US2264898A - Fuel pump for internal combustion engines - Google Patents

Fuel pump for internal combustion engines Download PDF

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US2264898A
US2264898A US291608A US29160839A US2264898A US 2264898 A US2264898 A US 2264898A US 291608 A US291608 A US 291608A US 29160839 A US29160839 A US 29160839A US 2264898 A US2264898 A US 2264898A
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plunger
valve
pump
fuel
chamber
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US291608A
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Charles M Bovard
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B9/00Piston machines or pumps characterised by the driving or driven means to or from their working members
    • F04B9/02Piston machines or pumps characterised by the driving or driven means to or from their working members the means being mechanical
    • F04B9/04Piston machines or pumps characterised by the driving or driven means to or from their working members the means being mechanical the means being cams, eccentrics or pin-and-slot mechanisms
    • 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
    • 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
    • F02M59/20Varying fuel delivery in quantity or timing
    • F02M59/36Varying fuel delivery in quantity or timing by variably-timed valves controlling fuel passages to pumping elements or overflow passages
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B49/00Control, e.g. of pump delivery, or pump pressure of, or safety measures for, machines, pumps, or pumping installations, not otherwise provided for, or of interest apart from, groups F04B1/00 - F04B47/00
    • F04B49/02Stopping, starting, unloading or idling control
    • F04B49/03Stopping, starting, unloading or idling control by means of valves
    • 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
    • F02M2700/13Special devices for making an explosive mixture; Fuel pumps
    • F02M2700/1317Fuel pumpo for internal combustion engines
    • 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
    • Y10T74/00Machine element or mechanism
    • Y10T74/21Elements
    • Y10T74/2101Cams
    • Y10T74/2107Follower

Definitions

  • This invention relates to fuel injecting mechanism of th type used on oil burning internal combustion engines and is particularly directed to a pump employed to supply liquid fuel under high pressure to the injectors on such engines.
  • the conventional valve type fuel pumps now in generaluse are quite complicated and expensive in that they include a plurality of valves, plungers and high pressure seals.
  • the ported pumps have plungers and the cylinders in which they operate must be carefully ground andin use are apt to leak and cause faulty operation of the engine.
  • the flow of fuel gradually decreases, causing a slow cutoff which results in imperfect combustion with maximum carbon formation.
  • the primary object of this invention resides in the provision of a fuel pump which will not have the undesirable features of the conventional pumps but will be composed of a minimum number of parts and will operate efiiciently without danger of sticking or otherwise failing to function.
  • Another object is to so arrange the combined inlet and cut-off valve that the pressure of the fuel within the pump will operate to hold the valve in a closed or seated position with the result that when the pump is operating and the pressure on the fuel increases, the valve will be more firmly seated and less apt to leak.
  • An object of the invention is to extend the operating stem for the valve through the piston to permit the latter to serve as a guide for the valve stem and protect it from the high pressure of the fuel in the pump to prevent leakage around the stem and decrease the possibility of the valve sticking.
  • Another feature of the invention is the provision of means for mechanically and positively opening the valve at the end of the inlet stroke of the piston and immediately prior to the termination of the injection stroke of the piston, the latter operation being performed to instantly relieve the pressure on the fuel flowing to the injection valve and produce a sharp cut-off.
  • Fig. l is a vertical longitudinal sectional view taken through a pump formed in accordance with the present invention and showing the same installed on an engine in registration with the cam shaft thereof;
  • Fig. 2 is a similar view on an enlarged scale showing the operating mechanism of the pump at the end of the suction stroke
  • Fig. 3 is a detail sectional view of the operating mechanism during the injection stroke
  • Fig. 4 is a similar view at the termination of the injection stroke
  • Fig. 5 is a detail vertical sectional view taken on the plane indicated by the line V-V of Fig. 2;
  • Fig. -6 is a similar view on the plane indicate by the line VIVI of Fig. 2;
  • Fig. 7 is a detail vertical sectional view of the cam employed in operating the fuel pump and the follower used to transmit motion from the cam to the operating mechanism of the pump;
  • Fig. 8 is a graphic view ofthe forward face of the cam illustrating the maximum length of the injection stroke of the plunger and how the length and position may be varied to change the timing of the engine;
  • Fig. 9 is a diagrammatic view of one form of the numeral l designates the fuel pump in its entirety.
  • This pump includes a body 2 formed from a suitable metallic member and having a vertically extending internal bore or chamber 3 provided at its upper end.
  • the lower portion of the body 2 is also provided with a bore 4 in vertical registration with the chamber 3, the bore 4 constituting a guide for the crosshead 5 of the pump which is slidably positioned therein-
  • the lower portion of the body 2 also includes a flange 6 perforated as at I for the reception of bolts or other securing devices used to fasten the body 2 to the block 8 of the motor to which the fuel pump is applied.
  • the body ⁇ also includes a lateral extension 9 for the reception of controlling mechanism designated generally by the numeral ID.
  • the crosshead 5 is in the form of a cylinder and has a pair .of spaced ears I I depending from cam shaft l4 ofthe motor and'the latter, in
  • a pump actuating cam IS is formed with a pump actuating cam IS.
  • the latter member has a single projection of high spot in order to impart one injection stroke and one suction stroke to the pump upon each rotation of the cam shaft.
  • the projection or high place I6 on the camin cludes a cam surface I! on its forward face which is substantially straight, except that the upper half is inclined to a slightly greater degree than the lower half.
