US2586094A - Safety means for valves - Google Patents

Safety means for valves Download PDF

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Publication number
US2586094A
US2586094A US737741A US73774147A US2586094A US 2586094 A US2586094 A US 2586094A US 737741 A US737741 A US 737741A US 73774147 A US73774147 A US 73774147A US 2586094 A US2586094 A US 2586094A
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stem
pressure
wedge
valve
hold
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US737741A
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Albert J Rosenberger
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Republic Flow Meters Co
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Republic Flow Meters Co
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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
    • F16K35/00Means to prevent accidental or unauthorised actuation

Definitions

  • This invention relates to valves and more particularly to safety controlling means for fluid pressure'operated valves.
  • Fluid pressure operated valves have the undesirable characteristic in locations such as boiler feedwater lines, various chemical processes and the like :of v going either full open or full closed upon .tailure .of the controlling pressure source. Ina boiler te-edwater control either of these valve positions would-quickly result in severe damage to the boiler or even possibly destruction thereof, and equally disastrous results might follow in the case of many chemical processes .or in other environments.
  • Another object is to provide a valve which is engaged by a wedge .and held against movement in the event the valve operating pressure falls below a predetermined minimum.
  • Still another object is to provide a valve in which a latching means for holding the valve against movement is normally held in inoperative position in response to the valve operating pressureand is released to latch the valve when the operating pressure fails.
  • a further object is to provide .a valve which is normally operated by fluid pressure but which can beoperatedmanually, if desired.
  • Figure 2 is .a horizontal section on the line 22 .of Figure .1.
  • the valve .as shown isof the variable throttling or .reducing type including -.a hollow body formed internally with a hollow projection 11 formed with oppositelyfacing valve seats 12.
  • a valve stem 13 is slidable in the body and carries an enlarged spool-like portion 14 cooperating with the seats to vary .the effective flow area .therethrough thereby to control the rate of flow into a partition in the casing I! and at its upper' end on a collar 22 secured .to the stem extension 6.
  • the tension of the spring can be adjusted by turning the screw 21 so that any dea locking effect.
  • the diaphragm is enclosed in a two part housing 24 and the lower part of the housing may be vented to atmosphere.
  • the position of the valve will be controlled by the pressure exerted on the diaphragm l8 so that the valve will be more or less open depending upon the control pressure.
  • the valve would immediately be seated by the spring 19.
  • a latching device shown As shown.as an elongated wedge 25 formed with a central slot therein through which the stem 56 projects is provided immediately below the housing 24.
  • the wedge normally slides against the lower flat surface of the housing 24 and is adapted to engage the upper surface of the collar 22, the upper end of the collar being cut at an angle equal to the wedge angle, as shown.
  • the wedge angle is preferably less than the angle whose tangent equals the coefficient of friction so that it will be self-locking although, if desired, a sharper angle could be used and the surfaces of the wedge, the housing and the collar roughened or serrated to produce
  • the wedge is guided by guide rods 26 in the housing over which cars 21 on the wedge slidably fit and is urged toward the stem to its latching position by springs 28.
  • the wedge is normally held in its retracted or released position as shown by a pivoted latch 29 engaging "the wedge and holding it against movement.
  • the free end of the latch 29 is connected to a stem 31 which is urged downward to release the latch by a spring 32 and which is urged upward by a flexible diaphragm 33.
  • the lower surface of the diaphragm is connected to the pipe 23 so that as long as pressure above a predetermined minimum amount is available in "the pipe 23, the latch will be held in its engaged position. In the event of pressure failure the latch will'be swung down by the spring 32 to .release the wedge so that the springs 23 can move it to the right into engagement with the collar 22.
  • the valve is controlled by any desired type of instrument which receives fluid under pressure from the pipe 23 and transmits a variable pressure to the diaphragm 18.
  • the pipe 23 is formed with a restriction 3&5 above its connection to the diaphragm 33 and terminates at its upper end in an open nozzle 3.1, the connection to the diaphragm [8 being betweenthe restriction and the nozzle.
  • the nozzle is variably restricted by a pivoted vane 38 urged away from the nozzle by a spring 39.
  • responsive to a condition affected by the valve such as temperature, pressure or the like urges the vane toward the nozzle.
  • the pressure supplied to the diaphragm l8 will be varied to move the valve. However, this pressure is always less than that supplied to the diaphragm 31. In the event the source pressure fails or drops dangerously low, the spring 32 will release the latch so that the wedge will engage the collar 22 to hold the valve against closing. It will be noted that this action occurs before diaphragm l8 loses its pressure so that the valve will be held in the position it occupied when the pressure failure occurred.
  • the wedge can be retracted by a manually operable plunger 34 which is slidable through an opening in the wedge and which carries a pin at its inner end adapted to engage the wedge to pull it back against the springs 28.
  • the plunger may be held in either its inner position shown or in an outer position in which the wedge is retracted by means of a spring detent 35 engageable with either of two annular notches in the plunger. When the plunger is held out by the detent, the wedge will be held in inoperative position so that the valve can be controlled manually or otherwise without interference from the wedge.
  • a screw 42 may be threaded into the top of the casing 24 to engage the top of the valve stem I6. By turning this screw down against the valve stem, pressure may be taken off of the wedge so that it can be retracted manually, and with the wedge retracted the valve may be controlled manually, if desired.
  • a safety controlling means for a mechanism having a stem and a fluid pressure responsive device to move the stem comprising latching means engageable with the stem to hold it in any one of a plurality of positions, a latch engageable with the latching means to hold the latching means away from the stem, and pressure responsive means connected to a source of pressure which supplies the pressure responsive device for moving the stem to hold the latch engaged with the latching means in response to pressure and to permit it to release when the pressure drops below a predetermined value.
  • safety controlling means comprising latching means engageable with the stem to hold it against movement in said one direction, a latch to hold the latching means away from the stem, and pressure responsive means connected to a source of pressure which supplies the first named pressure responsive means to hold the latch engaged'in response to pressure.

