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US691944A - Fluid-vaporizing system. - Google Patents

Fluid-vaporizing system. Download PDF

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Publication number
US691944A
US691944A US1901049285A US691944A US 691944 A US691944 A US 691944A US 1901049285 A US1901049285 A US 1901049285A US 691944 A US691944 A US 691944A
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United States
Prior art keywords
pipe
valve
pump
vaporizer
pass
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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
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Inventor
Ralph O Hood
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.)
SIMPLEX MOTOR VEHICLE Co
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SIMPLEX MOTOR VEHICLE Co
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Priority to US1901049285 priority Critical patent/US691944A/en
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Publication of US691944A publication Critical patent/US691944A/en
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Expired - Lifetime legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D17/00Radial-flow pumps, e.g. centrifugal pumps; Helico-centrifugal pumps
    • F04D17/08Centrifugal pumps
    • F04D17/16Centrifugal pumps for displacing without appreciable compression
    • F04D17/165Axial entry and discharge
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B11/00Servomotor systems without provision for follow-up action; Circuits therefor
    • F15B11/02Systems essentially incorporating special features for controlling the speed or actuating force of an output member
    • 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
    • Y10T137/8593Systems
    • Y10T137/85978With pump
    • Y10T137/86171With pump bypass

Definitions

  • My invention has for its object to provide an improved fluid-vaporizing system in which the rate at which the duid is fed to the vaporizer is regulated automatically, so that the pressure in the vaporizer is maintained below a predetermined point.
  • My improved f1uid-vaporizing system comprises a vaporzer, a duid-supply tank or reservoir and a feed-pipe connectingthe vaporizer and tank, a feed-pump in said pipe, and a by-pass around said pump, in which is an automatic valve adapted to open when a predetermined pressure exists in the vaporizer, whereby when that predetermined pressure exists in the vaporizer and the valve opens the duid from the pump is caused to pass through the by-pass, around the ⁇ pump, and back into the feed-pipe on the tank sideI of the pump.
  • Another feature of my invention consists in providing an auxiliary fluid reservoir or tank containing a quantity of fluid under pressure and connecting the same with the feed-pipe at a point between the feed-pump and the vaporizer.
  • a third feature of my invention consists ⁇ in providing a valve or other adjustable restriction in the feed-pipe between the feed ⁇ pump and the vaporizer and in providing a ⁇ the vaporizer is caused to pass through the valve or other restriction to the vaporizer.
  • l represents a duid-vaporizer, herein shown as a steam-generator of that class known as flashers or Hash-boilers, which maybe of any suitable type.
  • Generator l is connected by a feedpipe 2 with a fluid-reservoir, herein shown as a water-supply tank 3, from which water is fed to generator 1 through pipe 2 by means of a pump 4, which latter is driven by any suitable means. (Not shown.)
  • Extending around pump 4 is a by-pass 5, one end of which communicates with pipe 2 at one side of pump 4 and the other end of which communicates with pipe 2 at the other side of pump 4.
  • valve 6 In the by-pass 5 is a valve 6, which is held on its seat by a measured force, herein arranged to be produced by aspring 7, the pressure of which is regulated by means of a screw S, as will be clear.
  • a valve 9 In pipe 2 between by-pass 5 and water-supply tank 3 is a valve 9, by means of which the amount of water fed to generator l at each stroke of pump 4 maybe regulated by hand when desired.
  • Spring 7 is so adjusted by screw S that when the system is in operation if the predetermined pressure exists in pipe 2 on the Vaporizer or generator sideof pump 4 valve 6 will open and the water passing through pump 4 will be permitted to return through by-pass 5 to the supply side of pump 4, and it Wi1lc0ntinue to circulate through the pump and bypassi until the pressure in pipe 2 on the ⁇ vaporizer or generator side of pump 4 falls.
