US1365564A - Internal-combustion engine - Google Patents
Internal-combustion engine Download PDFInfo
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- US1365564A US1365564A US222571A US22257118A US1365564A US 1365564 A US1365564 A US 1365564A US 222571 A US222571 A US 222571A US 22257118 A US22257118 A US 22257118A US 1365564 A US1365564 A US 1365564A
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- cylinders
- carbureter
- mixture
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- carburetor
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M1/00—Carburettors with means for facilitating engine's starting or its idling below operational temperatures
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M2700/00—Supplying, feeding or preparing air, fuel, fuel air mixtures or auxiliary fluids for a combustion engine; Use of exhaust gas; Compressors for piston engines
- F02M2700/43—Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel
- F02M2700/4302—Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel whereby air and fuel are sucked into the mixture conduit
- F02M2700/4304—Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel whereby air and fuel are sucked into the mixture conduit working only with one fuel
- F02M2700/4311—Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel whereby air and fuel are sucked into the mixture conduit working only with one fuel with mixing chambers disposed in parallel
Definitions
- This invention relates to internal combustion engines, and particularly to certain im-. provements in the carburetor connections and in the arrangement of conduits for supplying combustible mixture from one or more carbureters to-the cylinders of an engine, such of the V-type having two groups of cylinders between which the carbureter or carbureters are located.
- the principal object of this invention is to secure maximum volumetric efiiciency and maximum power by reducing loss due to skin friction and eddying and separation of the gas from air through thereduction of curves andbends in the connections or conduits conveying the mixture to the cylinders.
- the invention aims to provide a carbureter together with mixture conveying means which discharge or convey the mixture from the carbureter in straight lines and in opposite directions to the cylinders or groups of cylinders of the V-type construction, either directly into the cylin-- ders or into manifolds which are connected thereto.
- Figure 1 is a transverse sectional view through a form of V-type engine containing my invention
- Fig. 2 is a conventional plan view of an (E-cylinder V- engine utilizing four carbureters, each supplying mixture to two cylinders on opposite sides thereof
- Fig. 3 is a similar view show ing my invention embodied in an S-cylinder engine but utilizing two carbureters for the 8 cylinders
- Fig. 4. is a similar view wherein a single carbureter is used to supply mixture to the eight cylinders
- Fig. 5 is a central vertical sectional view through a car-' bureter which may be used in carrying out my invention in any of the embodiments shown in Figs. 2 to l
- Fig. 6 is a top plan view of the carbureter.
- FIG. 1 I have shown what is generally termed an engine of the L-type, but whether the en- In carrying out my invention 1 provide between the cylinders one or more carbureters with mixing chambers connected to cylinders on opposite sides so that the mix-' ture will be discharged horizontally or substantially horizontally in opposite directions from the carbureter to the cylinders, so as to reduce practically to a minimum the curves or bends of the connecting pipesor conduits.
- I utilize a carbureter having provision for two speed ranges, what are sometimes termed the loafing range and the sporting range, i. 6., for low and moderately low speeds and high speeds, respectively, and in this embodiment it is when the high speed portions or stages of the carburetor are used that the greatest benefits of the present invention are realized.
- This carbureter has a float controlled gasolene chamber 15 which supplies fuel tothree jet tubes. Une of these jet tubes is shown at 16, this being nearest to the float chamber 15 and discharging into a mixing chamber 17 at the top of which is a butterfly throttle valve 18, and to which air is supplied through a main air inlet passageway 19. and through an auxiliary air valve 20.
- the mixture is supplied from the chamber 1? by conduits leading to the cylinders of the engine for the relatively low S1).(lS so that this constitutes what may be termed the loating stage of the carbureter.
- the carbureter has a chamber 21 from opgosite sides of which there extend two mixture outlet extensions 22 and and from opposite sides two air inlet extensions '21 and 25.
- the air inlet extension 2 being directly opposite the mixture outlet extension 22. arl the air inlet extension being directly opposite the mixture extension 23.
- the air inlet extension 2% contains a jet tube 26. (see Fig. and the air inlet extension 25 has a jet tul e 2? which is shown by dotted lines in F 6, these fuel jet tubes both being connected to the float controlled fuel chamber 15. and being similarly located with reference to the air inlet extensions 2st and 25 respectively.
- a common throttle valve 28 which is in this case, of the cylindrical type and is operated in any suitable manner through a stem 28*.
