US1503555A - Electrically-operated carburetor - Google Patents

Electrically-operated carburetor Download PDF

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US1503555A
US1503555A US42822A US4282215A US1503555A US 1503555 A US1503555 A US 1503555A US 42822 A US42822 A US 42822A US 4282215 A US4282215 A US 4282215A US 1503555 A US1503555 A US 1503555A
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carburetor
engine
closure
solenoid
inlet
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US42822A
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Clifford T Raule
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02DCONTROLLING COMBUSTION ENGINES
    • F02D9/00Controlling engines by throttling air or fuel-and-air induction conduits or exhaust conduits
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02DCONTROLLING COMBUSTION ENGINES
    • F02D2700/00Mechanical control of speed or power of a single cylinder piston engine
    • F02D2700/02Controlling by changing the air or fuel supply
    • F02D2700/0217Controlling by changing the air or fuel supply for mixture compressing engines using liquid fuel
    • F02D2700/0225Control of air or mixture supply
    • F02D2700/0228Engines without compressor
    • F02D2700/023Engines without compressor by means of one throttle device
    • F02D2700/0238Engines without compressor by means of one throttle device depending on the number of revolutions of a centrifugal governor
    • 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
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/53Valve actuation
    • 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
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/74Valve actuation; electrical

Definitions

  • the purpose of my invention is to utilize the electric current now so generally available in automobiles, to simplify the control of the mixture and render its regulation more accurate.
  • a further purpose of my invention is to apply the control to the air inlet and to operate it by electromagnetic means, preferably solenoidal, governing the quantity of air inlet in proportion to the speed of the engine.
  • a further purpose of my invention is to operate the electromagnetic means directly from a generator, whose speed varies directly with the speed of the engine.
  • a further purpose of my invention is to use a spring-retracted closure for the carburetor air inlet and to open the closure by magnetic pull in approximately uniform proportion to the engine speed.
  • a further purpose of my invention is to obtain a high efficiency ina carburetor with fewer parts and simpler construction than have previously been considered to be necessa urther purposes will appear in the specilication and particularly in the claims thereof.
  • Figure 1 is a vertical longitudinal section through one form of my invention.
  • FIGS 2 and 3 show diagrammatic connections that may be used in Figure 1.
  • Figure 4 shows in top plan view, partly sectioned a second form of control which may be applied in Figure 1.
  • the current produced by the existing automobile generators ⁇ for lighting and starting systems is ordinarily proportionate to the speed of the engine; and where this is not the case, may readily be made so. Where no generator is used one giving current nearinstalled.
  • It has the float chamber 1, mixing chamber 2 and air inlet opening 3, in the side ofv a tubular member 4 and capable of closure to varying degrees by a sleeve 5 mounted upon and guided by the tubular member.
  • It also has lioat control of the gasoline entering through passage 6 by valve 7, automatically closed when the gasoline rises to the correct level in the iioat chamber by float 8 operating through lever 9, pivoted at 10 against the collars 11 upon the valve.
  • the lioat valve is guided in a screw closure 12 whose removal gives additional accessibility to the parts.
  • the removable plug 18 givescaccessibility for machinin the parts and placing the nozzle.
  • the car uretor as thus far described, except for the cup, operates in the usual manner and my invention has been directed primarily toward the control of air admission "in more exact proportion to the speed in any simple form of carburetor construction.
  • I utilize electromagnetic pull for the opening of the valve, which is normally held in closed or nearly closed position by means of a spring 22, adjustable in tension-as seen at 23'and secured to the body and valve at any suitable points, as 24 and 25.
  • the variant electric currents generated at difierent engine speeds shall open the air inlet to the proper distances for an extent of air admission which shall be correct for each dierent speed.
  • Y Y n In Figure 4 I'shpw another application of the electric current in which the sourceot1 current is a battery of any suitable character, shown as a primary battery 39 and the current from it through the solenoid is varied by a lrheostat 40.
  • One terminal ofthe circuit is connected to the contact 41, movablev within the rheostat and the4 other terminal is secured to a rheostat terminal at 42.
  • the contact 41 is mounted upon a sleeve 43 which is moved in proportion to any predetermined function of the engine speed by a governor- 44.
  • the sleeve slides along a shaft 45 Which is rotated by a gear 46 meshing with 'a gear 47 upon the shaft 48 of the engine 49.
  • a device for varying the roportion of gas and air in a carburetor i15et,7a,c ⁇ ar buretor having an air inlet, atubular cover therefor,la solenoid, acoreconne'cted with the cover 'and adapted4 tofenter 'the solenoid, increasing the inlet openingjwithifincreased core entry within'the s'olenoid,,an"electrc vgenerator,connections between the; generator and the solenoid and engine 'connections for operating the generator.
  • buretor having. ai tubular member and an air linlet -in the side thereof, a tubular closure for the inlet'mounted uponand guidedby the tubular member, asolenoid core dlrectly connected to the tubular closure, asolenoid surrounding the core, and adapted to increase the inlet opening with increased solenoid current, an electric generator and connections from the brushes of the generator to the solenoid.
  • carburetor having an air inlet of non uniform cross section, a longitudinally movable closure for the inlet, an engine, an electric generator driven by t-he engine, a solenoid Winding connected with the generator and a solenoid c ore affected by the Winding and connected with the closure to move the closure so as to open the inlet at a non-uniform rate with increase of current from the generator.
  • a carburetor having an air inlet at one end, a closure for the inlet movable away from the carburetor yto open the inlet, a solenoid, a solenoid core connected with the closure and movable away from the carburetor to enter the solenoid, a generator operated by the engine supplied by the carburetor and connections from the generator to the solenoid increasing the pull of the solenoid and the opening of fthe air inlet with increase of engine speed.
  • a device for varying the proportion of gasand air in the carburetor a carburetor, an a1r inlet therefor, a closure for ⁇ the inlet and electromagnetic means for vmoving the closure to open with increasing engine speed, the movement of the closure with respect to the opening and the speed of the engine being so proportioned that at the beginning the inlet is opened to an extent disproportionate to the extent of increase of speed of the engine.
  • a side opening air inlet valve having the opening therein of non-uniform extent in cross section, in combination with a closure for the opening movable longitudinally thereof, a solenoid, an engine-controlled supply of current for the solenoid and a solenoid core 5! connected with the closure to cause openjg of the valve with increase 111 engine spe CLIFFORD T. BAULE. Witnsse:

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of The Air-Fuel Ratio Of Carburetors (AREA)

Description

Aug. 5 ,1924. 1,503,555
l c. T. RAULE ELECTRICALLY OPERATED CARBURETOR,
Filed July .'50, 1915 111 lll/1111111111111 l] Patented Aug. 5, 1924.
UNITED STATES PATENT OFFICE.
CLIFFORD T. BAULE, 0F PHILADELPHIA, PENNSYLVANIA, ASSIGNOR OF ONE-HALF TO WILLIAM STEELL JACKSON, OF BALA, PENNSYLVANIA.
ELECTRIGALLY-OPERATED CARBURETOR Application led .Tuly 30, 1915. Serial No. 42,822.
To all whom t may concern Be it known that I, CLIFFORD T. RAULE, a citizen of the United States, residing at Philadelphia, in the county of Philadelphia and State of Pennsylvania, have invented a certain new and useful Electrically-Operated Carburetor, of which the following is a specification.
The purpose of my invention is to utilize the electric current now so generally available in automobiles, to simplify the control of the mixture and render its regulation more accurate.
A further purpose of my invention is to apply the control to the air inlet and to operate it by electromagnetic means, preferably solenoidal, governing the quantity of air inlet in proportion to the speed of the engine.
A further purpose of my invention is to operate the electromagnetic means directly from a generator, whose speed varies directly with the speed of the engine.
A further purpose of my invention is to use a spring-retracted closure for the carburetor air inlet and to open the closure by magnetic pull in approximately uniform proportion to the engine speed.
A further purpose of my invention is to obtain a high efficiency ina carburetor with fewer parts and simpler construction than have previously been considered to be necessa urther purposes will appear in the specilication and particularly in the claims thereof.
I have preferred to illustrate my invention by but two main forms thereof, both of which are simple, practical, efficient, reliable and relatively inexpensive and which at the same time well illustrate the principles of my invention.
Figure 1 is a vertical longitudinal section through one form of my invention.
Figures 2 and 3 show diagrammatic connections that may be used in Figure 1.
Figure 4 shows in top plan view, partly sectioned a second form of control which may be applied in Figure 1.
In the drawings, similar numerals indicate corresponding parts.
When speeding up a gasoline engine as, for
. example, when suddenly opening the throttle valve, all carburetor designers have experienced diiculty in protecting against excessive influx of air, which would" correspond to the desired speed but is greatly in excess of the permissible air feed for the speed at which the engine is then operating.
The crowding of the mechanism in the modern `automobile has rendered it very desirable in this class of work that all control of moving parts be effected by the simplest connections from mechanism already in use and has placed a high premium upon the avoidance of other moving parts than are absolutely necessary. This and the flexibility, reliability and accuracy of electric operation through the use of the generators with which most automobiles are now already equipped, have rendered electric control of the gas mixture highly desirable in automobile service.
The current produced by the existing automobile generators `for lighting and starting systems is ordinarily proportionate to the speed of the engine; and where this is not the case, may readily be made so. Where no generator is used one giving current nearinstalled.
The construction of the main parts of the carburetor with which I have illustrated my invention di'ers in no particulars from carburetors already on the market, though the invention is obviously applicable to a wide range of carburetors. It has the float chamber 1, mixing chamber 2 and air inlet opening 3, in the side ofv a tubular member 4 and capable of closure to varying degrees by a sleeve 5 mounted upon and guided by the tubular member. It also has lioat control of the gasoline entering through passage 6 by valve 7, automatically closed when the gasoline rises to the correct level in the iioat chamber by float 8 operating through lever 9, pivoted at 10 against the collars 11 upon the valve. The lioat valve is guided in a screw closure 12 whose removal gives additional accessibility to the parts.