  • Pipe 10 is furnished with a valve 12, whichis permitted to remain open when the engine is in'operation and which is closed by the operator when the engine is not in use.
  • a by-pass 14 one end of which communicates with 'pipe 2 at one side of valve 13 andthe other end of which communicates with pipe 2 at the other side of valve 13, and in by-pass 14 is a check-valve 15, which opens in the direction indicated by the arrow and closes in the opposite direction, so that by-pass 14 is closed to the water from pump 4 or tank 11, but open to Water or steam under pressure from vaporizer or generator l.
  • the compressed air in tank 11 serves in a way as a yielding piston or spring to force water through valve 13 to generator 1 when pump 4 is not in action.
  • An excess of pressure in vaporizer or generator 1 is relieved by back pressure through pipe 2, bypass 14 and valve13, and by-pass 5 and valve 6 back to water-tank 3.
  • valve 12 in pipe 10 When the engine is not in use, valve 12 in pipe 10 is closed, as is also avalve 16 in that sect-ion of pipe 2 between pump 4 and pipe 10.
  • a quantity of water is forced into tank 1l through a nipple 17 in pipe 10, within which nipple is a check-valveV (not shown) which opens inwardly.
  • nipple After partly filling tank 11 the water in the same is put under the desired pressure, which is accomplished by forcing air under pressure through nipple 17.
  • valve 12 After supplying tank 11 with a quantity of water and establishing a definite pressure upon the same the furnace 18 of vaporizer or generator 1 is started, and then valve 12 is opened and the pressure in tank 11 forces water through pipes lO and 2 by way of valve 13 into generator 1 until the pressure in vaporizer or generator 1 prevents the entrance of more water.
  • valve 16 After steam has been generated in generator 1 valve 16 is opened, after which pump4 is set in operation, and thereafter the water from the supply-tank 3 is fed to the vaporizer or generator and the pressure in the generator maintained automatically at a predetermined point.
  • At 2O is represented an auxiliary hand-operated pump, by means of which the operator may start the system in operation in place of utilizing tank 11 and pipe 10, as above described.
  • 21, 22, and 23 are the check-valves of pumps 4 and 20.
  • What I claim is- 1.
  • a vaporizer in combination, a vaporizer, a Huid-reservoir, a pipe connecting the vaporizer and reservoir, a feed-pump in said pipe, a restricting-valve in said pipe between the pump and vaporizer, a by-pass around said valve, a check-valve in said by-pass, and means connected with said pipe between said pump and said by-pass for automatically relieving the vaporizer of excess of pressure.
  • a vaporizer in combination, a vaporizer, a fluid-reservoir, a pipe connecting the vaporizer and reservoir, a feed-pump in said pipe, automatic means to stop the supply of fluid to the vaporizer when a predetermined pressure exists in the latter, a restricting-valve in said pipe between the pump and vaporizer, a by-pass around said valve, a check-valve in said by-pass, and means connected with said pipe between said pump and said by-pass for automatically relieving the vaporizer of excess of pressure.
  • a vaporizer in combination, a vaporizer, a duid-reservoir, a feedpipe connecting the vaporizer and reservoir, a feedpump in said pipe, automatic means to stop the supply of fluid to the generator when a predetermined pressure exists in the latter, an auxiliary reservoir containing fluid under pressure, and a pipe connecting the auxiliary reservoir with the feed-pipe at a point between the vaporizer and pump and a valve located in said connecting-pipe intermediate the au xiliary reservoir and the feed-pipe.
  • generator 1 Water-supply tank 3, pipe 2 connecting generator 1 and tank 3, pump 4 in pipe 2, by-pass 5 around pump 4, valve 6 in by-pass 5, valve 13 in pipe 2, by-pass 14 around valve 13, and check-valve 15 in bypass 14.
  • auxiliary Water-supply tank l1 auxiliary Water-supply tank l1, and pipe 10 connecting tank 11 with pipe 2.
  • a Vaporizer in combination, a feed-pipe connecting therewith, a restricting-valve in said feedpipe, a by-pass around said Valve, und a cheek-valve in said by-pass.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Pipeline Systems (AREA)

