HIGH PRESSURE BALL VALVE

ROBINET A BOISSEAU SPHERIQUE POUR HAUTES PRESSIONS

English Abstract

ABSTRACT OF THE DISCLOSURE
A valve is disclosed having a generally cylindrical body having an inlet
and an outlet opening and a lateral opening. The valve body is received in a
cylindrical collar which is heat shrunk onto the cylindrical body of the valve to
provide a prestressed condition in the valve body thereby substantially increasing
the strength of the body.

Claims

The embodiments of the invention in which an exclusive property or
privilege is claimed are defined as follows:
1. A valve comprising a one piece valve body,
connecting means on the ends of said body for connecting said body in
a fluid flow line,
a flow passage through said body between said connecting means,
said flow passage between said connecting means comprising a pressure
chamber,
an inlet opening and an outlet opening to said body communicating with
said flow passage,
a lateral opening in said body,
valve seat means in said body at each side of said lateral opening,
a ball valve member supported on said seat members and a collar extending
around said body substantially overlying the pressure chamber and tightened thereon
whereby compressive stress is exerted on the outer periphery of the pressurized
chamber in said body providing a pre-stress in said collar whereby the tensil strength
of the pressurized portion of said body is increased.



2. The valve recited in Claim 1 wherein said valve member is
circular cross section.

3. The valve recited in Claims 1 or 2 wherein said collar is heat
shrunk on the said body.
4. The valve recited in Claim 1 wherein said seat means comprises
an annular member formed on its inner end to engage said ball and formed on its
outer end to engage plug means.

5. The valve recited in Claim 2 wherein said valve member has a
cylindrical opening therethrough and said cylindrical opening is aligned with said



flowpath when said valve is in open position and disposed transverse to said flowpath
when said valve is in closed position,
said flow passage through said valve is substantially uniform in cross
section through said valve from inlet to outlet.
6. The valve recited in Claim 5 when said valve member is generally
spherical in configuration.



7. The valve recited in Claim 6 wherein said ball seal has an inside
surface machined to conform to the outside surface of said valve support and an
inside surface machined in a spherical configuration to engage said ball valve.

8. A valve comprising a one piece valve body in a fluid flow line,
a flow passage in said body,
said valve having a chamber adapted to be subjected to fluid pressure,
an inlet opening and an outlet opening to said body communicating with
said flow passage,
a lateral opening in said body,
valve seat means in said body at each side of said lateral opening,
a ball valve member supported on said seat members and a collar extending
around said body and tightened thereon,
whereby compressive stress is exerted on the outer periphery of said
body providing a pre-stress in said body over substantially the entire outside surface
of the portion of said body which overlies said pressure chamber,
a stem extending through said collar and connected to said ball,
said stem having an enlarged cylindrical member thereon and spaced
upwardly from the lower end thereof,

said lower end of said stem having a non-circular portion engaging said
ball,
a stem gland,


said stem gland having a bore therethrough receiving said stem and a
counter bore receiving said enlarged portion,
said stem gland being threadably received in said collar.
9. The valve recited in Claim 8 wherein said stem gland is
threadably received in said lateral opening,
and a thrust washer is disposed on said stem,
said thrust washer engaging said stem gland.
10. The valve recited in Claim 8 wherein said seat means comprises
a first plug and the second plug said first plug being disposed in said inlet and said
second plug being received in said outlet adjacent to said valve member,
a sealing ring supported on said plug and threaded means in said inlet and
in said outlet for holding said plugs towards said ball member.



11. The valve recited in Claim 10 wherein said rings each have a
surface adjacent said ball preformed to conform to the outside surface of said ball,
and a second surface preformed to conform to the end surface of said
plugs.



