US2021381504A1PendingUtilityA1

Well service valve seat removal

57
Assignee: SPM OIL & GAS INCPriority: Apr 15, 2016Filed: Aug 20, 2021Published: Dec 9, 2021
Est. expiryApr 15, 2036(~9.8 yrs left)· nominal 20-yr term from priority
Y10T137/6065F04B 53/1087F16K 15/026F04B 53/162F16K 25/005F16K 1/42F04B 53/22F16K 1/38
57
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Claims

Abstract

A valve seat includes a generally cylindrical body that defines a bore extending axially therethrough and has an outer surface. An enlarged diameter portion extends axially from the generally cylindrical body and defines a shoulder surface and an annular surface disposed opposite the shoulder surface; the annular surface is configured to form a seal with a displaceable portion of a valve. An annular channel is formed in the outer surface of the generally cylindrical body. An annular notch is formed in the outer surface of the generally cylindrical body axially between the enlarged diameter portion and the annular channel. The annular notch is configured to increase the radial compressibility of the generally cylindrical body to facilitate hydraulic ejection of the valve seat from the cylinder block. The annular channel is configured to receive a hydraulic fluid to compress radially the generally cylindrical body.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A valve seat, comprising:
 a generally cylindrical body defining a bore axially therethrough and having an outer surface;   an enlarged diameter portion extending axially from the generally cylindrical body and defining a shoulder surface, the enlarged diameter portion having a sealing surface disposed opposite the shoulder surface, the sealing surface configured to form a seal with a displaceable portion of a valve;   an annular channel formed in the outer surface of the generally cylindrical body and configured to receive a hydraulic fluid to compress radially the generally cylindrical body; and   an annular notch formed in the outer surface of the generally cylindrical body and disposed axially between the annular channel and the enlarged diameter portion, the annular notch configured to increase the radial compressibility of the generally cylindrical body to facilitate hydraulic ejection of the valve seat.   
     
     
         2 . The valve seat of  claim 1  wherein the annular notch has a floor diameter, the enlarged diameter portion defines an outer diameter, and the bore defines an inner diameter, and wherein a difference between the floor diameter and the outer diameter is approximately equal to a difference between the floor diameter and the inner diameter. 
     
     
         3 . The valve seat of  claim 1  wherein the annular notch has a floor diameter, the outer surface of the generally cylindrical body defines an outer diameter, and the bore defines an inner diameter, and wherein a difference between the floor diameter and the outer diameter is approximately equal to a difference between the floor diameter and the inner diameter. 
     
     
         4 . The valve seat of  claim 1  wherein a depth of the annular channel is approximately equal to a depth of the annular notch. 
     
     
         5 . The valve seat of  claim 1  further comprising a lower annular groove disposed axially below the annular channel, the lower annular groove configured to receive an O-ring. 
     
     
         6 . The valve seat of  claim 5  further comprising an upper annular groove disposed axially above the annular channel, the upper annular groove configured to receive an O-ring. 
     
     
         7 . The valve seat of  claim 1  wherein the outer surface of the generally cylindrical body is tapered. 
     
     
         8 . The valve seat of  claim 7  wherein an angle of the taper of the outer surface of the generally cylindrical body is 1-3 degrees. 
     
     
         9 . The valve seat of  claim 8  wherein the angle of the taper of the outer surface of the generally cylindrical body is 1.8 degrees. 
     
     
         10 . A reciprocating pump, comprising:
 a power end; and   a fluid end coupled to the power end, the fluid end comprising a cylinder block defining a fluid bore and a plurality of valve seats disposed in the fluid bore, at least one of the plurality of valve seats comprising:   a generally cylindrical body defining a seat bore axially therethrough and having an outer surface;   an enlarged diameter portion extending axially from the generally cylindrical body and defining a shoulder surface, the enlarged diameter portion having a sealing surface disposed opposite the shoulder surface that is configured to form a seal with a displaceable portion of a valve; and   an annular notch formed in the outer surface of the generally cylindrical body, the annular notch increasing a radial compressibility of the generally cylindrical body to facilitate ejection of the at least one valve seat from the cylinder block by a hydraulic fluid injected into an annular channel, the annular channel being formed in one of the cylinder block and the outer surface of the cylindrical body of the at least one valve seat, the annular notch being disposed axially between the enlarged diameter portion and the annular channel.   
     
     
         11 . The reciprocating pump of  claim 10  wherein the annular channel is formed in the cylinder block. 
     
     
         12 . The reciprocating pump of  claim 10  wherein the annular channel is formed in the outer surface of the generally cylindrical body and is disposed axially below the annular notch. 
     
     
         13 . The reciprocating pump of  claim 10  wherein the annular notch has a floor diameter, the enlarged diameter portion defines an outer diameter, and the seat bore defines an inner diameter, and wherein a difference between the floor diameter and the outer diameter is approximately equal to a difference between the floor diameter and the inner diameter. 
     
     
         14 . The reciprocating pump of  claim 10  wherein the annular notch has a floor diameter, the outer surface of the generally cylindrical body defines an outer diameter, and the seat bore defines an inner diameter, and wherein a difference between the floor diameter and the outer diameter is approximately equal to a difference between the floor diameter and the inner diameter. 
     
     
         15 . The reciprocating pump of  claim 10  wherein a depth of the annular channel is approximately equal to a depth of the annular notch. 
     
     
         16 . A method for ejecting a valve seat of a reciprocating pump, comprising:
 fluidly coupling a source of hydraulic fluid to a fluid bore formed in a cylinder block;   pressurizing the hydraulic fluid in the fluid bore, the hydraulic fluid received by an annular channel and radially compressing the valve seat;   wherein the valve seat comprises:
 a generally cylindrical body defining a seat bore axially therethrough and having an outer surface; 
 an enlarged diameter portion extending axially from the generally cylindrical body and defining a shoulder surface, the enlarged diameter portion having a sealing surface disposed opposite the shoulder surface that is configured to form a seal with a displaceable portion of a valve; and 
 an annular notch formed in the outer surface of the generally cylindrical body, the annular notch increasing the radial compressibility of the generally cylindrical body to facilitate hydraulic ejection of the valve seat from the cylinder block; 
   wherein the annular channel is formed in one of the cylinder block and the outer surface of the cylindrical body of the valve seat; and   removing the valve seat from the cylinder block.   
     
     
         17 . The method of  claim 16  wherein the annular channel is formed in the outer surface of the generally cylindrical body and is disposed axially below the annular notch. 
     
     
         18 . The method of  claim 16  wherein the annular channel is formed in the cylinder block. 
     
     
         19 . The method of  claim 16  wherein a depth of the annular channel is approximately equal to a depth of the annular notch.

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