US3257078A - Fuel injector with hydraulically controlled injection valve - Google Patents

Fuel injector with hydraulically controlled injection valve Download PDF

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US3257078A
US3257078A US403698A US40369864A US3257078A US 3257078 A US3257078 A US 3257078A US 403698 A US403698 A US 403698A US 40369864 A US40369864 A US 40369864A US 3257078 A US3257078 A US 3257078A
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cavity
fuel
valve
chamber
injection
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Lee T Mekkes
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Motors Liquidation Co
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Motors Liquidation 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
    • 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
    • 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

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  • This invention relates to fuel injection apparatus, and particularly to unit type fuel injector-pumps for diesel engines.
  • a needle valve type injector-pump which incorporates a check valve for preventing blowback of 'combustion gases from the engine cylinder into the pump cylinder of the injector.
  • This 'check valve is seatable against the open end of the pump cylinder for preventing such blow-back of combos-tion gases, and when thus seated it uncovers an opening into the spring chamber of the injector so tha-t residual fuel pressure existing in the fuel delivery or tip passage after the check valve closes can assist the spring in effecting rapid closing of the needle valve to end injection.
  • FIGURE 1 is a longitudinal sectional view through a unit injector-pump incorporating my novel arrangement.
  • FIGUREZ is an enlarged view similar to FIGURE 1, showing the lower or injector portion in greater detail.
  • FIGURE 3 is a view similar to FIGURE 2, but showing a modified form of the invention.
  • the upper portion of the illustrated injectorpump is -conventional and comprises a housing 1 in which a plunger'2 is reciprocable.
  • a nut 3 Forming an extension of and threaded to the lower end of the housing 1 is a nut 3 within which is supported a bushing 4, forming the pump cylinder for the plunger 2.
  • An annular reservoir space 5 surrounding the bushing 4 Within the nut is supplied with fuel via passages 6 in the housing from an ex- .ternal fuel connection 7.
  • the plunger has the usual bypass means including an external groove 8, by which opening and closing of ports 9 and 10 in the bushing are controlled, and connecting axial and transverse passages 11 and 12 for bypassing fuel from the pumping chamber 13 to the annular fuel space 5 when the groove S is inl registry with one or the other of the ports 9 and 10.
  • bypass means including an external groove 8, by which opening and closing of ports 9 and 10 in the bushing are controlled, and connecting axial and transverse passages 11 and 12 for bypassing fuel from the pumping chamber 13 to the annular fuel space 5 when the groove S is inl registry with one or the other of the ports 9 and 10.
  • a fuel injector Clamped to the lower end of the bushing 4 by the nut 3 is a fuel injector, including ⁇ a valve body comprising a spray tip 15, spring chamber body 16 and the spacer block 17.
  • the block 17 has a cavity 1 8 facing the lower or open end of the bushing 4.
  • the entrance 19 to this cavity it will be noted, overlies in lateral extent the transverse extremities of the pumping chamber 13, and projecting centrally upwardly from the bottom of the cavity is -a protuberance 20 which forms a seating surface for a circular flat disc check valve 21.
  • the body 16 is annular in shape and defines a spring chamber 22 which encloses resilient means in the form of a coil spring 23 whose lower end seats on the upper end of the injector needle valve 24.
  • a movable seat 25 Within the spring chamber and seated on the upper end of this spring is a movable seat 25.
  • the movable spring seat 25 has an upwardly projecting portion 27 which is substantially smaller than the opening 26 and extends therethrough into abutment with the underside of the check valve 21. Drilled passages 28 and 29 may be provided in this spring seat to assure uid pressure communication between the spring chamber and the opening 26 to the cavity at all times.
  • a plurality of circumferentially spaced passages 30 are provided in the spacer block 17 to connect the cavity 18 with an annular groove 31 in the upper end of the spring chamber body.
