US788039A - Device for feeding hydrocarbon to vapor-burners. - Google Patents

Device for feeding hydrocarbon to vapor-burners. Download PDF

Info

Publication number
US788039A
US788039A US22214504A US1904222145A US788039A US 788039 A US788039 A US 788039A US 22214504 A US22214504 A US 22214504A US 1904222145 A US1904222145 A US 1904222145A US 788039 A US788039 A US 788039A
Authority
US
United States
Prior art keywords
tank
pressure
valve
feed
hydrocarbon
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
US22214504A
Inventor
Norman P Fraser
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.)
GEORGE C FRASER
Original Assignee
GEORGE C FRASER
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 GEORGE C FRASER filed Critical GEORGE C FRASER
Priority to US22214504A priority Critical patent/US788039A/en
Application granted granted Critical
Publication of US788039A publication Critical patent/US788039A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23NREGULATING OR CONTROLLING COMBUSTION
    • F23N5/00Systems for controlling combustion
    • F23N5/24Preventing development of abnormal or undesired conditions, i.e. safety arrangements
    • F23N5/242Preventing development of abnormal or undesired conditions, i.e. safety arrangements using electronic means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K5/00Light sources using charges of combustible material, e.g. illuminating flash devices
    • F21K5/02Light sources using charges of combustible material, e.g. illuminating flash devices ignited in a non-disrupting container, e.g. photo-flash bulb

Definitions

  • This invention relates to devices for feeding h 'drocarb .m to vapor-burners; and ithas among its objects to automatically regulate the flow ot' the hydrocarbon liquid, thereby insuring steady flames and the avoidance of flickering ot' the flames ot' the burners that are being used.
  • the device is applicable to plants for the consumption of hydrocarbon-vapor in which the vapor for a plurality of burners is developed by a single generator.
  • the invention consists in the improved construction and novel arrangement and combination of parts to be hereinafter fully described, and particularly pointed out in the claims, whereby atmospheric pressure in the tank From which the hydrocarbon is delivered to the generator is maintained even and unchanged without regard to the consumption and fluid remaining in the pipe et may, if deof hydrocarbon contained in said tank.
  • the said drawing represents a vertical sectional view of a plant constructed in accordance with the principles of the invention.
  • valve 1 designates a reservoir of any desired capacity.
  • 2 and 3 designate air-tight tanks which may likewise be of any desired shape 5 end of the reservoir 1 with an automatic valve 5 at the lower end of the tank 2, which latter is named the pressure-tank.
  • the closure of the valve 5 is efl'ected automatically by the action of a float 6 within the tank, said float being connected with the valve by means of a connecting member 7 of any desired length.
  • said valve which has been conventionally illustrated, may be of any suitable and well-known construction.
  • the pipe -i is provided with check-valves 8 8, opening in the direction of the pressuretank 2.
  • Said pipe is also provided with stopvalves 9 9 adjacent to the reservoir and to the pressure-tank.
  • a bib-cock i0 is disposed between the valve S) adjacent to the pressure- 1 tank and the adjacent check-valve S, and a pump 11 is connected with the pipe 4 intermediate the check-valves.
  • This pump which consists simply of a cylinder and a piston mounted therein for reciprocation, may be utilized while the valves 9 9 are open to force the contents of the reservoir 1 into the tank 2. As it rises in the latter it causes the float (5 to rise, thereby presently causing the automatic valve 5 to be closed and preventing the admission of more fluid. ⁇ Vhen the tank has been lillcd to the extent permitted by the automatic valve, the stop-valves 9 S) are closed,
  • a pipe 12, extending nearly to the bottom of the tank 2, has in the top of said tank a connecting-plug 13, provided with a valve 14.
  • the connecting-plug l?) is connected by a pipe, preferably a drawn-copper tube 15, with an inlet l6 near the lower end of the feed-tank 3, said inlet being provided with an automatic valve 17, regulated by a float 18.
  • the inlet 16 also has a stop'cock 1%).
  • a pipe 20, having a valve 21 leads to the generator 22, at which the liquid hydrocarbon is vaporized for the purpose of supplying burners, as 23.
  • the pressure-tank 2 and the teed-tank 3 are each provided with a pressure-gage 2% 25, said pressure-gages being connected with the and capacity.
  • a pipe t connects the lower l respective tanks by means of pipes 2G 27.
  • Tubes 30 31, having valves 28 29, connect the pipes 26 27 with air-compressors 32 33, whereby air maybe injected into the said tanks, the pressure being registered upon the gages or indicators.
  • the pressure-gage 24 of the pressure-tank is connected by electric conductors 34: with a battery 35, in the circuit of which is included the electromagnet of a signal-bell 86.
  • the conductors 34 are provided with contacts 37, adapted to be connected by a contact 38, suitably connected with the hand or pointer 39 of the gage, which will thus close the circuit and cause the signal to be operated when the pressure in the tank has reached a predetermined point.
  • the several tanks are provided with plugs 1O for filling, cleaning, and the like.
  • liquid hydrocarbon, such as gasolene, contained in the reservoir 1 is pumped from said reservoir into the pressuretank until by the action of the float 6 the valve 5 is automatically closed, after which the stopcocks 9 are closed.
  • the air-compressor 32 is then operated to inject air into the pressuretank until a pressure of, say, thirty pounds has been attained, the valve 14 being meanwhile closed.
  • Air is now injected into the feed-tank until a pressure of, say, twenty pounds has been attained, after which the valve 29 is closed.
  • the valves 9 9 are now again opened and the pump 11 is operated to inject hydrocarbon into the tank 2 against the pressure of the air contained in said tank until the normal pressure of, say, thirty poundshas been restored.
  • the contacts 37 should be so disposed that the electric signal will be actuated when the pressure in the pressure tank approaches twenty pounds.
  • a container constituting a feed-tank, means for maintaining a pressure of air in said tank, a generator, a valved pipe connecting the tank with the generator, a container constituting a pressure-tank, means for maintaining a pressure of air in said pressure-tank, an automatic valve in the feed-tank, afloat within said tank operating said valve, and a pipe connecting the feed-tank with the pressure-tank.
  • a container constituting a feed-tank, means for maintaining a pressure of air in said tank, a generator, a valved pipe connecting the feedtank with the generator, a container constituting a pressure-tank, means for maintaining a pressure of air in the latter, means for forcing liquid into said tank against the pressure of air existing therein, an automatic valve constituting the inlet to said pressure-tank, a
  • a storage-tank, a pressure-tank and a feed-tank means for injecting air into the pressure-tank and into the feed-tank, means for transferring the contents of the storage-tank to the pressure-tank against the pressure existing in the latter, an automatically-operated valve constituting a check against the injection of liquid into pressure-tank beyond a predetermined point, and means of communication between the pressure-tank and the feed-tank, said means including an automatically-operated valve adapted to close when the liquid in thefeed-tank reaches a predetermined level.