Description

L u ,8: 2 n. a I. d e .t n e t a P M. ...H J 1 Sw Y1 um@ mmm HMM ...nn .uom .Mm R t mh U( L F .a 4 9, M 6 0. N
(No Model.)
IIIIHHIHIII! 9,5%@ @www I NITED STATES PATENT OFFICE.
MOTOR VEHICLE COMPANY, OF DANVERS, MASSACHUSETTS, A CORPO- RATION OF MAINE.
FLUID-VAPORIZING SYSTEM.
SPECIFICATION forming part of Letters Patent No. 691,944, dated January 28, 1902.
Application tiled February 28, 1901. Serial No. 49,285. (No model.)
T0 all whom. it may concern.:
Be it known that I, RALPH O. HOOD, a citi- Zen of the United States, residing at Danvers, in the county of Essex and State of Massachusetts, have invented a certain new and useful Improvement in Fluid -Vaporizing Systems, of which the following is a specification, reference being had therein to the accompanying drawing.
In said drawing I have illustrated one embodiment of myinvention by a diagram,from` which a full and clear understanding of my invention may be had.
My invention has for its object to provide an improved fluid-vaporizing system in which the rate at which the duid is fed to the vaporizer is regulated automatically, so that the pressure in the vaporizer is maintained below a predetermined point. l
My improved f1uid-vaporizing system comprises a vaporzer, a duid-supply tank or reservoir and a feed-pipe connectingthe vaporizer and tank, a feed-pump in said pipe, and a by-pass around said pump, in which is an automatic valve adapted to open when a predetermined pressure exists in the vaporizer, whereby when that predetermined pressure exists in the vaporizer and the valve opens the duid from the pump is caused to pass through the by-pass, around the` pump, and back into the feed-pipe on the tank sideI of the pump.
Another feature of my invention consists in providing an auxiliary fluid reservoir or tank containing a quantity of fluid under pressure and connecting the same with the feed-pipe at a point between the feed-pump and the vaporizer.
A third feature of my invention consists` in providing a valve or other adjustable restriction in the feed-pipe between the feed` pump and the vaporizer and in providing a` the vaporizer is caused to pass through the valve or other restriction to the vaporizer.
Having reference to the drawing, l represents a duid-vaporizer, herein shown as a steam-generator of that class known as flashers or Hash-boilers, which maybe of any suitable type. Generator l is connected by a feedpipe 2 with a fluid-reservoir, herein shown as a water-supply tank 3, from which water is fed to generator 1 through pipe 2 by means of a pump 4, which latter is driven by any suitable means. (Not shown.) Extending around pump 4 is a by-pass 5, one end of which communicates with pipe 2 at one side of pump 4 and the other end of which communicates with pipe 2 at the other side of pump 4. In the by-pass 5 is a valve 6, which is held on its seat by a measured force, herein arranged to be produced by aspring 7, the pressure of which is regulated by means of a screw S, as will be clear. In pipe 2 between by-pass 5 and water-supply tank 3 is a valve 9, by means of which the amount of water fed to generator l at each stroke of pump 4 maybe regulated by hand when desired. Spring 7 is so adjusted by screw S that when the system is in operation if the predetermined pressure exists in pipe 2 on the Vaporizer or generator sideof pump 4 valve 6 will open and the water passing through pump 4 will be permitted to return through by-pass 5 to the supply side of pump 4, and it Wi1lc0ntinue to circulate through the pump and bypassi until the pressure in pipe 2 on the `vaporizer or generator side of pump 4 falls. As
soon as the pressure in pipe 2 falls below the predetermined pressure for which spring 7`is adjusted valve 6 closes automatically, and the Water forced through the pump 4 will pass along through pipe 2 toward vaporizer or generator l. One end of a pipe l0 is connected with feed-pipe 2 at a point between pump 4 and vaporizer or generator l, and the other end of pipe l0 is connected with an auxiliary fluid-reservoir, herein shown as a tank l1. Pipe 10 is furnished with a valve 12, whichis permitted to remain open when the engine is in'operation and which is closed by the operator when the engine is not in use.
In pipe 2 at a point between pipe l0 and vaporizer or generator 1 is-a needle-valve 13, Whose function is to so retard or regulate the entrance of the Water into vaporizer or .generatorl as to prevent it from entering in a body, and thereby acting to cool the tubes of the vaporizer or generator. In order to provide for the free relief of an excess of pressure in generator 1, which would otherwise be retarded and more or less checked by valve 13, I have herein provided a by-pass 14, one end of which communicates with 'pipe 2 at one side of valve 13 andthe other end of which communicates with pipe 2 at the other side of valve 13, and in by-pass 14 is a check-valve 15, which opens in the direction indicated by the arrow and closes in the opposite direction, so that by-pass 14 is closed to the water from pump 4 or tank 11, but open to Water or steam under pressure from vaporizer or generator l.