  • This groove 31 is connected with a similar annular groove 32 on the botrtom face of the spring chamber body by a longitudinal passage 33, and this lower groove 32 is, in turn, connected by a plurality of inclined passages 34 to a central passage 35 surrounding -the needle valve 24.
  • These passages 30, 33, 34, 35 and the cavity 18 collectively -constitute a tip passage for delivery of the injection fuel under pressure from the pumping chamber to the injector outlet.
  • This outlet is in the form of a -tapered seat 36 for the needle valve, below which are connecting spray oriiices 37 leading into the engine combustion chamber (not shown).
  • a piston porti-on 38 of smaller diameter than that of the check valve 21, which slidably ts ⁇ a bore 39 in the spray tip, the latter serving to guide opening and closing movements of the needle valve. It will be noted that Ithis piston portion 38 is exposed at its lower end to the fuel pressure in the tip passage means which tends to raise .the needle valve toward open position, and the upper end of this piston portion 38 is exposed to whatever fuel pressure exists within the spring chamber.
  • a transverse bleed passage 40 through one side wall of the spring chamber body. Although the outer end of this bleed passage 40 appears in the drawing to ⁇ be closed by the nut 3, suiiicient clearance exists .thereinv around the spring chamber body 16 and the spacer block 17 toenable venting of such excessive fuel pressures to the annular fuel space 5 described above.
  • injection fuel pressure within the pumping chamber and in the tip passage immediately dissipates by reason of the fuel being bypassed through the plunger pass-ages 11 and 12 and groove 8 to the fuel space 5 which is at relatively low (e.g., 40 p.s.i,) supply fuel pressure.
  • the check valve 2:1 thereupon moves upward into seating engagement with the lower end of the pump cylinder bushing 4, and the residual fuel still existing in the tip passage and the cavity I8 is applied to the upper end of the needle valve 24 via the opening 26, movable spring seat passages 28 and 2.9, and spring champer 25.
  • the needle valve spring 23 serves the very important dual function, during this action, of quickly forcing the check valve 21 upwardly against the pushing 4 to uncover the opening 26 so that such residual pressure may assist the spring 23 in effecting rapid closing of the needle valve 24.
  • the larger effective area of the check valve than that of the needle valve piston portion 38 enables the spring to yield under a lower fuel pressure in the pumping chamber 1 3, to allow the check valve to open the lower end 14 thereof, than is required to compress the spring for opening movement of the needle valve.
  • a very fast operation of the check valve is obtained, and consequently a more positive and quicker closing of the needle valve is effected for more precise timing and eicient engine operation.
  • the spring chamber body 16' is constructed so as to provide the cavity 18 for the check valve 21 in its upper end, thereby eliminating the need for the separate spacer block I7 in the previous form.
  • the check valve 2x1 is provided with a depending projection 27 which forms the movable seat engaging the upper end of the spring 23', thereby eliminating the need for such a separate spring seat as shown at 25 in the previously -described form.
  • the passage 33 through the spring chamber body connects directly with the cavity 18 at its upper end, and with an annular groove 32' formed in the upper end of the spray tip 15.
  • a pump cylinder open at one end for fue-l delivery, an injector opposite said end including a fuel delivery outlet, an injection val-ve mov- .able to open and close said outlet, passage means connecting said cylinder end and said outlet, a bore slidably guiding opening and closing movements of said injection valve, la chamber communicating with the end of said bore tolward whic-h the valve moves during opening, said injecftion valve having a piston portion in said bore exposed to fuel pressure in said passage means for moving the valve in its opening direction, said passage means including a cavity facing said cylinder end, said cavity having an opening to said chamber oppositely of said cylinder end and a seating surface deflining the entrance to said opening, a check valve in said cavity movable in one direction into closing engagement with said cylinder end to block reverse flow through said passage means to said cylinder and movable in the opposite direction into closing engagement with said seating surface to block communication between said passage means and chamber, and resilient means biasing said injection valve into closing engagement
  • a pump cylinder open at one end for fuel delivery, an injector opposite said end including a fuel delivery outlet, an injection valve reciprocabl-y movable to open and close said outlet,
  • passage means connecting said cylinder end and outlet including a cavity facing said cylinder end, a chamber between said cavity and said outlet and having an opening to said cavity, said injection valve having a piston portion exposed at one end to fuel pressure in said passage means tending to move the injection valve in the direction to open said outlet, said piston portion being exposed at its opposite end to fuel pressure in said chamber tending to move the injection valve in the direction to close said outlet, a check valve in said cavity movable in one direction to close said cylinder end and movable in the opposite direction to close said opening to the chamber, and spring means interposed between said valves and having operative engagement with said check valve via said opening to bias the check valve in the direction to close said cylinder end and operatively engaging the injection valve in said chamber to bias the injection valve in the closing direction against said outlet.