- ltllixture is supplied from the low speed stage of the carbureter or from the mixing chamber 17 into the middle of a conduit 29 which as here shown diverges and extends with two arms or branches 2% and 29 downwardly to the two oppositely disposed mixture outlets or extensions 22 and 23 from the high speed stage of the carburetor. At their lower ends these arms 29 and 29 form connections 29 and 29 with the cylinders 10 of the two blocks of the engine or manifolds 13, as shown in 1.
- the throttles are preferably so operated or coupled that first the throttle valve 18 will be opened so that mixture will be supplied only from the low stage speed of the carburetor, and then when it is opened to a predetermined amount and while it remains open, the valve 28 of the high speed stage will open allowing the mixture to pass in straight horizontal lines direct to the cylinders or manifold in the manner indicated by the arrows of Fig. 1, thus avoiding the curves and bends of the upper part, of the conduit which have a tendency to check or obstruct the flow through eddying and skin frictioinand to cause a separation of gas and air.
- a separate carburetor for each pair of cylinders would not be desirable.
- FIG. 3 l have shown my invention embodied in an'eight cylinder engine, utilizing only two carbureters.
- each carburetor will be of the SM e construction previously described, but the connections 29 and 29 will discharge into manifolds 13, each of which will be connected to two cylinders as shown, for example, in Fig. 3.
- manifolds 13 each of which will be connected to two cylinders as shown, for example, in Fig. 3.
- a slight deviation from the straight line discharge from the carburetor to the cylinders naturally results, but the straight line discharge and the elimination of friction and eddying between the carburetor and manifolds is ob tained.
- conduit 29 is heated by an exhaust conduit 30 which is connected to two opposite exhaust manifolds 14, the connections being made to the latter at points such that a small part of the exhaust entering the manifolds 14: will be discharged. back and forth through the connecting conduit 30.
- my invention may be used to advantage with a carbureter not having the low speed stage as herein shown, in which event, for high and low speeds the mixture would be discharged in opposite directions and in straight'lines such as through the connections 29 and 29 direct to the cylinders or manifolds.
- an engine of the V-type two groups of cylinders having mixture receiving means, a carbureter having a chamber with fuel feeding meansthereimand having two outlets each connected to the mixture receiving means of one or more cylinders on one side of the carbureter, so that the mixture may pass in opposite directions and in substantially straight horizontal lines from said chamber direct to said mixture receiving means of the two groups of cylinders.
- two groups of cylindershavingmixture receivin' means, a carbureter between the groups 01 cylinders and provided with a As will be understood ture receiving means, and a carbureter between the two groups, said carbureter having a mixing chamber with two jet tubes therein, and having on opposite sides at substantially the level of said jet tubes two outlet openings, and a straight line connection between each of said openings and the mixture receiving means of one or more cylinders.
- a carbureter in the space between the cylinders, said carbureter having a mixing chamber, a conduit connecting said chamber to cylinders on both sides of the carbureter, and said carbureter having independent of said conduit mixture outlets by which mixture may be supplied to the cylinders independently of said first-named mixing chamber, one of said outlets supplying mixture to cylinders on one side of the carburetor, and the other supplying mixture to'the cylinders on the other side of the carbureter.
- a carbureter located in the space between the cylinders, said carbureter having a mixing chamber with. an outlet, a conduit connecting said outlet to cylinders on both sides of the carbureter, and said carbureter having two additional outlets connected to the cylinders and through which mixture passes from the carburetor to the cylinders in opposite directions and independently of the first-named outlet, one of said outlets supplying mixture to cylinders on one side of the carbureter, and the other supplying mixture to the cylinders on the other side of the carbureter.
- a carburetor in the space between the cylinders, said carbureter having an outlet, a conduit having its middle portion connected to said outlet and having branches connected to the cylinders, and said carbureter having two additional outlets connected to the cylinders at thev points where said branches are connected thereto, one of said outlets supplying mixture to cylinders on one side of the carbureter, and the other supplying mixture to the cylinders on the other side of the carbureter.
- a carburetor in the space between the cylinders, said carbureter having three outlets, one outlet supplying mixture to cylinders on both sides of the carbureter, and each of the other outlets supplying mixture to one or more cylinders on one side of the carburetor only.
- a carburetor in the space between the cylinders, said carbureter having three separate outlets, a con duit having its middle portion connected to one of said outlets and having its ends connected to the cylinders on opposite sides of the carburetor, and the other two outlets each supplying mixture to cylinders on one side of the carbureter only, and each connected to said cylinder through the end of the corresponding branch of the conduit.