  • the lower end'o'f the guide 4 is provided with a recess in which a snap ring I8 is placed to limit the degree of outward movement of the cross:- head.
  • the upper end of the crosshead has an upwardly projecting boss I9 provided with a centrally disposed socket 2
  • the upper end of the boss l9 engages the lower end of a pump plunger 23 which is mounted for reciprocation in the pump barrel 24 in'the chamberj3 of the body 2.
  • the lower portion of the chamber 3 includes a shoulder 25 on which a similar shoulder formed with the barrel 24 rests when the barrel is operatively positioned in the body. The barrel is securely held in this position by a high pressure connection 26 threadedly received by the upper end of the chamber 3.
  • pressure gasket 21 is positioned between the inner end of the connection 26 and the upper end of the barrel 24. This gasket prevents the escape of fuel around the connection 26 or the threads employed in securing the connection to the body.
  • This high pressure connection is the only connection of this type used in the present pump.
  • the upper end of the member 26 is formed with a reducedthreaded boss-28 for the reception of a swivel nut 29 employed in securing the high pressure line 30 to the connection and the pump.
  • the connection is also provided with an internal passage 3
  • the barrel is provided with an annular recess 32 with which a low pressure fuel supply line 33 communicates by means ofthe port" 34.
  • the barrel is provided with transversely extending ports 35 to establish communication between thefuel supply line and the interior of the barrel.
  • the internal surface of the barrel is highly polished by a lapping operation and the exterior surface of the plunger is similarly finished to provide a slip fit which will p'ermit the plunger to move-in the barrel without opposition and yet eliminate the necessity for packing between the plunger and the barrel to prevent leakage.
  • the .valve stem is formed with an annular recess 40 to receive a collar 4
  • the opposite end of the spring is disposed in engagement with the lower end of the plunger 23, the spring serving to hold the valve stem in a lowered position with the valve 38 in engagement with the seat 39.
  • are disposed within the socket 20 provided in the body at the upper end of the crosshead 5.
  • Movement of the valve in opposition to the spring 42 is provided through a pusher member 43 guided for movement in the reduced bore .2! connecting the socket 20 with the recess 22.
  • the crosshead isequipped with a lever 44 supported for pivotal movement in a cradle 45 carried by the crosshead at the lower end of the recess 22.
  • The-cradle 45 has anarcuate recess at its upper end to receive an arcuate'projection formed on the lower surface of the lever 44.
  • the inner end. 46 of the lever 44 is disposed in registration with the pusher member while the outer end 41 of the 'lever is resiliently supported in engagement with a fulcrum bar 48 by .a compression spring 49.
  • the crosshead Since the crosshead is in engagement with the plunger, the latter member will be moved into thebarrel 24 and the volume of the space between the upper end of the plunger and the fitting 26 will be reducedwhich will cause fuel therein to flow through the fitting into the high pressure line and to the'engine cylinder.
  • the crosshead As the crosshead moves on this injection stroke, it will carry the lever 44 therewith and since the outer end 41 of the lever is held against movement, the lever will rock in the cradle to such an extent that the inner end 46 will engage the pusher 43 and .move it and the valve stem in opposition to the force of the spring 42. Normally, the end 46 of the lever is spaced from the pusher to permit the operating members to move substantially th full injection stroke before the valve is moved to an'open position. When the valve is opened.
  • the plunger and the crosshead will move downwardly in the body 2 on the intake stroke of the pump.
  • This downward movement is secured by placing a'strcng coil spring 50 between the inner surface of the body 2 around the lower end of the chamber 3 and a dome-shaped spring saddle 5
  • the lower end of the pusher member will engage a stop 52 supported by'the body and extending into the recess 22.
  • the stop 52 in this instance is formed from a shaft 53 journaled in a bearing threadedly carbe varied.
  • the upper end of the barrel is closed by a check valve 56 normally held in a closed position by a coil spring 51 positioned in a socket formed in the inner portion of the fitting between a flange formed on a variablev displacement plunger 58 and one formed on the valve 56.
  • a check valve 56 normally held in a closed position by a coil spring 51 positioned in a socket formed in the inner portion of the fitting between a flange formed on a variablev displacement plunger 58 and one formed on the valve 56.
  • valve] 56 the plunger 58 is forced downwardly, giving a displacement which will reduce the line pressure to a low value so that any further surges or pressure waves will likewise be reduced in intensity and will not have energy enough to open the nozzle and cause the objectionable afterinjections.
  • the spring 51 will then tend to return the plunger 58 to its outer position and the fuel in the line 30 will be maintained under a predetermined low pressure, relative to injection pressures, until the next injection occurs.
  • the line and injection nozzle are completely full of fuel at .the start of pump delivery, and uniform injections will result at idling as well as high speeds.
  • the plunger mechanism above described accomplishes these desirable ends by providing for downward movement against spring pressure until a predetermined balance is established. It
  • the spring5i will cause the plunger' 23 to move downwardly in the pump chamber on the intake stroke and a vacuum will be created between the upper end of the plunger and the check valve. This vacuum serves to draw fuel from the supply line into the pump when the valv 38 is again moved to an open position at theend of the suction stroke of the plunger.
  • the plunger is provided with an annular 1 recess in which fuel is positioned at low pres-.
  • the bar 48 is adjusted vertically ,by moving a control bar 59 longitudinally through a guide formed in the body 2.
  • the control bar has an inclined surface 60 in engagement with the upper end of the fulcrum bar 48.