  • a pump cylinder open at one end for fuel delivery, an injector having a fuel outlet, passage means connect-ing said outlet and cylinder end, said pas-sage means including -a cavity facing said cylinder end, an injection valve movable to open and close said outlet, a chamber between said cavity and outlet and having an opening to said cavity, said injection valve having a piston portion with one end exposed to fuel pressure in the passage means tending to open the injection valve and its other end exposed to fuel pressure in said chamber tending to close the injection valve, a check valve in said cavity mov-able in one direction therein to close said cylinder end against reverse flow from said passage means into said cylinder and movable in the opposite direction to close said opening, and means resiliently biasing both said check valve against said cylinder end and said injection valve against said outlet, said biasing means being yieldable to accommodate movement of the check valve away from said cylinder end and into closing relation with said opening in response to a predeterminedcylinder fuel pressure and yieldable to accommodate opening of the injection valve in response
  • a valve body including a cavity having a fuel supply entrance, a fuel injection outlet remote from said cavity, passage means connecting said cavity and outlet, a chamber separate from said passage means, said chamber and cavity having a connecting opening, an injection va-lve movable to open and close said outlet, said injection valve having a portion exposed to fuel pressure in said passage means ten-ding to open the injection valve and exposed to fuel pressure in said chamber tending to close the injection valve, a check valve in said cavity movable in one direction therein toward said entrance to block reverse ow therethrough from said passage means and cavity and movable in the opposite 5 6 direction to close said opening to said chamber, and includes a projection extending through said opening for spring means in said chamber operatively engageable with abutting engagement with said spring means.

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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

June 21, 1966 L. T. MEKKES 3,257,078
FUEL INJECTOR WITH HYDRAULICALLY CONTROLLED INJECTION VALVE Filed oct. 14, 1964 United States Patent O 3,257,073 FUEL INJECTOR WITH HYDRAULICALLY CONTROLLED INJECTION VALVE Lee T. Mekkes, Grandville, Mich., assignor to General Motors Corporation, Detroit, Mich., a corporation of Delaware Filed ct. 14, 1964, Ser. No. 403,698
' 6 Claims. (Cl. 239-90) This invention relates to fuel injection apparatus, and particularly to unit type fuel injector-pumps for diesel engines.
In the prior United States Patent N-o. 3,075,707 to Rademaker, a needle valve type injector-pump is disclosed which incorporates a check valve for preventing blowback of 'combustion gases from the engine cylinder into the pump cylinder of the injector. This 'check valve is seatable against the open end of the pump cylinder for preventing such blow-back of combos-tion gases, and when thus seated it uncovers an opening into the spring chamber of the injector so tha-t residual fuel pressure existing in the fuel delivery or tip passage after the check valve closes can assist the spring in effecting rapid closing of the needle valve to end injection.
I have found that a surprising improvement in the result sought by Rademaker can be obtained through a modification of his arrangement so as to provide the needle valve spring with the added function of assisting the seating action of the check valve against the pump cylinder immediately upon the fuel pressure in the tip passage dropping to a low enough value to allow closing of the injector valve atlthe end of injection. A faster and more positive check valve action is thereby obtained, resulting in improved needle valve operation.
