US3172923A - Power valve - Google Patents

Power valve Download PDF

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US3172923A
US3172923A US3172923DA US3172923A US 3172923 A US3172923 A US 3172923A US 3172923D A US3172923D A US 3172923DA US 3172923 A US3172923 A US 3172923A
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fuel
valve
fuel bowl
push rod
carburetor
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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
    • F02M7/00Carburettors with means for influencing, e.g. enriching or keeping constant, fuel/air ratio of charge under varying conditions
    • F02M7/12Other installations, with moving parts, for influencing fuel/air ratio, e.g. having valves
    • F02M7/133Auxiliary jets, i.e. operating only under certain conditions, e.g. full power

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  • the invention relates to valves and refers more particularly to an improved power valve assembly for use in internal combustion engine carburetors and similar dev1ces.
  • a power valve assembly is provided in a carburetor or similar device to meter additional fuel therethrough during periods when the power demand on the device is high.
  • the power valve assembly is thus required to operate intermittently and therefore should be as simple as possible to avoid improper functioning thereof after periods of non-use.
  • Prior power valve assemblies have been deficient in that they have not been constructed so that they may be easily serviced as periodically required. Also the valve of the power valves of the past used in conjunction with carburetors have not always been positioned at the bottom of the carburetor fuel bowl which is desirable to promote ready flow of fuel therethrough. Further, power valve assemblies have sometimes been designed so that the valve actuating mechanism therefor does not permit free flow of fuel through the effective valve seat area.
  • Another object is to provide a power valve assembly in conjunction with a carburetor or similar device having a fuel bowl including a valve positioned at the bottom of the fuel bowl which power valve assembly is constructed to permit its easy removal from and installation in the device to facilitate repair or replacement of the valve.
  • Another object is to provide a power valve assembly comprising a valve, means for resiliently biasing the valve against a valve seat and a vacuum actuated piston engageable with the means resiliently biasing the valve against the valve seat operable to open the valve in response to a change in vacuum applied thereto.
  • Another object is to provide a carburetor in conjunction with an engine which carburetor includes a metering unit positioned in the carburetor fuel bowl, a power valve in said carburetor including a valve resiliently held against a valve seat in the metering unit adjacent the bottom of the carburetor fuel bowl, and a vacuum actuated piston operable to open the valve in response to a lowering of manifold vacuum.
  • Another object is to provide a power valve assembly in a carburetor associated with an internal combustion engine comprising a valve held against a valve seat in a carburetor metering unit by means of an L-shaped push rod extending through the metering unit and spring biased to urge the valve against the valve seat, a hollow closed ended cylinder spring biased toward the L-shaped push rod and connected at its open end to engine manifold vacuum operable to engage the push rod and open the valve in response to a lowered manifold vacuum.
  • Another object is to provide a power valve which is simple in construction, economical to manufacture and efficient in use.
  • FIGURE 1 is an elevational view partly in cross-section of a carburetor including a power valve assembly according to the invention.
  • FIGURE 2 is an enlarged partial cross-sectional view of the power valve illustrated in FIGURE 1 taken on the line 22 in FIGURE 1.
  • FIGURE 3 is an enlarged section view of a portion of a modification of the power valve illustrated in FIGURES l and 2.
  • the power valve assembly 10 is shown in FIGURE 1 installed in a carburetor 12 which is mounted on the engine generally indicated 14.
  • the power valve assembly 10 comprises the vacuum actuated piston assembly 16 and the push rod assembly 18 on which the valve 20 is mounted.
  • the valve 20 is held in a seated position by the push rod assembly 18 to seal the metering orifice 21 until the piston engages the push rod, after which valve 2% is opened to meter additional fuel through orifice 21 to the carburetor so that the fuel mixture to the engine 14 will be richer and the power output of the engine will be increased.
  • the carburetor 12 comprises the throttle body and fuel bowl member 22, the metering spacer 24 for supporting fuel metering means in the throttle body and fuel bowl member 22 and the air horn and fuel bowl cover 26.
  • the housing members 22, 24 and 26 are secured together by bolts or other convenient means (not shown).
