US2183650A - Relief valve - Google Patents

Relief valve Download PDF

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US2183650A
US2183650A US174816A US17481637A US2183650A US 2183650 A US2183650 A US 2183650A US 174816 A US174816 A US 174816A US 17481637 A US17481637 A US 17481637A US 2183650 A US2183650 A US 2183650A
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Prior art keywords
fluid
seat
ring
valve
escaping
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US174816A
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Klafstad Erling
Gordon L Gundersen
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Crosby Steam Gage & Valve Co
Crosby Steam Gage & Valve Comp
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Crosby Steam Gage & Valve Comp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16KVALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
    • F16K17/00Safety valves; Equalising valves, e.g. pressure relief valves
    • F16K17/02Safety valves; Equalising valves, e.g. pressure relief valves opening on surplus pressure on one side; closing on insufficient pressure on one side
    • F16K17/04Safety valves; Equalising valves, e.g. pressure relief valves opening on surplus pressure on one side; closing on insufficient pressure on one side spring-loaded
    • F16K17/10Safety valves; Equalising valves, e.g. pressure relief valves opening on surplus pressure on one side; closing on insufficient pressure on one side spring-loaded with auxiliary valve for fluid operation of the main valve
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7737Thermal responsive
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7738Pop valves

Definitions

  • the present invention is concerned with safety and relief valves, and relates more particularly to such valves employed for the relief of high pressure boilers and fluid conduits such as steam lines.
  • the type of relief valve with which the present invention is .concerned. is described generally in United States Letters Patent to Coflin, No. .743,430, dated January 14, 1930.
  • This valve employs a spring-loaded, closure member designed to recede from its seat when the pressure of fluid in the discharge oriflce exceeds a predetermined amount.
  • Cooperating with the closure member is an annular ring-"like fluid deflector or shroud contacting with-and deflecting escaping fluid as the valveopens.
  • This deflection of escaping fluid controlled-through adjustment of the .shroud converts kinetic energy of the' escaping fluid into effective lifting'energy which complements the lifting eflect due to static pressure in a planner to force the spring-loaded closure member to afull open position with little or no ln- 7 1: Claims. (Cl. 137-53)
  • a shroud ring properly designed to deflect for example, saturated steam at 600 lbs. pressure, will be automatically altered in its position to cause greaterfluid deflection issecured compensates for the deflection when superheated steam is employed at the same pressure, due to the greater temperature of the superheated steam at the corresponding pressure, this difference aggregating, for example-about 200 F.
  • the invention accordingly consists in a spring-loaded closure member designed to open upon exceeding a predetermined pressure, and provided'with means for the conversion of the available energy of the escaping fluid into useful lifting force, thismeans having provision for automatic adjustment to compensate for the efiective difierence in theavailable reactionary (or lifting) forces between the two types of fluid, namely, saturated steam and superheated steam, at approximately the same. pressures.
  • the; annular fluid deflector shroud ring with which the valve is provided is supported by temperature responsive members which upon increase in temperature tend toautomatically vary the position of the shroud ring in a manner to modify the discharge path and increase deflection ⁇ of escaping fluid as the temperature rises.
  • mounted in the spring housing and-locked in po- 5 proved compensating features, a. valve set for operation upon either superheated or saturated steam will not function equally satisfactdrily when used with the other type of fluid. 5
  • Fig. 1 represents a section in elevation of a safety valve embodying the features of the invention
  • Fig; 2 is a detail, partly-in section, illustratingthe'thermostatically controlled deflector ring with associated parts
  • Figs. 3 and 4 are details illustrating elevations in diflerent planes of .a thermostatic member for supporting the deflector '
  • the valve shown in the illustrated embodiment 45 ⁇ of the invention comprises a body portion I. in
  • the disk assembly is connected with a spindle 26 through the connection assembly indicated 'at 2B, and the spindle extends outwardly through the'spring hous-' ing to a point remote from; the seat.
  • the disk assembly and spindle are loaded through a coiled compression spring 30 surrounding the spindle and capableof adjustment to vary the loading effect through the threaded adjusting member 32 'a seat I normally closed by a disk assembly l6, comprising an outer portion or recessed disk I8
  • the disk assembly as .a h
  • the shroud ring 40 is supported from an outer adjusting ring 42 which in turn is threadedly connected to the guidesleeve 22 at 43. Both the guide sleeve 22 and the adjusting ring 42 are recessed, as indicated in Fig. 2, to provide an annular slot 44 within which the shroud ring is received and moves.
  • the shroud ring and adjusting ring are provided with complementary threaded portions 46 which serve to permit assembly of the parts into 'the positions indicated, and provide cooperating shoulders to limit the play of the shroud ring within the annular slot.
  • the shroud ring is connected to the adjusting ring through a series of thermo-responsive coupling members 50, each having a generally U-shaped form and fixed at one end tov the adjusting.