These and other advantages of the invention will be more clearly understood from the following description of two illustrative embodiments thereof, having reference to the attached drawing, wherein:
FIGURE 1 is a longitudinal sectional view through a unit injector-pump incorporating my novel arrangement.
FIGUREZ is an enlarged view similar to FIGURE 1, showing the lower or injector portion in greater detail.
FIGURE 3 is a view similar to FIGURE 2, but showing a modified form of the invention.
Referring now in detail to the drawing, and rst to vFIGURE l, the upper portion of the illustrated injectorpump is -conventional and comprises a housing 1 in which a plunger'2 is reciprocable. Forming an extension of and threaded to the lower end of the housing 1 is a nut 3 within which is supported a bushing 4, forming the pump cylinder for the plunger 2. An annular reservoir space 5 surrounding the bushing 4 Within the nut is supplied with fuel via passages 6 in the housing from an ex- .ternal fuel connection 7. The plunger has the usual bypass means including an external groove 8, by which opening and closing of ports 9 and 10 in the bushing are controlled, and connecting axial and transverse passages 11 and 12 for bypassing fuel from the pumping chamber 13 to the annular fuel space 5 when the groove S is inl registry with one or the other of the ports 9 and 10. Thus during each downward or injection stroke of the plunger from its position shown, fuel is initially bypassed to the annular fuel space 5 from the pumping chamber 13 below the plunger, but after the groove 8 has moved out of registry with upper port and the lower port 9 is closed by the plunger, fuel is displaced under high pressure through the opening 14 in the lower end of the bushing 4 until the groove moves into registry with the lower port 9 t-o again bypass the fuel land end injection. Other details of the upper or pump part of the unit are not important to the present invention, being common to the constructions shown and described in such prior U.S. patents as Engel, Jr., 2,951,643 and Teichert 2,898,051, and hence will not require further description here.
Clamped to the lower end of the bushing 4 by the nut 3 is a fuel injector, including `a valve body comprising a spray tip 15, spring chamber body 16 and the spacer block 17. As best shown in FIGURE 2, the block 17 has a cavity 1 8 facing the lower or open end of the bushing 4. The entrance 19 to this cavity, it will be noted, overlies in lateral extent the transverse extremities of the pumping chamber 13, and projecting centrally upwardly from the bottom of the cavity is -a protuberance 20 which forms a seating surface for a circular flat disc check valve 21.
The body 16 is annular in shape and defines a spring chamber 22 which encloses resilient means in the form of a coil spring 23 whose lower end seats on the upper end of the injector needle valve 24. Within the spring chamber and seated on the upper end of this spring is a movable seat 25. Extending centrally through the spacer block 17 and connecting .the spring chamber with the 4cavity 18 is an opening 26, whose upper entrance is defined by ythe check valve seating surface on the protuberance 20. The movable spring seat 25 has an upwardly projecting portion 27 which is substantially smaller than the opening 26 and extends therethrough into abutment with the underside of the check valve 21. Drilled passages 28 and 29 may be provided in this spring seat to assure uid pressure communication between the spring chamber and the opening 26 to the cavity at all times.
