US1897044A - Fuel injection system for internal combustion engines - Google Patents

Fuel injection system for internal combustion engines Download PDF

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US1897044A
US1897044A US493045A US49304530A US1897044A US 1897044 A US1897044 A US 1897044A US 493045 A US493045 A US 493045A US 49304530 A US49304530 A US 49304530A US 1897044 A US1897044 A US 1897044A
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fuel
engine
valve
pump
cylinder
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US493045A
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Lloyd E Elwell
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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
    • F02M57/00Fuel-injectors combined or associated with other devices
    • F02M57/02Injectors structurally combined with fuel-injection pumps
    • 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
    • F02M59/00Pumps specially adapted for fuel-injection and not provided for in groups F02M39/00 -F02M57/00, e.g. rotary cylinder-block type of pumps
    • F02M59/44Details, components parts, or accessories not provided for in, or of interest apart from, the apparatus of groups F02M59/02 - F02M59/42; Pumps having transducers, e.g. to measure displacement of pump rack or piston
    • 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
    • F02M2700/00Supplying, feeding or preparing air, fuel, fuel air mixtures or auxiliary fluids for a combustion engine; Use of exhaust gas; Compressors for piston engines
    • F02M2700/07Nozzles and injectors with controllable fuel supply
    • F02M2700/078Injectors combined with fuel injection pump

Definitions

  • This invention relates to a fuel injection system for engines of the internal combustion type, especially those which burn fuel by highly compressed air.
  • the invention appertains particularly to multiple cylinder engines.
  • the objects of this invention are to provide a system of the character described having any or all of the following features (1) Fuel metering means, operating independent of the fuel timing means, and controllably adapted to supply equal fuel quantities to each cylinder of a multiple cylinder engine. I
  • Fuel injection means controllably adapted to inject equal fuel quantities under equal fuel pressures into each cylinder of the englne.
  • Fuel timing means controllably adapted to introduce fuel into the engine at identical timing to each cylinder 'of the en- (4)
  • a fuel system characterized by the outstanding feature that nocylinder of a multiple cylinder engine can difier from any other cylinder in respect to quantity of fuel injected, pressure at which fuel is injected and timing at which fuel is injected.
  • An engine is said to be in balance when allcylinders are alike in respect to fuel uantities, fuel pressures and fuel timing. n all of the three general systems mentioned, it is not only difficult to balance the engine initial- 1y but it is impossilfle to maintain such balance m-serv ce.
  • the object of this invention isto'eliminate the disadvantages of the existing systems by introducing means whereby the engine operates in perfect balance at all times.
  • a fuel metering pump operating in synchronism with the engine but independent of the fuel timing or fuel injection, whose single duty is to pump a controllable quantity of fuel for each power stroke of the engine.
  • a fuel injection means for receiving the uel discharged from-the fuel metering pump and adapted to inject it at controllale fuel pressures.
  • a fuel timing means controllably adapted to act at the roper time, to permit the fuel to be admitte to the engine.
  • Fig. 1 is an elevation partly in section of a two cylinder engine showing the structure essential to the invention
  • Fig. 2 is a section as seen on the line 2-42 of Fig. 1
  • Fi 3 is a section asseen on. the line 33 of iig. 1
  • Fig. dis a schematic section showing the work n conditions just before injection takes p ace
  • Fig. 5 shows the working conditions at the end of the event at which fuel has been injected intogthe combustion chamber of the cylinders.
  • a fuel metering pump A is shown arran ed to pump fuel to the injection ram B om whence it is led to the timing valve
  • the fuel 6 timing valve C After passing through the fuel 6 timing valve C it asses into a fuel manifold and into the fue selective valves D1 and D2.
  • the fuel then passes through whichever selective valve is open and proceeds throu h a fuel pipe and fuel s ray nozzle into t e combustion chamber an en 'ne cylinder E1 or E2 where combustion ta es place.
  • a two cylinder two stroke cycle on e having a crank shaft 6, and a aft 7 is arranged to be driven by gears 8 from crank shaft 6 and to make one revolulution for every two revolutions of the crank shaft 6.
  • a shaft 9 is geared up by gears 10 to make one revolution for each power stroke of the engine.
  • An eccentric 11 is mounted on shaft 9 and drives a connecting rod 12 having a ush rod 13 pivotally connected thereto.
  • uel metering pump lun er 14 is arranged to be acted upon by t e push rod 13 on its discharge stroke and returned b spring 15 on its intake stroke.
  • 'Stop 16 limits the intake stroke of plunger 14.