  • the fulcrum bar 48 will be raised or lowered and will thereby vary the elevation of the fulcrum for the outer end of the lever 44. If the fulcrum point is lowered, the'inner end of the lever will be moved toward the pusher member and the valve 38 will thereby be opened at an earlier point in the injection stroke of the pump.
  • valve 33 By lowering the fulcrum point suffi- .ciently, the valve 33 could be held open for the entire movement of the plunger and no fuel would be injected.
  • the fulcrum point When the fulcrum point is raised, the, inner end of the lever will be moved away from the pusher member and will consequently engage it at a later point in the travel of the pump on the injection stroke and the length of the injection stroke will be increased.
  • Fig. 9 mechanism has been diagrammatically illustrated for eflecting this adjustment automatically.
  • This mechanism includes a centrifugal type governor 6
  • the sliding sleeve 62 of the governor is connected with one arm of a bell crank lever 63, the other arm being connected by a link 64 with one end of the control bar 59.
  • This member is provided on its under side, at the other end in the present illustration, with gear teeth arranged to mesh with the teeth on a pinion 65 supported by a shaft 66 extending from a differential housing 61 suitably journaled in bearings 68.
  • the shaft 86 is provided at its inner end with a bevel gear 69 which meshes with a pair of oppositely disposed idler gears as is usual in a differential.
  • the housing 61 rotatably supports another shaft H, the inner end of which has a bevel gear 12 in meshing engagement with the idlers 10.
  • the outer end of the shaft H has a pinion 13 secured thereto which meshes with teeth formed on the upper side of the second control bar 55a.
  • This bar extends beneath the pinion 13 and is supported for longitudinal slidingmovement in perforated ears provided on the body 2 .of the pump.
  • the bar 55a extends over the pinion 55 and has teeth out in its under side to mesh with those of the pinion.
  • the engine develops more power, and is better able to satisfy the increased torque demand.
  • the curves shown in solid lines illustrate how the quantity of fuel injected compares with the torque requirement.
  • the dotted curveillus-' trates the usual fuel injection curve in engines provided with the conventional pumps. With pumps which inject fuel as indicated by the dotted curve, the torque demand increases as the speed of the engine slows down and the quantity of fuel injected decreases with the result that power also decreases and unless proper steps are taken, the engine will consequently be'stalled. By changing the pitch of the upper portion of the cam, the inconvenience is eliminated.
  • the engine is rendered more flexible in its operation'and control. Since the camsurface 60 on the control bar is only inclined to a slight degree, no provision, other than the mechanism shown, need be made to maintain it in its positions of adjustment. Neither will the power required to move the control bar be of any great magnitude.
  • the control mechanism shown there is no direct connection with the pump plunger and therefore if a plunger in any of the pumps provided with an engine should stick, the control mechanism will not be locked but may be used member and sticking valves will be reduced as it is only exposed to fuel under low pressure.
  • the novel type mounting for the valve actuating lever increased strength and bearing area will be secured since no fulcrum pin or shaft will be required.
  • a liquid fuel pump for internal combustion engines comprising a body having a chamber, a high pressure'line leading from one end of said chamber, a low pressure supply line communicating with said chamber in spaced relation to said high pressure line, a tubular plunger mounted for sliding movement in said chamber, said plunger having a transversely extending bore establishing communication between the interior of said plunger and said low pressure line, .a valve seat of the retractive movement of said plunger and crosshead, continued movement of said plunger causing said valve to move away from said seat and provide for the flow of fuel through said plunger to said chamber, and a lever pivotally supported by said crosshead with one end in registration with the outer end of said valve stem,
  • a fuel injection pump for internal combustion engines comprising a body having a chamber, a tubular plunger mounted. for reciprocatory movement in said chamber, a fuel inlet, a fuel outlet, said plunger having a valve seat at its inner end and a transversely extending passage in spaced relation therefrom, a valve engaging said valve seat, a stem supporting said valve and extending through said tubular plunger, said stembeing relieved between the valve and the trans-.
  • a fuel pump in a. fuel pump, a body provided with a chamber, a high pressure line connected with said body and communicating with the chamber, a check valve disposed between said ,high pressure line and said chamber to prevent fluid flow from the former to the latter, a low pressure line communicating with said chamber, a piston mounted for movement in said chamber, means for imparting movement to saidpiston, and variable displacement means disposed between said high pressure line and said chamber for absorbing the shock when said check valve is closed following an injection by the pump.
  • variable displacement means for maintaining a lowered pressure on the fuel in said high pressure line between injections comprising a member disposed between said high pressure line and the chamber in said body, and spring means for yieldably forcing said member into said line to diminish the volume thereof,
  • acasing having a chamber, fuel inlet and discharge lines communicating with said chamber, outlet valve means for preventing fuel flow from saididischarge line to said chamber, plunger means dis posed for movement in said chamber, inlet and charge stroke of said plunger.
  • a fuel pump of the injector type having a chambered body, fuel inlet and discharge lines communicating with the chamber in said body,
  • v v 4 In a fuel pump ofthe injector type having a body formed with a chamber, a-tplungerprovided and said chamber; plunger m'ans positioned for movement in said chamber, said plunger having a longitudinally extending passage communicating with said fuel inlet'line, valve means positioned in the passage in said plunger, said valve means being normally closed, stop means carried open said valve at one position of movement of said plunger, and means carried by said plunger for engaging said valve to open the sameata dii- -ferent position of movement thereof, the latter means being independent of said stop means 9.
  • the structure as specified in claim 8 in combination with means carried by said pump body for effecting the separate adjustment of each" valve opening means.
