Movatterモバイル変換


[0]ホーム

URL:


US3297329A - Pump seal injection control - Google Patents

Pump seal injection control
Download PDF

Info

Publication number
US3297329A
US3297329AUS392171AUS39217164AUS3297329AUS 3297329 AUS3297329 AUS 3297329AUS 392171 AUS392171 AUS 392171AUS 39217164 AUS39217164 AUS 39217164AUS 3297329 AUS3297329 AUS 3297329A
Authority
US
United States
Prior art keywords
signals
flow
seal
casing
regulator
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US392171A
Inventor
Smith John Pearson
Samuel A Carswell
Samuelson Gilbert
Herbert A Rainbird
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ingersoll Rand Co
Original Assignee
Ingersoll Rand Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ingersoll Rand CofiledCriticalIngersoll Rand Co
Priority to US392171ApriorityCriticalpatent/US3297329A/en
Application grantedgrantedCritical
Publication of US3297329ApublicationCriticalpatent/US3297329A/en
Anticipated expirationlegal-statusCritical
Expired - Lifetimelegal-statusCriticalCurrent

Links

Images

Classifications

Definitions

Landscapes

Description

Jan. 10, 1-967 J. P. SMITH ET AL PUMP SEAL INJECTION CONTROL Filed Aug. 26, 1964 VALVE 28 2'9 6}? W T MP. O 22 24 SENSOR DIFE PRESS.
TRANSMITTER .0 M6
, COMPARATOR 2 Sheets$heet 1 VALVE TEMF? 24 SENSOR DIFF PRESS. TRANSMITTER COMPARATOR r I I l l cuzm TEMP SENSOR JOHN P.
SAMUEL A.
GILBERT HERBERT A.
37 29 COUPLER & FIG. 2
INVENTORS 5114/ TH GARSWE LL SAMUELSON RA INB/RD GENT Jan. 10, 1967 J. P. SMITH ETAL 3,297,329
PUMP SEAL INJECTION CONTROL Filed Aug. 26, 1964 2 SheetsSheet 2l 28 VALVE TEMP 22'-'- SENSOR DIFE PRESS.
TRANSMlTTER .L c0MPARAToR PRESS. SENSOR TO VALVE 28 TO SENSOR 4i INVENTORS JOHN P. SMITH l SAMUEL A. CARSWELL GILBERT SAMUELSON ToREGULATOR 30 HERBERT A. RA/NB/RD BY F/G. 4 8&1
AGENT Patented Jan. 10, 1967 3,297,329 PUMP SEAL INJECTION CONTROL John Pearson Smith, Westfield, Samuel A. Carswell, Martinsville, Gilbert Samuelson, Westfield, and Herbert A. Rainbird, Ramsey, N.J., assignors to Ingersoll-Rand Company, New York, N.Y., a corporation of New Jersey Filed Aug. 26, 1964, Ser. No. 392,171
12 Claims. (Cl. 277-3) The present invention relates generally to pumps handling high temperature fluids and more particularly to a controlled hydraulic or wet seal means for varying pump conditions.
Hydraulic type seal means are generally not new as shown in US. Patent 1,681,075 granted Aug. 14, 1928 to R. H. Wiegert; 2,287,205 granted June 23, 1942 to F. Stone; 2,834,619 granted May 13, 1958; 2,913,989 granted November 24, 1959 to T. J. Boardman and J, G. Williams; 2,992,618 granted July 18, 1961; and Patents 1,759,074 and 1,867,236 granted May 20, 1930 and July 12, 1932, respectively, to W. Van Rijswijk. However, none of the foregoing teach the invention as will be described and claimed hereinafter.
With a hydraulic or wet seal, suflicient flow is required for lubrication which must be held within desired limits and does not become a leakage problem.
Accordingly an object of the present invention is to provide an eflicient hydraulic or wet seal for a pump handling high temperature fluids under varying conditions.
Another object of the present invention is to provide the aforementioned seal means having sensing means with controls responsive thereto for maintaining a desired limited flow for lubrication.
Still another object of the present invention is to provide the aforementioned seal means with control means responsive to rapid and excessive or emergency operating conditions.
This invention contemplates in combintion with a pump for fluids at elevated temperatures having a casing defining a pump chamber, a pump shaft extending through the casing, and a plurality of rings disposed in the casing and encircling the shaft providing a wet seal with a drain at one end permitting limited flow of fluid at eleavted temperature therethrough from the pump chamber to the drain, a system for controlling such flow of fluid at elevated temperature, comprising: an inlet adapted to receive cold fluid connected to the casing in communication with the seal intermediate its ends and having signal responsive means for controlling flow of cold fluid therethrough; sensing means operatively assoicated with the inlet and drain for sensing flow of cold fluid and drainage flow, and for providing signals representing such flows; and means connected to the sensing means to receive signals representing sensed flows and connected to the flow control means to provide signals thereto in response to the signals received to control flow of cold fluid for controlling flow of fluid from the pump chamber through the seal.
The foregoing and other objects and advantages will appear more fully hereinafter from a consideration of the detailed description which follows, taken together with the accompanying drawings wherein several embodiments each illustrating a modified system in accordance with the present invention, and
FIG. 4 is a sectional view diagrammatically illustrating the relay of the system of FIG. 3.
