US1326378A - Intake-pipe or manifold for internal-combustion engines or the like. - Google Patents

Intake-pipe or manifold for internal-combustion engines or the like. Download PDF

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US1326378A
US1326378A US23115118A US23115118A US1326378A US 1326378 A US1326378 A US 1326378A US 23115118 A US23115118 A US 23115118A US 23115118 A US23115118 A US 23115118A US 1326378 A US1326378 A US 1326378A
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manifold
carbureter
fuel
mixture
pipe
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US23115118A
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Peter A C Suau
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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
    • 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
    • Y10S123/00Internal-combustion engines
    • Y10S123/02Accumulated fuel return to tank or engine-induction system

Definitions

  • P.A.C.SUAU. INTAKE PIPE 0R MANIFOLD FOR INTERNAL COMBUSTION ENGINES OR THE LIKE.
  • the present invention relates to intake pipes or manifolds, such as are used, forexaxnple, in connection with internal combustion engines to convey a'mixture of fuel and air from a carburetor to the cylinder or cylinders of the engine.
  • the invention is particularly applicable for use with engines intended to operate on heavier liquid hydrocarbon fuels, such as kerosene, although it will be understood it is not, necessarily lim ited thereto.
  • the object .of my invention is to provide an improved intake pipe or manifold in which anylarge particles of fuel which cc our in the mixture as it-leaves the mixing chamber of the carbureter or which may be formed due to condensation of the mixture while the mixture is passing through the manifold will be separated out and pre vented from entering the cylinder or cylinders of the engine.
  • Figure l is a diagram- Specification of ltetters Patent.
  • Fig. 2 is an en larged vie'w p aiitly in section of a carbureter and manifold.
  • 5 indicates an internal combustion engine here shown as a multi-cylinder engine, and 6' a carbureter which may beof any suitable type.
  • a carbureter of the-wellknown float feed type is illustrated.
  • lt comprises a Venturi shaped mixing tube 7 to which air admitted by a conduit 8, and a float chamber 9 in which a constant level of fuel is maintained by the float 10, which controls a valve 11 located in the fuel supply conduit 12.
  • the float chamber 9 is colinected to-the throat of the Venturi tube by a conduit 1-3, whichterminates in a nozzle la.
  • 16 indicates a throttle valve which may beoperated in any suitable manner, and 16 an auxiliary air inlet.
  • blow, according to my invention, 1 connect the outlet or mixing chamber of the carbureter to the intake or intakes of the engine cylinder or cylinders by means of an intake pipe or manifold formed wholly or in part of a suitable material capable of absorbing any particles of liquid fuel which may be brou 'ht into contact with it.
  • a suitable porous substance such as clay
  • a casin 22 Surroundingthe manifold is a casin 22 for catching the particles of fuel which pass through the porous wall of the manifold. It may have any suitable 'contour,-and is provided at its" lower portion with a sump 23 into which fuel runs and from which it may be drained by a pipe 24.
  • the ipe 24 may lead to vany suitable point, suc for example, as the supply tank which supplies hydrocarbon to the carbureter.
  • the endof pipe 24 which is lo- .cated in sump 23 is preferably above the bottom of it, so that any water or moisture which collects inthe same will not be drained away by pipe 24, thus escaping with the fuel;
  • a petcock 25 In the bottom of the sump is a petcock 25 by means, of which any water which 7 by a pipe 26 which pipe projects well,
  • paratus shown is only illustrative, and that fuel and air, and a carbureter of a conduit 'bustion engine, said the invention can be carried out by other means.
  • An intake pipe for an internal compipe being formed of a porous material.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Supplying Secondary Fuel Or The Like To Fuel, Air Or Fuel-Air Mixtures (AREA)