A plurality of circumferentially spaced passages 30 (onel only, shown) are provided in the spacer block 17 to connect the cavity 18 with an annular groove 31 in the upper end of the spring chamber body. This groove 31 is connected with a similar annular groove 32 on the botrtom face of the spring chamber body by a longitudinal passage 33, and this lower groove 32 is, in turn, connected by a plurality of inclined passages 34 to a central passage 35 surrounding -the needle valve 24. These passages 30, 33, 34, 35 and the cavity 18 collectively -constitute a tip passage for delivery of the injection fuel under pressure from the pumping chamber to the injector outlet. This outlet is in the form of a -tapered seat 36 for the needle valve, below which are connecting spray oriiices 37 leading into the engine combustion chamber (not shown). Below the upper or spring seat portion of the -needle valve 24 is a piston porti-on 38, of smaller diameter than that of the check valve 21, which slidably ts `a bore 39 in the spray tip, the latter serving to guide opening and closing movements of the needle valve. It will be noted that Ithis piston portion 38 is exposed at its lower end to the fuel pressure in the tip passage means which tends to raise .the needle valve toward open position, and the upper end of this piston portion 38 is exposed to whatever fuel pressure exists within the spring chamber. Avoidance of any build-up of excessive pressure within the latter is provided by a transverse bleed passage 40 through one side wall of the spring chamber body. Although the outer end of this bleed passage 40 appears in the drawing to` be closed by the nut 3, suiiicient clearance exists .thereinv around the spring chamber body 16 and the spacer block 17 toenable venting of such excessive fuel pressures to the annular fuel space 5 described above.
In operati-on, during displacement of fuel at injection pressure from the pumping chamber 13, the fuel pressure therein maintain-s the check valve 21 seated against the protuberance 20, blocking application of such fuel pressure to the spring chamber 25. This fuel at injection pressure is, however, free to pass into the 'cavity 18 land thence through the remainder of the tip passage (30, 33, 34, 35) where it acts against the lower end of the piston portion 3'8 of the needle valve to raise the needle valve and open the outlet 36 for injection of fuel into the eng-ine via the spray orifices 37. Upon the plunger reaching its position wherein the plunger groove '8 registers with the lolwer port 9, injection fuel pressure within the pumping chamber and in the tip passage immediately dissipates by reason of the fuel being bypassed through the plunger pass-ages 11 and 12 and groove 8 to the fuel space 5 which is at relatively low (e.g., 40 p.s.i,) supply fuel pressure. The check valve 2:1 thereupon moves upward into seating engagement with the lower end of the pump cylinder bushing 4, and the residual fuel still existing in the tip passage and the cavity I8 is applied to the upper end of the needle valve 24 via the opening 26, movable spring seat passages 28 and 2.9, and spring champer 25. The needle valve spring 23 serves the very important dual function, during this action, of quickly forcing the check valve 21 upwardly against the pushing 4 to uncover the opening 26 so that such residual pressure may assist the spring 23 in effecting rapid closing of the needle valve 24. `It will be appreciated that the larger effective area of the check valve than that of the needle valve piston portion 38 enables the spring to yield under a lower fuel pressure in the pumping chamber 1 3, to allow the check valve to open the lower end 14 thereof, than is required to compress the spring for opening movement of the needle valve. As a result, a very fast operation of the check valve is obtained, and consequently a more positive and quicker closing of the needle valve is effected for more precise timing and eicient engine operation.
In the modified form of the invention illustrated in FIGURE 3, the same result is obtained with a somewhat simplified arrangement of parts. vIn this form, the spring chamber body 16' is constructed so as to provide the cavity 18 for the check valve 21 in its upper end, thereby eliminating the need for the separate spacer block I7 in the previous form. Also in this arrangement, the check valve 2x1 is provided with a depending projection 27 which forms the movable seat engaging the upper end of the spring 23', thereby eliminating the need for such a separate spring seat as shown at 25 in the previously -described form. The passage 33 through the spring chamber body connects directly with the cavity 18 at its upper end, and with an annular groove 32' formed in the upper end of the spray tip 15. The other parts are essentially the same as those corresponding thereto in FIGURES l and 2, and are therefore correspondingly numbered except with the reference numerals primed. The operation is identical with that described for FIGURES l and 2, it being only significant to mention that the depending projection 27 on the check valve acts to close the opening 26 formed by the upper end of the spring chamber 25 when the pump pressure reaches a value suicient for injection to occur.
