US1993369A - Pump - Google Patents

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US1993369A
US1993369A US668175A US66817533A US1993369A US 1993369 A US1993369 A US 1993369A US 668175 A US668175 A US 668175A US 66817533 A US66817533 A US 66817533A US 1993369 A US1993369 A US 1993369A
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plunger
chamber
cage
fuel
pumping
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US668175A
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Mark J Goldberg
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Campbell Wyant and Cannon Foundry Co
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Campbell Wyant and Cannon Foundry Co
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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
    • 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
    • F02M59/22Varying quantity or timing by adjusting cylinder-head space

Definitions

  • the present' invention relates to pumps for injecting fluid fuel into internal-combustion en- ⁇ gines, particularly engines of the Diesel type and the like; and its object is to provide such a pump having means for adjustably regulating the quantity of fuel injected into the combustion chamber of the engine; to prevent or eliminate gasification of liquid fuel injected into theA engine; and, to provide a fuel 'pump of strong and simple construction for injecting the fuel against extremely high pressure in the engine.
  • Figure l is a side viewA of a pump structure
  • Figure 2 is sectional view of the same taken on line 2-2 of Figure 1;
  • Figure 3 is a sectional view of parts thereof taken on line 3-3 of Fig e 2.
  • a pump structure having a body or housing comprising a hollow mem-I ber 1 and a cap member 2 rigidly fastened together.
  • a cam wheel 4 on shaft 5 driven by the engine bears on a roll 6 journalled at 7, to impart to the reciprocating plunger 8'its pumping stroke or movement against the pressure of a spring 9.
  • the structure has the pump chamberflo into which the fluid fuel is drawn, as from a cavity 11, to which the fuel, as oil, may be supplied by suitable means suchas a low-pressure pump (not shown).
  • the fuel is drawn into chamber 10 by the suction stroke or movement of said plunger through inlet port 12 provided with a valve 13 normally pressed to closed position on its seat 14 by a weak spring 15 and being opened by said suction movement.
  • The' stem of this valve has the usual uid passages indicated at 16.
  • the pumping vstroke or movement of said plunger ejects the fuel from chamber throughthe outlet port 17 and injects the same into the com- ⁇ bustion chamber of the engine through a suitable pipe 18 leading thereto.
  • Said outlet port is provided with a valve 19 normally pressed' to closedposition on/its seat 20 by a spring 21 and being opened by the pumping stroke or movement of said plunger.
  • the stem of this valve has the usual uid passages indicated at 22.
  • i. size-of the chamber 10 may be reduced or increased by moving its size-regulating or accumulator plunger-the valve-like element 23-farther into or out of said chamber.
  • This element and the pumping plunger 8 are preferably aligned andl at the opposite sides of chamberl 10 as shown.
  • 'Said' accumulator plunger 23 is slidably pressed by a spring 24 to reduce the size of the chamber and is forced oppositely by increased pressure in said chamber thus increasing the size of' the chamber.
  • This element, or its end portion 53 thus forms, essentially, a wall of chamberlO whose size is reduced or increased by the movement of this element one way or the other.
  • valve 19 governing outlet port 17
  • plunger element 23 regulating the size of the chamber. are so related that this plunger element is permitted by the absence of pressure in chamber 10 to be moved by its spring 24 to its desired size-regulating position beforethe charge of fuel is drawn into this chamber, and on the following pumping stroke of pump plunger 8 (creating pressurein said chamber) -is moved against spring 24 and until stopped by stop 40, whereupon ⁇ the pressure in the chamber opens valve 19 to the engine.
  • the spring 21 of valve 19 may be made stiffer or stronger than spring 24 rof element 23. The result'is that the quantity of fuel to be injected into the engine by a pumping stroke of plunger 8 is governed by the position to which.
  • the plunger 8 slidably fits in a cage 25 removably inserted into a conical bore 26 of the structures body,- the cages portion 27 fitting ed on the inner end 36 of this element 31 is pressedby said spring on the cam wheel 4.
  • the end 37 of plunger element 23 rests on the bottom 38 of a hollow cylindrical element 39 slidably surrounding said cage and pressed by spring 24 toward the pump chamber 10 'until stopped by the end 54 of the cage, or said elements conical end 37 is thus stopped.