12. A method of making a valve comprising providing a one piece
valve body adapted to be connected in a fluid flow line, having a flow passage
therethrough and an outside generally cylindrical surface,
providing connecting means on said body for connecting said body in a
fluid line,
providing a collar having an inside surface conforming generally to said
outside surface, said collar having an inside diameter at room temperature
substantially smaller than the outside diameter of said body, said collar being of

substantially the same length as the inside portion of said body between said
connecting means,
heating said collar to a temperature sufficient to expand said collar to
receive said body,



inserting said body into said collar,
cooling said collar to shrink said collar onto said body and assembling
valve parts into said body thereby providing a complete valve.

13. A ball valve comprising a one piece body,
connecting means on its ends of said body adapted to connect said body in
a fluid flow line,
said body having a bore therethrough a ball in said bore,
said bore between said connecting means comprising a pressure chamber,
a first plug and a second plug,
said plugs being disposed in said bore,
means supporting said plugs in said bore in spaced relation to each other
with said ball therebetween,
each said plug having a convex end surface adjacent said ball,
two rings,
one said ring being disposed at each side of said ball between said ball
and the plug adjacent thereto,
each said ring having a first end contoured to rest on the said convex
surface of said plug and a second end surface contoured to rest on the outer surface
of said ball,
said rings being made of a nonmetallic material forming a seal with said
ball and with said plugs,
a collar extending around said body and tightened thereon and engaging
the outside of body continuously over said pressure chamber whereby compressive
stress is exerted on said body over the said pressurized chamber, providing a pre-
stress in said body whereby the tensil strength of said body is increased.



14. The valve recited in Claim 13 wherein said ball and said plugs

having a bore therethrough,
means to rotate said ball to bring said bore into and out of alignment
with said bore through said plugs.

Description

12;;:01Lt~6

1 CROSS E~EFERENC~ TO RELATED APPLICATIONS
2 There are no related patent applieations filed in the name of applicant.
3~
4 BACK~R~IJND OI~ T~IE IN~ENTION
This invention is in the field of valves and more particularly to the type
6 of valves known as ball valves and is especially suitable for operation at relatively
q high pressures; for example, at 20,000 pounds per square inch.

9 REFERE~CE TO PRIOR ART
10 ¦ None of the prior art known to Applicant shows a eollar heat shrunk
11 ~ onto the valve body to increase its strength, nor does it show the partieular plug
12 ~ gland support for the spherical valve member or the parti¢ular valve stem structure
13 utilized in the valve herein.
14 None of these patents show a valve having the improvements of the valve disclosed
15 herein.
16
17 SUMMARY OF INVENTION
.
18 The valve disclosed herein is designed to withstand extreme pressures
19
20 and temperatures. Due to the geometry of the valve configuration, it is able to
21 attain a most favorable ~low pattern having virtually no pressure drop across the
22 ~ valve due to the cross sectional area of the flowpath therethrough.
23 The structural integrity of the valve is unusually efficient. The body
24 I rmay be thought of as a thick wa~l shell pressure vessel. The valve body being
2~ 11 encased in a collar type ring precisely machined to accept the body and is centrally
2G I I located about the valve assembly. Due to the compactness of the design, very
27 ~ 1I favorable physical properties of the valve can be obtained. Thus, the valve may
28 be provided with conservative safety factors in a relatively compact design. The
29 !I valve design disclosed gives a lighter, stronger and less expensive product.
30 I The valve disclosure has the following advantages over the block shaped
31 I conventional valves.
32 1