- a carbureter in the space between the cylinders, said carbureter having three outlets,, a conduit by which mixture is supplied from one of said outlets to cylinders on both sides of the carburetor, the other two outlets being connected one to cylinders on one side of the carbureter and the other to cylinders on the opposite side, and throttle valves by which the first-named outlet may be controlled so as to supply mixture independently of the other two.
- a carburetor in the space between the cylinders, said carbureter having three outlets, a conduit by which mixture is supplied from one of said outlets to cylinders on both sides of the carburetor, the other two outlets being connected one to cylinders on one side of the carbureter and the other to cylinders on the opposite side and discharging in substantially straight lines and in opposite directions from the carbureter, and throttle valves by which the first-named outlet may be con trolled so as to supply mixture independently of the other two.
- a carbureter in the space between the cylinders, said carbureter having three separate outlets, a con duit having its middle portion connected to one of said outlets and having its ends connected to the cylinders on opposite sides of the carbureter, and the other two outlets each supplying mixture to cylinders on one side of the carbureter, and each connected to said cylinders through the end of the corresponding branch of the conduit, whereby mixture may be supplied simultaneously from all outlets.
Description
W. R. STRICKLAND.
INTERNAL COMBUSTION ENGINE.
APPLICATION FILED MAR. 5,. 1918- 1,365,564. Patented Jan. 1921.
4 SHEET T 2 W. R. STRICKLAND.
INTERNAL COMBUSTION EN APPLICATION FILED MAR. I5,
Patented J an. 11,
4 SHEETS-SHEE W. R. STR|CKLAND.-
INTERNAL COMBUSTION ENGINE.
APPLICATION FILED MAR. 15, I918.
Patented Jan. 11,1921;
4 SHEETSQSHEEI 4.
UNITED STATES PATEN'I OFFICE.
WILLIAM B. STRICKLAND, OF CLEVELAND, OHIO; ASSIGNOR TO THE I EEBLESS MOTOR CAR COMPANY, OF CLEVELAND, OHIO, A CORPORATION OF OHIO.
INTERNAL-COMBUSTION ENGINE.
Specification of Letters Patent.
Patented Jan. 11, 1921.
Application filed March 15, 1918. Serial No. 222,571.
To all whom. it may concern Be it known that I, VILLIAM R. STRIoK- LAND, a citizen of the United States, residing at Cleveland, in the county of Cuyahoga and State of Ohio, have invented a certain new and useful Improvement in Internal-Combustion Engines, of which the following is a' full, clear, and exact description.
This invention relates to internal combustion engines, and particularly to certain im-. provements in the carburetor connections and in the arrangement of conduits for supplying combustible mixture from one or more carbureters to-the cylinders of an engine, such of the V-type having two groups of cylinders between which the carbureter or carbureters are located.
The principal object of this invention is to secure maximum volumetric efiiciency and maximum power by reducing loss due to skin friction and eddying and separation of the gas from air through thereduction of curves andbends in the connections or conduits conveying the mixture to the cylinders.
Still further, the invention aims to provide a carbureter together with mixture conveying means which discharge or convey the mixture from the carbureter in straight lines and in opposite directions to the cylinders or groups of cylinders of the V-type construction, either directly into the cylin-- ders or into manifolds which are connected thereto.
Further objects, such as the provision of a construction wherein two speed ranges are obtained simultaneously with the attainment of the above objects, are attained by my invention, which may be briefly summarized as consisting in certain novel details of construction and combinations and arrangements of parts which will be described in the specification and set forth in the appended claims.
In the drawings. Figure 1 is a transverse sectional view through a form of V-type engine containing my invention; Fig. 2 is a conventional plan view of an (E-cylinder V- engine utilizing four carbureters, each supplying mixture to two cylinders on opposite sides thereof; Fig. 3 is a similar view show ing my invention embodied in an S-cylinder engine but utilizing two carbureters for the 8 cylinders; Fig. 4. is a similar view wherein a single carbureter is used to supply mixture to the eight cylinders; Fig. 5 is a central vertical sectional view through a car-' bureter which may be used in carrying out my invention in any of the embodiments shown in Figs. 2 to l; and Fig. 6 is a top plan view of the carbureter.
Referring now to the drawings, 10-1) represent cylinders arranged in two opposite blocks or rows, and generally in the form of a V, as shown in Fig. 1. In Fig. 1 I have shown what is generally termed an engine of the L-type, but whether the en- In carrying out my invention 1 provide between the cylinders one or more carbureters with mixing chambers connected to cylinders on opposite sides so that the mix-' ture will be discharged horizontally or substantially horizontally in opposite directions from the carbureter to the cylinders, so as to reduce practically to a minimum the curves or bends of the connecting pipesor conduits.