  • a fuel pump of the type having a chambered body, a piston disposed for movement in the chamber in said body, said piston having an axial bore in open communication with a source of fuel,
  • valve having a stern extending through the borein said piston, spring means yieldably holding said valve in a closed position, and means for stem and the outer end being held stationary by said pump body, movement of said piston serving to' rock said lever in said cradle.
  • a fuel injection pump of the type having a body formed with a piston chamber and high and low pressure lines communicating therewith, a piston positioned for movement in said chamber, inlet and cut-off valve means carried by said piston for controlling the flow of fuel from the low pressure line to said chamber, means forv opening said inlet and cut-off valve during movement of said piston, a discharge valve positioned between the high pressure line and said chamber, and a spring pressed plunger carried by said discharge valve, said plunger being movable in opposition to its spring upon the opening of the cut-ofl? valve during the compression stroke of said piston.

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

Description

Dec. 2, 1941.
c. BQVARD FUEL PUMP FOR INTERNAL COMBUSTION ENGINES Filed Aug. 23, 1939 4 Sheets-Sheet 1 q. M. BOVARD FUEL PUMP FOR INTERNAL COMBUSTION ENGINES 4 Sheets-She et 2 Filed Aug. 25-, 1939 7 9 w Z J 4 Dec. 2, 1941. c. M. ovA 2,264,898
FUEL PUMP FOR INTERNAL COMBUSTION ENGINE$ Filed Aug. 25, 1939 4 sheets-sneak. s
2,9 z 2a I 2, 1941. cz. M. BOVARD FUEL PUMP FOR INTERNAL COMBUSTION ENGINES Filed Au 23, 1939 4 Sheets-Sheed 4 1 O 3%; N W
Patented Dec. 2 1941 FUEL PUMP FOR, INTERNAL COMBUSTION I ENGINES Charles M. Bovard, Mount Vernon, Ohio Application August 23, 1939, Serial No. 291,608
12 Claims.
This invention relates to fuel injecting mechanism of th type used on oil burning internal combustion engines and is particularly directed to a pump employed to supply liquid fuel under high pressure to the injectors on such engines.
The conventional valve type fuel pumps now in generaluse are quite complicated and expensive in that they include a plurality of valves, plungers and high pressure seals. The ported pumps have plungers and the cylinders in which they operate must be carefully ground andin use are apt to leak and cause faulty operation of the engine. In addition, at the time the injection operation is being completed, the flow of fuel gradually decreases, causing a slow cutoff which results in imperfect combustion with maximum carbon formation.
The primary object of this invention resides in the provision of a fuel pump which will not have the undesirable features of the conventional pumps but will be composed of a minimum number of parts and will operate efiiciently without danger of sticking or otherwise failing to function.
It is also an object of the invention to provide a pump having a valve which will serve as an inlet valve and as a cut-off valve, this valve being carried by and movable with the piston of the pump.
Another object is to so arrange the combined inlet and cut-off valve that the pressure of the fuel within the pump will operate to hold the valve in a closed or seated position with the result that when the pump is operating and the pressure on the fuel increases, the valve will be more firmly seated and less apt to leak.
An object of the invention, also, is to extend the operating stem for the valve through the piston to permit the latter to serve as a guide for the valve stem and protect it from the high pressure of the fuel in the pump to prevent leakage around the stem and decrease the possibility of the valve sticking.
Another feature of the invention is the provision of means for mechanically and positively opening the valve at the end of the inlet stroke of the piston and immediately prior to the termination of the injection stroke of the piston, the latter operation being performed to instantly relieve the pressure on the fuel flowing to the injection valve and produce a sharp cut-off.
It is proposed also to provide means for contime of its occurrence in the cycle of operation of the pump.
Other objects will become apparent from the following description of the preferred form of the invention illustrated in detail in the accompanying drawings in which:
Fig. l is a vertical longitudinal sectional view taken through a pump formed in accordance with the present invention and showing the same installed on an engine in registration with the cam shaft thereof;
Fig. 2 is a similar view on an enlarged scale showing the operating mechanism of the pump at the end of the suction stroke;
Fig. 3 is a detail sectional view of the operating mechanism during the injection stroke;
Fig. 4 is a similar view at the termination of the injection stroke;
Fig. 5 is a detail vertical sectional view taken on the plane indicated by the line V-V of Fig. 2;
Fig. -6 is a similar view on the plane indicate by the line VIVI of Fig. 2;
Fig. 7 is a detail vertical sectional view of the cam employed in operating the fuel pump and the follower used to transmit motion from the cam to the operating mechanism of the pump;
Fig. 8 is a graphic view ofthe forward face of the cam illustrating the maximum length of the injection stroke of the plunger and how the length and position may be varied to change the timing of the engine;
Fig. 9 is a diagrammatic view of one form of the numeral l designates the fuel pump in its entirety. This pump includes a body 2 formed from a suitable metallic member and having a vertically extending internal bore or chamber 3 provided at its upper end. The lower portion of the body 2 is also provided with a bore 4 in vertical registration with the chamber 3, the bore 4 constituting a guide for the crosshead 5 of the pump which is slidably positioned therein- The lower portion of the body 2 also includes a flange 6 perforated as at I for the reception of bolts or other securing devices used to fasten the body 2 to the block 8 of the motor to which the fuel pump is applied. The body {also includes a lateral extension 9 for the reception of controlling mechanism designated generally by the numeral ID.