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1 lo The pressure drop across the valve is minimum since the flow pattern2 I is transmitted in the linear pattern.
3 ¦~ 2. The material size of the pressure retaining members considerably
4 1 I reduced due to its geometric configuration.
5 1 3. The valve body is encased in a centrally positioned collar which retains
fi ~ the turning ball stem.
7 4. The turning ball stem is so designed that it is nested in a counter bore
8 of the retainer gland, structurally restraining this part from blow-out, due to its
9 geometric configuration.
5. The stem retaining gland is proportioned so that the stress level in
11 the external threflds are minimized.
12 ~. The mass of the valve is decreased substantially due to its compactness
13 of design.
14 7. ~utomatic operation is efficiently accomplished, and manually operated
valves can be converted to automatic operation by removing the manual handle and16 mounting a rotating operator on the valve.
17 When the basic cylindrical body is no longer practical to withstand the
18 necessary pressure due to adequate wall ratio or physical strength properties of the
19 material, a cylindrical collar is shrunk onto the valve body, thus we now have a
multi-layer vessel. The advantage of this construction is well known to the state
21 of the art of thick wall pressure design.
22 ~ The theory of the multi-layer valve body is as follows:
23 ~ The outer shell or collar is machined undersize of the cylindrical body,
2~ I then the collar is heated to a pre-determined temperature expanding the diameters
25 11 to allow the inner shell of the valve body to be slipped into the collar without use
2~ 1 1 of mechanical force.
27 As the collar cools, the outer diameter of the collar shrinks and exerts
28 a compressive stress at the transition between the outer shell and the inner body.
29 1 1I Therefore, internal pressurization of the inner shell or inner body, the induced
30 ¦ negative stresses at the transitional wall become zero. This favorable stress condition
31 1 3
32 1

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1 ~¦ plus the metal mass surrounding the stem side wall opening results, in a most
2 1l favorable stress pattern at this area.

4 ~ G~NERAL DESCRIPTION OF DRAWING
F ig. 1 is a longitudinal cross sectional view of the valve according to
6 the invention.
7 Fig. 2 is an exploded view of some of the valve parts.
8 Fig. 3 is an exploded view of some of the other valve parts.
9 Fig. 4 is an enlarged cross sectional view of certain parts of the ;nvention.
10 ~ Fig. 5 is an enlarged longitudinal cross section partial view of a part of
11 j the valve shown in the other figures.
12~
13 DETAILED DESCRIPTION OF D~AWING
14 Now with more particular reference to the drawing, the valve 10 has
:15 the valve body 11 having a bore 12 through said body 11. The body had a cylindrical
16 outside surface of a precise diameter to receive the collar 19. The body has a first
17 counter bore 63 and a second counterbore 64 one at each side of bore 12, and first
18 threaded counterbore 13 forms an inlet and second threaded counterbore 14 forms
19 an outlet from the valve body.
The valve may be connected in a flow line within the inlet 13 is connected
21 to one part of the fluid line and the outlet 14 is connected to the other part of
22 the flow line. The lateral opening 15 in the body communicates with the opening 21
2~ in the collar 19. A lateral bore 15 is formed in the body communicating with bore
24 l 12. Lateral bore 15 has first counterbore 38 and second counterbore 39.
I Ball 35 is received in bore 12 and stem 18 is received in bore 15 as will
2~i I be explained.
27 ~ The stem 18 has a non-circular shaped end 21 that is received in a
2~ ~ complimentary shaped hole in the top of the ball valve member 16, and the lower
29 ~ end 65 is received in bore 15. The stem 18 has the enlarged cylindrical part 20
30 ¦ which is received in first counterbore 38 and thrust washer 37 is received on the
31 ~I stem 18 which rests on the upper surface of enlarged cylindrical part 20.

