US785558A - Oil-engine. - Google Patents

Oil-engine. Download PDF

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US785558A
US785558A US1903174827A US785558A US 785558 A US785558 A US 785558A US 1903174827 A US1903174827 A US 1903174827A US 785558 A US785558 A US 785558A
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Prior art keywords
chamber
valve
oil
air
regulating
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Arthur Krebs
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Anciens Etablissements Panhard et Levassor SA
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Anciens Etablissements Panhard et Levassor SA
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M1/00Carburettors with means for facilitating engine's starting or its idling below operational temperatures
    • F02M1/02Carburettors with means for facilitating engine's starting or its idling below operational temperatures the means to facilitate starting or idling being chokes for enriching fuel-air mixture
    • 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
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7781With separate connected fluid reactor surface
    • Y10T137/7783Valve closes in responses to reverse flow

Definitions

  • OIL ENGINE VAPPLIOATION FILED SEPT. 26. 190s.
  • This invention relates to oil-engines; and it consists in improvements in a fuel-governor for oil-engines forming the subject-matter of United States Letters Patent No. 734,421, patented July 21, 1903.
  • the additional air-inlet is obtained by the movement of a cylindrical piston over suitable air-inlets in the walls of the cylinder in which such piston moves.
  • This piston is connected to a regulating-head and moves therewith under the influence of the depression or partial vacuum caused by the working of the engine in such a manner as to increase the admission of air in proportion to any increase of vacuum or depression which may be caused, thus maintaining the proportions of the explosive mixture constant.
  • my improved carbureter I retain the principal features of the carbureter described and claimed in the aforesaid specification; but I improve the means of obtaining the additional air-supply in the following respects.
  • a indicates the main air-inlet, consisting of a pipe communicating at one end with the atmosphere through an elbow Z.
  • c is the atomizing-chamber.
  • CZ is the injecting-nozzle, the lower end of which communicates with a chamber@ connected to the oil-reservoir. (Not shown in the drawings.)
  • f represents a hollow slide-valve sliding in a chamber g and provided with a stem ZL, which is connected With and actuated by the engine-governor.
  • the said slide-valve is provided with aperipheral port c', preferably composed of triangular openings and communicating with the exhaust-pipe j, so that the movements of the said valve f throttle more or less and gradually the combustible mixture.
  • a hollow piston k slides easily in a chamber Z, communicating with the atomizing-chamber c, so as to control the supplemental air-inlet orifices Z2 in the chamber Z, in which it moves.
  • the said hollow piston Zt is connected by a stem Z to a regulating-head p, moving freely in a large chamber o, the joint between the said regulatinghead and chamber, the regulating-head and its chamber being made by an elastic and impervious diaphragm g, connected with the said regulating-head and chamber.
  • the regulating-head moves in its chamber Without friction in consequence of its being connected by the aforesaid diaphragm.
  • a spring r normally forces the said regulating-head against the upper end of its chamber. In this position the piston 7c closes the aforesaid supplemental air-inlets Z2.
  • One side of the regulating-head communicates with the atmosphere through a hole s, provided in the upper end of the chamber, the said hole being of a small diameter in order to prevent the vibrations of the piston.
  • the other side of the said regulating-head communicates with the atomizingchamber c through the chamber Z.
  • the slide-valve f controls the passage c' for combustible mixture through the said valve.
  • the suctionstroke of the engine-piston tends to create a vacuum in the atomizing-chamber, and the regulating-head 19, which communicates on one side with the atomizing-chamber through the hollow piston attached to it, is also acted upon by the suction in the atomiZing-chamber.
  • An increase in thesuction causes the said regulating-head to further compress its spring 7' and the hollow piston attached thereto to move so as to uncover more or less the supplemental air-inlets Z2.
  • the chamber Z and the hollow piston Zr are of such contour that an additional quantity of air enters the atomizing-chamber c and mixes with the mixture issuing from the main inlet-pipe in such a manner as automatically to maintain the proportions of the explosive mixture constant.
  • Fig. l I form the cyiindrical valve with flanges at ⁇ V either end and connect it with the aforesaid regulating-head p in such a manner that when there is no depression it rests on two bosses mm', which are preferably of equal size.
  • the cylindrical chamber Z in which this valve moves, has its walls outwardly inclined at n n in such a manner that when the valve moves from its seating under the influence of the depression an additional passage is formed of such a size as to maintain the constancy of the explosive mixture.
  • Fig. 2 I maintain the cylindrical form of the chamber Z as to shape, the outer surface of the valve being inclined at m2 m3 for securing the advantageous result hereinbefore set forth.
  • Said chamber is provided with stops n2 n3 to limit the upward movement of the said valve.
  • Fig. 3 I obtain the same result by passing a cylindrical valve a through the regulating-head p and -through the top of the chamber Z, in which it is contained.
  • I then provide on the top of the said chamber an additional cylinder w, containing air-inlets, and provide same with a conical plug 7c, having tapered or inclined portions m4 n", so that when the regulating-head p is moved by the suction-stroke of the engine the cylindrical valve is moved therewith away from the plug and increases the additional airinlet to such an extent as to give the necessary increased supply of air to maintain the proportions of the explosive mixture constant.
  • a vaporizer for oil-engines the combination of a main air-supply, fuel-injecting means coactive therewith, an atomizing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber.
  • a vaporizer for oil-engines the combination of a main air-supply, fuel-injecting means coactive therewith, an atomizing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber, and means for limiting the upward movement of the valve.
  • a Vaporizer for oil-engines the combination of a main air-supply, fuel-injecting means coacti ve therewith, an atomiZing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber, and bosses in the second chamber for limiting the upward movement of the valve.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Combustion Methods Of Internal-Combustion Engines (AREA)