Referring now to FIG. 1, a pump 10 (shown in part) for handling fluid at high or elevated temperature, has acasing 11 defining apump chamber 12 for an impeller (not shown). Ashaft 19 extends through abore 14 in an extended orseal section 13 ofcasing 11 for driving the pump impeller (not shown) inchamber 12. Bore 14 has an enlarged intermediate or central portion forming anannular seal chamber 15, aroundshaft 19, connected at its outer end, or its end remote fromchamber 12, to asump 18 by adrain 17. A plurality of inner andouter rings 20 and 21, respectively, are disposed in sealchamber 15 to provide a wet seal forshaft 19 permitting limited flow of hot fluid frompump chamber 12 tosump 18. Aconduit 23 is provided for drainingsump 18. At this juncture it should be understood thatpump 10 is substantially a conventional pump, with a wet seal, for handling hot fluids and the like.
In a pump, such aspump 10, a wet seal is provided for a predetermined flow therethrough under normal operating conditions. To control flow of high temperature fluid frompump chamber 12 through the seal, aninlet passage 16 is provided incasing portion 13 which communicates withchamber 15 between inner andouter seal rings 20 and 21. Although but onering 20 and a plurality ofrings 21 are shown in the drawings and referred to herein, such quantities of rings are arbitrarily chosen to facilitate the description of the present invention and are not to be construed as defining limits of the invention. The singleinner ring 20 is illustrative of one means of providing minimum clearance aroundshaft 19 which in practice, probably would be derived bymachining bore 14 andshaft 19. However, for purposes of description, both such means are considered equivalents of each other with the inclusion ofring 20 providing clarity to the disclosure. Broadly stated, the wet seal in accordance with the present invention is to provide a pair of axially spaced restrictions along a flow path formed bybore 14 andshaft 19 fromchamber 12 to sumpdrain 17. By providing a variable head to the flow path between the spaced restrictions, flow of hot fluid fromchamber 12 can be controlled. Towards this end, aconduit 22 connected to a source (not shown) of cold fluid, is connected toinlet passage 16 to provide a cold flow pastouter rings 21 inseal chamber 15 tosump 18. A normally open signalresponsive valve 28 is provided inconduit 22 to control the flow of cold fluid toseal chamber 15 in response to signals from aregulator 30 which are received by itsinput line 29.
It is well known that flow of pressure fluid through a restricted orifice or passage is limited and attended by a pressure drop. In the present invention, flow of pressure fluid fromchamber 12 past rings orrestrictions 20 and 21 tosump 18 is attended by a two step pressure drop; the first during flow past ring orrestriction 20 and the second dun'ng flow past rings orrestriction 21. By providing a variable head of cold fluid tochamber 15 between rings orrestrictions 20 and 21, the flow of hot fluid past ring orrestriction 20 fromchamber 12 can be controlled, with the resulting flow of fluid past rings orrestriction 21 tosump 18 having a resultant temperature dependent upon the relative quantities of hot fluid fromchamber 12 and cold fluid fromconduit 22 and the temperature of each.
A pair of sensors or sensing means 24 and 25 are provided inconduits 22 and 23, respectively, for sensing the respective flows therethrough and for providing signals representing such sensed flows,sensors 24 and 25 having output ortransmission lines 26 and 27, respectively, connected to theregulator 30 for transmitting the representative signals.Regulator 30 provides control signals, in response to the representative signals fromsensors 24 and 25, tovalve 28 through itsoutput line 34 that is connected tovale input line 29.
Thesensors 24 and 25 sense the temperature of fluid flowing through thelines 22 and 23 respectively. These sensors transmit a pneumatic signal representing the temperature of the sensed fluid throughtransmission lines 26 and 27 toregulator 30. Although pneumatic signals have been illustrated other signals may be used and are considered to be within the scope of this invention.
To accomplish this,regulator 30 has a resolver ordifferential pressure transmitter 31 which receives the representative signals fromsensors 24 and 25, and provides resultant signals, in response thereto, to a comparator ordicerential temperature controller 32.Comparator 32 compares resultant signals to a preset standard, which can be varied or changed as desired, and derives the control signals provided toline 34 for actuatingvalve 28 to control flow of cold fluid inconduit 22.
Aprotective device 35 is provided for emergency conditions or malfunction ofregulator 30.Protective device 35 has a sensor or sensing means 36 inconduit 23 for sensing flow therethrough and for providing signals representing such sensed flow, and automatic or signal responsive coupling means 37 normally connectingline 34 toline 29 for transmission of control signals fromregulator 30 tovalve 28. Coupling means 37 is responsive to representative signals fromsensor 36 and when such signals indicate emergency conditions, coupler 37 disconnects or blocks signals fromline 34 toline 29. In the absence of such signals,valve 28 opens fully to permit maximum flow inconduit 22.
As shown in FIG. 2, the signal and control arrangement of FIG. 1 is modified by eliminatingsensor 25 and itsoutput line 27, and by providingsensor 36 with anoutput line 39 connected toregulator 30 for transmission of signals to resolver 31 representing sensed flow inconduit 23. In this modified arrangement,senor 36 provides signals for actuatingcoupler 37 and toregulator 30 for deriving signals for actuatingvalve 28.
