AU724557B2 - Hemispherical ball valve - Google Patents

Description

Regulation 3.2

AUSTRALIA

Patents Act 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

(ORIGINAL)

.9 9 9 *9 99 0@ 09 0 90.0 99 a. 9* @9 9* 9*OS 0* SS 0 99e0.

0 0 *999 S 9 *9 9 0 *909 99 9 Name of Applicant: Conval, Inc., of 265 Field Road, Somers, Connecticut 0607 1, United States of America Actual Inventor: Address for Service: Invention Title: SIVER, Chester, A.

DAVIES COLLISON CAVE, Patent Attorneys, of 1 Little Collins Street, Melbourne, Victoria 3000, Australia "Hemispherical ball valve" The following statement is a full description of this invention, including the best method of performing it known to us: 1 1A HEMISPHERICAL BALL VALVE TECHNICAL FIELD The present invention relates to ball valves, and, more particularly, to ball valves for use with high temperature and/or high pressure fluids.

Ball valves have wide application in the control of fluids in various industrial applications. Such valves generally have a spherical ball with a passage extending therethrough which allows fluid flow through the valve when OO. the valve is open. When the valve is closed by rotating the be ball, valve seats about the flow passage in the housing seal against the surface of the ball member to preclude fluid

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flow through the valve.

Under less demanding operating conditions, various metal alloys may be selected for the components so that the valve will exhibit long life without need for frequent replacement of parts. However, valves used in applications *involving high pressure particularly in combination with high temperature and/or highly corrosive fluids, such as encountered in the utility and chemical process industries, exhibit. a relatively short useful life because of erosion of the valve components, particularly in the area about the valve seats and in the flow passages. Eventually, this erosion will require removal of the entire valve from the line and replacement.

BACKGROUND ART To facilitate inline service without necessitating removal of the entire valve assembly from its operational PAOPER\SSfB93259-98spe-doc-I IKA1i) -2environment, some valve bodies have been designed with an opening which permits the ball member and valve seats to be removed. Commonly referred to as a top entry ball valve, this type of ball valve is illustrated in Canuet et al U.S.

Patent No. 4,802,652.

The reference to any prior art in this specification is not, and should not be taken as, an acknowledgment or any form of suggestion that that prior art forms part of the common general knowledge in Australia.

SUMMARY OF THE INVENTION According to the present invention there is provided a valve for controlling fluid flow and having open and closed positions comprising: 15 a housing providing a chamber therewithin and a fluid flow passage therethrough, with inlet and outlet portions to and from said chamber adjacent the lower end of said housing, said housing also having an opening in its upper end communicating with said chamber; 20 a bonnet on said housing sealing said opening in said upper end and having a passage extending therethrough from said chamber, said passage including a shoulder extending thereabout; means fastening said bonnet to said housing; a generally hemispherical plug member rotatably seated in said chamber and having an axis of rotation aligned with the center of said opening in said housing and said plug member having a spheroidal lower portion including an anticlinal shaped fluid flow passage therethrough with inlet and outlet ends, said inlet and outlet ends of said plug member being aligned with said inlet and outlet portions of said flow passage into and from said chamber in the open position of said valve and being displaced from said inlet 1and PNOPER\SB\CONVALIN.DIV 17/11/98 3 outlet portions of said flow passage in the closed position of said valve; and (ii) an upper portion; a cylindrical valve stem extending within said passage of said bonnet operatively connected at one end to said upper portion of said plug member for rotating said plug member about its axis of rotation between said open and closed positions of said valve; said valve stem having a portion *q disposed outwardly of said housing at its other end; 10 means for rotating said valve stem; resiliently deflectable means in said bonnet about said valve stem; a first annular sealing member disposed about said valve stem and against said shoulder, said valve stem having a 15 collar extending thereabout within said passage in said bonnet 00 and disposed below and against said first annular sealing member; a second annular sealing member disposed below and against said collar; 20 a packing gland disposed about said valve stem below 0 0* and against said second annular sealing member, said resiliently deflectable means biasing said packing gland against said second sealing member; and valve seats removably seated in said housing within said chamber and extending about said inlet and outlet portions of said flow passage, the wall of said chamber of said housing having annular concave recesses about said inlet and outlet portions with transverse axes extending perpendicularly to the flow axes of the adjacent inlet and outlet portions of said anticlinal flow passage through said P~bXteisI9325b-Jqssld-I I71M -4plug and of said inlet and outlet portions of said flow passage into and from chamber, said valve seats being seated in said annular concave recesses and extending outwardly of said recesses into said chamber, said valve seats including a concave surface in sealing engagement with the surface of said lower portion of said plug member, said valve seats being dimensioned and configured for facile insertion into and removal from said annular arcuate recesses in said chamber through said opening in said housing.