  • Carburetor 12 may also be secured to the motor 14 by bolts or other convenient means (not shown).
  • the vacuum actuated piston assembly 16 includes the piston 28 which is tubular as shown and includes a closed end 30 and an open end 32.
  • the closed end 30 of the piston 28 is adapted to engage the push rod assembly 18, as will be considered later.
  • Piston 28 is slidably mounted in the recess 34 in the air horn and fuel bowl cover 26 and is urged toward the push rod assembly 18 by means of the bias spring 36 acting between the closed end 30 of the piston and the end 38 of the recess 34.
  • End 38 of recess 34 is connected to the manifold 40 of motor 14 through the passages 41, 42 and 43 extending through the air horn and fuel bowl cover 26, the metering spacer 24 and the throttle body and fuel bowl member 22 respectively, as shown.
  • valve 20 as shown in FIGURES l and 2, includes a conical valve surface 44 urged into engagement with the valve seat 46 surrounding the metering orifice 21 in the metering spacer 24.
  • Guide member 48 is provided on valve 20 to insure proper seating of the surface 44 on the valve seat 46.
  • Valve 20 is further provided with the axially extending cylindrical portion 50 having the reduced diameter portion 52 for use in securing the valve 20 to the push rod 54.
  • Valve 20 may be constructed of molded rubber, brass or other metal as desired and is located adjacent the bottom of the carburetor fuel bowl 56.
  • the valve 20 may be removed from the flattened end 70 of the push rod 54 after clip 74 is removed by merely withdrawing the reduced diameter end 50 thereof upwardly through the opening 72 in the end of the push rod illustrated in FIGURE 2.
  • the push rod assembly 18 includes the L-shaped push rod 54 extending through the passage 58 in the metering spacer 24, as shown in FIGURE 1.
  • the passage 58 includes the enlarged diameter portion 60 at the upper end thereof in which the bias spring 62 is positioned.
  • Bias spring 62 acts between the end 64 of the enlarged diameter portion 60 of the passage 58 and the annular, radially split clip 66 which is removably secured to the end 68 of the push rod 54 by convenient means such as a reduced diameter portion 69 on end 68 of rod 54.
  • the other end 70 of the push rod 54 is flattened, as illustrated in FIGURES 1' and 3, and is provided with an opening 72 extending therethrough which is sleeved over the cylindrical extension 50 of the valve 26.
  • the valve is secured to the end 70" of the push rod 54 by means of the removable annular, radially split clip- '74 engaging the reduced diameter portion 52 of the cylindrical extension 50 of the valve 20.
  • the push rod assembly 18" In operation before an enriched fuel supply is required the push rod assembly 18" holds the valve 2% in engagement with the valve seat 46 due to the bias applied to the push rod 54 by the spring 52, as shown in FIGURE 1. At this time the vacuum in the manifold 48 of the engine is relatively high whereby the piston 28 is held in an up position, as shown in FIGURE 1, in opposition to the bias of the spring 36. The fuel flow into the main fuel wells 88 at this time is through the metering orifices 75 from the carburetor fuel bowl 56.
  • FIGURE 3 A modified valve Zila is illustrated in FIGURE 3.
  • the valve 20a is similar to the valve 20 with the exception that the surface 44a thereof is spherical rather than conical, the guide 48 has been eliminated therefrom, and the valve 20a is secured to the push rod 54a by removable head 72a which may be threadedly engaged with valve 20a through push rod 54a.
  • the removable clip 66 is first removed from the push rod 54, after which the push rod 54 and valve 20 may be removed from the passage 58 in the metering spacer 24.
  • the valve 26 is then removed from the push rod 54 on removing the clip 74.
  • a power valve assembly for use with internal combustion engine carburetors and similar devices which is simple and eflicient, and which includes a valve located at the bottom of the carburetor fuel bowl, which valve is easily removable and replaceable.