In operation at start-up, pump handles cold fluid, and pressure from an outside source (not shown) is available toregulator 30 to providecomparator 32 with a control signal transmitted throughcoupler 37, connectinglines 34 and 37, to fullyclose valve 28.
As pumped fluid, initially providing total allowable flow past seal rings orrestrictions 20 and 21, progressively becomes heated to its normal or a desired temperature,sensors 25 and 36 in FIG. 1, orsensor 36 alone in FIG. 2, sense increasingly hot drainage inconduit 23 to provide a progressively increasing signal to resolver 31.
Whenresolver 31 receives signals fromsensor 25 or 36 and fromsensor 24 which initially merely indicates temperature withinconduit 22, indicating a temperature differential betweenconduits 22 and 23 a resultant signal will be transmittedtocomparator 32.
Whencomparator 32 receives a resultant signal indicating or representing an excessive temperature differential, the control signal output will reduce to openvalve 28 and permit suflicient cold fluid flow to seal chamber between rings or restrictions and 21 to limit hot fluid flow through the seal fromchamber 12. During normal operation ofpump 10, the system will remain in equilibrium with partial cold injection flow throughconduit 22 limiting hot fluid flow fromchamber 12 combining to provide drainage at a desired temperature.
If, during pump operation, a malfunction or emergency conditions should occur wherein the drainage inconduit 23 becomes hotter than a desired maximum even though the temperature differential between injection and drainage flows inconduits 22 and 23, respectively, appears to be satisfactory,sensor 36 would provide signals, representing excessive heat, to actuatecoupler 37 to ventinlet line 29 causingvalve 28 to fully open and pass maximum cold injection flow to sealchamber 15.
While the foregoing is described as a system utilizing pressure signals, it should be understood that, in accordance with the present invention by substitution of equivalentcomponents electrical signals can be provided.
In accordance with the present invention, a further modification of the system of FIG. 1 is derived by further control ofvalve 28 in accordance with pump pressure as shown in FIGS. 3 and 4 of the drawings. Abias relay assembly 40 is provided inline 29 betweenregulator 30 andvalve 28. Asensor 41 is connected to pump 10 to sense pump operating pressure (either inlet or discharge) and to provide a signal representing sensed pressure through atransmission line 42 to relayassembly 40.
As more specifically shown, diagrammatically, in FIG. 4 a pilot operated or signalresponsive proportioning valve 43 dividesline 29 into twoportions 29a and 29b, receiving signals fromregulator 30 fromline portion 29a and providing normally reduced signals to actuatevalve 28 through line portion 2912. Arelay 50 of theassembly 40 has acasing 51 which is closed at its ends by a pair of spacedwalls 52 and 53 and has acentral wall 54 therebetween. Apiston 60 is movable axially incasing 51 and is comprised of arod 61, which extends throughcentral wall 54, connected at its ends to a pair of spacedheads 62 and 63.Head 62 divides the area betweenwalls 52 and 54 into a pair ofmotor chambers 55 and 56 which vary in volume oppositely to one another whenpiston 60 moves axially incasing 51.Head 63 similarly divides the area betweenwalls 53 and 54 into a pair ofsimilar chambers 57 and 58.
Line 42, fromsensor 41, communicates withchamber 56, and withchamber 55 through a throttlingvalve 44 and acheck valve 45 connected in parallel with one another.Line portions 29a and 29b in addition to being connected tovalve 43 also communicates withchambers 57 and 58, respectively.Chamber 58 is also connected tovalve 43 by apilot line 46.
Signal changes representing rapid pump pressure changes are provided byline 42 tochamber 56, andt0 chamber 55 throughthrottle valve 44,check valve 45 permitting exhaust flow only fromchamber 55 toline 42. Such an increase or decrease of signal pressure inchamber 56 tends to movepiston 60 axially until forces acrosshead 62 are balanced. Whenpiston 60 is in equilibrium forces acrosshead 63 are balanced,chamber 57 receiving signal pressure fromregulator 30 andchamber 58 receiving signal pressure provided tovalve 28.
Axial movement, which is minimal ofpiston 60 tends to change pressures inchambers 57 and 58 seen as a change in pilot pressure fromchamber 58 tovalve 43 changing the relationship of the signals fromregulator 30 and tovalve 28 to resetvalve 28 and adjust cold fluid flow inline 22 to compensate for change of the pressure head of hot fluid.
In view of the foregoing in accordance with the present invention, a novel system is provided to control flow of hot fluid through a wet seal of a pump for handling fluids at elevated temperatures, such system having emergency or malfunction controls and being adapted for control response with rapid changes of pump pressure.
