An embodiment includes a gate valve comprising: a valve body including a cavity coupled to a channel having proximal and distal portions; a gate to seal and unseal the channel; proximal and distal seats adjacent the gate; wherein (a) the proximal seat traverses towards the gate and stops at a first
An embodiment includes a gate valve comprising: a valve body including a cavity coupled to a channel having proximal and distal portions; a gate to seal and unseal the channel; proximal and distal seats adjacent the gate; wherein (a) the proximal seat traverses towards the gate and stops at a first position when the gate is closing and the proximal channel portion is more highly pressurized than the cavity, and (b) the distal seat slides away from the gate and stops at a second position when the gate is closing and the cavity is more heavily pressurized than the distal channel portion. Other embodiments are described herein.
대표청구항▼
1. A gate valve comprising: a valve body including a cavity in fluid communication with a channel, having proximal and distal channel portions, which extends between proximal and distal valve body portions;a gate configured to seal the channel in a closed gate position and unseal the channel in an o
1. A gate valve comprising: a valve body including a cavity in fluid communication with a channel, having proximal and distal channel portions, which extends between proximal and distal valve body portions;a gate configured to seal the channel in a closed gate position and unseal the channel in an open gate position;a proximal seat between the proximal valve body portion and the gate and a distal seat between the distal valve body portion and the gate, the proximal seat including an annular groove on an outer surface of the proximal seat; anda seal, which directly contacts the valve body and the proximal seat, including (a)(i) a first ring contacting a first spring and a second ring contacting a second spring, (a)(ii) first and second spacers located between the first and second springs, and (a)(iii) an annular ring included in the annular groove and between the first and second spacers;wherein (a) the proximal seat slides towards the gate and then stops at a first position when the gate transitions to the closed gate position and the proximal channel portion includes fluid more highly pressurized than fluid included in the cavity, (b) the distal seat slides away from the gate and then stops at a second position when the gate transitions to the closed gate position and the cavity includes fluid more heavily pressurized than fluid in the distal channel portion, and (c) the first and second springs are not included in the annular groove. 2. The valve of claim 1, wherein the proximal seat slides along an interface with the valve body and towards the gate and then stops at the first position when the gate transitions to the closed gate position and the proximal channel portion includes fluid more highly pressurized than fluid included in the cavity. 3. The valve of claim 1, wherein the proximal seat directly contacts the gate in the first position. 4. The valve of claim 3, wherein the proximal seat is monolithic. 5. The valve of claim 4, wherein in the first position the proximal seat simultaneously provides a first seal directly with the gate and a second seal directly with the valve body. 6. The valve of claim 1, wherein the proximal seat slides away from the gate and into a third position when the gate transitions to the closed gate position and the proximal channel portion includes fluid less pressurized than fluid included in the cavity. 7. The valve of claim 6, wherein the proximal seat includes a first seat face separated from a first valve body face by a first void having a first length in the first position and a third length in the third position, the first length being greater than the third length. 8. The valve of claim 7, wherein in the first position the first void includes fluid that is in fluid communication with fluid in the proximal channel portion. 9. The valve of claim 7, wherein the distal seat slides towards the gate and into a fourth position when the gate transitions to the closed gate position and the distal channel portion includes fluid more highly pressurized than fluid included in the cavity. 10. The valve of claim 9, wherein the distal seat includes a second seat face separated from a second valve body face by a second void having a second length in the second position and a fourth length in the fourth position, the fourth length being greater than the second length. 11. The valve of claim 1 comprising an annular spring seal located between the valve body and the proximal seat, another annular spring seal located between the valve body and the distal seat, and a seat pocket protector; wherein the seat pocket protector includes a hardness that is less than a hardness of a face of the proximal seat;wherein the hardness of the seat pocket protector is less than a hardness of a face of the valve body, the face of the valve body being configured to contact the seat pocket protector. 12. A gate valve comprising: a valve body including a cavity coupled to a channel having proximal and distal portions;a gate to seal and unseal the channel;proximal and distal seats adjacent the gate, the proximal seat including an annular groove in a first annular outer surface of the proximal seat;a seal, which directly contacts the valve body and the proximal seat, including (a)(i) a first ring contacting a first spring and a second ring contacting a second spring, and (a)(ii) an annular ring included in the annular groove and between the first and second springs; andfirst and second spacers both located between the first and second springs;wherein (a) the proximal seat traverses towards the gate and stops at a first position when the gate is closing and the proximal channel portion is more highly pressurized than the cavity, and (b)-the first and second springs are not included in the annular groove. 13. The valve of claim 12, wherein the proximal seat directly contacts the gate and the valve body in the first position. 14. The valve of claim 12, wherein the proximal seat traverses along an interface with the valve body towards the gate and stops at the first position when the gate is closing and the proximal channel portion is more highly pressurized than the cavity. 15. The valve of claim 12, wherein: the proximal seat is monolithic;the seal includes first and second casings;the first annular outer surface includes a first outer diameter;the proximal seat includes a second annular outer surface having a second outer diameter that is greater than the first outer diameter;the first casing directly contacts the first annular outer surface but is not included in the annular groove. 16. The valve of claim 12, wherein in the first position the proximal seat seals the gate and the valve body. 17. The valve of claim 12, wherein the proximal seat traverses away from the gate and into a third position when the gate is closing and the proximal channel portion is less pressurized than the cavity. 18. The valve of claim 17, wherein the proximal seat is separated from the valve body by a first void having a first length in the first position and a third length in the third position, the first length being greater than the third length. 19. The valve of claim 17, wherein in the first position the first void includes fluid that is in fluid communication with fluid in the proximal channel portion. 20. The valve of claim 17, wherein the distal seat traverses towards the gate and into a fourth position when the gate is closing and the distal channel portion is more highly pressurized than the cavity. 21. The valve of claim 20, wherein: the distal seat slides away from the gate and into a second position when the gate is closing and the cavity is more pressurized than the distal channel portion;the distal seat is separated from the valve body face by a second void having a second length in the second position and a fourth length in the fourth position, the fourth length being greater than the second length. 22. The valve of claim 12, wherein the first and second springs are each biased to press outwards against both the valve body and the proximal seat when the proximal channel is not pressurized. 23. The valve of claim 12, wherein the first spring includes a first concave portion whose center of curvature is located proximal to the first spring and the second spring includes a second concave portion whose center of curvature is located distal to the second spring. 24. The valve of claim 12, wherein: the proximal seat includes a first seat face separated from a first valve body face by a first void;the first void is configured to be in fluid communication with the proximal channel portion; andthe first ring is configured to be in fluid communication with the first void. 25. The valve of claim 24 including a perforated ring between the first void and the proximal channel portion. 26. A gate valve comprising: a valve body including a cavity coupled to a channel having proximal and distal portions;a gate to seal and unseal the channel;proximal and distal seats adjacent the gate; anda seal directly contacting the valve body and the proximal seat;wherein: the proximal seat is configured to traverse towards the gate and stop at a first position when the gate is closing and the proximal channel portion is more highly pressurized than the cavity;the seal includes: (a) a first ring contacting a first spring and a second ring contacting a second spring; (b) first and second spacers both located between the first and second springs, and (c) an annular ring;the first and second springs are each biased to press outwards against both the valve body and the proximal seat;the proximal seat includes an annular groove on an outer surface of the proximal seat;the annular ring is included in the annular groove and between the first and second spacers; andthe first and second springs are not included in the annular groove.
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