  • a carburetor including separate throttle body and fuel bowl, and fuel bowl cover and air horn members, and a fuel metering spacer sandwiched between the throttle body and fuel bowl member and the air horn and fuel bowl cover member having a carburetor main fuel Well portion suspended therefrom with a bottom adjacent the bottom of the fuel bowl portion of the throttle body and fuel bowl member, a fuel metering orifice in said bottom of the main fuel well portion, a power valve assembly in said carburetor comprising an annular valve seat around said metering orifice, a valve including an annular valve surface positioned between the bottom of said carburetor main fuel well portion and the bottom of the fuel bowl portion of the throttle body and fuel bowl member for reciprocal movement therebetween into and out of closing relation to said metering orifice, an L- shaped push rod extending through the metering spacer and between the bottoms of the main fuel well portion and fuel bowl portion of the carburetor, means removably securing

Description

March 9, 1965 N. M. ROMEO ETAL POWER VALVE Filed Feb. 27, 1961 BASED CUTOR mm 0 CE EX 2 m 0 RR.- E 6 m rr. sea S R MEF 0 MD T MmL N L a a w V NWD N Y I. Y B B a O U United States Patent 3,172,923 POWER VALVE Neil M. Romeo, St. Clair Shores, and William E. Egerer,
deceased, late of Detroit, by Donald F. Egerer, executor,
Warren, Mich, assignors to Holley Carburetor Company, Warren, Mich, a corporation of Michigan Filed Feb. 27, 1961, Ser. No. 92,732 3 Claims. (Cl. 261-69) The invention relates to valves and refers more particularly to an improved power valve assembly for use in internal combustion engine carburetors and similar dev1ces.
A power valve assembly is provided in a carburetor or similar device to meter additional fuel therethrough during periods when the power demand on the device is high. The power valve assembly is thus required to operate intermittently and therefore should be as simple as possible to avoid improper functioning thereof after periods of non-use.
Prior power valve assemblies have been deficient in that they have not been constructed so that they may be easily serviced as periodically required. Also the valve of the power valves of the past used in conjunction with carburetors have not always been positioned at the bottom of the carburetor fuel bowl which is desirable to promote ready flow of fuel therethrough. Further, power valve assemblies have sometimes been designed so that the valve actuating mechanism therefor does not permit free flow of fuel through the effective valve seat area.
It is therefore an object of the invention to provide a power valve assembly wherein on opening of the valve the full area of the valve seat is effective to meter fuel therethrough.
Another object is to provide a power valve assembly in conjunction with a carburetor or similar device having a fuel bowl including a valve positioned at the bottom of the fuel bowl which power valve assembly is constructed to permit its easy removal from and installation in the device to facilitate repair or replacement of the valve.
Another object is to provide a power valve assembly comprising a valve, means for resiliently biasing the valve against a valve seat and a vacuum actuated piston engageable with the means resiliently biasing the valve against the valve seat operable to open the valve in response to a change in vacuum applied thereto.
Another object is to provide a carburetor in conjunction with an engine which carburetor includes a metering unit positioned in the carburetor fuel bowl, a power valve in said carburetor including a valve resiliently held against a valve seat in the metering unit adjacent the bottom of the carburetor fuel bowl, and a vacuum actuated piston operable to open the valve in response to a lowering of manifold vacuum.
Another object is to provide a power valve assembly in a carburetor associated with an internal combustion engine comprising a valve held against a valve seat in a carburetor metering unit by means of an L-shaped push rod extending through the metering unit and spring biased to urge the valve against the valve seat, a hollow closed ended cylinder spring biased toward the L-shaped push rod and connected at its open end to engine manifold vacuum operable to engage the push rod and open the valve in response to a lowered manifold vacuum.
Another object is to provide a power valve which is simple in construction, economical to manufacture and efficient in use.
Other objects and features of the invention will become apparent as the description proceeds, especially when taken in conjunction with the accompanying drawings, illustrating preferred embodiments of the invention, where- 3,172,923 Patented Mar. 9, 1965 ice FIGURE 1 is an elevational view partly in cross-section of a carburetor including a power valve assembly according to the invention.
FIGURE 2 is an enlarged partial cross-sectional view of the power valve illustrated in FIGURE 1 taken on the line 22 in FIGURE 1.
FIGURE 3 is an enlarged section view of a portion of a modification of the power valve illustrated in FIGURES l and 2.
With particular reference to the drawings one embodiment of the invention will now be disclosed.