The present invention also provides a valve for controlling fluid flow and having open and closed positions comprising: a housing providing a chamber therewithin and a fluid flow passage therethrough, with inlet and outlet portions to and from said chamber adjacent the lower end of said housing, said housing also having an opening in its upper end communicating with said chamber; a bonnet on said housing sealing said opening in said upper end and having a passage extending therethrough 20 from said chamber, said passage including a shoulder extending thereabout; means fastening said bonnet to said housing; a valve member rotatably seated in said chamber and having an axis of rotation aligned with the center of 25 said opening in said housing and said valve member having a lower portion including means for permitting fluid flow between said inlet and outlet portions of said flow passage into and from said chamber in the open position of said valve, and means for restricting fluid flow between said inlet and outlet portions of said flow passage in the closed position of said valve; and (ii) an upper- portion; a cylindrical valve stem extending within said passage of said bonnet operatively connected at one end to said upper portion of said valve member for rotating said valve member about its axis of rotation between said open S and closed positions of said valve; said valve stem having a portion disposed outwardly of said housing at its other end; P;operipb 93259.98i.doc-l I7ffO -4Ameans for rotating said valve stem; resiliently deflectable means in said bonnet about said valve stem; a first compressible annular sealing member disposed about said valve stem and against said shoulder; a collar integral with and extending about said valve stem within said passage in said bonnet and disposed below and against said first annular sealing member; a second compressible annular sealing member disposed below and against said collar; and a packing gland disposed about said valve stem below and against said second annular sealing member, said resiliently deflectable means biasing said packing gland against said second sealing member and thereby said collar S 15 against said first sealing member.

SPreferably, the means for rotating includes a valve stem extending within the passage of the bonnet and connected at one end to the upper portion of the ball member. Desirably, the valve stem is separately formed from, .20 and coupled to, the ball member so that it may move axially to obtain the optimum sealing action about the stem.

Preferably, the anticlinal shaped fluid flow passage through the ball member has a pair of arcuate legs I e* R\AOPER\SSBXCONVALIN.DIV 17111/98 4B intersecting at the axis of rotation of the ball member to form a generally inverted U-shaped fluid flow passage through the ball member. The valve seats are oriented at an angle of about 45 degrees to the axis of rotation of the ball member.

Alternatively, the anticlinal shaped fluid flow passage through the ball member may be of generally inverted V-shaped configuration, and the valve seats may still be oriented at an angle of 450 to the axis of rotation of the ball member.

Desirably, the valve includes resiliently deflectable means biasing the ball member towards the valve seats. The +c ~resiliently deflectable means may comprise a helical spring or at least one resiliently deflectable annular member.

0* 0 o 40 *4 0 0 4 00 04 4 In a preferred embodiment, the passage in the bonnet is configured to provide a shoulder, and the valve includes a first annular sealing member disposed about the valve stem and against the shoulder. The valve stem has a collar within the passage in the bonnet and disposed below and bearing against the annular sealing member, and a second annular sealing member is disposed about the stem below the collar. A packing gland is disposed about the valve stem below the second annular sealing member and above the S resiliently deflectable means, and the internal pressure at the bottom of the bonnet and the deflectable means bias the i*ii Stem and packing gland against the second sealing member and the collar to effect a highly effectual sealing action about the stem within the bonnet.

