The present inventions generally pertain to valve equipment, and more particularly to improved designs to prolong the life of operators that are used to actuate valves.
The use of valves to control fluid flow through conduits in the oil and gas industry is well known. It is also well known that valves typically include an operator assembly, often including a hand wheel, that is used to open and close the valve. Operator assemblies used to open and close double block and bleed expanding plug valves typically include a stem assembly including an upper and lower stem that are releasably engaged rotationally with each other through the use of a roller. In operation, the upper stem has a roller pocket on its outer surface that is adapted for engagement with the roller, which is retained within a window in the lower stem. When the upper stem and lower stem are not engaged to each other, the roller will be positioned within the window in the lower stem and a generally vertical, longitudinal groove in an operator housing, thereby securing the lower stem rotationally to the operator housing when in this position. When the upper stem is rotated within the lower stem, as the roller pocket on the outside of the upper stem moves past the window in the lower stem the roller will move out of the longitudinal groove in the operator housing and into the roller pocket on the outside of the upper stem. A known problem with existing operator assemblies is that the inner bore of the operator housing will experience metallurgical failure over time as the roller is transitioning from engagement with the longitudinal groove in the operator housing into engagement with the roller pocket on the outer surface of the upper stem. An example of such metal failure occurs when the roller simply gouges a groove into the inner bore of the operator housing instead of moving into engagement with the roller pocket on the upper stem.
The present inventions have been conceived and developed to address the above-described problem and provide a solution thereto. The manner in which the present inventions achieve these objectives will become apparent from the following descriptions and explanations provided below.
In one aspect, the present inventions may encompass an insert for an operator housing comprising: a first arcuate section, a second arcuate section, and a groove section disposed between the first arcuate section and the second arcuate section, the first arcuate section including a first inner surface defined by a first inner radius R1, and a first outer surface defined by a first outer radius R2, the first arcuate section defining a generally curved wall having a thickness equal to the difference between R1 and R2; the second arcuate section including a second inner surface defined by a second inner radius R4, and a second outer surface having a second outer radius R5, the second arcuate section defining a generally curved wall having a thickness equal to the difference between R4 and R5; and the groove section including a third inner surface defined by a third inner radius R7, the third inner surface defining a concave trough, a left side of the groove transitioning into a right side of the first inner surface on the first arcuate section at a first transition, a right side of the groove transitioning into a left side of the second inner surface of the second arcuate section, the groove section including a third outer surface defined by a third outer radius R9, the groove section defining a generally curved wall having a thickness equal to the difference between R7 and R9, a left side of the third outer surface transitioning into a right side of the first outer surface on the first arcuate section, and a right side of the third outer surface transitioning into a left side of the second outer surface on the second arcuate section. Another feature of this aspect of the present inventions may be that a first end of the first arcuate section is rounded, and a second end of the second arcuate section is rounded.
In another aspect, the present inventions may encompass an operator housing comprising: a body member having an internal bore, a recess in the internal bore, and a top flange, the recess including a first arcuate recess, a groove recess, a second arcuate recess, and a lower relief access 66, the first arcuate recess including a first arcuate wall and a first end wall, the first arcuate wall 68 being defined by a radius R10 and a first arcuate floor surface, the second arcuate recess including a second arcuate wall and a second end wall, the second arcuate wall being defined by a radius R12 and a second arcuate floor surface, the groove recess extending from a groove floor surface of the groove recess to an upper surface of the top flange, the first arcuate floor surface, the second arcuate floor surface, and the groove floor surface defining an insert recess floor surface. Another feature of this aspect of the present inventions may be that the groove recess is a generally vertical, longitudinal concave trough. Another feature of this aspect of the present inventions may be that the recess further includes a lower relief access disposed in the internal bore beneath the first arcuate recess. Another feature of this aspect of the present inventions may be that a lower portion of the longitudinal groove may be disposed beneath the groove floor surface, and be vertically aligned with the groove recess.