Although b-ut two specific embodiments of the invention have been described and shown, it is to be appreciated that various changes in the parts and their arrangement may be made without departing from the spirit andl scope of the invention which I now claim:
II claim:
11.. In a unit fuel injector-pump, a pump cylinder open at one end for fue-l delivery, an injector opposite said end including a fuel delivery outlet, an injection val-ve mov- .able to open and close said outlet, passage means connecting said cylinder end and said outlet, a bore slidably guiding opening and closing movements of said injection valve, la chamber communicating with the end of said bore tolward whic-h the valve moves during opening, said injecftion valve having a piston portion in said bore exposed to fuel pressure in said passage means for moving the valve in its opening direction, said passage means including a cavity facing said cylinder end, said cavity having an opening to said chamber oppositely of said cylinder end and a seating surface deflining the entrance to said opening, a check valve in said cavity movable in one direction into closing engagement with said cylinder end to block reverse flow through said passage means to said cylinder and movable in the opposite direction into closing engagement with said seating surface to block communication between said passage means and chamber, and resilient means biasing said injection valve into closing engagement with said outlet and biasing said check valve into closing engagement with said cylinder end, said resilient means bein-g yieldable under a first predetermined fuel pressure developed in the cylinder to accommodate movement of the check valve away from said cylinder end for ow of fuel into said passage means, and yieldable under a higher predetermined fuel pressure in the passage means to accommodate movement of the injection valve away from said outlet.
2. In a unit fuel injector-pump, a pump cylinder open at one end for fuel delivery, an injector opposite said end including a fuel delivery outlet, an injection valve reciprocabl-y movable to open and close said outlet,
passage means connecting said cylinder end and outlet including a cavity facing said cylinder end, a chamber between said cavity and said outlet and having an opening to said cavity, said injection valve having a piston portion exposed at one end to fuel pressure in said passage means tending to move the injection valve in the direction to open said outlet, said piston portion being exposed at its opposite end to fuel pressure in said chamber tending to move the injection valve in the direction to close said outlet, a check valve in said cavity movable in one direction to close said cylinder end and movable in the opposite direction to close said opening to the chamber, and spring means interposed between said valves and having operative engagement with said check valve via said opening to bias the check valve in the direction to close said cylinder end and operatively engaging the injection valve in said chamber to bias the injection valve in the closing direction against said outlet.
3. In a unit fuel injector-pump, a pump cylinder open at one end for fuel delivery, an injector having a fuel outlet, passage means connect-ing said outlet and cylinder end, said pas-sage means including -a cavity facing said cylinder end, an injection valve movable to open and close said outlet, a chamber between said cavity and outlet and having an opening to said cavity, said injection valve having a piston portion with one end exposed to fuel pressure in the passage means tending to open the injection valve and its other end exposed to fuel pressure in said chamber tending to close the injection valve, a check valve in said cavity mov-able in one direction therein to close said cylinder end against reverse flow from said passage means into said cylinder and movable in the opposite direction to close said opening, and means resiliently biasing both said check valve against said cylinder end and said injection valve against said outlet, said biasing means being yieldable to accommodate movement of the check valve away from said cylinder end and into closing relation with said opening in response to a predeterminedcylinder fuel pressure and yieldable to accommodate opening of the injection valve in response to a higher fuel pressure in said passage means.
4. vIn a fuel injector, a valve body including a cavity having a fuel supply entrance, a fuel injection outlet remote from said cavity, passage means connecting said cavity and outlet, a chamber separate from said passage means, said chamber and cavity having a connecting opening, an injection va-lve movable to open and close said outlet, said injection valve having a portion exposed to fuel pressure in said passage means ten-ding to open the injection valve and exposed to fuel pressure in said chamber tending to close the injection valve, a check valve in said cavity movable in one direction therein toward said entrance to block reverse ow therethrough from said passage means and cavity and movable in the opposite 5 6 direction to close said opening to said chamber, and includes a projection extending through said opening for spring means in said chamber operatively engageable with abutting engagement with said spring means.