Preferably, the valve seats have convex seating eSI; surfaces which seat on concave generally annular seating surfaces in the housing chamber about the inlet and outlet portions of the flow passage. The valve seats may include a groove extending about the circumference thereof which Sprovides some resilient deflection of the peripheral portion of the valve seat and pressure in the passage in the body to bias the concave sealing surface against the surface of the lower portion of the ball member.

Generally, the inlet portion of the flow passage extends from an inlet port, and the outlet portion of the flow passage extends from an outlet port. In an alternative embodiment, the inlet and outlet ports lie in planes oriented at an angle with respect to each other.

PAOPeRM\SSICONVALIN.DIV. 17/1198 6 Preferably, the planes in which the inlet and outlet ports lie are oriented at an angle of 450 to the axis of rotation of said ball member and 900 with respect to each other.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described, by way of example only, with reference to the drawings.

Figure 1 is a cross sectional view of a ball valve with F* the ball member in the valve open position; 10 Figure 1A is an enlarged view of the circled section of SFigure 1; 0 Figure 2 is a cross sectional view of the valve body of the valve of Figure 1; Figure 3 is an elevational view of the ball member of the 15 valve of Figure 1; :Figure 4 is a view in partial section of the ball member along the line 4-4 of Figure 3; Figure 5 is a greatly enlarged elevational view in ~partial section of a valve seat of the valve of Figure 1; Figure 6 is a cross sectional view of a valve using a flow passage through the ball member of a different configuration; and Figure 7 is a vertical cross sectional view of a ball valve with a flow passage in which the inlet and outlet ports are angularly oriented.

MODES FOR CARRYING OUT THE INVENTION Turning first to Figure 1, therein illustrated is a ball valve embodying the present invention and comprised of a valve body generally designated by the numeral 10, a ball member generally designated by the numeral 14, a fluid flow passage generally designated by the numeral 15, a bonnet generally designated by the numeral 12, and a valve stem generally designated by the numeral 16.

As best seen in Figure 2, the valve body 10 has a valve chamber 18 and inlet and outlet ports 20, 22 which communicate with the inlet and outlet portions 24, 26, or legs of the flow passage 15 provided by aligned rectilinear Sportions 28. The valve body 10 has an opening 31 in its upper end communicating with the chamber 18, and a collar on the body 10 extends about the opening end 31 thereof. As e- seen in Figure 1, the bonnet 12 seats on the collar 30 over the opening 31 and is secured to the body 10 by fasteners 32.

As illustrated in Figures 3 and 4, the ball member 14 has a lower spheroidal portion 34 through which extends a convexly arcuate flow passage 36 which is generally in the shape of an inverted When the valve is in the open position, the ends of the arcuate passage 36 are aligned S with the inlet and outlet portions 24, 26 of the flow passage 15 in the valve body 10 to permit fluid flow through the valve, as shown in Figure 1. The valve is closed by rotating the ball member 14 through a 90° arc from the open position to seal the flow passage 15 by offsetting the ends of the arcuate passage 36 from the inlet and outlet portions 24, 26 of the flow passage 15. The ball member 14 may be rotated by a handle 38 which is engaged with the valve stem 16.

The inverted U-shaped flow passage 36 is disposed primarily in the lower spheroidal portion 34 of the ball member 14, as illustrated in Figures 3 and 4. The configurations and dimension of the lower spheroidal portion 34 of the ball member 14 cooperate with the body opening 31 to permit its easy removal through the opening 31.

As illustrated in Figure la, the bonnet 12 has a depending sealing flange 51 which extends into the opening 31 and seals against the valve body 10 to seal the valve chamber 18.