The crosshead 5 is in the form of a cylinder and has a pair .of spaced ears I I depending from cam shaft l4 ofthe motor and'the latter, in
registration with the body 2, is formed with a pump actuating cam IS. The latter member has a single projection of high spot in order to impart one injection stroke and one suction stroke to the pump upon each rotation of the cam shaft.
As illustrated in Fig, 7, the projection or high place I6 on the camincludes a cam surface I! on its forward face which is substantially straight, except that the upper half is inclined to a slightly greater degree than the lower half. By this provision, the plungerof the pump will move at a substantialy uniform rate while the cam is on the first half of its rise and at a slightly faster but uniform rate during the sec-- 0nd half of the rise. The purpose of this arrangement will be. hereinafter set forth.
The lower end'o'f the guide 4 is provided with a recess in which a snap ring I8 is placed to limit the degree of outward movement of the cross:- head. The upper end of the crosshead has an upwardly projecting boss I9 provided with a centrally disposed socket 2|] terminating at its lower end in a reduced bore 2|, the latter communicating at its lower end with a transversely extending slot 22 formed in the crosshead. The upper end of the boss l9 engages the lower end of a pump plunger 23 which is mounted for reciprocation in the pump barrel 24 in'the chamberj3 of the body 2. The lower portion of the chamber 3 includes a shoulder 25 on which a similar shoulder formed with the barrel 24 rests when the barrel is operatively positioned in the body. The barrel is securely held in this position by a high pressure connection 26 threadedly received by the upper end of the chamber 3. A
pressure gasket 21 is positioned between the inner end of the connection 26 and the upper end of the barrel 24. This gasket prevents the escape of fuel around the connection 26 or the threads employed in securing the connection to the body. This high pressure connection is the only connection of this type used in the present pump.
The upper end of the member 26is formed with a reducedthreaded boss-28 for the reception of a swivel nut 29 employed in securing the high pressure line 30 to the connection and the pump. The connection is also provided with an internal passage 3| through which the fuel passes under high pressure from the interior of the pump to the high pressure line, the latter conducting the fuel to the cylinder of the engine serviced'by the pump.
Immediately above the shoulder 25, the barrel is provided with an annular recess 32 with which a low pressure fuel supply line 33 communicates by means ofthe port" 34. In registration with the recess 32, the barrel is provided with transversely extending ports 35 to establish communication between thefuel supply line and the interior of the barrel. The internal surface of the barrel is highly polished by a lapping operation and the exterior surface of the plunger is similarly finished to provide a slip fit which will p'ermit the plunger to move-in the barrel without opposition and yet eliminate the necessity for packing between the plunger and the barrel to prevent leakage. Y
Between the port 36 and the inner end of the valve stem, the latter is provided with a plurality of relieved portions through which communication is established between the interior of the pump barrel .above the inner end of the plunger and the inlet line. At-its lower end, the .valve stem is formed with an annular recess 40 to receive a collar 4| against which one end of a small compression-type spring 42 presses. The opposite end of the spring is disposed in engagement with the lower end of the plunger 23, the spring serving to hold the valve stem in a lowered position with the valve 38 in engagement with the seat 39. The spring 42 and the collar 4| are disposed within the socket 20 provided in the body at the upper end of the crosshead 5.
Movement of the valve in opposition to the spring 42 is provided through a pusher member 43 guided for movement in the reduced bore .2! connecting the socket 20 with the recess 22. To impart movement to the pusher member, the crosshead isequipped with a lever 44 supported for pivotal movement in a cradle 45 carried by the crosshead at the lower end of the recess 22. The-cradle 45 has anarcuate recess at its upper end to receive an arcuate'projection formed on the lower surface of the lever 44. The inner end. 46 of the lever 44 is disposed in registration with the pusher member while the outer end 41 of the 'lever is resiliently supported in engagement with a fulcrum bar 48 by .a compression spring 49. When the cam on-the cam shaft is rotated to move the high spot into engagement with the roller and as the roller moves over the cam surface ll, the crosshead will be elevated in the body 2.
Since the crosshead is in engagement with the plunger, the latter member will be moved into thebarrel 24 and the volume of the space between the upper end of the plunger and the fitting 26 will be reducedwhich will cause fuel therein to flow through the fitting into the high pressure line and to the'engine cylinder. As the crosshead moves on this injection stroke, it will carry the lever 44 therewith and since the outer end 41 of the lever is held against movement, the lever will rock in the cradle to such an extent that the inner end 46 will engage the pusher 43 and .move it and the valve stem in opposition to the force of the spring 42. Normally, the end 46 of the lever is spaced from the pusher to permit the operating members to move substantially th full injection stroke before the valve is moved to an'open position. When the valve is opened.
the pressure, generated by the movement of the plunger, will be relieved and fuel flow through the line 30 .vill be sharply terminated. This reduction in pressure will provide for a sharp cutoff and prevent the objectionable dribble of fuel into the engine cylinder which causes improper combustion and carbon formation.
After the roller has passed over the high spot on the cam, the plunger and the crosshead will move downwardly in the body 2 on the intake stroke of the pump. This downward movement is secured by placing a'strcng coil spring 50 between the inner surface of the body 2 around the lower end of the chamber 3 and a dome-shaped spring saddle 5| supported by the flanged lower end of the plunger. immediately prior to the termination of the .downward movement of the crosshead and plunger, the lower end of the pusher member will engage a stop 52 supported by'the body and extending into the recess 22.