  • the clips are preferably made of high temperature bimetal of a type commercially available employing a high expansion chrome nickel-steel as the inner element and Invar or its equivalent as the low expansion outer element.
  • Both the main adjusting ring and throat ring are retained in adjusted position by limiting screws 64 and 66, which are threaded inside the valve casing and engage at their inner ends with one of a series of slots 48 and 10 formed in the peripheral portions of the rings.
  • the valve casing is provided with a flange connection I2 for discharging into a fluid conduit.
  • relief valve is employed throughout the specification and claims it is intended to define a valve of this general type, irrespective of whether it may be designated in trade parlance as a safety or relief valve.
  • a relief valve comprising a casing having a fluid discharge opening terminating in a seat, a closure member contacting the seat to close the orifice, means for loading the member to oppose the fluid pressure within the orifice, means for augmenting the lifting effect due to fluid pressure by conversion of a portion of the available energy of escaping fluid, and thermostatically controlled means cooperating with said energy conversion means for regulating the additional energy procured through said conversion.
  • a relief valve comprising a casing having a fluid discharge oriflce terminating in a seat, a closure member closing the seat, means for loading the member, an adjustable shroud ring surrounding the member to engage and deflect escaping fluid, thermostatically controlled means for regulating the position of the shroud ring, and an adjustable throat ring surrounding the seat and complementing the action of 'the shroud ring.
  • a relief valve comprising a casing having a throat tube forming a fluid discharge orifice
  • a seat at the terminus of the tube a disk valve contacting the seat, a valve stem connected with the disk valve, a loading spring surrounding the stem, a guide in whichthe disk valve is slidingiy received, a shroud ring projecting beyond the guide serving to engage and deflect escaping fluid, and thermostatically responsive means for supporting the shroud ring in a manner'to vary the projection of the shroud ring in accordance with variations in temperature.
  • a relief valve comprising a casing having a throat tube forming a fluid discharge orifice, a seat at the terminus of the tube, a disk valve contacting the-seat, a valve stem connected with the disk valve, a loading spring surrounding the stem, a guide in which the disk valve is slidingly received, an annular ring surrounding the seat and serving to engage and deflect escaping fluid,
  • a-fluid discharge orifice terminating in a ,seat, a closure member cooperating with the seat to ing the member, a ring adjacent to and coaxial with said discharge orifice for deflecting the escaping fluid, and a thermostatic member designed to support and adjust the relative position of the ring in accordance withlthe temperature of the escaping fluid.
  • a relief valve comprising a casing having a fluid discharge'orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular member surrounding the discharge orifice and defining a discharge path for escaping steam, and thermally responsive means for modifying the discharge path in a manner to vary the reactive effect of the escaping steam upon the closure member.
  • a relief valve,- comprising a casing having.
  • a relief valve comprising a casing having a fluid discharge orifice terminating in a seat,
  • a closure member cooperating with the seat to control flowthrough the orifice, means for loading the member, an annular member surrounding the discharge orifice and defining a discharge path for escaping steam, and bi-metallic members responsive to the temperature of escaping available energy of the escaping steam.
  • a relief valve comprising a casing having a fluid discharge oriflce terminating in, a seat,
  • a relief valve comprising a casing having aclosure member cooperating with the seat to control flow through the orifice, means-for loading the member, and thermally responsive means for variably definingthe discharge path of escaping steam annularly about the seat in accordance with variations in temperature of the escaping fluid.
  • a relief valve comprising a casing having a fluid discharge orifice terminating in a seat
  • a closure member cooperating with the seat to control flow through the orifice, an annular member surrounding the seat and separated therefrom to define a discharge'path beyond the seat,
  • a relief valve comprising a casing having a fluid discharge orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular ring-like member surrounding the seat for engaging and deflecting fluid escaping through the orifice, and a thermostatic support designed to maintain the ring-like member in a position determined by the temperature of the escaping fluid.
  • A'relief valve- comprisinga casing having a fluid discharge orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular ring-like member surrounding the seat and spaced therefrom to define a discharge path for steam, and a plurality of bimetallic members supporting the annular member and designed throughdefiectionto vary the position of'the annular member in accordance with temperature changes of the escaping steam.
  • a relief valve comprising a casing having a fluid discharge orifice terminating in a seat, I a closure member contacting the seat to close the orifice, means for loading the member to off set the pressure of fluid in the orifice, means for defining the discharge path of steam annularly about the orifice in a manner .to convert the energy of escaping steam and complement the fluid pressure normally lifting the member,