  • This spring 24 presses between the annular shoulder 56 of the hollow cylindrical element 39 and the inwardly-extending annular flange 55 of the housings cap member 2, and said element 39 is held against lateral movement by said flange.
  • An adjustable threaded stop 40 limits the movement of cylindrical element 39 and plunger element 23 away from said chamber.
  • This stop is shown threaded in a nut 41 which is threaded at 42 in said body.
  • Thisnut may be manually turned to desired set position, or its gear 43 meshing with a slidable toothed rack 4 4 may be turned thereby, the rack being connected by suitable means with the engine or a speed controlledgovernor thereof.
  • the stop 40 has a head 45 for turning it to adjusted position in nut 41 and has also a jam nut 46.
  • the chamber l is formed in the cage 25 and the chambers inlet portion 12 is formed in the body of the structure.
  • a fluidv fuel pump for internal combustion engines comprising a hollow housing consisting of a plurality of detachable members, one of said members having a conical bore. a plunger cage socketed in said bore and held therein against displacement by anannular ring nut, the said cage consisting of a fluid fuel chamber portion with a fluid chamber therein, extended portions projecting from said chamber portion, one of said extended portions, having a pumping plunger bore of one diameter andthe other extended portion having an accumulator plunger bore of smaller ,diameter than -the pumping plunger bore, a pumping plunger in said pumping plunger bore spring moved in its suction stroke and cam 1novedin its compressing stroke, a collar surrounding the end of said pumping plunger out of the said cage, a helical spring between the collar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a.
  • a fluid fuel pump for internal combustion engines comprising a hollow housing consisting of a plurality of detachable members, one of said members havinga corneal bore, a plunger cage socketed in said bore and held therein against displacement by an annular ring nut, the said cage consisting of a ⁇ uid fuel chamber portion with a fluid chamber therein, extended portions projecting from said chamber portion, one of said extended portions having a pumping plunger bore of one diameter and the other extended portion having an accumulator plunger bore of smaller diameter than the pumping plunger bore, a pumping plunger in said pumping plunger bore spring moved in its suction stroke and cam moved in its compressing stroke, a collar surrounding the end of said pumping plunger out of the said cage, a helical spring between the collar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a cylindricaLportion ⁇ slidable in a bore in the housing, and means
  • an accumulator plunger slidable in the accumulator plunger extended portion of said cage, the said accumulator plunger having an enlarged end bearing against the free end of the cage to provide a stop to prevent the accumulator plunger striking the pumping plunger, a bonnet element engaging one end of the accumulator plunger and slidable exteriorly of the cage extended portion and spring pressed against the accumulator plunger to move said plunger against the pressure of the fluid fuel generated by the pumping plunger, an inlet valve for the fluid fuel in the housing, a discharge valve for the uid fuel from the housing and contained i in a detachable member attached to said housing and a port communicating with the chamber of the said cage and the said valves for the purpose specified.