Description

PATENTED MAR. 21, 1905.
A. KREBS.
OIL ENGINE. VAPPLIOATION FILED SEPT. 26. 190s.
m j" l .Q
UNITED STATES Patented March 21, 1905.
PATENT OFFICE.
ARTHUR KREBS, OF PARIS, FRANCE, ASSIGNOR TO SOCIETE ANONYME DES ANCIENS ETABLISSEMENTS PANHARD ET LEVASSOR, OF PARIS,
FRANCE.
OIL-ENGINE.
SPECIFICATION forming part of Letters Patent No. 785,558, dated March 21, 1905.
Application filed September 26, 1903. Serial No. 174,827.
To LZZ whom t 11a/Ly concern.'
Beit known thatLAR'rHUR KEEBsengineer, a citizen of the French Republic, residing at 19 Avenue dTory, Paris, Department of Seine, France, have invented certain new and useful Improvements in Oil-Engines, of which the following' is a specification.
This invention relates to oil-engines; and it consists in improvements in a fuel-governor for oil-engines forming the subject-matter of United States Letters Patent No. 734,421, patented July 21, 1903. In the automatic carbureter described in the aforesaid specification the additional air-inlet is obtained by the movement of a cylindrical piston over suitable air-inlets in the walls of the cylinder in which such piston moves. This piston is connected to a regulating-head and moves therewith under the influence of the depression or partial vacuum caused by the working of the engine in such a manner as to increase the admission of air in proportion to any increase of vacuum or depression which may be caused, thus maintaining the proportions of the explosive mixture constant. In my improved carbureter I retain the principal features of the carbureter described and claimed in the aforesaid specification; but I improve the means of obtaining the additional air-supply in the following respects.
In the accompanying drawings, Figures 1,
' 2, and 3 are views in vertical section, illustrating three forms of my invention.
Similar letters'of reference indicate corresponding parts in the several figures.
a indicates the main air-inlet, consisting of a pipe communicating at one end with the atmosphere through an elbow Z.-
c is the atomizing-chamber. Y
CZ is the injecting-nozzle, the lower end of which communicates with a chamber@ connected to the oil-reservoir. (Not shown in the drawings.)
f represents a hollow slide-valve sliding in a chamber g and provided with a stem ZL, which is connected With and actuated by the engine-governor. The said slide-valve is provided with aperipheral port c', preferably composed of triangular openings and communicating with the exhaust-pipe j, so that the movements of the said valve f throttle more or less and gradually the combustible mixture.
As in the aforesaid patent, a hollow piston k slides easily in a chamber Z, communicating with the atomizing-chamber c, so as to control the supplemental air-inlet orifices Z2 in the chamber Z, in which it moves. The said hollow piston Zt is connected by a stem Z to a regulating-head p, moving freely in a large chamber o, the joint between the said regulatinghead and chamber, the regulating-head and its chamber being made by an elastic and impervious diaphragm g, connected with the said regulating-head and chamber. The regulating-head moves in its chamber Without friction in consequence of its being connected by the aforesaid diaphragm. A spring r normally forces the said regulating-head against the upper end of its chamber. In this position the piston 7c closes the aforesaid supplemental air-inlets Z2. One side of the regulating-head communicates with the atmosphere through a hole s, provided in the upper end of the chamber, the said hole being of a small diameter in order to prevent the vibrations of the piston. The other side of the said regulating-head communicates with the atomizingchamber c through the chamber Z.