Although several embodiments of the invention have been illustrated and described in detail, it is to be expressly understood that the invention is not limited thereto. Various changes may be made in the design and arrangement of the parts without departing from the spirit and scope of the invention as the same will now be understood by those skilled in the art.
We claim:
1. In combination with a pump for fluids at elevated temperatures having a casing defining a pump chamber, a pump shaft extending through the casing from the casing, and a wet seal in the casing encircling the shaft providing a pair of spaced restrictions and being subject to a head of hot fluid at one end with a drain at its other end for limited flow of fluid therethrough from the pump chamber; 21 system for controlling flow of fluids at elevated temperature through the seal, comprising:
(a) an inlet adapted to receive cold fluid connected to the casing in communication with the seal intermediate its restrictions and having signal responsive means for controlling flow of cold fluid therethrough,
(b) means operatively associated with the inlet and drain for sensing flows of cold fluid and seal drainage and for providing signals representing the second flows, and
(c) regulator means connected to the sensing means to receive signals representing sensed flows and connected to the flow control means to provide actuating signals thereto in response to signals representing sensed flows to control flow of cold fluid to the seal for controlling flow 0f fluid therethrough from the pump chamber.
2. The system, in combination, in accordance withclaim 1, and
(a) signal responsive coupling means connected to the regulator and flow control means normally passing signals therethrough, and being connected to the sensing means for receiving signals representing sensed drainage flow and for blocking signals between the regulator and flow control means when the signals representing sensed drainage flow exceed a predetermined maximum.
3. The system, in combination, in accordance withclaim 1, and
(a) means connected to the casing in communication with the pump chamber for sensing pressure therein and for providing signals representing the sensed pressure, and
(b) relay means connected to the regulator means for receiving signals therefrom, the flow control means for providing actuating signals thereto in response to signals from the regulator means, and the pressure sensing means for varying the relationship between signals received from the regulator means and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
4. The system in combination, in accordance withclaim 1, and
(a) means connected to the casing in communication with the pump chamber for sensing pressure therein and for providing signals representing the sensed pressure,
(b) signal responsive coupling means and relay means connected in series with one another to the regulator and flow control means,
(0) the coupling means normally passing signals between the regulator and flow control means being connected to the flow sensing means to receive signals therefrom representing drainage flow, and blocking normally passed signals when the signals representing drainage flow exceed a predetermined maximum, and
(d) the relay means receiving signals from the regulator means and providing actuating signals to the flow control means in response to signals from the regulator means, and being connected to the pressure sensing means and responsive to the signals therefrom for varying the relationship between signals received from the regulator means and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
5. In combination with a pump for fluids at elevated temperatures having a casing defining a pump chamber, a pump shaft extending through the casing from the casing, and a wet seal in the casing encircling the shaft providing a pair of spaced restrictions and being subject to a head of hot fluid at one end with a drain at its other end for limited flow of fluid therethrough from the pump chamber, a system for controlling flow of fluids at elevated temperature through the seal, comprising:
(a) an inlet conduit adapted to receive cold fluid connected to the casing in communication with the seal intermediate its restrictions and having normally open signal responsive means for controlling flow of cold fluid therethrough,
(b) means operatively associated with the inlet conduit for sensing temperature of cold fluid flowing therethrough and for providing signals representing the sensed temperature,
(c) a drain conduit connected to the casing in communication with the seal through the drain,
(d) means operatively associated with the drain conduit for sensing temperature of seal drainage flow therethrough and for providing signals representing the sensed temperature,
(e) regulator means connected to both temperature sensing means to receive signals representing temperatures of cold fluid and seal drainage flows and connected to the flow control means to provide actuating signals thereto in response to signals representing sensed temperatures to control flow of cold fluid to the seal for controlling flow of fluid therethrough from the pump chamber.
6. The system, in combination, in accordance with claim 5, and