  • a fluid fuel pump for internal combustion engines comprising a hollow housing consisting of a pluralityof detachable members, one of said ⁇ members having a plunger cage receiving bore, a plunger cage positioned in said bore and held therein against displacement, an annular ring nut surrounding the cage and threaded in the housing for holding the cage against displacement, the
  • said cage consisting of a liuid fuel chamber portion with a fluid chamber therein, extended portions projecting fromsaid chamber portion, one of said extended portions having a pumping plunger bore of one diameter and the other extended portion having an accumulator plunger bore of smaller diameter than the pumping plunger bore, a pumping plunger in said pumping plunger bore ⁇ spring moved in its suction stroke and cam moved in its compressing stroke, a coll surrounding the end of said pumping plunger oirof the said cage, a helical spring between the ollar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a cylindrical portion slidable in av bore in the housing, and means associated with the sleeve for engaging the pumping plunger operating cani carried by a shaft driven by the engine in unison with the strokes ofthe engine, an accumulator plunger slidable in the accumulator plunger extended portion of the said
  • a housing having an internal tapered seat and a chambered portion opposite said seat and also having an internal flange in the upper portion of the housing above the seat and provided with an opening therein,
  • a cage confined within the housing and including an intermediate exteriorly tapered portion seated in said tapered seat ofthe housing and having an intermediate chambered portion which aligns with the said chambered portion of the housing to frm a fuel receiving chamber, said cage including upper and lower aligning tubular extensions on opposite sides of said chamber, a plunger slidable in the upper extension into and out of said chamber and having a head at its upper end to engage the outer end of said upper extension to limit downward movement of said plunger with relation to said chamber, means for forcing said plunger normally in the direction of said cham-v ber includinga cup-shaped element slidably embracing said upper extension and engaging the outer end of said plunger and a spring embracing the cup-shaped member and acting at one end ⁇ against'the latter and ⁇ at its opposite 'end acting against the underside of said internal flange, means including a spring-pressed plunger slidable in opposite directions in said lower extension for lll drawing fuel into the fuel receiving chamber upon A

Description

March 5,/1'935. M. J. GOLDBERG PUMP Filed April 27, 19:53
7X/2211K cf GOM/belly invention finds preferable embodiment in,1thek Patented Mar. 5, 1935 PATENT OFFICE PUMP Mark J. Goldberg, Muskegon Heights, Mich., as- A signor to Campbell, Wyant and Cannon Foundry Company, Norton .poration of Michigan Township, Mich., a. cor- Appliation April 27, 193s, serial No. 668,175
Claims.
The present' invention relates to pumps for injecting fluid fuel into internal-combustion en-` gines, particularly engines of the Diesel type and the like; and its object is to provide such a pump having means for adjustably regulating the quantity of fuel injected into the combustion chamber of the engine; to prevent or eliminate gasification of liquid fuel injected into theA engine; and, to provide a fuel 'pump of strong and simple construction for injecting the fuel against extremely high pressure in the engine.
These and any other and more speciiic objects hereinafter appearing are attained by, and the illustrative pump structure particularly described in the body of this specification and illustrated bythe accompanying drawing, in which:
Figure l is a side viewA of a pump structure;A
Figure 2 is sectional view of the same taken on line 2-2 of Figure 1; and
Figure 3 is a sectional view of parts thereof taken on line 3-3 of Fig e 2. y
In the embodiment of the invention illustrated by this drawing a pump structure is shown having a body or housing comprising a hollow mem-I ber 1 and a cap member 2 rigidly fastened together. In the hollow member (which is closedv by a removable cover 3) a cam wheel 4 on shaft 5 driven by the engine (not shown) bears on a roll 6 journalled at 7, to impart to the reciprocating plunger 8'its pumping stroke or movement against the pressure of a spring 9.
The structure has the pump chamberflo into which the fluid fuel is drawn, as from a cavity 11, to which the fuel, as oil, may be supplied by suitable means suchas a low-pressure pump (not shown). The fuel is drawn into chamber 10 by the suction stroke or movement of said plunger through inlet port 12 provided with a valve 13 normally pressed to closed position on its seat 14 by a weak spring 15 and being opened by said suction movement. The' stem of this valve has the usual uid passages indicated at 16.
The pumping vstroke or movement of said plunger ejects the fuel from chamber throughthe outlet port 17 and injects the same into the com- `bustion chamber of the engine through a suitable pipe 18 leading thereto. Said outlet port is provided with a valve 19 normally pressed' to closedposition on/its seat 20 by a spring 21 and being opened by the pumping stroke or movement of said plunger. The stem of this valve has the usual uid passages indicated at 22.
The capacity or content-in other words, the
i. size-of the chamber 10 (including its inlet portion 12.) may be reduced or increased by moving its size-regulating or accumulator plunger-the valve-like element 23-farther into or out of said chamber. This element and the pumping plunger 8 are preferably aligned andl at the opposite sides of chamberl 10 as shown. 'Said' accumulator plunger 23 is slidably pressed by a spring 24 to reduce the size of the chamber and is forced oppositely by increased pressure in said chamber thus increasing the size of' the chamber. This element, or its end portion 53 thus forms, essentially, a wall of chamberlO whose size is reduced or increased by the movement of this element one way or the other.