These prior carburetors were also r0- vided with gasoline passage 13 throng a tube 14 and terminating in a spray nozzle l5. I have surrounded the s ray nozzle by a cup 16 within which gasoline is intended to accumulate, when the engine is stopped, for the Apurpose of providing a surplus of gasoline for starting purposes. Its el'ect is similar to that of priming. Atmospheric pressure in the oat chamber isensured by the opening 17.
The removable plug 18 givescaccessibility for machinin the parts and placing the nozzle. The car uretor, as thus far described, except for the cup, operates in the usual manner and my invention has been directed primarily toward the control of air admission "in more exact proportion to the speed in any simple form of carburetor construction. prefer to control the inlet mixture to the engine from the Wheel by butteriy valve 19 operated from the wheel, in the case of an automobile, Ithrough arm 20 and rod 21.
I utilize electromagnetic pull for the opening of the valve, which is normally held in closed or nearly closed position by means of a spring 22, adjustable in tension-as seen at 23'and secured to the body and valve at any suitable points, as 24 and 25.
In order to prevent dash pot action of the valve, I pierce its end, as at 26, permitting free iow of air therethrough. I close the space 27 from the interior of the carburetor by' anend 28. The sleeve 5 is connected with a paramagnetic solenoid core 29 in the form chosen for illustration.4 The contour of the air inlet from point to point to cooperate with'the electromagnetic pull produced, as against the spring 22, so as to secure the most desirable. extent vof openingfor each engine speed.
I have preferred spring retraction for the closure to other means, gravity retraction, for example, because the spring retraction is not only reliable over a Wide range, but 'is independent of the position of the parts and p may be made to compensate for the weight of the closure, if required. l
' I prefer to use the solenoidal form because it secures the most uniform electromagnetic pull in proportion to the current passed through it with which I am familiar. The core. is shownv as guided and supported by any suitable packing 30, where des1red,'vvithv inthe bore 31,-'of a solenoid"32,preferably having both its ends open. .i 1
1 connect the brushes 33 and 34 of the generator 35 with the solenoid winding". Where the generator is 'utilized forV other" purposesI placetliesolenoid winding either in multiple, as in'Fig. 2, orin series, as Fig.' 3, with "Whatever other-electric circuit may be provided, much" preferring the parallel form," since the cnifrentreceived' from it will be very much more nearly 'in' exact lproportion tothe engines Zand-Sthe additional e ectric, circnitconipriseslthe storage battery 36"a nd connectionsfS'( and 38.v
= Qbvious'ly, even Vinfthe4 v:torni of vmy 'int/en? tionAx selectedffor` illustratiomthe connections of;V the electric'l circuit, fthe tension of the spring, thresizve, materialgandfextent of n orymal introduction of the core within the sole-` noid at the time when theair'inlet .is most jcompletely closed bythe sleeve and the ex-I ftent'f movement of this core ali'd'sleeve pera isI designed mitted may be greatly varied and still further opportunity fory variation will be afforded by the application of my invention in the formsand to other carburetors. Inall of these thepurpose and eect are that the variant electric currents generated at difierent engine speeds shall open the air inlet to the proper distances for an extent of air admission which shall be correct for each dierent speed. Y Y n In Figure 4 I'shpw another application of the electric current in which the sourceot1 current is a battery of any suitable character, shown as a primary battery 39 and the current from it through the solenoid is varied by a lrheostat 40. One terminal ofthe circuit is connected to the contact 41, movablev within the rheostat and the4 other terminal is secured to a rheostat terminal at 42. The contact 41 is mounted upon a sleeve 43 which is moved in proportion to any predetermined function of the engine speed by a governor- 44. The sleeve slides along a shaft 45 Which is rotated by a gear 46 meshing with 'a gear 47 upon the shaft 48 of the engine 49.