  • a wedge 17 governs the position of stop 16 and is operated by a lever 18 to control the osition of the wedge.
  • Passage 19 in the body 20, permits fuel to pass between the pump plunger 14 and valve chamber 21.
  • a discharge valve 22 is acted upon by a spring 23 tending to seat it and intake valve 24 is acted upon by a spring 25 to return it to its seat.
  • Intake valve 24 is positively opened by push rod 26 pivotally connected to connectingrod 27 which is driven by eccentric on shaft 9.
  • a fuel injection plunger 28 is arranged to be acted upon by the fuel that passes through the fuel dlscharge valve 22, and the sto 29 limits its stroke.
  • Spring 30 acts upon p unger 28 and is provided with an adjustable .goring seat 31.
  • a pi e 32 directs the fuel m ram B to the fue timing valve C.
  • the pressure of the fuel that is trapped between the fuel discharge valve 22 and the fuel timing valve C is therefore governed by the ressure of the spring 30 acting upon the uel injection plunger 28 and is controllable by means of the ad ustable spring seat 31.
  • the fuel. timing valve33 is arranged to be acted upon by a push rod 34 which is actuated by the cam 35 driven by the shaft 9.
  • the shaft 9 is arranged to make one revolution for each power stroke of the engine.
  • the push rod 34 slides in a guide arrel 36.
  • the barrel 36 is pivotally mounted in relation to the shaft 9 and a control 37 permits the operator to swing the guide 36 to whatever angular position it is desired to control the time at which the fuel timing valve 33 is permitted to open.
  • Fuel manifold 38 permits the fuel to pass from the fuel timin valve 33 to the selective valves D1 85 and 2.
  • Selective valves 39a and 3% are arranged to be acted upon by the push rods 40a and 40h whlch are actuated by cams 41a and 41b driven by the shaft 7, which is arranged to be driven from the engine and to make one revolution for two revolutions of the crank shaft in a two stroke cycle engine or one revolution for every revolution of the crank shaft in a one stroke cycle engine.
  • Fuel pipes 42a and 42b allow the fuel to pass from the selective valves 39a aand 396 through the fuel spray nozzles 43a and 43b and into the combustion chamber of the engme cyllnders.
  • Engine cylinder E1 and its engine piston are schematically shown in Fig. 5 to indicate the firin piston with reference to the uel injection system herein described.
  • Intake pipe 44 connects the intake of the fuel metering pump with the fuel tank or other suitable source of fuel supply.
  • Fig. 4 illustrates the condition of the fuel 1n ecti0n system just before injection takes place.
  • the fuel metering pump plunger 14 y has just reached the endof its discharge stroke, having been acted upon by the push rod 13.
  • the inlet valve 24 has been mechanically closed by the spring 25 and pressure exerted b the lunger.
  • Fuel has been forced throng the discharge valve 22 into the ram chamber, and the timing valve 33 having been closed throughout the discharge stroke of the fuel metering pump plunger 14, the fuel has acted upon the injection ram 28, compressing the sprin 30.
  • Fig. 5 illustrates t e condition of the fuel injection system just at the end of the fuel injection into the combustion chamber of cylinder E1.
  • the selective valve 3911 has been lifted slightly ahead of the timing valve 33.
  • the spring 30 acting on ram plunger 28 forces the fuel into the combustion chamber of cylinder E1 until the fuel ram 28 is stopped by the sto 29.
  • Fig. 5 also shows the intake valve 24 o the fuel metering pump held open by the push rod 26 during the intake stroke of the fuel metering pump.
  • the fuel metering pump is therefore provided with positive mechanically operated valves and its stroke is positively controllable.
  • the mechanically operated intake valve of the fuel metering pump has very distinct advantages. By' mechanically holding the intake valve open, the fuel has no restrictions 7 in enteringthe pump and the heavy return spring 25 insures the seating of the intake valve 24 before the dischar e stroke beg ns, thus insuring an efiicient hig speed pump.
  • a liquid fuel injection system comprising a. metering fuel pump; a receiver chamber for delivery thereto of fuel from said pump, means urging expulsion of fuel from said chamber; a timing valve to release fuel for delivery from said chamber to said manifold; selector mechanism for directin fuel from said manifold to the cylinder; an means operated by said engine to actuate in seriatim said pump and said selector mechanism, and said timing valve whereby to deliver a metered quantity of fuel to the receiving chamber and release it by means of the timing valve to the engine at a selected time.