Description

F 19, 1952 A. J. ROSENBERGER 2,586,094
SAFETY MEANS FOR VALVES Filed March 28, 1947 P'atented Feb. 19, 1952 SAFETY MEANS FOR VALVES Albert J. Rosenberger, Chicago, 111., assignor to Republic Flow Meters Company, Chicago, 111.,
a corporation of Illinoi Application March 28, 1947, Serial No. 737,741
7 Claims. 1
This inventionrelates to valves and more particularly to safety controlling means for fluid pressure'operated valves.
Fluid pressure operated valves have the undesirable characteristic in locations such as boiler feedwater lines, various chemical processes and the like :of v going either full open or full closed upon .tailure .of the controlling pressure source. Ina boiler te-edwater control either of these valve positions would-quickly result in severe damage to the boiler or even possibly destruction thereof, and equally disastrous results might follow in the case of many chemical processes .or in other environments.
It is one of the objects of the present invention to provide .a valve controlled by fluid pressure which will be latched in its existing position in the event .of pressure failure.
Another object is to provide a valve which is engaged by a wedge .and held against movement in the event the valve operating pressure falls below a predetermined minimum.
Still another object is to provide a valve in which a latching means for holding the valve against movement is normally held in inoperative position in response to the valve operating pressureand is released to latch the valve when the operating pressure fails.
.A further object is to provide .a valve which is normally operated by fluid pressure but which can beoperatedmanually, if desired.
The above and other objects and advantages of the invention will .be more readily apparent from the following description when read in connection with the accompanying drawing in Which- Figure 1 is a vertical section through a valve embodying the invention; and
Figure 2 is .a horizontal section on the line 22 .of Figure .1.
The valve .as shown isof the variable throttling or .reducing type including -.a hollow body formed internally with a hollow projection 11 formed with oppositelyfacing valve seats 12.. A valve stem 13 is slidable in the body and carries an enlarged spool-like portion 14 cooperating with the seats to vary .the effective flow area .therethrough thereby to control the rate of flow into a partition in the casing I! and at its upper' end on a collar 22 secured .to the stem extension 6. The tension of the spring can be adjusted by turning the screw 21 so that any dea locking effect.
suppliedthrough a conduit 23 acting on the upper surface of the diaphragm '18. Preferably the diaphragm is enclosed in a two part housing 24 and the lower part of the housing may be vented to atmosphere.
During normal operation the position of the valve will be controlled by the pressure exerted on the diaphragm l8 so that the valve will be more or less open depending upon the control pressure. In the event of a pressure failure, with the valve as so far described, due, for example, to line breakage, to pump failure or to any other cause, the valve would immediately be seated by the spring 19. When the valve is used in an environment such as a boiler feedwater line, it will be seen that this operation could quickly damage or destroy the boiler.
To prevent this and to retain the valve in its existing position in theevent of pressure failure, a latching device shown .as an elongated wedge 25 formed with a central slot therein through which the stem 56 projects is provided immediately below the housing 24. The wedge normally slides against the lower flat surface of the housing 24 and is adapted to engage the upper surface of the collar 22, the upper end of the collar being cut at an angle equal to the wedge angle, as shown. The wedge angle is preferably less than the angle whose tangent equals the coefficient of friction so that it will be self-locking although, if desired, a sharper angle could be used and the surfaces of the wedge, the housing and the collar roughened or serrated to produce The wedge is guided by guide rods 26 in the housing over which cars 21 on the wedge slidably fit and is urged toward the stem to its latching position by springs 28.
