cavity comprises a first chamber located below the flow passage and a second chamber located above the flow passage, and wherein the cross sectional area of the first chamber in a plane perpendicular to the valve stem is less than the cross sectional area of the second chamber in a plane perpendicular to the valve stem.
- 20. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore and into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough, the gate being threadedly connected to the second portion of the valve stem; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively; a bearing support ring rotationally received within the bonnet cap, the bearing support ring including first and second axial ends and an axial bore through which the first portion of the valve stem is inserted; a bearing pin positioned in corresponding holes in the bearing support ring and the valve stem to connect the bearing support ring to the valve stem; and a first thrust bearing washer disposed between the bonnet cap and the first axial end of the bearing support ring.
- 21. The gate valve of claim 20, wherein the first thrust bearing washer is constructed of a non-metallic material.
- 22. The gate valve of claim 20, further comprising:
a second thrust bearing washer disposed between the bonnet and the second axial end of the bearing support ring.
- 23. The gate valve of claim 22, wherein the first and second thrust bearing washers are constructed of a non-metallic material.
- 24. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore and into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough, the gate being threadedly connected to the second portion of the valve stem; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively; an annular seal disposed between the stem and the bore of the bonnet; a retainer for restricting axial movement of the seal within the bore, the retainer comprising a radial flange which is secured between the bonnet and the bonnet cap; wherein axial forces exerted on the retainer by the seal are transmitted to the bonnet via the flange.
- 25. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore and into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats, the gate having a transverse opening therethrough and a longitudinal hole extending into the gate from a top surface thereof; a “V” thread formed on the second portion of the valve stem; a “V” thread formed in at least a portion of the longitudinal hole; wherein the second portion of the valve stem is threaded into the longitudinal hole to create a “V” thread interface between the valve stem and the gate which converts rotation of the valve stem into translation of the gate; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively.
- 26. The gate valve of claim 25, wherein the “V” thread interface is sufficiently loose to allow the gate to move laterally and contact a seat when the gate valve is in the closed position.
- 27. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats, the gate having a transverse opening therethrough and a longitudinal hole extending into the gate from a top surface thereof; a “V” thread formed on the second portion of the valve stem; an insert mounted in the longitudinal hole, the insert comprising a through bore having a “V” thread formed therein; wherein the second portion of the valve stem is threaded into the insert to create a “V” thread interface between the valve stem and the gate which converts rotation of the valve stem into translation of the gate; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively.
- 28. The gate valve of claim 27, wherein the insert is a threaded insert.
- 29. The gate valve of claim 27, wherein the insert is a spring bushing.
- 30. A gate valve comprising:
a valve body having an outer wall, an internal flow passage which extends between an inlet port and an outlet port, and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends through the bore and into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough, the gate being threadedly connected to the second portion of the valve stem; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively; wherein the thickness of the wall of the valve body between the bonnet and the inlet and outlet ports is approximately uniform.
- 31. A gate valve comprising:
a valve body having an internal flow passage which extends between an inlet port and an outlet port and a gate cavity which extends through the valve body and intersects the flow passage; a bonnet connected to the valve body over the gate cavity, the bonnet having a bore extending therethrough which communicates with the gate cavity, a lower depending flange which comprises a generally longitudinal outer diameter surface that is received within the gate cavity, and a generally transverse surface which extends radially outwardly from the flange and engages a corresponding surface on the valve body; a sealing member disposed between the flange and the gate cavity for sealing between the bonnet and the valve body; a bonnet cap secured to the bonnet over the bore; a valve stem comprising a first portion which is rotationally supported in the bonnet cap and a second portion which extends into the gate cavity; a pair of seats mounted in the body coaxial with the flow passage; a gate disposed between the seats and having a transverse opening therethrough, the gate being threadedly connected to the second portion of the valve stem; wherein rotation of the valve stem raises or lowers the gate to bring the opening into or out of alignment with the flow passage to either open or close the gate valve, respectively.
Parent Case Info
[0001] This application is a continuation of U.S. patent application Ser. No. 09/615,170, which was filed on Jul. 13, 2000.
Continuations (1)
|
Number |
Date |
Country |
Parent |
09615170 |
Jul 2000 |
US |
Child |
10056627 |
Jan 2002 |
US |