both said check valve and said injection valve and biasing them toward said cavity entrance and said injection References Cited by the Examiner outlet, respectively. 5 UNITED STATES PATENTS 5. The invention off claim 4, including a movable seat 2,898,051 8/19549 Teichent 23,9 88 -for said spring means in said ch-amsber, said seat having 2,951,643 `9/1960 Engel 239 90 la projection extending through said opening for abutting 3,075,707 1/1963 Rademaker 239 9n engagement with said check valve. Y
6. The invention of claimr 4, wherein said check valve 10 EVERETT W. KIRBY, Primary Examiner.

Claims (1)

  1. 4. IN A FUEL INJECTOR, A VALVE BODY INCLUDING A CAVITY HAVING A FUEL SUPPLY ENTRANCE, A FUEL INJECTION OUTLET REMOTE FROM SAID CAVITY, PASSAGE MEANS CONNECTING SAID CAVITY AND OUTLET, A CHAMBER SEPARATE FROM SAID PASSAGE MEANS, SAID CHAMBER AND CAVITY HAVNG A CONNECTING OPENING, AND INJECTION VALVE MOVABLE TO OPEN AND CLOSE SAID OUTLET, SAID INJECTION VALVE HAVING A PORTION EXPOSED TO FUEL PRESSURE IN SAID PASSAGE MEANS TENDING TO OPEN THE INJECTION VALVE AND EXPOSED TO FUEL PRESSURE IN SAID CHAMBER TENDING TO CLOSE THE INJECTION VALVE, A CHECK VALVE IN SAID CAVITY MOVABLE IN ONE DIRECTION THEREIN TOWARD SAID ENTRANCE TO BLOCK REVERSE FLOW THERETHROUGH FROM SAID PASSAGE MEANS AND CAVITY AND MOVABLE IN THE OPPOSITE DIRECTION TO CLOSE SAID OPENING TO SAID CHAMBER, AND SPRING MEANS IN SAID CHAMBER OPERATIVELY ENGAGEABLE WITH BOTH SAID CHECK VALVE AND SAID INJECTION VALVE AND BIASING THEM TOWARD SAID CAVITY ENTRANCE AND SAID INJECTION OUTLET, RESPECTIVELY.
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Cited By (17)

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US3366288A (en) * 1965-10-11 1968-01-30 Ponsell Floor Machine Co Inc Dispenser having a motor operated valve assembly
US3379374A (en) * 1966-08-22 1968-04-23 Gen Motors Corp Fuel injection device
US3486696A (en) * 1967-12-04 1969-12-30 Allis Chalmers Mfg Co Fuel injector
US3738576A (en) * 1971-04-21 1973-06-12 Physics Int Co Injection nozzle for direct injection engine
US3831846A (en) * 1973-01-15 1974-08-27 Cummins Engine Co Inc Fuel injector
US3982693A (en) * 1976-01-16 1976-09-28 General Motors Corporation Orifice plunger valve fuel injector
DE2716319A1 (en) * 1976-05-21 1977-12-01 Gen Motors Corp METHOD OF FORMING A SEAL IN INJECTORS
US4081140A (en) * 1976-07-19 1978-03-28 Caterpillar Tractor Co. Capsule-type fuel nozzle
EP0017241A1 (en) * 1979-04-09 1980-10-15 Caterpillar Tractor Co. Safety check valve for unit fuel pump injector
DE3401658A1 (en) * 1983-01-20 1984-07-26 Kabushiki Kaisha Kanesaka Gijutsu Kenkyusho, Kawasaki, Kanagawa FUEL INJECTION DEVICE
US4674688A (en) * 1984-10-08 1987-06-23 Usui Kokusai Sangyo Kabushiki Kaisha Accumulation-type fuel injector
US5326034A (en) * 1993-07-27 1994-07-05 Cummins Engine Company, Inc. Compact closed nozzle assembly for a fuel injector
US5333786A (en) * 1993-06-03 1994-08-02 Cummins Engine Company, Inc. Fuel injection device for an internal combustion engine