As will subsequently appear, this advantage is gainedto the greatest extent by using one carbureter for each opposite pair of cylinders (by opposite is not meant precisely opposite, but includes also the customary slight staggering), and to a somewhat de-.
creased extent by a smaller number of car- 'bureters, but even with the single carbureter my invention-has great utility in the way of high volumetric efiiciency and increased power due to the direct discharge from the carbureter in opposite directions to the headers or inlet manifolds which directly supply the cylinders on both sides.
In the'preferred form of my invention I utilize a carbureter having provision for two speed ranges, what are sometimes termed the loafing range and the sporting range, i. 6., for low and moderately low speeds and high speeds, respectively, and in this embodiment it is when the high speed portions or stages of the carburetor are used that the greatest benefits of the present invention are realized.
For an understanding of this part of the invention reference will first be had to the construction of the ca rbureter which is shown in Figs. 5 and G. This carbureter has a float controlled gasolene chamber 15 which supplies fuel tothree jet tubes. Une of these jet tubes is shown at 16, this being nearest to the float chamber 15 and discharging into a mixing chamber 17 at the top of which is a butterfly throttle valve 18, and to which air is supplied through a main air inlet passageway 19. and through an auxiliary air valve 20. As will subsequently. appear, the mixture is supplied from the chamber 1? by conduits leading to the cylinders of the engine for the relatively low S1).(lS so that this constitutes what may be termed the loating stage of the carbureter.
iidditionally the carbureter has a chamber 21 from opgosite sides of which there extend two mixture outlet extensions 22 and and from opposite sides two air inlet extensions '21 and 25. the air inlet extension 2: being directly opposite the mixture outlet extension 22. arl the air inlet extension being directly opposite the mixture extension 23.
The air inlet extension 2% contains a jet tube 26. (see Fig. and the air inlet extension 25 has a jet tul e 2? which is shown by dotted lines in F 6, these fuel jet tubes both being connected to the float controlled fuel chamber 15. and being similarly located with reference to the air inlet extensions 2st and 25 respectively. to the chamber 21 through the air inlet openings 24 and and the discharge of mixture through the extensions 22 and 23 are controlled by a common throttle valve 28, which is in this case, of the cylindrical type and is operated in any suitable manner through a stem 28*.
ltllixture is supplied from the low speed stage of the carbureter or from the mixing chamber 17 into the middle of a conduit 29 which as here shown diverges and extends with two arms or branches 2% and 29 downwardly to the two oppositely disposed mixture outlets or extensions 22 and 23 from the high speed stage of the carburetor. At their lower ends these arms 29 and 29 form connections 29 and 29 with the cylinders 10 of the two blocks of the engine or manifolds 13, as shown in 1. and also With the two discharge extensions 22 and 23 of the high speed stage of the carburetor, the construction being such that mixture may be supplied through the conduit 29 to the cylinders, or at the higher speeds both through said conduit and from the high speed stage of the carburetor, the latter dis- .charging in opposite directions and in The admission of airv straight lines direct from the carbureter into the cylinders or manifolds.
In. practice the throttles are preferably so operated or coupled that first the throttle valve 18 will be opened so that mixture will be supplied only from the low stage speed of the carburetor, and then when it is opened to a predetermined amount and while it remains open, the valve 28 of the high speed stage will open allowing the mixture to pass in straight horizontal lines direct to the cylinders or manifold in the manner indicated by the arrows of Fig. 1, thus avoiding the curves and bends of the upper part, of the conduit which have a tendency to check or obstruct the flow through eddying and skin frictioinand to cause a separation of gas and air.
The elimination of curves and bends to the greatest possible extent, and therefore maximum volumetric efiiciency is obtained if the mixture i discharged in straight lines and in opposite directions from the outlets 22 and 23 of the carbureter direct into the cylinders of the engine. This can be obtained in a V engine of many cylinders by a separate carburetor and separate carburetor connections for each pair of cylinders, each iarbureter supplying mixture to one cylinder in each block or leg of the i in other words, for an eight cylinder engine, as indicated in Fig. 2 four carburetors would be utilized. Thi arrangement could be employed to advantage in the exceptionally high power engines such as are used for racing purposes.