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Safety Valves (AREA)
  • Temperature-Responsive Valves (AREA)

Description

Dec. 19, 1939. I E, KLAFSTAD ET AL 2,183,650
RELIEF VALVE Filed Nov. 16, 19s? 2 Sheets-Sheet 1 Wiii'ness M'WM Dec. 19, 1939. E. LAF 'TAD ETA, 2,183,650
RELIEF VALVE Filed Nov. 16, 1937 2 Sheeis-Sheet 2 W n 7" Witness [2 Patented Dec. 19, 1939 STAT ES mm; mama, Melrose, and Gordon n Gundcrsen, Wollaston, Mass assignors to Crosby Steam Gages; Valve-Company, Boston Masa,
'a'" corporation of i Application November 16, 19:7, sol-n1 No. 174,816
, The present invention is concerned with safety and relief valves, and relates more particularly to such valves employed for the relief of high pressure boilers and fluid conduits such as steam lines. The type of relief valve with which the present invention is .concerned. is described generally in United States Letters Patent to Coflin, No. .743,430, dated January 14, 1930. This valve employs a spring-loaded, closure member designed to recede from its seat when the pressure of fluid in the discharge oriflce exceeds a predetermined amount. Cooperating with the closure member is an annular ring-"like fluid deflector or shroud contacting with-and deflecting escaping fluid as the valveopens. This deflection of escaping fluid controlled-through adjustment of the .shroud converts kinetic energy of the' escaping fluid into effective lifting'energy which complements the lifting eflect due to static pressure in a planner to force the spring-loaded closure member to afull open position with little or no ln- 7 1: Claims. (Cl. 137-53) With this form of construction a shroud ring properly designed to deflect, for example, saturated steam at 600 lbs. pressure, will be automatically altered in its position to cause greaterfluid deflection issecured compensates for the deflection when superheated steam is employed at the same pressure, due to the greater temperature of the superheated steam at the corresponding pressure, this difference aggregating, for example-about 200 F. The movementof the shroud ring into a position where greater loss in the available forces in the superheated steam at the same pressure, and imparts the requisite complementary lifting force to the closure member, the nioyement of the shroud ring being proportional to the applied temperature'an the lifting force required at any point. By virtue of such a construction, a valve properly adjusted will operate equally well on saturalted or superheated steam at approximately,
the same pressure, whereas without these im Y crease in pressure beyond that necessary to initially move the member from its seat. Not only does this method or construction permit full opening of the closure member with relatively .slight increases in pressure, but it permits closing .91, the member .upon a relatively slight drop in pressure .below the predetermined range, .and causes the valve to operate with what is commonlyltermed a low "blow-down. Itls the purpose and object or the presen invention to design a valve of this general type which will operate with equal eiliciency on both saturated and superheated steam.
With this and other objects in view, the invention accordingly consists ina spring-loaded closure member designed to open upon exceeding a predetermined pressure, and provided'with means for the conversion of the available energy of the escaping fluid into useful lifting force, thismeans having provision for automatic adjustment to compensate for the efiective difierence in theavailable reactionary (or lifting) forces between the two types of fluid, namely, saturated steam and superheated steam, at approximately the same. pressures. I 5
In a simple and eflicient form of the invention, the; annular fluid deflector shroud ring with which the valve is provided is supported by temperature responsive members which upon increase in temperature tend toautomatically vary the position of the shroud ring in a manner to modify the discharge path and increase deflection\ of escaping fluid as the temperature rises. mounted in the spring housing and-locked in po- 5 proved compensating features, a. valve set for operation upon either superheated or saturated steam will not function equally satisfactdrily when used with the other type of fluid. 5
In the accompanying drawings illustrating the preferred form of the invention, Fig. 1 represents a section in elevation of a safety valve embodying the features of the invention; Fig; 2 is a detail, partly-in section, illustratingthe'thermostatically controlled deflector ring with associated parts;' and Figs. 3 and 4 are details illustrating elevations in diflerent planes of .a thermostatic member for supporting the deflector 'The valve shown in the illustrated embodiment 45 {of the invention comprises a body portion I. in
which is threadedly supported a throat tube l2 forming'a fluid discharge orifice terminating in V through a spring housing 24. The disk assembly is connected with a spindle 26 through the connection assembly indicated 'at 2B, and the spindle extends outwardly through the'spring hous-' ing to a point remote from; the seat. The disk assembly and spindle are loaded through a coiled compression spring 30 surrounding the spindle and capableof adjustment to vary the loading effect through the threaded adjusting member 32 'a seat I normally closed by a disk assembly l6, comprising an outer portion or recessed disk I8 The disk assembly as .a h