Description

PATENTED APR. 25, 1905.
N. P. FRASER. DEVICE FOR FEEDING HYDROGARBON T0 VAPOR BURNERS.
APPLICATION FILED AUG.25.1904.
pobobbhelol QQOOQOOOO Witnesses MFa/ZPFfaSerIm/ nt r Httomegs UNTTED STATES Patented April 25, 1905.
PATENT OEETcE.
HALF TO GEORGE O. FRASER,
OF OARSONVILLE, MICHIGAN.
DEVICE FOR FEEDING HYDROCARBON TO VAPOR-BURNERS.
SPECIFICATION formingpart of Letters Patent No. 788,039, dated April 25, 1905. Application filed August 25,1904- Serial N0. 222,145.
To II'/l /)III' it 11m ('IHLPIPN/J Be it known that LNomL-w l.FuAsm:, a citizen ot' the United States, residing at Oarsonville, in the county of Sanilac and State of 5 Michigan, have invented a new and useful Device for Feeding Hydrocarbon to Vapor- 1 Burners, of which the following is a specification.
This invention relates to devices for feeding h 'drocarb .m to vapor-burners; and ithas among its objects to automatically regulate the flow ot' the hydrocarbon liquid, thereby insuring steady flames and the avoidance of flickering ot' the flames ot' the burners that are being used.
.'\nother object is, by an automatic signal,
to give notice when the supply of hydrocarbon is nearly exhausted.
The device is applicable to plants for the consumption of hydrocarbon-vapor in which the vapor for a plurality of burners is developed by a single generator.
The invention consists in the improved construction and novel arrangement and combination of parts to be hereinafter fully described, and particularly pointed out in the claims, whereby atmospheric pressure in the tank From which the hydrocarbon is delivered to the generator is maintained even and unchanged without regard to the consumption and fluid remaining in the pipe et may, if deof hydrocarbon contained in said tank.
In the accompanying drawinghas been illustrated a simple and preferred form of embodiment of the invention, it being, however, understood that no limitation is necessarily made to the precise structural details therein exhibited, but that the right is'reserved to any changes, alterations, and modilications to which recourse may be had within the scope of the invention and without departing from the spirit or sacrilicing the efliciency of the same.
The said drawing represents a vertical sectional view of a plant constructed in accordance with the principles of the invention.
1 designates a reservoir of any desired capacity. 2 and 3 designate air-tight tanks which may likewise be of any desired shape 5 end of the reservoir 1 with an automatic valve 5 at the lower end of the tank 2, which latter is named the pressure-tank. The closure of the valve 5 is efl'ected automatically by the action of a float 6 within the tank, said float being connected with the valve by means of a connecting member 7 of any desired length. In the construction of the valve 5 no novelty is claimed, and said valve, which has been conventionally illustrated, may be of any suitable and well-known construction.
The pipe -i is provided with check-valves 8 8, opening in the direction of the pressuretank 2. Said pipe is also provided with stopvalves 9 9 adjacent to the reservoir and to the pressure-tank. A bib-cock i0 is disposed between the valve S) adjacent to the pressure- 1 tank and the adjacent check-valve S, and a pump 11 is connected with the pipe 4 intermediate the check-valves. This pump, which consists simply of a cylinder and a piston mounted therein for reciprocation, may be utilized while the valves 9 9 are open to force the contents of the reservoir 1 into the tank 2. As it rises in the latter it causes the float (5 to rise, thereby presently causing the automatic valve 5 to be closed and preventing the admission of more fluid. \Vhen the tank has been lillcd to the extent permitted by the automatic valve, the stop-valves 9 S) are closed,
sired, be drained ofl' through the bib-cock 10.
A pipe 12, extending nearly to the bottom of the tank 2, has in the top of said tank a connecting-plug 13, provided with a valve 14. The connecting-plug l?) is connected by a pipe, preferably a drawn-copper tube 15, with an inlet l6 near the lower end of the feed-tank 3, said inlet being provided with an automatic valve 17, regulated by a float 18. The inlet 16 also has a stop'cock 1%). From the lower end of the teed-tank 3 a pipe 20, having a valve 21, leads to the generator 22, at which the liquid hydrocarbon is vaporized for the purpose of supplying burners, as 23.
The pressure-tank 2 and the teed-tank 3 are each provided with a pressure-gage 2% 25, said pressure-gages being connected with the and capacity. A pipe t connects the lower l respective tanks by means of pipes 2G 27.
Tubes 30 31, having valves 28 29, connect the pipes 26 27 with air-compressors 32 33, whereby air maybe injected into the said tanks, the pressure being registered upon the gages or indicators.
The pressure-gage 24 of the pressure-tank is connected by electric conductors 34: with a battery 35, in the circuit of which is included the electromagnet of a signal-bell 86. The conductors 34 are provided with contacts 37, adapted to be connected by a contact 38, suitably connected with the hand or pointer 39 of the gage, which will thus close the circuit and cause the signal to be operated when the pressure in the tank has reached a predetermined point.
The several tanks are provided with plugs 1O for filling, cleaning, and the like.