US5533672A (en) * 1994-09-06 1996-07-09 Cummins Engine Company, Inc. Dual event nozzle for low opening and high closing pressure injector
US5950931A (en) * 1998-01-30 1999-09-14 Caterpillar Inc. Pressure decay passage for a fuel injector having a trapped volume nozzle assembly
US20050017087A1 (en) * 2002-11-19 2005-01-27 Brent Brower Conduit intersection for high pressure fluid flow
US20060283984A1 (en) * 2005-06-16 2006-12-21 Olaf Enke Dampening stop pin

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US2898051A (en) * 1957-08-15 1959-08-04 Gen Motors Corp Fluid injection device
US2951643A (en) * 1958-03-13 1960-09-06 Gen Motors Corp Fuel injector with pilot injection
US3075707A (en) * 1961-10-12 1963-01-29 Gen Motors Corp Fuel injector pump with hydraulically controlled injection valve

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US2898051A (en) * 1957-08-15 1959-08-04 Gen Motors Corp Fluid injection device
US2951643A (en) * 1958-03-13 1960-09-06 Gen Motors Corp Fuel injector with pilot injection
US3075707A (en) * 1961-10-12 1963-01-29 Gen Motors Corp Fuel injector pump with hydraulically controlled injection valve

Cited By (18)

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US3366288A (en) * 1965-10-11 1968-01-30 Ponsell Floor Machine Co Inc Dispenser having a motor operated valve assembly
US3379374A (en) * 1966-08-22 1968-04-23 Gen Motors Corp Fuel injection device
US3486696A (en) * 1967-12-04 1969-12-30 Allis Chalmers Mfg Co Fuel injector
US3738576A (en) * 1971-04-21 1973-06-12 Physics Int Co Injection nozzle for direct injection engine
US3831846A (en) * 1973-01-15 1974-08-27 Cummins Engine Co Inc Fuel injector
US3982693A (en) * 1976-01-16 1976-09-28 General Motors Corporation Orifice plunger valve fuel injector
DE2716319A1 (en) * 1976-05-21 1977-12-01 Gen Motors Corp METHOD OF FORMING A SEAL IN INJECTORS
US4081140A (en) * 1976-07-19 1978-03-28 Caterpillar Tractor Co. Capsule-type fuel nozzle
EP0017241A1 (en) * 1979-04-09 1980-10-15 Caterpillar Tractor Co. Safety check valve for unit fuel pump injector
DE3401658A1 (en) * 1983-01-20 1984-07-26 Kabushiki Kaisha Kanesaka Gijutsu Kenkyusho, Kawasaki, Kanagawa FUEL INJECTION DEVICE
US4674688A (en) * 1984-10-08 1987-06-23 Usui Kokusai Sangyo Kabushiki Kaisha Accumulation-type fuel injector
US5333786A (en) * 1993-06-03 1994-08-02 Cummins Engine Company, Inc. Fuel injection device for an internal combustion engine
US5326034A (en) * 1993-07-27 1994-07-05 Cummins Engine Company, Inc. Compact closed nozzle assembly for a fuel injector
US5533672A (en) * 1994-09-06 1996-07-09 Cummins Engine Company, Inc. Dual event nozzle for low opening and high closing pressure injector
US5950931A (en) * 1998-01-30 1999-09-14 Caterpillar Inc. Pressure decay passage for a fuel injector having a trapped volume nozzle assembly
US20050017087A1 (en) * 2002-11-19 2005-01-27 Brent Brower Conduit intersection for high pressure fluid flow
US20060283984A1 (en) * 2005-06-16 2006-12-21 Olaf Enke Dampening stop pin
US7900604B2 (en) 2005-06-16 2011-03-08 Siemens Diesel Systems Technology Dampening stop pin

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