Description

P.A.C.SUAU. INTAKE PIPE 0R MANIFOLD FOR INTERNAL COMBUSTION ENGINES OR THE LIKE.
I APPLICATION FILED APR. 2?, 191 8. Lfiflfi? I Patented Dec. 30,1919.
I IWEZWEIQI? PETER it. C. S'UAU, 035 NEW? YDFZK, hl. "if.
isaasas.
Application filed April 27,
To all whom it may concern:
Be 1t known that 1, PETER A. C. SUAU, a
citizen of the United States. residing at New York city, in the county of New York, State of New York, have invented certain new and useful Improvements in intakel ipes or hllanifolds for Internal-Combustion Engines or the like, of which the following is a specification.
The present invention relates to intake pipes or manifolds, such as are used, forexaxnple, in connection with internal combustion engines to convey a'mixture of fuel and air from a carburetor to the cylinder or cylinders of the engine. The inventionis particularly applicable for use with engines intended to operate on heavier liquid hydrocarbon fuels, such as kerosene, although it will be understood it is not, necessarily lim ited thereto.
One of the principal difficulties met with in connection with the use of heavier fuels is to obtain a complete breaking up of the liquid fuel into very fine particles resemblinp; a. fine mist, and an intimate uniform mixture of it with the alr, so that when the mixture enters the engine cylinder or cylinders, a complete burning of it will take place. lin fact, with ordinary carbureters there is almost sure to be a greater or less number of large particles of fuel which are carried out from the mixing chamber of the carb-ureter itself, or are formed by condensation while the mixture is passed through the intake pipe or manifold, and it is well known that if such large particles of fuel get into the engine cylinder or cylinders, they are incompletely burned, and as a result carbon is deposited on the cylinder walls and the pistonhead, and a black smoky exhaust is produced.
The object .of my invention is to provide an improved intake pipe or manifold in which anylarge particles of fuel which cc our in the mixture as it-leaves the mixing chamber of the carbureter or which may be formed due to condensation of the mixture while the mixture is passing through the manifold will be separated out and pre vented from entering the cylinder or cylinders of the engine.
For consideration of what 1 believe to be novel, and my invention, attention is directed to the following specification and the claims appended thereto.
lln the drawing, Figure l is a diagram- Specification of ltetters Patent.
Fatented Die u, 3t), lldlllgt, 1913. serial no. 2231,1151.
matic view of an internal combustion engine with my improved intake pipe or manifold applied thereto, and Fig. 2 is an en larged vie'w p aiitly in section of a carbureter and manifold.
Referring to the drawing, 5 indicates an internal combustion engine here shown as a multi-cylinder engine, and 6' a carbureter which may beof any suitable type. in the present instance, a carbureter of the-wellknown float feed type is illustrated. lt comprises a Venturi shaped mixing tube 7 to which air admitted by a conduit 8, and a float chamber 9 in which a constant level of fuel is maintained by the float 10, which controls a valve 11 located in the fuel supply conduit 12. The float chamber 9 is colinected to-the throat of the Venturi tube by a conduit 1-3, whichterminates in a nozzle la. 16 indicates a throttle valve which may beoperated in any suitable manner, and 16 an auxiliary air inlet. The operation of a carbureter as just described is well under stood and needs no detailed description, and it will be further understood that this carbureter is to be taken as typical of any desired carbureter structure.
blow, according to my invention, 1 connect the outlet or mixing chamber of the carbureter to the intake or intakes of the engine cylinder or cylinders by means of an intake pipe or manifold formed wholly or in part of a suitable material capable of absorbing any particles of liquid fuel which may be brou 'ht into contact with it. Pref era'bly for this material l use a suitable porous substance, such as clay, and I prefer to construct the entire intake pipe or mani fold of it. lmay, however, construct only a portion of the intake pipe or manifold, or only certain of the walls or parts of the wallsof the absorbing material, if found desirable. in the present instance, if have shown the entire intake pipe or manifold constructed of a porous material, the same being indicated by the numeral 17. The openings to the cylinders'are indicated at 18, 19, and 21, and it will be noted that the length of the passage through the manifold from the carbureter to each cylinder opening is the same, and that in eachinstance the passage has several bends, so that the mixture in flowing through the manifold must follow a circuitous route, its direction being changed one or more times. By this arrangement when the mixture is flowing Bil ' of fuel will be brought into engagement" through the manifold, the larger particles with the inner walls of themanifoldand be absorbed by it. Surroundingthe manifold is a casin 22 for catching the particles of fuel which pass through the porous wall of the manifold. It may have any suitable 'contour,-and is provided at its" lower portion with a sump 23 into which fuel runs and from which it may be drained by a pipe 24. The ipe 24 may lead to vany suitable point, suc for example, as the supply tank which supplies hydrocarbon to the carbureter. The endof pipe 24 which is lo- .cated in sump 23 is preferably above the bottom of it, so that any water or moisture which collects inthe same will not be drained away by pipe 24, thus escaping with the fuel; In the bottom of the sump is a petcock 25 by means, of which any water which 7 by a pipe 26 which pipe projects well,