In this additional form of my invention the same solenoid is shown and it may be appliedpto operation of the carburetor by the same structure and to the same type of carburetor as in Fi re 1.
It' will be evident thatthe electric current may be utilized in other ways and for opening and closing of lother types of air inlet closure, replaced by other means than I have shown, without vdeparting from the spirit and scope of my invention herein.
Having thus described my' invention,
what I claim as new and desire to secure by l of gas and air in a carburetor inlet, a carburetor having anv air inlet, a slidableclosure for said inlet, embracing and guided thereupon, an engine-operated electrc`generator, an electromagnet having its 1` circuitconnected with the generator and paramagnetic material connected with' the 'closure and movedby the electromagnet to increase the/ inlet opening increase of current -in the electromagnet. f y Y 2. In a device for varying the roportion of gas and air in a carburetor i15et,7a,c`ar buretor having an air inlet, atubular cover therefor,la solenoid, acoreconne'cted with the cover 'and adapted4 tofenter 'the solenoid, increasing the inlet openingjwithifincreased core entry within'the s'olenoid,,an"electrc vgenerator,connections between the; generator and the solenoid and engine 'connections for operating the generator.
. 3. In 'a 'device for varying the roportion of gas andI airin a carburetor et, a car-, v
buretor having. ai tubular member and an air linlet -in the side thereof, a tubular closure for the inlet'mounted uponand guidedby the tubular member, asolenoid core dlrectly connected to the tubular closure, asolenoid surrounding the core, and adapted to increase the inlet opening with increased solenoid current, an electric generator and connections from the brushes of the generator to the solenoid.
4. In a device of the character stated, a
carburetor having an air inlet of non uniform cross section, a longitudinally movable closure for the inlet, an engine, an electric generator driven by t-he engine, a solenoid Winding connected with the generator and a solenoid c ore affected by the Winding and connected with the closure to move the closure so as to open the inlet at a non-uniform rate with increase of current from the generator.
5. In a device for varying the proportion of gas and air in a carburetor, a carburetor having an air inlet at one end, a closure for the inlet movable away from the carburetor yto open the inlet, a solenoid, a solenoid core connected with the closure and movable away from the carburetor to enter the solenoid, a generator operated by the engine supplied by the carburetor and connections from the generator to the solenoid increasing the pull of the solenoid and the opening of fthe air inlet with increase of engine speed.
7. In a device for varying the proportion of gasand air in the carburetor, a carburetor, an a1r inlet therefor, a closure for `the inlet and electromagnetic means for vmoving the closure to open with increasing engine speed, the movement of the closure with respect to the opening and the speed of the engine being so proportioned that at the beginning the inlet is opened to an extent disproportionate to the extent of increase of speed of the engine.
8. In combination with a carburetor, a side opening air inlet valve having the opening therein of non-uniform extent in cross section, in combination with a closure for the opening movable longitudinally thereof, a solenoid, an engine-controlled supply of current for the solenoid and a solenoid core 5! connected with the closure to cause openjg of the valve with increase 111 engine spe CLIFFORD T. BAULE. Witnsse:
J. M. Hmmm..
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3599426A (en) * 1970-05-18 1971-08-17 Sun Oil Co Motor vehicle emission control system
US4211197A (en) * 1977-08-05 1980-07-08 Mitsuji Kawai Compressive pressure augmentation device
US4630585A (en) * 1984-03-09 1986-12-23 Jean Maraux Carbureting device for an engine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3599426A (en) * 1970-05-18 1971-08-17 Sun Oil Co Motor vehicle emission control system
US4211197A (en) * 1977-08-05 1980-07-08 Mitsuji Kawai Compressive pressure augmentation device
US4630585A (en) * 1984-03-09 1986-12-23 Jean Maraux Carbureting device for an engine

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