from its seat. This abrupt deflection of escaping fluid converts the available energy of the fluid into effective lifting force which augments the lifting force due to static pressure and causes the valve to go to full lift opening upon recession from its seat and escape of fluid'thereby.
The shroud ring 40 is supported from an outer adjusting ring 42 which in turn is threadedly connected to the guidesleeve 22 at 43. Both the guide sleeve 22 and the adjusting ring 42 are recessed, as indicated in Fig. 2, to provide an annular slot 44 within which the shroud ring is received and moves. For convenienceof assembly the shroud ring and adjusting ring are provided with complementary threaded portions 46 which serve to permit assembly of the parts into 'the positions indicated, and provide cooperating shoulders to limit the play of the shroud ring within the annular slot. Actually the shroud ring is connected to the adjusting ring through a series of thermo-responsive coupling members 50, each having a generally U-shaped form and fixed at one end tov the adjusting. ring and connected at its opposite or free end to the shroud ring. These members or clips, as shown more particularly in Figs. 3 and 4, are provided with inturned lower ends 52 which engage in an annular recess 54 formed in the shroud ring and are provided with tongues 56 engaging behind the shroud ring to prevent disengagement. The upper or fixed ends of the clips are fixedly connected with the adjusting ring through a spacer ring 58 and a clip locking ring 60, as indicated in Fig. 2. It will be evident that the U-clips are so designed that as temperature increases they tend to deflect from the position shown in Fig. 3 to theapproximate position shown in Fig. 2, moving the shroud ring downwardly and thereby causing a greater deflection of escaping fluid. Actually it has been found that when the valve is employed in connection with the relief of high pressure steam at 600 lbs. approximately, the movement of the shroud ring from a position satisfactory for saturated steam to a position satisfactory for superheated steam at this pressure may approximate seventy thousandths of an inch in order to compensate for the diflerence in steam characteristics with a temperature difference of 200 between the two fluids. The clips are preferably made of high temperature bimetal of a type commercially available employing a high expansion chrome nickel-steel as the inner element and Invar or its equivalent as the low expansion outer element.
As indicated more particularly in the drawings, a series of these U-shaped clips are symmetrically grouped about the disk assembly for supporting the shroud ring, and due to thefact that the lower ends of the clipsare directly in the path of escaping steam the temperature of the clips responds instantly to any change in temperature of the escapingfluid for proper actuation of the shroud ring. In other words, inactual practice it has been found that there is no substantial time lag in the operation of the shroud ring when the valve opens and fluid is discharged thereby. Obviously other arrangements than that shown for producing temperature control compensation of the shroud ring might be produced without departing from the scope of the present invention, which is merely intended to illustrate one feasible and practical method of so doing.
In initially assembling the valve the main adjusting ring, together with the throat ring, are
adjusted to secure proper operation under given conditions, the temperature compensation thereafter suitably altering the operation of-the valve for modified conditions. Both the main adjusting ring and throat ring are retained in adjusted position by limiting screws 64 and 66, which are threaded inside the valve casing and engage at their inner ends with one of a series of slots 48 and 10 formed in the peripheral portions of the rings. The valve casing is provided with a flange connection I2 for discharging into a fluid conduit.
It will be evident that with the foregoing construction we have provided a relief valve which opens upon exceeding predetermined pressures, and which thereafter is further opened by augmenting the static lifting energy through conversion of a variable amount of available energy present in the escaping fluid, this variation in the amount of energy converted depending specifically upon the temperature of the escaping fluid in the relief range.
It will be understood that wherever the term relief valve is employed throughout the specification and claims it is intended to define a valve of this general type, irrespective of whether it may be designated in trade parlance as a safety or relief valve.
What is claimed is: Y
1. A relief valve comprising a casing having a fluid discharge opening terminating in a seat, a closure member contacting the seat to close the orifice, means for loading the member to oppose the fluid pressure within the orifice, means for augmenting the lifting effect due to fluid pressure by conversion of a portion of the available energy of escaping fluid, and thermostatically controlled means cooperating with said energy conversion means for regulating the additional energy procured through said conversion.
2. A relief valve comprising a casing having a fluid discharge oriflce terminating in a seat, a closure member closing the seat, means for loading the member, an adjustable shroud ring surrounding the member to engage and deflect escaping fluid, thermostatically controlled means for regulating the position of the shroud ring, and an adjustable throat ring surrounding the seat and complementing the action of 'the shroud ring.