(a) signal responsive coupling means connected to the regulator and flow control means normally passing signals therethrough, and being connected to the sensing means operatively associated with the drain conduit for receiving signals representing temperature sensed thereby and for blocking signals between the regulator and flow control means when the drainage temperature representing signal represents a temperature in excess of a predetermined maximum.
7. The system, in combination, in accordance with claim 5, and
(a) means connected to the casing in communication with the pump chamber for sensing pressure therein and for providing signals representing the sensed pressure, and
(b) relay means connected to the regulator means for receiving signals therefrom, the flow control means for providing actuating signals thereto in response to signals from the regulator means, and the pressure sensing means for varying the relationship between signals received from the regulator means and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
8. The system, in combination, in accordance with claim 5, and
(a) means connected to the casing in communication with the pump chamber for sensing pressure therein and for providing signals representing the sensed pressure,
(b) signal responsive coupling means and relay means connected in series with one another to the regulator and flow control means,
(c) the coupling means normally passing signals 'between the regulator and flow control means being connected to the sensing means operatively associated with the drain conduit for receiving signals representing temperature sensed thereby and for blocking signals between the regulator and flow control means when the temperature representing signal represents a temperature in excess of a predetermined maximum; and
(d) the relay means receiving signals from the regulator means and providing actuating signals to the flow control means in response to signals from the regulator means, and being connected to the pressure sensing means and responsive to the signals therefrom for varying the relationship between sig nals received from the regulator means and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
9. The system, in combination, in accordance with claim 5, wherein the regulator means comprises:
(a) resolver and comparator means connected in series with one another,
(1)) the resolver means providing the regulator means input connected to both temperature sensing means to provide a resultant signal in response to both temperature representing signals, and
(c) the comparator means receiving resultant signals from the resolver means and providing the regulator means output connected to the flow contol means for providing a signal thereto when the resultant signal exceeds a predetermined minimum.
10. The system, in combination, in accordance with claim 9, and
(a) signal responsive coupling means connected to the regular means output and flow control means normally passing signals therethrough, and being connected to the sensing means operatively associated with the drain conduit for receiving signals representing temperature sensed thereby and for blocking signals between the regulator means output and flow control means when the drainage temperature representing signal represents a temperature in excess of a predetermined maximum.
11. The system, in combination, in accordance with claim 9, and
(a) means connected to the casing in communication with the pump chamber for sensing pressure therein and for providing signals representing the sensed pressure, and
(b) relay means connected to the regulator means output for receiving signals therefrom, the flow control means for providing actuating signals thereto in response to signals from the regulator means, and the pressure sensing means for varying the relationship between signals received from the regulator means output and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
12. The system, in combination, in accordance with claim 9, and
(a) mean-s connected to the casing in communication with the pump chamber -for sensing pressure therein and for providing signals representing the sensed pressure, 7
(b) signal responsive coupling means and relay means connected in series with one another to the regulator means output and flow control means,
(c) the coupling means normally passing signals between the regulator means output and flow control means being connected to the sensing means operatively associated with the drain conduit for receiving signals representing temperature sensed thereby and for blocking signals between the regulator means output and flow control means when the drainage temperature representing signal represents a temperature in excess of a predetermined maximum,
((1) the relay means receiving signals from the regulator means output and providing actuating signals to the flow control means in response to signals from the regulator means output, and being connected to the pressure sensing means and responsive to the signals therefrom for varying the relationship between signals received from the regulator means output and provided to the flow control means to compensate for sudden changes in pressure in response to signals representing such sensed pressure.
References Cited by the Examiner UNITED STATES PATENTS 1,867,236 7/1932 Van Rijswijk 2773 2,332,150 10/1943 Hufi 27715 2,649,318 8/1953 Skillman 2773 2,730,386 1/ 1956 Shields 277-3 2,913,989 11/1959 Boardman ct al. 27715 XR SAMUEL ROTHBERG, Primary Examiner.