The wedge is normally held in its retracted or released position as shown by a pivoted latch 29 engaging "the wedge and holding it against movement. The free end of the latch 29 is connected to a stem 31 which is urged downward to release the latch by a spring 32 and which is urged upward by a flexible diaphragm 33. The lower surface of the diaphragm is connected to the pipe 23 so that as long as pressure above a predetermined minimum amount is available in "the pipe 23, the latch will be held in its engaged position. In the event of pressure failure the latch will'be swung down by the spring 32 to .release the wedge so that the springs 23 can move it to the right into engagement with the collar 22.
During normal automatic operation, the valve is controlled by any desired type of instrument which receives fluid under pressure from the pipe 23 and transmits a variable pressure to the diaphragm 18. As diagrammatically illustrated, the pipe 23 is formed with a restriction 3&5 above its connection to the diaphragm 33 and terminates at its upper end in an open nozzle 3.1, the connection to the diaphragm [8 being betweenthe restriction and the nozzle. The nozzle is variably restricted by a pivoted vane 38 urged away from the nozzle by a spring 39. A diaphragm 4| responsive to a condition affected by the valve such as temperature, pressure or the like urges the vane toward the nozzle.
As the vane approaches and recedes from the nozzle, the pressure supplied to the diaphragm l8 will be varied to move the valve. However, this pressure is always less than that supplied to the diaphragm 31. In the event the source pressure fails or drops dangerously low, the spring 32 will release the latch so that the wedge will engage the collar 22 to hold the valve against closing. It will be noted that this action occurs before diaphragm l8 loses its pressure so that the valve will be held in the position it occupied when the pressure failure occurred.
The wedge can be retracted by a manually operable plunger 34 which is slidable through an opening in the wedge and which carries a pin at its inner end adapted to engage the wedge to pull it back against the springs 28. The plunger may be held in either its inner position shown or in an outer position in which the wedge is retracted by means of a spring detent 35 engageable with either of two annular notches in the plunger. When the plunger is held out by the detent, the wedge will be held in inoperative position so that the valve can be controlled manually or otherwise without interference from the wedge.
For manual control and for releasing the pressure on the valve to permit retraction of the wedge, a screw 42 may be threaded into the top of the casing 24 to engage the top of the valve stem I6. By turning this screw down against the valve stem, pressure may be taken off of the wedge so that it can be retracted manually, and with the wedge retracted the valve may be controlled manually, if desired.
While one embodiment of the invention has been shown and described in detail herein, it will be understood that this is illustrative only and is not to be taken as a definition of the scope of the invention, reference being had for this purpose to the appended claims.
What is claimed is:
l. A safety controlling means for a mechanism having a stem and a fluid pressure responsive device to move the stem comprising latching means engageable with the stem to hold it in any one of a plurality of positions, a latch engageable with the latching means to hold the latching means away from the stem, and pressure responsive means connected to a source of pressure which supplies the pressure responsive device for moving the stem to hold the latch engaged with the latching means in response to pressure and to permit it to release when the pressure drops below a predetermined value.
2. In combination with a mechanism including a slidable stem, a spring urging the stem in one direction, and fluid pressure responsive means urging the stem in the other direction, safety controlling means comprising latching means engageable with the stem to hold it against movement in said one direction, a latch to hold the latching means away from the stem, and pressure responsive means connected to a source of pressure which supplies the first named pressure responsive means to hold the latch engaged'in response to pressure.