  • a liquid fuel injection system comprising a metering fuel ump having adjustable means to selective y predetermine, the char e delivered therefrom; a receiver chamber or delivery thereto of fuel from said pump, means urging expulsion of fuel from said chamber; a timing valve to release fuel for delivery from said chamber to said manifold; selector mechanism for directing fuel from said manifold to the cylinders; and
  • timing valve being adjustably connected to said means to enable variation of the time at which the fuel release event occurs.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Fuel-Injection Apparatus (AREA)

Description

Feb. 14, 1933. I LL 1,897,044
INJECTION SYSTEM FoR lNTERNAL COMBUSTION ENGINES Filed Nov. 5 1930 *2 Sheets-Sheet 1 INVENTOR Z/aya ,5. /m-://
ATTORN EYS ENGINES 3, 1950 2 Sheets-Sheet 2 L. E. ELW'ELL FUEL NJECTION SYSTEM FOR INTERNAL COMBUSTION Filed Nov.
. 0 MM 0 M M 4, z W w a0 7 d w wf MM a M m R Z W H v E b .0 m@ A f w w 4 4 Y. WW A, B Q 0 7 6 X & m v/m\ f k a a a M w W .4 x: J 9 2 C a 3 W9 1 O 00 i g 1 v I a 3 2 2 n Q W almrllrlrl 5 A v I Mill/2 E I III- m a! ll E 2% wa 2 k /0 7 v a Z m d a A w KVMYV... I. \l L A. :1. 00 \w .NNN: O x :1. KWRNE. W I!!! .O 4 m p r Ty F Q E a 0 v7, 94 a/ Patented Feb. 14, 1933 UNITED STATES LLOYD E. ELW'ELL LOS ANGELES, CALIFORNIA.
FUEL INJECTION SYSTEM FOR TNTERNLL COMfiUSTION ENGINES Application filed November 3, 1930. Serial No. 493,045.
This invention relates to a fuel injection system for engines of the internal combustion type, especially those which burn fuel by highly compressed air. The invention appertains particularly to multiple cylinder engines.
The objects of this invention are to provide a system of the character described having any or all of the following features (1) Fuel metering means, operating independent of the fuel timing means, and controllably adapted to supply equal fuel quantities to each cylinder of a multiple cylinder engine. I
(2) Fuel injection means, controllably adapted to inject equal fuel quantities under equal fuel pressures into each cylinder of the englne.
(3) Fuel timing means, controllably adapted to introduce fuel into the engine at identical timing to each cylinder 'of the en- (4) A fuel system characterized by the outstanding feature that nocylinder of a multiple cylinder engine can difier from any other cylinder in respect to quantity of fuel injected, pressure at which fuel is injected and timing at which fuel is injected.
With the difierent fuel systems now commonly employed, these ob'ects can only be approximate 0 fuel systems now commonlym use. One employs a distributor for directing the fuel to the proper cylinder, and a fuel pump which meters and times the fuel at the same time. Another system has one fuel pump for each engine cylinder which delivers, meters and times the fuel at the same time. Yet another system has one or more fuel pumps 40 and one fuel timing valve for each engine cylinder to time the fuel injection.
The disadvantages of these systems are as follows: It is extremely difiicult to meter and time the fuel by means of a pump because of the very small time interval of injection. It is even more diflicult to meter and time the fuel injection where one fuel pump is em loyed for each cylinder of the engine. It is also difficult to have the fuel pressures and timing alike on all cylinders There are t ree general types where a timing valve, to ether with its actuatmg mechanism, is emp oyed for each cylinder apart from the pump.
An engine is said to be in balance when allcylinders are alike in respect to fuel uantities, fuel pressures and fuel timing. n all of the three general systems mentioned, it is not only difficult to balance the engine initial- 1y but it is impossilfle to maintain such balance m-serv ce.
The object of this invention isto'eliminate the disadvantages of the existing systems by introducing means whereby the engine operates in perfect balance at all times.
This I accomplish by providing:
(1) A fuel metering pump, operating in synchronism with the engine but independent of the fuel timing or fuel injection, whose single duty is to pump a controllable quantity of fuel for each power stroke of the engine.
(2 A fuel injection means for receiving the uel discharged from-the fuel metering pump and adapted to inject it at controllale fuel pressures.
(3) A fuel timing means, controllably adapted to act at the roper time, to permit the fuel to be admitte to the engine.
(4) Selective means for directing the fuel to the proper engine cylinder.