The valve 19 (governing outlet port 17) and the plunger element 23 (regulating the size of the chamber). are so related that this plunger element is permitted by the absence of pressure in chamber 10 to be moved by its spring 24 to its desired size-regulating position beforethe charge of fuel is drawn into this chamber, and on the following pumping stroke of pump plunger 8 (creating pressurein said chamber) -is moved against spring 24 and until stopped by stop 40, whereupon `the pressure in the chamber opens valve 19 to the engine. valves, the spring 21 of valve 19 may be made stiffer or stronger than spring 24 rof element 23. The result'is that the quantity of fuel to be injected into the engine by a pumping stroke of plunger 8 is governed by the position to which.
To effect this operation of said'y of fuel is injected into the illustrated, the plunger 8 slidably fits in a cage 25 removably inserted into a conical bore 26 of the structures body,- the cages portion 27 fitting ed on the inner end 36 of this element 31 is pressedby said spring on the cam wheel 4. The end 37 of plunger element 23 rests on the bottom 38 of a hollow cylindrical element 39 slidably surrounding said cage and pressed by spring 24 toward the pump chamber 10 'until stopped by the end 54 of the cage, or said elements conical end 37 is thus stopped. This spring 24 presses between the annular shoulder 56 of the hollow cylindrical element 39 and the inwardly-extending annular flange 55 of the housings cap member 2, and said element 39 is held against lateral movement by said flange.
An adjustable threaded stop 40 limits the movement of cylindrical element 39 and plunger element 23 away from said chamber. This stop is shown threaded in a nut 41 which is threaded at 42 in said body. Thisnut may be manually turned to desired set position, or its gear 43 meshing with a slidable toothed rack 4 4 may be turned thereby, the rack being connected by suitable means with the engine or a speed controlledgovernor thereof.- The stop 40 has a head 45 for turning it to adjusted position in nut 41 and has also a jam nut 46.
In the illustrated construction, the chamber l is formed in the cage 25 and the chambers inlet portion 12 is formed in the body of the structure.
Other methods of mounting and arranging the parts and other means for varying the size of the pump chamber by pressure therein may be devised within the scope of this invention.
The operation of the pump is as follows: As
shown in Figure 2, the threaded stop 40 has' been turned to the proper position for adjusting the pump chamber 1o to receive the desired amount of fuel, and said amount has been drawn into said chamber. As the roll 6 now travels from low point 50 of cam wheel 4 to its highj point 5l, the resulting pumping stroke of plunger 8, increasing pressure in this chamber, first moves element 23 toward said stop vuntil it and member 39 are stopped thereby, this movement compressing spring 24, and then the pressure in the chamber, having been increased sufficiently, opens valve 19 to the engine, compressing its stiffer spring 2l. As the roll 6 travels along the cam wheels long portion 52 from point 51 to point 50 the resulting suction stroke of pump plunger 8, exhausting pressure in chamber l0, permits spring 24 to expand and move the element 23 from the stop and farther into chamber thus reducing its size, and
draws fuel into thisl chamber thus reduced.
The invention being intended to be pointed out in the claims, is not to be limited to or by details of construction and arrangement of the particu- .lar embodiment thereof illustrated by the drawhaving an accumulator plunger bore of smallery diameter than the pumping plunger bore, a pumping plunger in said pumping plunger bore spring moved in its suction stroke and cam moved in its compressing stroke, a collar surrounding the end of said pumping plunger out of the said cage, a helical spring between the collar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a cylindrical portion slidable in a bore in the housing, a roller supporting portion and a .roller carried thereby for engaging the pumping plunger operating cam carried by a shaft driven by the engine in unison with the strokes of the engine, an accumulator plunger slidable in the accumulator plunger extended portion of said cage, the said accumulator plunger having an enlarged end bearing against the free end of the cage to provide a stop to prevent the accumulator plunger striking the pumping plunger, a bonnet element engaging one end of the accumulator plunger and slidable exteriorly of the cage extended portion and spring pressed againstrthe accumulator plunger to move said plunger against the pressure of the fluid `fuel generated by the pumping plunger, an adjustable screw stop for limiting the movement of the accumulator plunger caused by said pressure consisting of a sleeve screw threaded into the housing having a gear at one end and a set screw at the axis of said screw threaded sleeve and a toothed rack for turning the said screw threaded sleeve by the gear to move the same toward and away from the accumulator plunger, an inlet valve for the fluid fuel in the housing, a discharge valve for the fluid fuel from the housing and contained in a detachable member attached to said housing and a port communicating with the chamber of the said cage and the said valves for the purpose specified.