within and above th bottom of the casing 22,-so no fuel will run downit. By this arrangement the suction of the engine will maintain a pressure within the casing 22 equal to that found at the throat of the Venturi tube 7, and as this pressure is less :than that in manifold 17, there is 'established a pressure difference between the inside and outside of the manifoldl? which causes fuel particles to pass through the porous falls into casing 22.
With the above described arrangement,
any liquid particles of hydrocarbon carried along by the air in its passage from the carbureter to the engine cylinderor cylinders, will b brought into contact with the inner surface of the manifold which will absorb the same. These particles will eventually seep through the manifold wall anddrop downinto the casing 22, from which they are drained away by pipe 24. Due to the circuitous route through which the hydrocarbon mixture must flow in passing through the manifold, all particles of liquid hydrocarbon fuel. are quite certain at one point or another td b brought into contact' with the inner wall of the manifold, thus insuring that they will be separated out from the mixture.
In accordance with the provisions of the patent statutes, '1 have described the principle of operation of my invention, together with the apparatus which T now consider to represent the best embodiment thereof; but
.I desire to have it understood that the aplit":
paratus shown is only illustrative, and that fuel and air, and a carbureter of a conduit 'bustion engine, said the invention can be carried out by other means.
Vi/hat I claim as new and desire to secure by Letters Patent of the United States, is
1. The combination with an apparatus which utilizes a mixture of hydrocarbon fuel and air, and a carbureter of a conduit formed at least in part of porous material which conveys the mixture: from the carbureter to the apparatus, whereby particles of the fuel will be absorbed by said porous material and prevented from reaching the apparatus.
2. The combination with an apparatus which utilizes a mixture of hydrocarbon which conveys the mixture from the carbureter to the apparatus, said conduit being formed at least in part ofa substance which will absorb particles of fuel.
3. The combination with an apparatus which utilizes a mixture of hydrocarbon fuel and air, and a carbureter, of a conduit which conveys the mixture from the carbureter-to the apparatus, said conduit being formed of porous material and having one or more bends.
4:. Th combination with an internal combustion engine and a carbureter, of a manifold formed of porous material which connects the one tothe other, and a casing surrounding the manifold for catching any fluid which passes through said material. I 5. The combination with an internal combustion engine and a carbureter, of a mani-. fold formed of porous material which connects the one to the -other, a casing surrounding the manifold for catching any fluid which passes through said material, and means for maintaininga vacuum in said casing.
6. The combination with an i ternalcombustion engine and a carbureter having athroat, of an intake pipeof porous material which connects said carbureter to the engine, a casing surrounding the intake pipe for 111? catching any fluid which passes through its walls, and apipe connecting the interior of said casing to the throat of the carbureter, whereby the suction of the engine will maintaina vacuum in said casing. 115
7. An intake pipe for an internal compipe being formed of a porous material.
'8. The combination with an internal combustion engine and a carbureter having a throat, of-anintake pipe of porous mater1al which connects sald carbureter to the engine, a casing surrounding the intake pipe -for catching any fluid which passes through its walls, a pipe connecting the interior of said casing to the throat of the carbureter.
whereby the suction of the engine will maintain a vacuum in said casing, and means for drammg llquid from said casing.
v9'. The combination with an apparatus we which utilizes a mixture of hydrocarbon fuel and air, and'a earbureter, of a. conduit formed at least in part of porous material which'conveys the mixture from the carbure'ter to the apparatus, and a casing surrounding the conduit for catching any fluid which asses through said material.
10. he ,oembina'tion with an apparatus fornied at, 1east in part of porous material which conveys the mixture from the, carbureter to the apparatus, a casing surrounding the conduit for catching any fluid which passes through said material, and means for 15 maintaining a ,vacuum in said casing.
" In' witness whereof, I have hereunto set my hand this 16th day of April, 1918.
which utilizes a mixture of hydrocarbon-fuel i 10 and air, and a carbureter, of a conduit PETER A. o; swim
US23115118A 1918-04-27 1918-04-27 Intake-pipe or manifold for internal-combustion engines or the like. Expired - Lifetime US1326378A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2506180A (en) * 1944-08-28 1950-05-02 Taylor Engines Inc Intake manifold
US2633836A (en) * 1950-08-18 1953-04-07 Earl R Cox Fuel economizing means for internal-combustion engines

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2506180A (en) * 1944-08-28 1950-05-02 Taylor Engines Inc Intake manifold
US2633836A (en) * 1950-08-18 1953-04-07 Earl R Cox Fuel economizing means for internal-combustion engines

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