After the stop has been engaged, continued movement of the crosshead and plungerwill cause the valve 38 to move away from the seat and communication between the fuel supply line 33 and the interior of the pump barrel will be established. To vary the timing of this operation, the stop 52 in this instance is formed from a shaft 53 journaled in a bearing threadedly carbe varied.
To prevent the flow of fuel from the high stroke, the upper end of the barrel is closed by a check valve 56 normally held in a closed position by a coil spring 51 positioned in a socket formed in the inner portion of the fitting between a flange formed on a variablev displacement plunger 58 and one formed on the valve 56. When the plunger 23 is moved into the pump. chamber on the'injcction stroke, the pressure of the fuel on the lower end of the valve 56 will move it upwardly against the action of the spring 51 sufficiently to permit the fuel to flow from the pump chamber into the line and to the injector mechanism (not shown). At the'ins'tant the valve 38 is opened during the injection stroke.
of the pump, the valve will quickly close, due
to the decrease in pressure within the pumpplacement plunger 58 has been provided in valve] 56 and is resiliently held in an outermost position by the spring 51. Now when the check valve 56 closes and the fuel surges backward in line 30, the plunger 58 is forced downwardly, giving a displacement which will reduce the line pressure to a low value so that any further surges or pressure waves will likewise be reduced in intensity and will not have energy enough to open the nozzle and cause the objectionable afterinjections.
After the force of the first wave is dissipated,
' the spring 51 will then tend to return the plunger 58 to its outer position and the fuel in the line 30 will be maintained under a predetermined low pressure, relative to injection pressures, until the next injection occurs. By this arrangement, the line and injection nozzle are completely full of fuel at .the start of pump delivery, and uniform injections will result at idling as well as high speeds. I
Thus the time of opening of the valve 38 I to admit fuel and of closing on the upward stroke a of the plunger to commence-thefuel injection will I pressure line into the pump barrel on the intake When the pump is operated at various speeds and with different throttle settings; the amount of displacement in the high pressure line must also be varied, if the high pressure line is to be held under the predetermined pressure between injections.
The plunger mechanism above described accomplishes these desirable ends by providing for downward movement against spring pressure until a predetermined balance is established. It
, should be noted at this time that the pressure in the line 33 is substantially lowered without loss of fuel from the line.
After the high point on the cam has passed the roller l3, the spring5i) will cause the plunger' 23 to move downwardly in the pump chamber on the intake stroke and a vacuum will be created between the upper end of the plunger and the check valve. This vacuum serves to draw fuel from the supply line into the pump when the valv 38 is again moved to an open position at theend of the suction stroke of the plunger.
' Since the plunger is provided with an annular 1 recess in which fuel is positioned at low pres-.
sure, any possible leakage around the plunger on theinjection stroke will be absorbed by this recess and the need for packing around the pump plunger will be'obviated.
To further control the injection operation of the pump, means have been provided to vary the'timing of the cut-off secured by the opening of the valve 38 near the inner end of the injection' stroke. To accomplish this, the bar 48 is adjusted vertically ,by moving a control bar 59 longitudinally through a guide formed in the body 2. The control bar has an inclined surface 60 in engagement with the upper end of the fulcrum bar 48. As the bar 59 is moved longitudinally, the fulcrum bar 48 will be raised or lowered and will thereby vary the elevation of the fulcrum for the outer end of the lever 44. If the fulcrum point is lowered, the'inner end of the lever will be moved toward the pusher member and the valve 38 will thereby be opened at an earlier point in the injection stroke of the pump. By lowering the fulcrum point suffi- .ciently, the valve 33 could be held open for the entire movement of the plunger and no fuel would be injected. When the fulcrum point is raised, the, inner end of the lever will be moved away from the pusher member and will consequently engage it at a later point in the travel of the pump on the injection stroke and the length of the injection stroke will be increased.
By adjusting the control bar and the stop 52 in the same direction, the timing of the injection operation may be varied with respect to the movement of the plunger. In Fig. 9, mechanism has been diagrammatically illustrated for eflecting this adjustment automatically. This mechanism includesa centrifugal type governor 6| which is carried by a shaft driven by the engine of which the fuel pump forms a part. The sliding sleeve 62 of the governor is connected with one arm of a bell crank lever 63, the other arm being connected by a link 64 with one end of the control bar 59. This member is provided on its under side, at the other end in the present illustration, with gear teeth arranged to mesh with the teeth on a pinion 65 supported by a shaft 66 extending from a differential housing 61 suitably journaled in bearings 68. "The shaft 86 is provided at its inner end with a bevel gear 69 which meshes with a pair of oppositely disposed idler gears as is usual in a differential. In alignment with the shaft 66. the housing 61 rotatably supports another shaft H, the inner end of which has a bevel gear 12 in meshing engagement with the idlers 10. The outer end of the shaft H has a pinion 13 secured thereto which meshes with teeth formed on the upper side of the second control bar 55a. This bar extends beneath the pinion 13 and is supported for longitudinal slidingmovement in perforated ears provided on the body 2 .of the pump. The bar 55a extends over the pinion 55 and has teeth out in its under side to mesh with those of the pinion.