2. A fluidv fuel pump for internal combustion engines comprising a hollow housing consisting of a plurality of detachable members, one of said members having a conical bore. a plunger cage socketed in said bore and held therein against displacement by anannular ring nut, the said cage consisting of a fluid fuel chamber portion with a fluid chamber therein, extended portions projecting from said chamber portion, one of said extended portions, having a pumping plunger bore of one diameter andthe other extended portion having an accumulator plunger bore of smaller ,diameter than -the pumping plunger bore, a pumping plunger in said pumping plunger bore spring moved in its suction stroke and cam 1novedin its compressing stroke, a collar surrounding the end of said pumping plunger out of the said cage, a helical spring between the collar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a. cylindrical portion slidable in a bore in the housing, a roller supporting portion and a roller carried thereby for engaging the pumping plunger operating .cam carried by a shaft driven by the engine in unison with the strokes of the engine, an accumulator plunger slidable in the accumulator plunger extended portion of said cage, the said accumulator plunger having an enlarged end bearing against the free end of the cage'to provide a stop to prevent the accumulator plunger striking the pumping plunger, a bonnet element engaging one end of the accumulator plunger and slidable exteriorly of the cage extended portion and spring pressed against the accumulator plunger toA move said plunger against the pressure of the fluid fuel generated by the pumping plunger, an inlet valve for the fluid fuel in the housing, a discharge valve for the fluid fuel from the housing and contained in a detachable member attached to said housing and a port'communicating with the chamber of lthe said cage and the said valves for the purpose specified.
3. A fluid fuel pump for internal combustion engines comprising a hollow housing consisting of a plurality of detachable members, one of said members havinga corneal bore, a plunger cage socketed in said bore and held therein against displacement by an annular ring nut, the said cage consisting of a` uid fuel chamber portion with a fluid chamber therein, extended portions projecting from said chamber portion, one of said extended portions having a pumping plunger bore of one diameter and the other extended portion having an accumulator plunger bore of smaller diameter than the pumping plunger bore, a pumping plunger in said pumping plunger bore spring moved in its suction stroke and cam moved in its compressing stroke, a collar surrounding the end of said pumping plunger out of the said cage, a helical spring between the collar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a cylindricaLportion`slidable in a bore in the housing, and means associated with the sleeve for engaging the pumping plunger operating cam carried by a. shaft driven by the engine in unison with the strokes of the engine, an accumulator plunger slidable in the accumulator plunger extended portion of said cage, the said accumulator plunger having an enlarged end bearing against the free end of the cage to provide a stop to prevent the accumulator plunger striking the pumping plunger, a bonnet element engaging one end of the accumulator plunger and slidable exteriorly of the cage extended portion and spring pressed against the accumulator plunger to move said plunger against the pressure of the fluid fuel generated by the pumping plunger, an inlet valve for the fluid fuel in the housing, a discharge valve for the uid fuel from the housing and contained i in a detachable member attached to said housing and a port communicating with the chamber of the said cage and the said valves for the purpose specified. v
4. A fluid fuel pump for internal combustion engines comprising a hollow housing consisting of a pluralityof detachable members, one of said\ members having a plunger cage receiving bore, a plunger cage positioned in said bore and held therein against displacement, an annular ring nut surrounding the cage and threaded in the housing for holding the cage against displacement, the