In operation liquid hydrocarbon, such as gasolene, contained in the reservoir 1 is pumped from said reservoir into the pressuretank until by the action of the float 6 the valve 5 is automatically closed, after which the stopcocks 9 are closed. The air-compressor 32 is then operated to inject air into the pressuretank until a pressure of, say, thirty pounds has been attained, the valve 14 being meanwhile closed. IV hen the desired pressure has been attained, the valve 28 is closed and the valve 14: is opened, when the hydrocarbon contained in the pressure-tank will be brought through the pipe 15 into the feed-tank until the float 18 in the latter reaches a point at which the automatic valve 17 is closed. Air is now injected into the feed-tank until a pressure of, say, twenty pounds has been attained, after which the valve 29 is closed. The valves 9 9 are now again opened and the pump 11 is operated to inject hydrocarbon into the tank 2 against the pressure of the air contained in said tank until the normal pressure of, say, thirty poundshas been restored. Assuming this to be the normal pressure in the pressure-tank and assuming twenty pounds to be the normal pressure in the feed-tank, the contacts 37 should be so disposed that the electric signal will be actuated when the pressure in the pressure tank approaches twenty pounds. The apparatus having been charged in the manner described is now ready for op eration, and it is obvious that by simply opening the valve 21 the hydrocarbon will be permitted to flow to the generator, where in the usual manner it is converted into vapor to be supplied to the burners. As the contents of the feedtank is gradually consumed, the lowering of the level will cause the float 18 to sink, thereby slightly opening the valve 17 and causing hydrocarbon to be forced or fed from the pressure-tank into the feed-tank, but only at the precise rate at which it is consumed, consequently maintaining in the teed-tank an absolutely constant and steady pressure, whereby the fluid will be fed with absolute regularity to the generator, always assuming,
of course, that there is no leakage of air from the tank. When the hydrocarbon contained in the tank 2 is lowered, with a consequent reduction of pressure, notice of the fact will be given automatically by the electric signal in ample time to enable the pressure-tank to be recharged.
Having thus described the invention, what is claimed is 1. In an apparatus of the class described, a container constituting a feed-tank, means for maintaining a pressure of air in said tank, a generator, a valved pipe connecting the tank with the generator, a container constituting a pressure-tank, means for maintaining a pressure of air in said pressure-tank, an automatic valve in the feed-tank, afloat within said tank operating said valve, and a pipe connecting the feed-tank with the pressure-tank.
2. In an apparatus of the class described, a container constituting a feed-tank, means for maintaining a pressure of air in said tank, a generator, a valved pipe connecting the feedtank with the generator, a container constituting a pressure-tank, means for maintaining a pressure of air in the latter, means for forcing liquid into said tank against the pressure of air existing therein, an automatic valve constituting the inlet to said pressure-tank, a
' float operating said valve, an automatic valve in the feed-tank, a pipe connecting the latter with the pressure-tank, and a float within the feed tank operating the automatic valve therein.
3. In an apparatus of the class described, a storage-tank, a pressure-tank and a feed-tank, means for injecting air into the pressure-tank and into the feed-tank, means for transferring the contents of the storage-tank to the pressure-tank against the pressure existing in the latter, an automatically-operated valve constituting a check against the injection of liquid into pressure-tank beyond a predetermined point, and means of communication between the pressure-tank and the feed-tank, said means including an automatically-operated valve adapted to close when the liquid in thefeed-tank reaches a predetermined level.
4. In an apparatus of the class described, a feed-tank, a generator, valved means of communication between said feed-tank and generator, a pressure-gage connected with the feed-tank, means for maintaining a pressure of air in the latter, a pressure-tank, means of communication between the feed-tank and the pressure-tank, including an automatically-operated valve, means for maintaining a pressure of air in the pressure-tank, a pressuregage connected with said tank, a storage-tank, means of communication between the pressure-tank and the storage-tank, including an automatically-operated valve, and pumping means for transferring the contents of the storage-tank to the pressure-tank through the automatically-operated valve.
an electric bell and having contacts connected with the dial of the pressure-gage, and a circuit-closer connected with the pointer of said gage.
In testimony that I claim the foregoing as my own I have hereto allixed my signature in the presence of two Witnesses.
NORMAN P. FRASER.
W'itnesses:
WVM. J. MoCARuN, FRANK CROREY.
US22214504A 1904-08-25 1904-08-25 Device for feeding hydrocarbon to vapor-burners. Expired - Lifetime US788039A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US22214504A US788039A (en) 1904-08-25 1904-08-25 Device for feeding hydrocarbon to vapor-burners.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US22214504A US788039A (en) 1904-08-25 1904-08-25 Device for feeding hydrocarbon to vapor-burners.