For ordinary uses, however, a separate carburetor for each pair of cylinders would not be desirable. In Fig. 3 l have shown my invention embodied in an'eight cylinder engine, utilizing only two carbureters. In this case each carburetor will be of the SM e construction previously described, but the connections 29 and 29 will discharge into manifolds 13, each of which will be connected to two cylinders as shown, for example, in Fig. 3. In this instance, a slight deviation from the straight line discharge from the carburetor to the cylinders naturally results, but the straight line discharge and the elimination of friction and eddying between the carburetor and manifolds is ob tained.
In Fig. 4t. wherein I have shown a single carburetor for the eight cylinders, my invention can also be used to great advantage, for here again the mixture is discharged in straight lines in opposite directions direct from the discharge extensions 22 and 23 of the C? rbureter into the manifolds, although from the manifolds to the cylinders the gas must of necessity pass through somewhat circuitous paths.
In the. construction shown in Fig. 1 the conduit 29 is heated by an exhaust conduit 30 which is connected to two opposite exhaust manifolds 14, the connections being made to the latter at points such that a small part of the exhaust entering the manifolds 14: will be discharged. back and forth through the connecting conduit 30.
With my invention above described, I am enabled to obtain greater volumetric efliciency and greater power from an engine employing one or more carbureters each sup plying gas to one or more cylinders in both blocks than is obtainable with the ordinary curved or angular conduits which are utilized to connect the carbureter to the cylinders or manifolds. from the above description and drawings, the number of carbureters compared with the number of cylinders may be varied, and it will be understood without illustration, that the invention is of course applicable to an engine having more or less than eight cylinders. It will be understood, also, that my invention may be used to advantage with a carbureter not having the low speed stage as herein shown, in which event, for high and low speeds the mixture would be discharged in opposite directions and in straight'lines such as through the connections 29 and 29 direct to the cylinders or manifolds.
Having described my invention, I claim:
1. In an engine of the V-type, two groups of cylinders having mixture receiving means, a carbureter having a chamber with fuel feeding means therein, and having two outlets each connected to the mixture receiving means of one or more cylinders on one side of the carbureter, so that the mixture may pass in opposite directions and in substantially straight lines from said chamber direct to said mixture receiving means of the two roups of cylinders.
2. n an engine of the V-type, two groups of cylinders having mixture receiving means, a carbureter having a chamber with fuel feeding meansthereimand having two outlets each connected to the mixture receiving means of one or more cylinders on one side of the carbureter, so that the mixture may pass in opposite directions and in substantially straight horizontal lines from said chamber direct to said mixture receiving means of the two groups of cylinders.
3. In an internal combustion engine of the V-type, two groups of cylindershavingmixture receivin' means, a carbureter between the groups 01 cylinders and provided with a As will be understood ture receiving means, and a carbureter between the two groups, said carbureter having a mixing chamber with two jet tubes therein, and having on opposite sides at substantially the level of said jet tubes two outlet openings, and a straight line connection between each of said openings and the mixture receiving means of one or more cylinders.
5. In an internal combustion engine of the V-type, two groups of cylinders having mixture receiving means, and a carbureter between the two groups, said carbureter having a mixing chamber with two jet tubes therein, there being on opposite sides of said chamber outlet openings at substantially the level of said jet tubes, and on opposite sides of the chamber air inlet openings at substantially the level of said jet tubes, each outlet opening having a straight-line connection with the mixture receiving means of one or more cylinders on one side of thecarbureter.
6. In combination with an internal combustion engine of the V-type, a carbureter in the space between the cylinders, said carbureter having a mixing chamber, a conduit connecting said chamber to cylinders on both sides of the carbureter, and said carbureter having independent of said conduit mixture outlets by which mixture may be supplied to the cylinders independently of said first-named mixing chamber, one of said outlets supplying mixture to cylinders on one side of the carburetor, and the other supplying mixture to'the cylinders on the other side of the carbureter.
7. In combination with an internal combustion engine of the V-type, a carbureter located in the space between the cylinders, said carbureter having a mixing chamber with. an outlet, a conduit connecting said outlet to cylinders on both sides of the carbureter, and said carbureter having two additional outlets connected to the cylinders and through which mixture passes from the carburetor to the cylinders in opposite directions and independently of the first-named outlet, one of said outlets supplying mixture to cylinders on one side of the carbureter, and the other supplying mixture to the cylinders on the other side of the carbureter.
8,. In an'internal combustion engine-of the V-type, a carburetor in the space between the cylinders, said carbureter having an outlet, a conduit having its middle portion connected to said outlet and having branches connected to the cylinders, and said carbureter having two additional outlets connected to the cylinders at thev points where said branches are connected thereto, one of said outlets supplying mixture to cylinders on one side of the carbureter, and the other supplying mixture to the cylinders on the other side of the carbureter.