32 l~


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ll
1 The lower end 65 of the stem 18 has a groove that receives the stem
2 ¦ seal 27. The stem has a threaded upper end 28 that is received in the hole 29 in
3 j~ handle 30. The threaded end 28 extends through the hole 29, and holds the handle 30
4 ~ in place and a locknut 31 may lock the handle in place.
~; ¦ The collar 19 has an inside cylindrical surface having an inside diameter
6 ! slightly smaller than the outside diameter of body 11 so that when heated the collar
7 ¦ will slip onto body 11 and when cooled collar 19 will shrink onto body 11 and
8 ~ introduce a prestress in the body 11. Collar 19 has a threaded bore B0 which is
9 concentric with bore 15.
The stem gland 22 is threadably received in threaded bore 60 in collar
11 19. The stem 18 extends through a bore 23 in the gland 22, and the stop pin 23
12 extends through the arcuate slot 34 in the handle and receives the pin 33 which is
13 set in the opening 34 in the gland; thus, the handle may be moved approximately
14 goU thereby loosening the gland 22 when the pin 33 reaches the end of the slot 34
15 I and in moving the handle in the opposite direction, the valve opening 35 will move
16 out of alignment with the bores 26. Two plug members 36 are provided and two
17 plug glands are provided. Each plug 41 is threadably received in one of the threaded
18 counterbores 13 and 14. Each plug 47 has a bore 48 which receives the cylindrical
19 end 45 of a plug 36. Plug 36 has a central bore 26 which forms a part of a flow
20 passage, and a headed end 41. The head on the end of each plug 36 is received in
21 one of the counterbores 63 and 64.
22 The plug mem~ers each have a convex inner end 37 which the ball seals
23 ~ 17 rest upon, and when pressed into contact with the ball 16 by tightening the
2~ I glands 47, the plugs 36 will force the seals 17 into engagement with a convex end 37
25 I of the plug 36 and into engagement with the ball 16. The gland 22 is locked in a
2~ 1 proper position by means of the gland nut 22. The pressure chamber in said valve
27 ¦ body may be considered to be the flow passage through the valve between the two
28 ¦ pllJgs 47 that are used for connecting the valve into the fluid line. This is the
29 !I chamber that the ends of the sleeve overlie. The plugs ~7 reinforce the body
30 outside the pressure chamber.
31
32 5
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1 ¦ The ball 16 has an axial bore 35 therein which communicates with the
2 ¦ bores in each plug 36 and forms with bore 26 in each plug 36 a flow path of uniform
3 ¦ cross section. The ball 16 has a non-circular opening 40 which receives the end 21
a, ~ of the turning stem 18.
5 11The stem is threaded to its upper most end for fastening either a manual
6 ~ turning handle 30 or a TWE driver for automatic operation of the valve when a
q rotary operator is used.
8The spherical Elastomer Seal is in the f'orm of a ring machined to fit
9the ball 35 on the inboard side and the cover profile 37 on the outboard side. I
10The ball retaining plugs 36 are designed so that a metal to metal seal j
11 I is provided at the valve body. The inboard face of the plugs 36 serve as a support
12 ~¦ surface for the ball seal 17. The outboard end is machined to accept a high pressure
13 cone tubing connector. The part is centrally drilled through for passage of the ~
a~ media through the valve. The plug glands 47 are internally drilled to accept the !
15 neck ~5 of the ball retaining plugs 36. The plug glands are externally threaded to
16 be received in the threaded inlet and in the threaded outlet end 12 and 14 respectively.
17 The stem seal 27 is commercially available. The seal 17 is best shown in Fig. ~. It
18 will be seen from an inspection of the drawings that the valve 10 is composed of
19a body 11 with a flow passage 12 through the body 11 and an inlet opening 13 and
20an outlet opening 14 in the body connected to a flow passage 12. A lateral opening
2115 communicates with the flow passage 12. The valve seals are provided in the
22body at each side of the lateral opening. These valve seals as shown are annular
23members having a spherical sealing surface 60 engaging the outer periphery of the
2a~ball 16 and having an end surface 61 engaging the surface 37 of the plugs 36. The
25 ~ ball is supported between the seal members 17 and may be rotated by the stem 18
26 ~I which has the non-circular member 21 on its lower end and it is received in the slot
27 ¦~ 21 in the ball.
2~ ¦ ~ The foregoing specification sets forth the invention in its preferred,
29 9 practical forms but the structure shown is capable of modification within a range
30 of equivalents without departing from the invention which is to be understood is
31 broadly novel as is commensurate with the appended claims.
32