Publications (1)

Publication Number Publication Date
US788039A true US788039A (en) 1905-04-25

Family

ID=2856529

Family Applications (1)

Application Number Title Priority Date Filing Date
US22214504A Expired - Lifetime US788039A (en) 1904-08-25 1904-08-25 Device for feeding hydrocarbon to vapor-burners.

Country Status (1)

Country Link
US (1) US788039A (en)

Similar Documents

Publication Publication Date Title
US1354311A (en) Automatic liquid-level controller
US788039A (en) Device for feeding hydrocarbon to vapor-burners.
US637250A (en) Automatic compound feeder for steam-boilers.
US841791A (en) Accumulator for flash-boilers.
US254944A (en) Quimby n
US643074A (en) Apparatus for feeding anti-incrustation compounds to boilers.
US844873A (en) Feed-water regulator.
US645925A (en) Feed-water regulator.
US1062981A (en) Carbureting apparatus.
US1133040A (en) Automatic boiler feed apparatus.
US574765A (en) Boiler oil or compound feeder
US556436A (en) And eugene m
US1202049A (en) Liquid-measuring apparatus.
US564212A (en) morris
US569774A (en) Apparatus for filling air vessels under pressure
US637983A (en) Regulator for steam-pumps.
US679252A (en) Boiler-feeder.
US641833A (en) Automatic boiler-feeding device.
US718424A (en) Hydraulic apparatus.
US569440A (en) William a
US1076146A (en) Vacuum-controlled differential-liquid-level apparatus.
US722700A (en) Feed-water regulator.
US208992A (en) Improvement in feed-water-regulating valves
US607889A (en) Carbureter
US788725A (en) Automatic feed-regulator.