When the bar 55a is moved longitudinally, the shaft 53 will be revolved and the head 54 which forms a stop for-the pusher 2| will be adjusted as previously described. The inclined wedge portion on the first control bar and the eccentric head 54 on the shaft 53 are so arranged that when the control bars are moved in the 'same be actuated to start and terminate the injection operation will be varied with respect to the position of the plunger actuating cam. This operation is performed when it is necessary to advance position of the first control bar 59 is determined direction, the points at which the valve 38-will or retard the injection operation and consequently theignition in the cylinder served by the pump. With the mechanism shown in Fig. 9, the timing operations are performed automatically. Thus, when the speed of the engin'eincreases and the ignition should be advanced, the
weights on the governor move outwardly and the. .bell crank causes the control bar 59 to move forwardly. This lowers the outer end of the lever 44 and causes the valve 38 to open earlier in the upward movement of the plunger. If nothing further were done, this would merely result in shortening the injectionoperationand it therefore becomes necessary to lower the eccentric stop 54 so that the injection will commence earlierin the upward stroke of the plunger. The
' difierential mechanism and the second control rod accomplish this adjustment at the same time the cut-off is adjusted through the movement of the lever 44 as mentioned above. As the second control rod engages its actuating pinion from. the underside, forward movement on the first control rod will cause similar movement of the second control rod and the eccentric stop will be moved in proportion to the lever 44.
When the speed of the engine decreases and theweights on the governor lower, the control rods will be movedrearwardly and the injection will be retarded. As-illustrated in Fig. 8, when the injection is retarded, it will take place during the time the most sharply inclined portion of the cam is engaging the roller. By reason of this fact, the amount of fuel injected is increased,
the engine develops more power, and is better able to satisfy the increased torque demand. In' Fig. 10, the curves shown in solid lines illustrate how the quantity of fuel injected compares with the torque requirement. The dotted curveillus-' trates the usual fuel injection curve in engines provided with the conventional pumps. With pumps which inject fuel as indicated by the dotted curve, the torque demand increases as the speed of the engine slows down and the quantity of fuel injected decreases with the result that power also decreases and unless proper steps are taken, the engine will consequently be'stalled. By changing the pitch of the upper portion of the cam, the inconvenience is eliminated.
When it is desired to increase the speed of the ation.
With the timing mechanism disclosed and described, the engine is rendered more flexible in its operation'and control. Since the camsurface 60 on the control bar is only inclined to a slight degree, no provision, other than the mechanism shown, need be made to maintain it in its positions of adjustment. Neither will the power required to move the control bar be of any great magnitude. By the provision of the type of control mechanism shown, there is no direct connection with the pump plunger and therefore if a plunger in any of the pumps provided with an engine should stick, the control mechanism will not be locked but may be used member and sticking valves will be reduced as it is only exposed to fuel under low pressure. Through the novel type mounting for the valve actuating lever, increased strength and bearing area will be secured since no fulcrum pin or shaft will be required.
While the device has been shown and described in but a single form, it is obvious that many minor changes may be made in the construction and. relation of parts without departing from the spirit and scope of the invention as set forth in the following claims.
I claim:
1. A liquid fuel pump for internal combustion engines comprising a body having a chamber, a high pressure'line leading from one end of said chamber, a low pressure supply line communicating with said chamber in spaced relation to said high pressure line, a tubular plunger mounted for sliding movement in said chamber, said plunger having a transversely extending bore establishing communication between the interior of said plunger and said low pressure line, .a valve seat of the retractive movement of said plunger and crosshead, continued movement of said plunger causing said valve to move away from said seat and provide for the flow of fuel through said plunger to said chamber, and a lever pivotally supported by said crosshead with one end in registration with the outer end of said valve stem,
the other end of said lever being stationarily supported by said body, movement of said crosshead against its spring imparting rocking movement to said lever to cause its engagement with said valve stem to open said valve prior to the termination of inward movement of said plunger.
2. .A fuel injection pump for internal combustion engines comprising a body having a chamber, a tubular plunger mounted. for reciprocatory movement in said chamber, a fuel inlet, a fuel outlet, said plunger having a valve seat at its inner end and a transversely extending passage in spaced relation therefrom, a valve engaging said valve seat, a stem supporting said valve and extending through said tubular plunger, said stembeing relieved between the valve and the trans-.'
verse bore in said plunger, spring means for yieldably holding said valve in engagement with said seat, a crosshead slidably supported in said body in alignment with and engaging the inner-end of said plunger, said crosshead transmitting movement to said plunger on the compression stroke of said pump, spring means for moving said crosshead and plunger on the intake stroke, adjustable stop means carried by said body and engaging said valve stem just prior to the end of the with an axially disposed passage positioned for 4 longitudinal reciprocation in said chamber, a high pressure line connected with said body, a normally closed check valve disposed between said high pressure line and the chamber to prevent back flow to the latter, a low pressure line connected With said body and communicating -with the chamber through the passage in said plun er, a combined inlet and cutoff valve carried by said plunger and normally closing the passage at the inner end thereof, a stem formedwith said valve and extending through the passage in said plunger, the outer end of said stem projecting beyond the end of said plunger, means for reciprocating said plunger within said chamber on intake and discharge strokes, a stop member for engaging the end of said valve stem near the end of the intake stroke of said plunger to move the valve carried thereby to an open position, and a lever movable with said plunger and engaging said valve stem near the end of the discharge intake stroke of said plunger, continued movesaid chamber, a high pressure line connected 5 with said body at the end of said barrel, a tubular plunger mounted for reciprocatory movement in said barrel, a normally closed check valve disposed between the high pressure line and the interior .of the barrel to prevent fluid flow from the former to the latter, a low pressure fuel line communicating with said body, said barrel and plunger being provided with ports to establish communication between the interior of said plunger and said low pressure line, a seat formed at the inner end of said plunger, a valve for engaging said seat to close the inner end of said plunger, a stem depending from said valve and slidably received by said tubular plunger, said stem being relieved between the port and the inner end of the plunger to provide for communication between the fuel line and the pump barrel, a crosshead mounted for vertical movement in said body below said chamber, said crosshead engaging and transmitting movement to said plunger during the operation of said pump, resilient means for yieldably resisting upward movement of said crosshead and plunger, a lever supported by said crosshead with one end in registration with the valve stem, the other end of said lever being mounted for rocking movement in said body, upward movement of said crosshead serving to swing said lever to move said valve to stroke to open the valve carried by said plunger to establish communication between the chamber and the low pressure line.