Claims (1)

1. IN COMBINATION WITH A PUMP FOR FLUIDS AT ELEVATED TEMPERATURES HAVING A CASING DEFINING A PUMP CHAMBER, A PUMP SHAFT EXTENDING THROUGH THE CASING FROM THE CASING, AND A WET SEAL IN THE CASING ENCIRCLING THE SHAFT PROVIDING A PAIR OF SPACED RESTRICTIONS AND BEING SUBJECT TO A HEAD OF HOT FLUID AT ONE END WITH A DRAIN AT ITS OTHER END FOR LIMITED FLOW OF FLUID THERETHROUGH FROM THE PUMP CHAMBER; A SYSTEM FOR CONTROLLING FLOW OF FLUIDS AT ELEVATED TEMPERATURE THROUGH THE SEAL, COMPRISING: (A) AN INLET ADAPTED TO RECEIVE COLD FLUID CONNECTED TO THE CASING IN COMMUNICATION WITH THE SEAL INTERMEDIATE ITS RESTRICTIONS AND HAVING SIGNAL RESPONSIVE MEANS FOR CONTROLLING FLOW OF COLD FLUID THERETHROUGH, (B) MEANS OPERATIVELY ASSOCIATED WITH THE INLET AND DRAIN FOR SENSING FLOWS OF COLD FLUID AND SEAL DRAINAGE AND FOR PROVIDING SIGNALS REPRESENTING THE SECOND FLOWS, AND (C) REGULATOR MEANS CONNECTED TO THE SENSING MEANS TO RECEIVE SIGNALS REPRESENTING SENSED FLOWS AND CONNECTED TO THE FLOW CONTROL MEANS TO PROVIDE ACTUATING SIGNALS THERETO IN RESPONSE TO SIGNALS REPRESENTING SENSED FLOWS TO CONTROL FLOW OF COLD FLUID TO THE SEAL FOR CONTROLLING FLOW OF FLUID THERETHROUGH FROM THE PUMP CHAMBER.
US392171A1964-08-261964-08-26Pump seal injection controlExpired - LifetimeUS3297329A (en)