As shown in Figure 1, annular valve seats 42, 44 are b S disposed about the inlet and outlet portions 24, 26 of the

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aS. flow passage 15 on both the upstream and downstream sides of the chamber 18. As best seen in Figures iA and 5, the valve S. seats 42, 44 have a concave sealing surface 46 which is cooperatively configured with respect to the convex surface of the ball member 14. The opposite seating surface 48 is convexly curved and slidably seats in concave recesses **-Dog about the inlet and outlet portions 22, 24 of the flow passage 15. The concave sealing surface 46 and convex seating surface 48 permit the seats 42, 44 to slide and adjust themselves between the concave surfaces 50 of the body 10 and of the spheroidal portion 34 of the ball member 14. This self-adjusting feature accommodates minor dimensional differences between the interfitting portions of the valve seats 42 and 44, the valve body 10, and the ball member 14.

The valve seats 42, 44 also have a groove 52 which extends about the circumference thereof as illustrated in Figures 1A and 5. The groove 52 allows the peripheral portion of the seats 42, 44 to deflect under high pressure loading to urge the sealing surfaces 46 of the seats 42, 44 against the ball member 14.

Removal of the bonnet 12 allows top entry, inline access to both the ball member 14 and annular valve seats 42, 44 which are all cooperatively dimensioned and configured to permit insertion and removal through the .a opening 31 in the valve body 10. This construction enables the ball member 14, and valve seats 42, 44 of the valve to be replaced by simply removing the bonnet 12 from the valve body 10 while the valve remains in place in the operating S. line in which it is installed. The bonnet 12 is removably connected to the collar 30 of the valve body 10 by studs 54 and nuts 56, and this connection may also be sealed with Orings 58, as shown in Figure 6 or any other pressure activated seal such as a Graylock seal (not shown).

n* The upper portion 60 of the ball member 14 is generally OF- cylindrical and extends into the bonnet 12, and is preferably coupled to a separate valve stem 16 as illustrated in Figures 1 and 7, although it may have an integral valve stem 16a as illustrated in Figure 6. In either embodiment, the valve stem 16 seats within a cylindrical passageway 62 in the bonnet 12. As illustrated in Figure 1, annular gland seals 64, 66 are provided about the periphery of the valve stem 16 and below a shoulder 68 in the passageway 62.

The stem 16 is coupled to the ball member 14 by the coupler 61 which has a recess seating the boss 63 on the ball member 14 and a bore 65 seating the lower end of the stem to effect driving engagement therebetween.

In the preferred embodiment illustrated in Figure 1, the valve stem 16 has a collar 70 which has annular gland seals 64, 66 above and below it. The seals 64, 66 are P compressed axially by the biasing force of Belleville S" washers 72 whose force is transmitted upwardly through the packing ring 74, the lower seal 66, the collar 70, the upper S* a seal 64, and finally against the shoulder 68. The passageway 62 about the stem 16 is sealed by the seal 64 which is being compressed between the shoulder 68 and the collar 70, and also by the seal 66 which is being compressed between the collar 66 and the packing ring 72.

•In addition to providing an upward biasing force on the seals 64, 66, the Belleville washers 72 also provide downward biasing force to maintain the ball member 14 firmly on the seats 42, 44 at all times.

In operation, fluid enters the valve body 10 through the inlet port 20 and travels horizontally in the inlet portion 24 of the flow passage 15 until it is directed upwardly at an angle of 450 by the bend 76 in the inlet portion 24. The fluid continues to flow upwardly through the annular valve seat 42 and into the arcuate flow passage 36 in the ball member 14. As the fluid flows past the inlet -11seat 42 into the arcuate flow passage 36 it forces the lower spheroidal portion 34 of the ball member 14 against the outlet seat 44 to act like a check piston. In addition, the fluid flow has an upward force component which increases as the valve is opened so that the force between the ball member 14 and the seats 42, 44 is thereby reduced and less torque is required to open the valve.

As the fluid flows through the ball member 14, it is redirected downwardly. The fluid-flows from the ball member S 14 through the annular valve seat 44 until it is again redirected by the bend 78 in the outlet portion 26 of the flow passage 15 and exits the body 10 as a horizontal flow at the outlet port 22.

As illustrated in Figure 6, the flow passage 36 in the ball member 14 may have a sharper bend in the form of a generally inverted L or V instead of an inverted U.