5. in a. fuel pump, a body provided with a chamber, a high pressure line connected with said body and communicating with the chamber, a check valve disposed between said ,high pressure line and said chamber to prevent fluid flow from the former to the latter, a low pressure line communicating with said chamber, a piston mounted for movement in said chamber, means for imparting movement to saidpiston, and variable displacement means disposed between said high pressure line and said chamber for absorbing the shock when said check valve is closed following an injection by the pump.
6. In a fuel injection pump of the type having a body formed with a chamber and a high pressure line leading therefrom, variable displacement means for maintaining a lowered pressure on the fuel in said high pressure line between injections comprising a member disposed between said high pressure line and the chamber in said body, and spring means for yieldably forcing said member into said line to diminish the volume thereof,
7. .In a fuel pump of the injector type, acasing having a chamber, fuel inlet and discharge lines communicating with said chamber, outlet valve means for preventing fuel flow from saididischarge line to said chamber, plunger means dis posed for movement in said chamber, inlet and charge stroke of said plunger.
/ 8 In a fuel pump of the injector type having a chambered body, fuel inlet and discharge lines communicating with the chamber in said body,
' and check valve means between the discharge line an open position, and stop means for engaging v said valve stem during downward movement of said crosshead andplunger to move said valve to an open position to provide for the flowof fuel into the pump. v v 4. In a fuel pump ofthe injector type having a body formed with a chamber, a-tplungerprovided and said chamber; plunger m'ans positioned for movement in said chamber, said plunger having a longitudinally extending passage communicating with said fuel inlet'line, valve means positioned in the passage in said plunger, said valve means being normally closed, stop means carried open said valve at one position of movement of said plunger, and means carried by said plunger for engaging said valve to open the sameata dii- -ferent position of movement thereof, the latter means being independent of said stop means 9. The structure as specified in claim 8 in combination with means carried by said pump body for effecting the separate adjustment of each" valve opening means. v
10. In a fuel pump of the type having a chambered body, a piston disposed for movement in the chamber in said body, said piston having an axial bore in open communication with a source of fuel,
a valve having a stern extending through the borein said piston, spring means yieldably holding said valve in a closed position, and means for stem and the outer end being held stationary by said pump body, movement of said piston serving to' rock said lever in said cradle.
11'. The structure'as specified in claim 10 in combination with means carried by said pump body foradjusting the position of the outer end of said lever.
moving said valve in opp0sition to saidspring I 12. In a fuel injection pump of the type having a body formed with a piston chamber and high and low pressure lines communicating therewith, a piston positioned for movement in said chamber, inlet and cut-off valve means carried by said piston for controlling the flow of fuel from the low pressure line to said chamber, means forv opening said inlet and cut-off valve during movement of said piston, a discharge valve positioned between the high pressure line and said chamber, and a spring pressed plunger carried by said discharge valve, said plunger being movable in opposition to its spring upon the opening of the cut-ofl? valve during the compression stroke of said piston.
7 CHARLES M. BOVARD.
US291608A 1939-08-23 1939-08-23 Fuel pump for internal combustion engines Expired - Lifetime US2264898A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415419A (en) * 1944-02-29 1947-02-11 Frank J Cozzoli Filling machine
US2478500A (en) * 1944-07-24 1949-08-09 Fuel Charger Corp Fuel injector
US2727466A (en) * 1950-03-01 1955-12-20 Technicon International Ltd Pump
US2777390A (en) * 1949-10-31 1957-01-15 Daimler Benz Ag Fuel injection pump
US2843043A (en) * 1954-06-15 1958-07-15 Schneider Wilhelm Injection pumps
US2881705A (en) * 1954-08-04 1959-04-14 Kugelfischer G Schaefer & Co Fuel injection pump
US3199499A (en) * 1963-05-08 1965-08-10 Kugelfischer G Schaefer & Co Device for regulating the delivery of fuel injection pumps
US3294075A (en) * 1963-09-25 1966-12-27 Gratzmuller Jean Louis Injection system for internal combustion engines

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415419A (en) * 1944-02-29 1947-02-11 Frank J Cozzoli Filling machine
US2478500A (en) * 1944-07-24 1949-08-09 Fuel Charger Corp Fuel injector
US2777390A (en) * 1949-10-31 1957-01-15 Daimler Benz Ag Fuel injection pump
US2727466A (en) * 1950-03-01 1955-12-20 Technicon International Ltd Pump
US2843043A (en) * 1954-06-15 1958-07-15 Schneider Wilhelm Injection pumps
US2881705A (en) * 1954-08-04 1959-04-14 Kugelfischer G Schaefer & Co Fuel injection pump
US3199499A (en) * 1963-05-08 1965-08-10 Kugelfischer G Schaefer & Co Device for regulating the delivery of fuel injection pumps
US3294075A (en) * 1963-09-25 1966-12-27 Gratzmuller Jean Louis Injection system for internal combustion engines

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