' said cage consisting of a liuid fuel chamber portion with a fluid chamber therein, extended portions projecting fromsaid chamber portion, one of said extended portions having a pumping plunger bore of one diameter and the other extended portion having an accumulator plunger bore of smaller diameter than the pumping plunger bore, a pumping plunger in said pumping plunger bore `spring moved in its suction stroke and cam moved in its compressing stroke, a coll surrounding the end of said pumping plunger oirof the said cage, a helical spring between the ollar and the said annular ring nut, a sleeve engaging the pumping plunger for freely moving the same, the said sleeve having a cylindrical portion slidable in av bore in the housing, and means associated with the sleeve for engaging the pumping plunger operating cani carried by a shaft driven by the engine in unison with the strokes ofthe engine, an accumulator plunger slidable in the accumulator plunger extended portion of the said cage, the said accumulator plunger having an enlarged end bearing against the free end of the cage to provide a stop to prevent the accumulator plunger striking the pumping plunger, a bonnet element engaging one end of the accumulator plunger and slidable exteriorly of the cage extended portion and spring pressed against the accumulator plunger to move said plunger against the pressure of the fluid fuel generated by the pumping plunger, an inlet valve for the fluid fuel in. the housing, a discharge valve for the uid fuel from the housing and contained in a detachable member attached to said housing and a port communicating with the chamber lof the said cage and the said valves for the purpose specified. l
5. In a fluid fuel pump, a housing having an internal tapered seat and a chambered portion opposite said seat and also having an internal flange in the upper portion of the housing above the seat and provided with an opening therein,
wthe `housing being also provided with an inlet,
port and a valved outlet port, a cage confined within the housing and including an intermediate exteriorly tapered portion seated in said tapered seat ofthe housing and having an intermediate chambered portion which aligns with the said chambered portion of the housing to frm a fuel receiving chamber, said cage including upper and lower aligning tubular extensions on opposite sides of said chamber, a plunger slidable in the upper extension into and out of said chamber and having a head at its upper end to engage the outer end of said upper extension to limit downward movement of said plunger with relation to said chamber, means for forcing said plunger normally in the direction of said cham-v ber includinga cup-shaped element slidably embracing said upper extension and engaging the outer end of said plunger and a spring embracing the cup-shaped member and acting at one end \against'the latter and `at its opposite 'end acting against the underside of said internal flange, means including a spring-pressed plunger slidable in opposite directions in said lower extension for lll drawing fuel into the fuel receiving chamber upon A one direction of movement and on movement in the opposite direction creating pressure in the fuel receiving chamber such as to first move said `upper plunger outwardly of the fuel receiving chamber to increase the capacity of the latter and "subsequently unseat the valve of the outlet portto effect discharge of a xed amount of fuel ,through said valved outlet, the upper plunger and/ the cup-shaped element embracing the uppeiextension being guided through the aforesaid opening in the flange when the upper plunger is moved outwardly of the fuel chamber to maintain said upper plunger against side thrust, and means between the top of the upper portion of the housing and said internal iiange and spaced from the latter, and engageable by the cup-shaped element in such movement ofi the upper plunger to limit such outward movement of the plunger away from the fuel receiving chamber. Y
MARK J. GOLDBERG.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503614A (en) * 1944-03-25 1950-04-11 Eynard Elysee Hydraulic pump
US2584408A (en) * 1948-06-05 1952-02-05 Julius E Witzky Injection pump for internalcombustion engines
US2596943A (en) * 1946-03-13 1952-05-13 Milton Roy Co Proportional feed system
US2619907A (en) * 1948-01-19 1952-12-02 Paterson William Reciprocating pump
US2642806A (en) * 1946-04-05 1953-06-23 American Bosch Corp Fuel supply apparatus for internalcombustion engines
US3100449A (en) * 1959-02-04 1963-08-13 Borg Warner Fuel injection pump
US3387562A (en) * 1965-12-24 1968-06-11 Bosch Gmbh Robert Fuel injection pump with means for changing the speed-delivery characteristic thereof

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503614A (en) * 1944-03-25 1950-04-11 Eynard Elysee Hydraulic pump
US2596943A (en) * 1946-03-13 1952-05-13 Milton Roy Co Proportional feed system
US2642806A (en) * 1946-04-05 1953-06-23 American Bosch Corp Fuel supply apparatus for internalcombustion engines
US2619907A (en) * 1948-01-19 1952-12-02 Paterson William Reciprocating pump
US2584408A (en) * 1948-06-05 1952-02-05 Julius E Witzky Injection pump for internalcombustion engines
US3100449A (en) * 1959-02-04 1963-08-13 Borg Warner Fuel injection pump
US3387562A (en) * 1965-12-24 1968-06-11 Bosch Gmbh Robert Fuel injection pump with means for changing the speed-delivery characteristic thereof

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