3. In combination with a mechanism including a slidable stem, a spring urging the stem in one direction, fluid pressure responsive means urging the stem in the other direction, means including a conduit to connect said means to a source of fluid pressure, safety controlling means comprising latching means engageable with the stem to hold it against movement in said one direction, means responsive to the pressure in said conduit to hold the latching means away from the stem when the pressure is above a predetermined value, manual means to hold the latching means away from the stem, and manual means to urge the stem in said other direction.
4. A safety controlling means for a mechanism having a slidable stem, a collar on the stem, a spring urging the stem in one direction, fluid pressure responsive means to urge the stem in the other direction, and means including a conduit to connect said means to a source of fluid pressure, said safety control means comprising a wedge slidable transversely of the stem and engageable with the collar to hold the stem against movement in said one direction, and means responsive to the pressure in said conduit to hold the wedge away from the stem when the pressure is above a predetermined value.
5. A safety controlling means for a mechanism having a slidable stem, a spring urging the stem in one direction, fluid pressure responsive means to urge the stem in the other direction, and means including a conduit to connect said means to a source of fluid pressure, said safety control means comprising a wedge slidable transversely of the stem and engageable therewith to hold the stem against movement in said one direction, a spring urging the wedge toward the stem, a latch engaging the wedge to hold it away from the stem, and means responsive to the pressure in the conduit to hold the latch engaged when the pressure is above a predetermined value.
6. A safety controlling means for a mechanism having a slidable stem, a collar on the stem, a spring engaging the collar and urging the stem in one direction, fluid pressure responsive means urging the stem in the other direction, and means including a conduit to connect said means to a source of fluid pressure, said safety control means comprising a slotted wedge fitting over the stem and engageable with the collar to hold the stem against movement in said one direction,
and means responsive to the pressure in the conduit to hold the wedge away from the collar.
7. A safety controlling means for a mechanism having a slidable stem, a collar on the stem, a spring engaging the collar and urging the stem in one direction, fluid pressure responsive means urging the stem in the other direction, and means including a conduit to connect said means to a source of fluid pressure, said safety control means comprising a slotted wedge fitting over the stem and engageable with the collar to hold the stem against movement in said one direction, a spring urging the wedge toward the collar, a latch holding the wedge away from the collar, a spring urging the latch to its released position, and means responsive to the pressure in the conduit urging the latch to its engaged position.
ALBERT J. ROSENBERGER.
REFERENCES CITED UNITED STATES PATENTS Name Date Emanuel Jan. 18, 1944 Number
US737741A 1947-03-28 1947-03-28 Safety means for valves Expired - Lifetime US2586094A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2902047A (en) * 1954-08-23 1959-09-01 Blackman Keith Ltd Gas pressure loaded regulator
US3241804A (en) * 1962-01-31 1966-03-22 Soya Rederi Ab Choked pressure type pilot operated valve with remote pilot valve actuation

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2339469A (en) * 1942-08-05 1944-01-18 Midcontinent Petroleum Corp Automatic regulating device

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2339469A (en) * 1942-08-05 1944-01-18 Midcontinent Petroleum Corp Automatic regulating device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2902047A (en) * 1954-08-23 1959-09-01 Blackman Keith Ltd Gas pressure loaded regulator
US3241804A (en) * 1962-01-31 1966-03-22 Soya Rederi Ab Choked pressure type pilot operated valve with remote pilot valve actuation

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