These 0 jects are accomplished by means of the embodiment of the invention illustrated in the accompanying drawings, in which r Fig. 1 is an elevation partly in section of a two cylinder engine showing the structure essential to the invention; Fig. 2 is a section as seen on the line 2-42 of Fig. 1; Fi 3 is a section asseen on. the line 33 of iig. 1; Fig. dis a schematic section showing the work n conditions just before injection takes p ace; and Fig. 5 shows the working conditions at the end of the event at which fuel has been injected intogthe combustion chamber of the cylinders.
The drawings illustrate schematically the principles involved as applied to a two cylinder engine, but it is understood that the same can be applied to an engine having any number of cyl nders.
In general, a fuel metering pump A is shown arran ed to pump fuel to the injection ram B om whence it is led to the timing valve After passing through the fuel 6 timing valve C it asses into a fuel manifold and into the fue selective valves D1 and D2. The fuel then passes through whichever selective valve is open and proceeds throu h a fuel pipe and fuel s ray nozzle into t e combustion chamber an en 'ne cylinder E1 or E2 where combustion ta es place.
In detail a two cylinder two stroke cycle on e is shown having a crank shaft 6, and a aft 7 is arranged to be driven by gears 8 from crank shaft 6 and to make one revolulution for every two revolutions of the crank shaft 6. A shaft 9 is geared up by gears 10 to make one revolution for each power stroke of the engine. An eccentric 11 is mounted on shaft 9 and drives a connecting rod 12 having a ush rod 13 pivotally connected thereto. uel metering pump lun er 14 is arranged to be acted upon by t e push rod 13 on its discharge stroke and returned b spring 15 on its intake stroke. 'Stop 16 limits the intake stroke of plunger 14. A wedge 17 governs the position of stop 16 and is operated by a lever 18 to control the osition of the wedge. Passage 19 in the body 20, permits fuel to pass between the pump plunger 14 and valve chamber 21.
A discharge valve 22 is acted upon by a spring 23 tending to seat it and intake valve 24 is acted upon by a spring 25 to return it to its seat. Intake valve 24 is positively opened by push rod 26 pivotally connected to connectingrod 27 which is driven by eccentric on shaft 9.
A fuel injection plunger 28 is arranged to be acted upon by the fuel that passes through the fuel dlscharge valve 22, and the sto 29 limits its stroke. Spring 30 acts upon p unger 28 and is provided with an adjustable .goring seat 31. A pi e 32 directs the fuel m ram B to the fue timing valve C. The pressure of the fuel that is trapped between the fuel discharge valve 22 and the fuel timing valve C is therefore governed by the ressure of the spring 30 acting upon the uel injection plunger 28 and is controllable by means of the ad ustable spring seat 31.
The fuel. timing valve33 is arranged to be acted upon by a push rod 34 which is actuated by the cam 35 driven by the shaft 9. The shaft 9 is arranged to make one revolution for each power stroke of the engine. The push rod 34 slides in a guide arrel 36. The barrel 36 is pivotally mounted in relation to the shaft 9 and a control 37 permits the operator to swing the guide 36 to whatever angular position it is desired to control the time at which the fuel timing valve 33 is permitted to open. Fuel manifold 38 permits the fuel to pass from the fuel timin valve 33 to the selective valves D1 85 and 2. Selective valves 39a and 3% are arranged to be acted upon by the push rods 40a and 40h whlch are actuated by cams 41a and 41b driven by the shaft 7, which is arranged to be driven from the engine and to make one revolution for two revolutions of the crank shaft in a two stroke cycle engine or one revolution for every revolution of the crank shaft in a one stroke cycle engine.
Fuel pipes 42a and 42b allow the fuel to pass from the selective valves 39a aand 396 through the fuel spray nozzles 43a and 43b and into the combustion chamber of the engme cyllnders. Engine cylinder E1 and its engine piston are schematically shown in Fig. 5 to indicate the firin piston with reference to the uel injection system herein described. Intake pipe 44 connects the intake of the fuel metering pump with the fuel tank or other suitable source of fuel supply.
Fig. 4 illustrates the condition of the fuel 1n ecti0n system just before injection takes place. The fuel metering pump plunger 14 y has just reached the endof its discharge stroke, having been acted upon by the push rod 13. The inlet valve 24 has been mechanically closed by the spring 25 and pressure exerted b the lunger. Fuel has been forced throng the discharge valve 22 into the ram chamber, and the timing valve 33 having been closed throughout the discharge stroke of the fuel metering pump plunger 14, the fuel has acted upon the injection ram 28, compressing the sprin 30.
It is evident that the displacement of the fuel injection ram 28 is exactly equal to the displacement of the fuel metering pump plunger 14, and the pressure of the fuel trapped between the fuel discharge valve 22 and the fuel timing valve 33 is determined bythe stress of spring 30. Therefore, any fuel pressures desired may be obtained and controlled by loading the spring 30 by means of the adjustable sprin seat 31.