When the engine is at work, the slide-valve f controls the passage c' for combustible mixture through the said valve. The suctionstroke of the engine-piston tends to create a vacuum in the atomizing-chamber, and the regulating-head 19, which communicates on one side with the atomizing-chamber through the hollow piston attached to it, is also acted upon by the suction in the atomiZing-chamber. An increase in thesuction causes the said regulating-head to further compress its spring 7' and the hollow piston attached thereto to move so as to uncover more or less the supplemental air-inlets Z2. The chamber Z and the hollow piston Zr are of such contour that an additional quantity of air enters the atomizing-chamber c and mixes with the mixture issuing from the main inlet-pipe in such a manner as automatically to maintain the proportions of the explosive mixture constant.
According to one form of my invention, Fig. l, I form the cyiindrical valve with flanges at`V either end and connect it with the aforesaid regulating-head p in such a manner that when there is no depression it rests on two bosses mm', which are preferably of equal size. The cylindrical chamber Z, in which this valve moves, has its walls outwardly inclined at n n in such a manner that when the valve moves from its seating under the influence of the depression an additional passage is formed of such a size as to maintain the constancy of the explosive mixture.
According to a modication of my invention, Fig. 2, I maintain the cylindrical form of the chamber Z as to shape, the outer surface of the valve being inclined at m2 m3 for securing the advantageous result hereinbefore set forth. Said chamber is provided with stops n2 n3 to limit the upward movement of the said valve. According to a further modiication of my invention, Fig. 3, I obtain the same result by passing a cylindrical valve a through the regulating-head p and -through the top of the chamber Z, in which it is contained. I then provide on the top of the said chamber an additional cylinder w, containing air-inlets, and provide same with a conical plug 7c, having tapered or inclined portions m4 n", so that when the regulating-head p is moved by the suction-stroke of the engine the cylindrical valve is moved therewith away from the plug and increases the additional airinlet to such an extent as to give the necessary increased supply of air to maintain the proportions of the explosive mixture constant.
Having now particularly described and ascertained the nature of my invention and in what manner the same is' to be performed, I declare that what I claim is-- l. In a vaporizer for oil-engines, the combination of a main air-supply, fuel-injecting means coactive therewith, an atomizing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber.
2. In a vaporizer for oil-engines, the combination of a main air-supply, fuel-injecting means coactive therewith, an atomizing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber, and means for limiting the upward movement of the valve.
3. In a Vaporizer for oil-engines, the combination of a main air-supply, fuel-injecting means coacti ve therewith, an atomiZing-chamber, an exhaust-conduit, a second chamber provided with air-inlets and having an inclined inner wall, and a suction-operated valve situated in said second chamber, said valve, when opened, being out of contact with said inclined wall to thereby provide a space between the valve and second chamber, and bosses in the second chamber for limiting the upward movement of the valve.
In testimony whereof I have hereunto set my hand in presence of two subscribing witnesses.
ARTHUR KREBS. Witnesses:
PAUL F. PQUET, R. LEIP.
US1903174827 1903-09-26 1903-09-26 Oil-engine. Expired - Lifetime US785558A (en)

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