As will be appreciated, various other designs may be S used for the annular valve seats 42, 44 to position the seats in the housing. Figure 6 illustrates an alternate t configuration for the valve seats in which O-rings 80 are seated in a recess 82 in the periphery of the seats 42a, 44a to bias the seats 42a, 44a to provide a pressure seal between the seats 42a, 44a and the valve body As best illustrated in Figure 6, the Belleville washers 72 may be replaced by a helical spring 72a which will bias the ball member 14 against the valve seats 42a, 44a.

The included angle of the anticlinal passage 36 through the ball member 14 may vary from a minimum of approximately -12- 600 to a maximum of approximately 1200. However, the included angle of the passage 36 illustrated in the drawings represents an optimum tradeoff between the competing design considerations for the cross-sectional area of the passage, the diameter of the ball member to locate the seat members below its diameter, and the degree of angle of the passage.

For example, for a given size cross-sectional passage area 14, the diameter of the ball member 14 must increase as the angle of the arcuate passage 14 increases in order to permit the seats to remain about the lower spheroidal portion 34 of the ball member 14 in accordance with the present invention.

However, as the included angle of the passage decreases, then the pressure drop across the valve increases. Thus, the 90° angle of the passage 36 in accordance with the preferred embodiment represents an optimum tradeoff between a.

these competing design considerations.

As illustrated in Figure 7, the inlet and outlet ports 22a of the valve body 10a may lie in planes which are oriented at an angle with respect to each other. This t configuration enables the valve to readily serve as an elbow to attach pipes (not shown) which are similarly oriented at an angle with respect to each other which, in turn, significantly reduces installation costs by eliminating the necessity for a fitting and two welds. The planes in which the inlet and outlet ports 20a, 22a lie are aligned with the seats 42a, 44a and are also at an angle of 450 to the axis of rotation of the ball member and 90° with respect to each other.

PAOPR\S§WONVALIN.DIV- 17118 13 As will be appreciated, various materials may be employed for the construction of the valve. Most conveniently, the ball member and seats should be of a hard, gall-resistant allows to withstand frictional abrasion and erosion as the ball member is moved across the seats while effecting opening and closing of the valve, and they may be provided with wear resistant surface coatings may plasma deposition or the like.

Thus, it can be seen that the present invention provides P. a novel ball valve for operation under high pressure I 10 conditions, and which is highly effective and reliable, durable, and relatively easy and economical to manufacture.

The housing is provided with a top opening, and the ball member and valve seats are cooperatively dimensioned and configured to be easily serviced inline without the necessity 15 for removing the valve body from the operating line in which 40 it is installed.

Throughout this specification and the claims which *t follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

Claims (9)

1. A valve for controlling fluid flow and having open and closed positions comprising: a housing providing a chamber therewithin and a fluid flow passage therethrough, with inlet and outlet portions to and from said chamber adjacent the lower end of said housing, said housing also having an opening in its upper end communicating with said chamber; 10 a bonnet on said housing sealing said opening in said upper end and having a passage extending therethrough Sfrom said chamber, said passage including a shoulder extending w* thereabout; t means fastening said bonnet to said housing; a generally hemispherical plug member rotatably seated in said chamber and having an axis of rotation aligned S. with the center of said opening in said housing and said plug member having a spheroidal lower portion including an 20 anticlinal shaped fluid flow passage therethrough with inlet and outlet ends, said inlet and outlet ends of said plug S member being aligned with said inlet and outlet portions of said flow passage into and from said chamber in the open position of said valve and being displaced from said inlet and outlet portions of said flow passage in the closed position of said valve; and (ii) an upper portion; a cylindrical valve stem extending within said passage of said bonnet operatively connected at one end to said upper portion of said plug member for rotating said plug member about its axis of rotation between said open and closed positions of said valve; said valve stem having a portion disposed outwardly of said housing at its other end; P:AOPER\SSBCONVALINDV 17/1198 15 means for rotating said valve stem; resiliently deflectable means in said bonnet about said valve stem; a first annular sealing member disposed about said valve stem and against said shoulder, said valve stem having a collar extending thereabout within said passage in said bonnet and disposed below and against said first annular sealing member; a second annular sealing member disposed below and 10 against said collar; a packing gland disposed about said valve stem below and against said second annular sealing member, said *r resiliently deflectable means biasing said packing gland low against said second sealing member; and valve seats removably seated in said housing within Ssaid chamber and extending about said inlet and outlet portions of said flow passage, the wall of said chamber of said housing having annular concave recesses about said inlet and outlet portions with transverse axes extending 20 perpendicularly to the flow axes of the adjacent inlet and outlet portions of said anticlinal flow passage through said plug and of said inlet and outlet portions of said flow passage into and from chamber, said valve seats being seated in said annular concave recesses and extending outwardly of said recesses into said chamber, said valve seats including a concave surface in sealing engagement with the surface of said lower portion of said plug member, said valve seats being dimensioned and configured for facile insertion into and removal from said annular arcuate recesses in said chamber through said opening in said housing.