In another aspect, the present inventions may include an insert for an operator housing comprising: a first arcuate section, a second arcuate section, and a groove section disposed between the first arcuate section and the second arcuate section, the first arcuate section including a first inner surface defined by a first inner radius R1, and a first outer surface defined by a first outer radius R2, the first arcuate section defining a generally curved wall having a thickness equal to the difference between R1 and R2, the second arcuate section including a second inner surface defined by a second inner radius R4, and a second outer surface having a second outer radius R5, the second arcuate section defining a generally curved wall having a thickness equal to the difference between R4 and R5, and the groove section including a third inner surface defined by a third inner radius R7, the third inner surface defining a concave trough, a left side of the concave trough transitioning into a right side of the first inner surface on the first arcuate section at a first transition, a right side of the concave trough transitioning into a left side of the second inner surface of the second arcuate section, the groove section including a third outer surface defined by a third outer radius R9, the groove section defining a generally curved wall having a thickness equal to the difference between R7 and R9, a left side of the third outer surface transitioning into a right side of the first outer surface on the first arcuate section, and a right side of the third outer surface transitioning into a left side of the second outer surface on the second arcuate section. Another feature of this aspect of the present inventions may be that a first end of the first arcuate section is rounded, and a second end of the second arcuate section is rounded. Another feature of this aspect of the present inventions may be that the operator housing is formed from a ductile iron having a first hardness, and the insert is formed from a tool steel having a second hardness, the second hardness being greater than the first hardness. Another feature of this aspect of the present inventions may be that the insert is formed from a tool steel having a hardness in a range from approximately 40 to 55 HRC. Another feature of this aspect of the present inventions may be that the concave trough is adapted for alignment with a longitudinal groove in an inner bore of the operator housing. Another feature of this aspect of the present inventions may be that the insert is adapted for removable engagement with a recess in an inner bore of the operator housing.
In yet another aspect, the present inventions may include an operator housing comprising: a body member having an internal bore, a recess in the internal bore, and a top flange, the recess including a first arcuate recess, a groove recess, and a second arcuate recess, the first arcuate recess including a first arcuate wall and a first end wall, the first arcuate wall being defined by a radius R10 and a first arcuate floor surface, the second arcuate recess including a second arcuate wall and a second end wall, the second arcuate wall being defined by a radius R12 and a second arcuate floor surface, the groove recess extending from a groove floor surface of the groove recess to an upper surface of the top flange, and the first arcuate floor surface, the second arcuate floor surface, and the groove floor surface defining an insert recess floor surface. Another feature of this aspect of the present inventions may be that the groove recess is a generally vertical, longitudinal concave trough. Another feature of this aspect of the present inventions may be that the recess further includes a lower relief access disposed in the internal bore beneath the first arcuate recess. Another feature of this aspect of the present inventions may be that a lower portion of a longitudinal groove in the internal bore of the body member is disposed beneath the groove floor surface, and vertically aligned with the groove recess. Another feature of this aspect of the present inventions may be that the operator housing may further include an insert having a shape corresponding to a shape of the recess. Another feature of this aspect of the present inventions may be that the operator housing is formed from a ductile iron having a first hardness, and the insert is formed from a tool steel having a second hardness, the second hardness being greater than the first hardness. Another feature of this aspect of the present inventions may be that the insert is formed from a tool steel having a hardness in a range from approximately 40 to 55 HRC.
In still another aspect, the present inventions may include an operator housing comprising: a body member having an internal bore, a recess in the internal bore, a longitudinal groove in the internal bore, and a top flange, and an insert adapted for mating engagement with the recess, the recess including a first arcuate recess, a groove recess, and a second arcuate recess, the first arcuate recess including a first arcuate wall and a first end wall, the first arcuate wall being defined by a first radius R10 and a first arcuate floor surface, the second arcuate recess including a second arcuate wall and a second end wall, the second arcuate wall being defined by a second radius R12 and a second arcuate floor surface, the groove recess extending upwardly from a groove floor surface of the groove recess toward the top flange, and the first arcuate floor surface, the second arcuate floor surface, and the groove floor surface defining an insert recess floor surface. Another feature of this aspect of the present inventions may be that the insert includes a first arcuate section, a second arcuate section, and a groove section disposed between the first arcuate section and the second arcuate section, the first arcuate section being adapted for mating engagement with the first arcuate recess, the second arcuate section being adapted for mating engagement with the second arcuate recess, and the groove section being adapted for mating engagement with the groove recess. Another feature of this aspect of the present inventions may be that a radius of the first arcuate recess is greater than a radius of the first arcuate section, a radius of the second arcuate recess is greater than a radius of the second arcuate section, and a radius of the groove recess is greater than a radius of the groove section. Another feature of this aspect of the present inventions may be that each of the first arcuate wall and the second arcuate wall has a height corresponding to a height of the insert. Another feature of this aspect of the present inventions may be that the recess further includes a lower relief access disposed in the internal bore beneath the first arcuate recess. Another feature of this aspect of the present inventions may be that the a lower portion of the longitudinal groove is disposed beneath the groove floor surface and vertically aligned with the groove recess. Another feature of this aspect of the present inventions may be that the operator housing is formed from a ductile iron having a first hardness, and the insert is formed from a tool steel having a second hardness, the second hardness being greater than the first hardness.