Fig. 5 illustrates t e condition of the fuel injection system just at the end of the fuel injection into the combustion chamber of cylinder E1. The selective valve 3911 has been lifted slightly ahead of the timing valve 33. Obviously, as soon as the fuel timing valve 33 lifts, the spring 30 acting on ram plunger 28 forces the fuel into the combustion chamber of cylinder E1 until the fuel ram 28 is stopped by the sto 29. Fig. 5 also shows the intake valve 24 o the fuel metering pump held open by the push rod 26 during the intake stroke of the fuel metering pump. The fuel metering pump is therefore provided with positive mechanically operated valves and its stroke is positively controllable.
From the foregoing, it is apparent the different cylinders can not get out of balance or out of adjustment with reference to fuel quantities, fuel timing or fuel pressures.
position of the The mechanically operated intake valve of the fuel metering pump has very distinct advantages. By' mechanically holding the intake valve open, the fuel has no restrictions 7 in enteringthe pump and the heavy return spring 25 insures the seating of the intake valve 24 before the dischar e stroke beg ns, thus insuring an efiicient hig speed pump.
Although only one fuel metering pump is shown, it is obvious that more than one pump may be used, if desired, especially on very high speed engines where the fuel velocities through the pump might become two great for only one pump to handle. In such a case two pumps, each running at one half the speed of the pump descrlbed could be employed. In fact any number of pumps desired could be used. .i
It is also apparent that more than one fuel injection ram and timing valve may be employed. In fact on a very high speed engine having a large number of cylinders, it might be found advisable to use a dual fuel system.
What I claim is 1. In combination with a multiple cylinder internal combustion engine having a fuel manifold: a liquid fuel injection system comprising a. metering fuel pump; a receiver chamber for delivery thereto of fuel from said pump, means urging expulsion of fuel from said chamber; a timing valve to release fuel for delivery from said chamber to said manifold; selector mechanism for directin fuel from said manifold to the cylinder; an means operated by said engine to actuate in seriatim said pump and said selector mechanism, and said timing valve whereby to deliver a metered quantity of fuel to the receiving chamber and release it by means of the timing valve to the engine at a selected time.
2. In combination with a multiple cylinder internal combustion engine having a fuel manifold: a liquid fuel injection system comprising a metering fuel ump having adjustable means to selective y predetermine, the char e delivered therefrom; a receiver chamber or delivery thereto of fuel from said pump, means urging expulsion of fuel from said chamber; a timing valve to release fuel for delivery from said chamber to said manifold; selector mechanism for directing fuel from said manifold to the cylinders; and
means operated by said engine to actuate in seriatim said pump and said selector mechanism and said timin valve whereby to deliver a metered quantlty of fuel to the engine at a selected time, said timing valve being adjustably connected to said means to enable variation of the time at which the fuel release event occurs.
In witness that I claim the foregoing I have hereunto subscribed my name this third day of October, 1930.
LLOYD E. ELWELL.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2447513A (en) * 1944-08-04 1948-08-24 Lima Hamilton Corp Fuel injection means for free piston engines
US2530128A (en) * 1944-05-29 1950-11-14 William H Mashinter Fuel injector
US2734492A (en) * 1956-02-14 Fuel injection systems for internal-combustion engines
US2760334A (en) * 1951-03-05 1956-08-28 William Doxford And Sons Ltd Fuel injection systems for internalcombustion engines
US3913548A (en) * 1974-06-11 1975-10-21 Ora E Wilson Fuel injection engine
US3943892A (en) * 1973-11-16 1976-03-16 Holec N.V. Injector
US4210116A (en) * 1974-03-19 1980-07-01 Holec N.V. Electromagnetically actuated pumps

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734492A (en) * 1956-02-14 Fuel injection systems for internal-combustion engines
US2530128A (en) * 1944-05-29 1950-11-14 William H Mashinter Fuel injector
US2447513A (en) * 1944-08-04 1948-08-24 Lima Hamilton Corp Fuel injection means for free piston engines
US2760334A (en) * 1951-03-05 1956-08-28 William Doxford And Sons Ltd Fuel injection systems for internalcombustion engines
US3943892A (en) * 1973-11-16 1976-03-16 Holec N.V. Injector
US4210116A (en) * 1974-03-19 1980-07-01 Holec N.V. Electromagnetically actuated pumps
US3913548A (en) * 1974-06-11 1975-10-21 Ora E Wilson Fuel injection engine

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