2. A valve in accordance with Claim 1 wherein said resiliently deflectable means comprise at least one P:XOPERB\GSiONVALIN.DIV 17/11/98 16 resiliently deflectable annular member.

3. A valve for controlling fluid flow and having open and closed positions comprising: a housing providing a chamber therewithin and a fluid flow passage therethrough, with inlet and outlet portions to and from said chamber adjacent the lower end of said housing, said housing also having an opening in its upper end communicating with said chamber; 10 a bonnet on said housing sealing said opening in said upper end and having a passage extending therethrough from said chamber, said passage including a shoulder extending thereabout; 9 means fastening said bonnet to said housing; a valve member rotatably seated in said chamber and having an axis of rotation aligned with the center of said opening in said housing and said valve member having S(i) a lower portion including means for permitting fluid flow between said inlet and outlet portions of said flow 20 passage into and from said chamber in the open position of said valve, and means for restricting fluid flow between said 'j inlet and outlet portions of said flow passage in the closed position of said valve; and (ii) an upper portion; a cylindrical valve stem extending within said passage of said bonnet operatively connected at one end to said upper portion of said valve member for rotating said valve member about its axis of rotation between said open and closed positions of said valve; said valve stem having a portion disposed outwardly of said housing at its other end; means for rotating said valve stem; resiliently deflectable means in said bonnet about said valve stem; P:tOPER\SSB325i9-98s1tdO,-l ilt100 -17- a first compressible annular sealing member disposed about said valve stem and against said shoulder; a collar integral with and extending about said valve stem within said passage in said bonnet and disposed below and against said first annular sealing member; a second compressible annular sealing member disposed below and against said collar; and a packing gland disposed about said valve stem below and against said second annular sealing member, said resiliently deflectable means biasing said packing gland against said second sealing member and thereby said collar against said first sealing member.

4. A valve in accordance with Claim 3 wherein said S* resiliently deflectable means comprise at least one resiliently deflectable annular member.

A valve in accordance with Claim 3 wherein said valve stem is integral with said valve member.

6. A valve in accordance with Claim 3 wherein said valve stem is a separate element and is coupled to said valve member by a coupling member therebetween.

7. A valve in accordance with Claim 6 wherein said coupling member is axially movable relative to said stem and said resiliently deflectable means also biases said coupling member and thereby said valve member downwardly in said chamber.

8. A valve in accordance with Claim 3 wherein said shoulder is adjacent the upper end of said bonnet. P.XOPERSSB\9129RW-Nd.-I1A1/71M -18-

9. A valve substantially as hereinbefore described with reference to the accompanying drawings. DATED this 11th day of July, 2000 CONVAL, INC. By its Patent Attorneys DAVIES COLLISON CAVE 9000 0* 9* 0* 0 9 9*9 0 *9 9 0* 9 *0 00 99 0 9 9 9 @0 00 @909 0 9 9 0000 0000 9 @990 0 090 0 00 0 00 9 0 9 @00090