Other features, aspects and advantages of the present inventions will become apparent from the following discussion and detailed description.
While the inventions will be described in connection with the preferred embodiments, it will be understood that the scope of protection is not intended to limit the inventions to those embodiments. On the contrary, the scope of protection is intended to cover all alternatives, modifications, and equivalents as may be included within the spirit and scope of the inventions as defined by the appended claims.
As mentioned above, the present inventions are directed to improvements to operators that are used to actuate double block and bleed expanding plug valves. Before describing the present inventions, the general structure and operation of the current state of the art for such operators will first be described. Referring to
Referring now to
When it is desired to open the plug valve (not shown), the hand wheel 12 is rotated, which will initially cause the upper stem 20 to rotate in a counterclockwise direction and move the lower stem 22 (and attached trunnion which is not shown) upwardly to retract slip members (not shown) on the plug (not shown), as will be readily understood to those of ordinary skill in the art. During this time of upward vertical movement, the roller pocket 32 in the outer surface of the upper stem 20 is being rotated counterclockwise toward the roller 26 and the roller 26 is moving upwardly along the longitudinal groove 17 in the inner bore 16 of the operator housing 14.
Referring now to
The present inventions have been developed to address a problem that is known to occur when the roller 26 transitions out of engagement between the lower stem 22 and operator housing 14 and into engagement between the lower stem 22 and the upper stem 20. In particular, it is known that movement of the roller 26 from the longitudinal groove 17 in the inner bore 16 of the operator housing 14 during this transition process causes severe wear along the trailing edge 19 of the longitudinal groove 17 and eventual failure pursuant to which the roller 26 will gouge a groove into the inner bore 16 of the operator housing 14. An example of such a gouged groove 34 is shown in the photograph included as
The present inventions have addressed this problem by developing an insert 36, a specific embodiment of which is shown in
In a specific embodiment, the insert 36 may include a generally arc-shaped body member having a first arcuate section 40, a second arcuate section 42, and a groove section 44 disposed between the first arcuate section 40 and the second arcuate section 42.
In a specific embodiment, the first arcuate section 40 may include a first inner surface 46 defined by a first inner radius R1. In a specific embodiment, the first arcuate section 40 may include a first outer surface 48 defined by a first outer radius R2. As such, in a specific embodiment, the first arcuate section 40 may define a generally curved wall having a thickness equal to the difference between R1 and R2. In a specific embodiment, the first arcuate section 40 may include a first end 41 that may be rounded, and may have a radius R3. In other specific embodiments, the first end 41 may also be defined by other shapes or configurations, such as squared or angled, for example.
Similarly, in a specific embodiment, the second arcuate section 42 may include a second inner surface 50 having a radius R4 corresponding to radius R1 and a second outer surface 52 having a radius R5 corresponding to radius R2. The second arcuate section 42 may similarly define a generally curved wall having a thickness equal to the difference between R4 and R5. In a specific embodiment, the second arcuate section 42 may include a second end 43 that may be rounded, and may have a radius R6 corresponding to R3. In other specific embodiments, the second end 43 may also be defined by other shapes or configurations, such as squared or angled, for example.