9. In combination with an internal combustion engine of the V-type, a carburetor in the space between the cylinders, said carbureter having three outlets, one outlet supplying mixture to cylinders on both sides of the carbureter, and each of the other outlets supplying mixture to one or more cylinders on one side of the carburetor only.
10. In combination with an internal combustioiengine of the V-type, a carburetor in the space between the cylinders, said carbureter having three separate outlets, a con duit having its middle portion connected to one of said outlets and having its ends connected to the cylinders on opposite sides of the carburetor, and the other two outlets each supplying mixture to cylinders on one side of the carbureter only, and each connected to said cylinder through the end of the corresponding branch of the conduit.
11. In combination with an internal combustion engine of the V-type, a carbureter in the space between the cylinders, said carbureter having three outlets,,a conduit by which mixture is supplied from one of said outlets to cylinders on both sides of the carburetor, the other two outlets being connected one to cylinders on one side of the carbureter and the other to cylinders on the opposite side, and throttle valves by which the first-named outlet may be controlled so as to supply mixture independently of the other two.
12. In combination with an internal combustion engine of the V-type, a carburetor in the space between the cylinders, said carbureter having three outlets, a conduit by which mixture is supplied from one of said outlets to cylinders on both sides of the carburetor, the other two outlets being connected one to cylinders on one side of the carbureter and the other to cylinders on the opposite side and discharging in substantially straight lines and in opposite directions from the carbureter, and throttle valves by which the first-named outlet may be con trolled so as to supply mixture independently of the other two.
13. In combination with an internal com bustion engine of the V-type, a carbureter in the space between the cylinders, said carbureter having three separate outlets, a con duit having its middle portion connected to one of said outlets and having its ends connected to the cylinders on opposite sides of the carbureter, and the other two outlets each supplying mixture to cylinders on one side of the carbureter, and each connected to said cylinders through the end of the corresponding branch of the conduit, whereby mixture may be supplied simultaneously from all outlets.
In testimony whereof, I hereunto affix my signature.
"WILLEAM R. STRIG ILAND.
Priority Applications (1)
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US222571A US1365564A (en) | 1918-03-15 | 1918-03-15 | Internal-combustion engine |
Applications Claiming Priority (1)
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US222571A US1365564A (en) | 1918-03-15 | 1918-03-15 | Internal-combustion engine |
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US1365564A true US1365564A (en) | 1921-01-11 |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2733695A (en) * | 1956-02-07 | goodridge | ||
US2762350A (en) * | 1955-03-14 | 1956-09-11 | Acf Ind Inc | Induction system for v-8 engines |
US2766743A (en) * | 1952-07-05 | 1956-10-16 | Chrysler Corp | High output engine |
US2796853A (en) * | 1955-08-26 | 1957-06-25 | Cornelius W Van Ranst | Air inlet arrangement for combustion engines |
US2806457A (en) * | 1955-03-07 | 1957-09-17 | James T W Moseley | Manifold |
US2898898A (en) * | 1953-12-17 | 1959-08-11 | Gen Motors Corp | Engine |
US2947295A (en) * | 1956-06-23 | 1960-08-02 | F M Aspin Engines Ltd | Internal combustion engines |
US5697335A (en) * | 1995-04-17 | 1997-12-16 | Sanshin Kogyo Kabushiki Kaisha | Induction device for engine |
-
1918
- 1918-03-15 US US222571A patent/US1365564A/en not_active Expired - Lifetime
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2733695A (en) * | 1956-02-07 | goodridge | ||
US2766743A (en) * | 1952-07-05 | 1956-10-16 | Chrysler Corp | High output engine |
US2898898A (en) * | 1953-12-17 | 1959-08-11 | Gen Motors Corp | Engine |
US2806457A (en) * | 1955-03-07 | 1957-09-17 | James T W Moseley | Manifold |
US2762350A (en) * | 1955-03-14 | 1956-09-11 | Acf Ind Inc | Induction system for v-8 engines |
US2796853A (en) * | 1955-08-26 | 1957-06-25 | Cornelius W Van Ranst | Air inlet arrangement for combustion engines |
US2947295A (en) * | 1956-06-23 | 1960-08-02 | F M Aspin Engines Ltd | Internal combustion engines |
US5697335A (en) * | 1995-04-17 | 1997-12-16 | Sanshin Kogyo Kabushiki Kaisha | Induction device for engine |
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