3. A relief valve comprising a casing having a throat tube forming a fluid discharge orifice,
a seat at the terminus of the tube, a disk valve contacting the seat, a valve stem connected with the disk valve, a loading spring surrounding the stem, a guide in whichthe disk valve is slidingiy received, a shroud ring projecting beyond the guide serving to engage and deflect escaping fluid, and thermostatically responsive means for supporting the shroud ring in a manner'to vary the projection of the shroud ring in accordance with variations in temperature.
4. A relief valve comprising a casing having a throat tube forming a fluid discharge orifice, a seat at the terminus of the tube, a disk valve contacting the-seat, a valve stem connected with the disk valve, a loading spring surrounding the stem, a guide in which the disk valve is slidingly received, an annular ring surrounding the seat and serving to engage and deflect escaping fluid,
' and a series of bimetallic loops fixedly supported control flow through the orifice, means for loadat one end and engaging and supporting the ring at the opposite end designed through deflection to vary'the position of the ring.
a-fluid discharge orifice terminating in a ,seat, a closure member cooperating with the seat to ing the member, a ring adjacent to and coaxial with said discharge orifice for deflecting the escaping fluid, and a thermostatic member designed to support and adjust the relative position of the ring in accordance withlthe temperature of the escaping fluid.
6. A relief valve, comprising a casing having a fluid discharge'orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular member surrounding the discharge orifice and defining a discharge path for escaping steam, and thermally responsive means for modifying the discharge path in a manner to vary the reactive effect of the escaping steam upon the closure member.
7. A relief valve,- comprising a casing having.
manner to. produce a reactive lifting load upon.
the closure, and thermally responsive means modifying the discharge path defined by the annular I member with the temperature of escaping'fluid.
-8. A relief valve, comprising a casing having a fluid discharge orifice terminating in a seat,
. a closure member cooperating with the seat to control flowthrough the orifice, means for loading the member, an annular member surrounding the discharge orifice and defining a discharge path for escaping steam, and bi-metallic members responsive to the temperature of escaping available energy of the escaping steam.
steam for modifying the discharge path.
9. A relief valve, comprising a casing having a fluid discharge oriflce terminating in, a seat,
5. A relief valve comprising a casing having aclosure member cooperating with the seat to control flow through the orifice, means-for loading the member, and thermally responsive means for variably definingthe discharge path of escaping steam annularly about the seat in accordance with variations in temperature of the escaping fluid.
'10. A relief valve, comprising a casing having a fluid discharge orifice terminating in a seat,
a closure member cooperating with the seat to control flow through the orifice, an annular member surrounding the seat and separated therefrom to define a discharge'path beyond the seat,
. and means governed by the temperature of escaping fluid to vary the position of the annular member and in consequence the discharge path defined thereby..
11. A relief valve, comprising a casing having a fluid discharge orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular ring-like member surrounding the seat for engaging and deflecting fluid escaping through the orifice, and a thermostatic support designed to maintain the ring-like member in a position determined by the temperature of the escaping fluid.-
12. A'relief valve-,comprisinga casing having a fluid discharge orifice terminating in a seat, a closure member cooperating with the seat to control flow through the orifice, means for loading the member, an annular ring-like member surrounding the seat and spaced therefrom to define a discharge path for steam, and a plurality of bimetallic members supporting the annular member and designed throughdefiectionto vary the position of'the annular member in accordance with temperature changes of the escaping steam.
13. A relief valve, comprising a casing having a fluid discharge orifice terminating in a seat, I a closure member contacting the seat to close the orifice, means for loading the member to off set the pressure of fluid in the orifice, means for defining the discharge path of steam annularly about the orifice in a manner .to convert the energy of escaping steam and complement the fluid pressure normally lifting the member,
and thermally responsive means for modifying I the lifting eifect thus created by conversion of ERLING KLAFSTAD. GORDON L. 'GUNDERSEN.
US174816A 1937-11-16 1937-11-16 Relief valve Expired - Lifetime US2183650A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2517858A (en) * 1947-11-29 1950-08-08 Victor W Farris Safety valve
US2754841A (en) * 1951-10-23 1956-07-17 Phillips Petroleum Co Relief valve
US3428251A (en) * 1967-02-07 1969-02-18 Pall Corp Temperature and pressure responsive valve

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2517858A (en) * 1947-11-29 1950-08-08 Victor W Farris Safety valve
US2754841A (en) * 1951-10-23 1956-07-17 Phillips Petroleum Co Relief valve
US3428251A (en) * 1967-02-07 1969-02-18 Pall Corp Temperature and pressure responsive valve

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