As mentioned above, the groove section 44 is disposed between the first and second arcuate sections 40 and 42. In a specific embodiment, the groove section 44 may include a third inner surface 54 defined by a third inner radius R7. In a specific embodiment, the third inner surface 54 of the groove section 44 may define a concave trough or groove 55 that will function to partially replace the longitudinal groove 17 in the inner bore 16 as discussed above. A left side of the groove 55 meets and transitions into a right side of the first inner surface 46 on the first arcuate section 40 at a first transition 56. In a specific embodiment, the first transition 56 may define a rounded edge defined by a first transition radius R8. A right side of the groove 55 meets and transitions into a left side of the second inner surface 50 of the second arcuate section 42. In a specific embodiment, the groove section 44 may include a third outer surface 58 that may be defined by a third outer radius R9. As such, in a specific embodiment, the groove section 44 may define a generally curved wall having a thickness equal to the difference between R7 and R9. A left side of the third outer surface 58 meets and transitions into a right side of the first outer surface 48 on the first arcuate section 40. A right side of the third outer surface 58 meets and transitions into a left side of the second outer surface 52 on the second arcuate section 42.
As mentioned above, the insert 36 is adapted for engagement within the recess 38 in the inner bore 16 of the operator housing 14. With reference to
The first arcuate recess 60 may include a first arcuate wall 68 and a first end wall 70. In a specific embodiment, as shown in
The second arcuate recess 64 may include a second arcuate wall 74 and a second end wall 76. In a specific embodiment, the second arcuate wall 74 may be defined by a radius Rig corresponding to the radius R5 on the second arcuate section 42 of the insert 36. In a specific embodiment, the radius R12 of the second arcuate wall 74 may be 0.001 inches greater than the radius R5. In a specific embodiment, the second end wall 76 may be rounded and be defined by a radius R13 corresponding to the radius R6 on the second end 43 of the second arcuate section 42 of the insert 36. In a specific embodiment, the radius R13 of the second end wall 76 may be 0.001 inches greater than the radius R6 on the second end 43 of the second arcuate section 42 of the insert 36. The second arcuate recess 64 may further be defined by an arcuate floor surface or ledge 78 adapted to support and conform to a lower surface of the second arcuate section 42 of the insert 36.
In a specific embodiment, each of the first arcuate wall 68 and the second arcuate wall 74 may have a height corresponding to a height of the insert 36. In a specific embodiment, however, the groove recess 62 may extend from a groove floor surface 80 of the groove recess 62 to an upper surface 82 of a top flange 84 of the operator housing 14. The first arcuate floor surface 72, the second arcuate floor surface 78, and the groove floor surface 80 may define an insert recess floor surface upon which the insert 36 rests and is supported when it is in its installed position as shown in
In a specific embodiment, as mentioned above, the recess 38 may include the lower relief access 66, which may be disposed beneath the first arcuate recess 60. The function of the lower relief access 66 is to provide access to remove the insert 36 when it fails and needs to be replaced with another insert 36. The ability to remove the worn insert 36 and replace it with a new insert 36 is desirable so that when the insert 36 finally suffers from wear failure, the insert 36 may be removed and a new insert 36 may be installed into the reusable operator housing 14, and that this can be accomplished without any new machining or welding, such as what is required with currently existing solutions to this problem, is also desirable.
In a specific embodiment, a lower portion of the longitudinal groove 17 may be disposed beneath the groove floor surface 80, and may also be vertically aligned with the groove recess 62. In this regard, in this specific embodiment, it is noted that an upper portion of the longitudinal groove 17 has been machined away when the groove recess 62 was machined into the inner bore 16 of the operator housing 14 so that the operator housing 14 may accept assembly of the insert 36. In such instance, this would mean that the operator housing 14 as shown in
Referring now to
It is to be understood that the inventions disclosed herein are not limited to the exact details of construction, operation, exact materials or embodiments shown and described. Although specific embodiments of the inventions have been described, various modifications, alterations, alternative constructions, and equivalents are also encompassed within the scope of the inventions. Although the present inventions may have been described using a particular series of steps, it should be apparent to those skilled in the art that the scope of the present inventions is not limited to the described series of steps. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense. It will be evident that additions, subtractions, deletions, and other modifications and changes may be made thereunto without departing from the broader spirit and scope of the inventions as set forth in the claims set forth below. Accordingly, the inventions are therefore to be limited only by the scope of the appended claims. None of the claim language should be interpreted pursuant to 35 U.S.C. 112(f) unless the word “means” is recited in any of the claim language, and then only with respect to any recited “means” limitation.
This application claims the benefit of U.S. Provisional Application No. 63/353,425, filed Jun. 17, 2022, the contents of which are fully incorporated herein by reference.
Number | Date | Country | |
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63353425 | Jun 2022 | US |