Priority Applications (1)

Application NumberPriority DateFiling DateTitle
US392171AUS3297329A (en)1964-08-261964-08-26Pump seal injection control

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
US392171AUS3297329A (en)1964-08-261964-08-26Pump seal injection control

Publications (1)

Publication NumberPublication Date
US3297329Atrue US3297329A (en)1967-01-10

Family

ID=23549544

Family Applications (1)

Application NumberTitlePriority DateFiling Date
US392171AExpired - LifetimeUS3297329A (en)1964-08-261964-08-26Pump seal injection control

Country Status (1)

CountryLink
US (1)US3297329A (en)

Cited By (19)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3533635A (en)*1968-05-101970-10-13Dresser IndPressure controlled shaft seal injection system
JPS4982306U (en)*1972-11-071974-07-17
JPS5142855A (en)*1974-10-091976-04-12Kawasaki Heavy Ind Ltd SHIIRUSOCHI
JPS51114701U (en)*1975-03-131976-09-17
JPS51140803U (en)*1975-05-061976-11-12
US4121839A (en)*1976-08-181978-10-24Mitsui Toatsu Chemicals, Inc.Sealing system for use in composite multi-stage pump
US4722534A (en)*1985-12-181988-02-02Borg-Warner Industrial Products, Inc.Face seal with automatic face convergence means
US5186277A (en)*1991-01-281993-02-16Westinghouse Electric Corp.Generator sealing oil temperature control method and apparatus utilizing temperature matching
US5746435A (en)*1994-09-301998-05-05Arbuckle; Donald P.Dual seal barrier fluid leakage control method
US5762342A (en)*1996-05-031998-06-09Durametallic CorporationMechanical seal with controller for regulating face contact pressure
WO1999009386A1 (en)*1997-08-201999-02-25John Crane Sealol Inc.Rotary shaft monitoring seal system
WO2000009956A3 (en)*1998-08-172000-06-15Donald P ArbuckleIntegrated barrier fluid sealing apparatus with visual volume indicator
US6116609A (en)*1997-12-172000-09-12A. W. Chesterton CompanyFluidic feedback pressure regulation system for a mechanical seal
WO2001040756A3 (en)*1999-12-062002-05-10Crane John IncMonitoring seal system
US6626436B2 (en)*1997-08-202003-09-30Crane John IncMonitoring seal system
US20040227302A1 (en)*2003-05-152004-11-18Woodward Governor CompanyDynamic sealing arrangement for movable shaft
US20070120085A1 (en)*2005-11-292007-05-31Gessaman Jeff AFully independent, redundant fluid energized sealing solution with secondary containment
US20070120084A1 (en)*2005-11-292007-05-31Stumbo Steven CFully independent, redundant fluid energized sealing solution with secondary containment
US20070132188A1 (en)*2004-02-102007-06-14Nadim TahirMechanical seal support systems

Citations (5)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1867236A (en)*1926-05-031932-07-12Bbc Brown Boveri & CieGas sealed gland
US2332150A (en)*1942-07-131943-10-19Universal Oil Prod CoSeal for pumps, mixers, and the like
US2649318A (en)*1950-05-181953-08-18Blaw Knox CoPressure lubricating system
US2730386A (en)*1950-05-181956-01-10Blaw Knox CoLubricated stuffing box
US2913989A (en)*1957-03-151959-11-24Worthington CorpSealing devices for pumps

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1867236A (en)*1926-05-031932-07-12Bbc Brown Boveri & CieGas sealed gland
US2332150A (en)*1942-07-131943-10-19Universal Oil Prod CoSeal for pumps, mixers, and the like
US2649318A (en)*1950-05-181953-08-18Blaw Knox CoPressure lubricating system
US2730386A (en)*1950-05-181956-01-10Blaw Knox CoLubricated stuffing box
US2913989A (en)*1957-03-151959-11-24Worthington CorpSealing devices for pumps