During the use of the apparatus since the water which is fed toward vaporizer or generator 1 by pump 4 isretarded in its passage through pipe 2 by needle-valve 13 the pressure in pipe 2 forces some of the water-which is back of said valve 13 into pipe 10 and tank 11 until the pressure in tank 11 becomes greater than the predetermined pressure for which spring 7 is adjusted, when valve 6 will open and the water acted on by pump 4 Will circulate through by-pass 5 and pump 4. Thus it will be clear that through the action lof pump 4 and valve 6 a supply of water is maintained in tank 1l under a nearly-uniform pressure, which is determined by the force exerted on valve 6 by spring 7, and that an even flow of Water through valve 13 is maintained. The compressed air in tank 11 serves in a way as a yielding piston or spring to force water through valve 13 to generator 1 when pump 4 is not in action. An excess of pressure in vaporizer or generator 1 is relieved by back pressure through pipe 2, bypass 14 and valve13, and by-pass 5 and valve 6 back to water-tank 3.
When the engine is not in use, valve 12 in pipe 10 is closed, as is also avalve 16 in that sect-ion of pipe 2 between pump 4 and pipe 10. When it is desired to first put the system in condition for use, a quantity of water is forced into tank 1l through a nipple 17 in pipe 10, within which nipple is a check-valveV (not shown) which opens inwardly. After partly filling tank 11 the water in the same is put under the desired pressure, which is accomplished by forcing air under pressure through nipple 17. After supplying tank 11 with a quantity of water and establishing a definite pressure upon the same the furnace 18 of vaporizer or generator 1 is started, and then valve 12 is opened and the pressure in tank 11 forces water through pipes lO and 2 by way of valve 13 into generator 1 until the pressure in vaporizer or generator 1 prevents the entrance of more water. After steam has been generated in generator 1 valve 16 is opened, after which pump4 is set in operation, and thereafter the water from the supply-tank 3 is fed to the vaporizer or generator and the pressure in the generator maintained automatically at a predetermined point.
At 2O is represented an auxiliary hand-operated pump, by means of which the operator may start the system in operation in place of utilizing tank 11 and pipe 10, as above described.
21, 22, and 23 are the check-valves of pumps 4 and 20.
What I claim is- 1. In a fluid-vaporizing system, in combination, a vaporizer, a Huid-reservoir, a pipe connecting the vaporizer and reservoir, a feed-pump in said pipe, a restricting-valve in said pipe between the pump and vaporizer, a by-pass around said valve, a check-valve in said by-pass, and means connected with said pipe between said pump and said by-pass for automatically relieving the vaporizer of excess of pressure.
2. In a fluid-vaporizing system, in combination, a vaporizer, a fluid-reservoir, a pipe connecting the vaporizer and reservoir, a feed-pump in said pipe, automatic means to stop the supply of fluid to the vaporizer when a predetermined pressure exists in the latter, a restricting-valve in said pipe between the pump and vaporizer, a by-pass around said valve, a check-valve in said by-pass, and means connected with said pipe between said pump and said by-pass for automatically relieving the vaporizer of excess of pressure.
3. In a iluid-vaporizing system, in combination, a vaporizer, a duid-reservoir, a feedpipe connecting the vaporizer and reservoir, a feedpump in said pipe, automatic means to stop the supply of fluid to the generator when a predetermined pressure exists in the latter, an auxiliary reservoir containing fluid under pressure, and a pipe connecting the auxiliary reservoir with the feed-pipe at a point between the vaporizer and pump and a valve located in said connecting-pipe intermediate the au xiliary reservoir and the feed-pipe.
4. In a fluid-vaporizing system, in combination, generator 1, Water-supply tank 3, pipe 2 connecting generator 1 and tank 3, pump 4 in pipe 2, by-pass 5 around pump 4, valve 6 in by-pass 5, valve 13 in pipe 2, by-pass 14 around valve 13, and check-valve 15 in bypass 14.
5. In a fluid-vaporizing system, in combination, generator 1, water-supply tank 3, pipe 2 connecting generator 1 and tank 3, pump 4, in pipe 2, by-pass 5 around pump 4, valve 6 in by-pass 5, auxiliary water-supply tank 11, andppipe 10 connecting tank 11 with pipe 2 and 'provided with valve 12.
6. In a iiuid-vaporizing system, in combination, generator 1, Water-supply tank 3, pipe 2 connecting generator 1 and tank 3, pump 4 in pipe 2, by-pass 5 around pump 4, valve 0 in by-pass 5, valve 13 in pipe 2, by-pass 14 IOO IIO
pressure, :t restricting-valve in said feed-pipe between said vaporizer and said reservoir, a by-pass around said valve, and a check-valve in said by-pass.
In testimony whereof I afx mysignature in 4presence of two witnesses.
RALPH O. HOOD.
auxiliary Water-supply tank l1, and pipe 10 connecting tank 11 with pipe 2.
7. In a uid-vaporizing system, in combination, a Vaporizer, a feed-pipe connecting therewith, a restricting-valve in said feedpipe, a by-pass around said Valve, und a cheek-valve in said by-pass.
8. In a fluid-vaporizing system, in combination, a Vaporizer, a feed-pipe connecting therewith, a reservoir' containing fluid under around valve 13, cheek-valve 15 in lay-pass 14, l
I I5 l Witnesses:
CEAS. F. RANDALL, WM. A. MAoLnoD.
US1901049285 1901-02-28 1901-02-28 Fluid-vaporizing system. Expired - Lifetime US691944A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3273313A (en) * 1963-02-13 1966-09-20 Lockheed Aircraft Corp Means and method for separating gases from liquids

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3273313A (en) * 1963-02-13 1966-09-20 Lockheed Aircraft Corp Means and method for separating gases from liquids

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