Cited By (27)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3533635A (en)*1968-05-101970-10-13Dresser IndPressure controlled shaft seal injection system
JPS4982306U (en)*1972-11-071974-07-17
JPS5142855A (en)*1974-10-091976-04-12Kawasaki Heavy Ind Ltd SHIIRUSOCHI
JPS51114701U (en)*1975-03-131976-09-17
JPS51140803U (en)*1975-05-061976-11-12
US4121839A (en)*1976-08-181978-10-24Mitsui Toatsu Chemicals, Inc.Sealing system for use in composite multi-stage pump
US4722534A (en)*1985-12-181988-02-02Borg-Warner Industrial Products, Inc.Face seal with automatic face convergence means
US5186277A (en)*1991-01-281993-02-16Westinghouse Electric Corp.Generator sealing oil temperature control method and apparatus utilizing temperature matching
US5746435A (en)*1994-09-301998-05-05Arbuckle; Donald P.Dual seal barrier fluid leakage control method
US5906374A (en)*1994-09-301999-05-25Arbuckle; Donald P.Dual seal barrier fluid leakage control method utilizing linearly displaceable member
US5762342A (en)*1996-05-031998-06-09Durametallic CorporationMechanical seal with controller for regulating face contact pressure
WO1999009386A1 (en)*1997-08-201999-02-25John Crane Sealol Inc.Rotary shaft monitoring seal system
US6626436B2 (en)*1997-08-202003-09-30Crane John IncMonitoring seal system
US6082737A (en)*1997-08-202000-07-04John Crane Inc.Rotary shaft monitoring seal system
US6116609A (en)*1997-12-172000-09-12A. W. Chesterton CompanyFluidic feedback pressure regulation system for a mechanical seal
WO2000009956A3 (en)*1998-08-172000-06-15Donald P ArbuckleIntegrated barrier fluid sealing apparatus with visual volume indicator
US6161835A (en)*1998-08-172000-12-19Arbuckle; Donald P.Integrated barrier fluid sealing apparatus with visual volume indicator
WO2001040756A3 (en)*1999-12-062002-05-10Crane John IncMonitoring seal system
US20040227302A1 (en)*2003-05-152004-11-18Woodward Governor CompanyDynamic sealing arrangement for movable shaft
US7118114B2 (en)2003-05-152006-10-10Woodward Governor CompanyDynamic sealing arrangement for movable shaft
US20070085279A1 (en)*2003-05-152007-04-19Burdick Wade ADynamic Sealing Arrangement For Movable Shaft
US8074999B2 (en)2003-05-152011-12-13Woodward, Inc.Dynamic sealing arrangement for movable shaft
US20070132188A1 (en)*2004-02-102007-06-14Nadim TahirMechanical seal support systems
US7669858B2 (en)*2004-02-102010-03-02Aes Engineering Ltd.Mechanical seal support systems
US20070120085A1 (en)*2005-11-292007-05-31Gessaman Jeff AFully independent, redundant fluid energized sealing solution with secondary containment
US20070120084A1 (en)*2005-11-292007-05-31Stumbo Steven CFully independent, redundant fluid energized sealing solution with secondary containment
US7426936B2 (en)2005-11-292008-09-23Woodward Governor CompanyFully independent, redundant fluid energized sealing solution with secondary containment

Similar Documents

PublicationPublication DateTitle
US3297329A (en)Pump seal injection control
US4190198A (en)Oil cooler bypass valve actuating means
US4176630A (en)Automatic control valves
US4423803A (en)Torque converter clutch with a temperature regulator valve
US2834619A (en)Fluid seal means for rotating shafts
US2286873A (en)Controller for multiple clutches
US3536085A (en)Fluid actuated valve assembly
US2423812A (en)Thermostatic outlet valve control for fluid coupling
US2937656A (en)Flow rate compensator
US1910811A (en)Centrifugal pump
US3332440A (en)Sequentially-actuated multiplefunction control valve
US3026112A (en)Slide ring seal
US2969775A (en)Valve
US2279285A (en)Temperature control unit
US2556829A (en)Fluid regulator
US3533635A (en)Pressure controlled shaft seal injection system
US2268227A (en)Relief valve
US2973778A (en)Hydraulic valve
US4241749A (en)Pressure compensating valve
US2401861A (en)Control apparatus
US4522369A (en)Pilot-controlled safety valve
US1657841A (en)Hydraulic, steam, or air valve
US2780413A (en)Pneumatic temperature control
EP0011361A1 (en)Temperature actuated fluid control valve
US2831712A (en)Fluid sealing apparatus

[8]ページ先頭

©2009-2025 Movatter.jp