The power valve assembly 10 is shown in FIGURE 1 installed in a carburetor 12 which is mounted on the engine generally indicated 14. The power valve assembly 10 comprises the vacuum actuated piston assembly 16 and the push rod assembly 18 on which the valve 20 is mounted. In operation the valve 20 is held in a seated position by the push rod assembly 18 to seal the metering orifice 21 until the piston engages the push rod, after which valve 2% is opened to meter additional fuel through orifice 21 to the carburetor so that the fuel mixture to the engine 14 will be richer and the power output of the engine will be increased.
More specifically the carburetor 12 comprises the throttle body and fuel bowl member 22, the metering spacer 24 for supporting fuel metering means in the throttle body and fuel bowl member 22 and the air horn and fuel bowl cover 26. The housing members 22, 24 and 26 are secured together by bolts or other convenient means (not shown). Carburetor 12 may also be secured to the motor 14 by bolts or other convenient means (not shown).
The vacuum actuated piston assembly 16, best shown in FIGURE 1, includes the piston 28 which is tubular as shown and includes a closed end 30 and an open end 32. The closed end 30 of the piston 28 is adapted to engage the push rod assembly 18, as will be considered later. Piston 28 is slidably mounted in the recess 34 in the air horn and fuel bowl cover 26 and is urged toward the push rod assembly 18 by means of the bias spring 36 acting between the closed end 30 of the piston and the end 38 of the recess 34. End 38 of recess 34 is connected to the manifold 40 of motor 14 through the passages 41, 42 and 43 extending through the air horn and fuel bowl cover 26, the metering spacer 24 and the throttle body and fuel bowl member 22 respectively, as shown.
The valve 20, as shown in FIGURES l and 2, includes a conical valve surface 44 urged into engagement with the valve seat 46 surrounding the metering orifice 21 in the metering spacer 24. Guide member 48 is provided on valve 20 to insure proper seating of the surface 44 on the valve seat 46. Valve 20 is further provided with the axially extending cylindrical portion 50 having the reduced diameter portion 52 for use in securing the valve 20 to the push rod 54. Valve 20 may be constructed of molded rubber, brass or other metal as desired and is located adjacent the bottom of the carburetor fuel bowl 56.
The valve 20 may be removed from the flattened end 70 of the push rod 54 after clip 74 is removed by merely withdrawing the reduced diameter end 50 thereof upwardly through the opening 72 in the end of the push rod illustrated in FIGURE 2.
The push rod assembly 18 includes the L-shaped push rod 54 extending through the passage 58 in the metering spacer 24, as shown in FIGURE 1. The passage 58 includes the enlarged diameter portion 60 at the upper end thereof in which the bias spring 62 is positioned. Bias spring 62 acts between the end 64 of the enlarged diameter portion 60 of the passage 58 and the annular, radially split clip 66 which is removably secured to the end 68 of the push rod 54 by convenient means such as a reduced diameter portion 69 on end 68 of rod 54. The other end 70 of the push rod 54 is flattened, as illustrated in FIGURES 1' and 3, and is provided with an opening 72 extending therethrough which is sleeved over the cylindrical extension 50 of the valve 26. The valve is secured to the end 70" of the push rod 54 by means of the removable annular, radially split clip- '74 engaging the reduced diameter portion 52 of the cylindrical extension 50 of the valve 20.
In operation before an enriched fuel supply is required the push rod assembly 18" holds the valve 2% in engagement with the valve seat 46 due to the bias applied to the push rod 54 by the spring 52, as shown in FIGURE 1. At this time the vacuum in the manifold 48 of the engine is relatively high whereby the piston 28 is held in an up position, as shown in FIGURE 1, in opposition to the bias of the spring 36. The fuel flow into the main fuel wells 88 at this time is through the metering orifices 75 from the carburetor fuel bowl 56.
When it is desired to meter more fuel through the carbur'etor due to opening of the throttle valve (not shown) of the carburetor, the vacuum in the manifold 40 will decrease in the usual manner on opening of the throttle valve so that the piston 28 is urged downward by spring 36 into contact with the end 68 of the push rod 54. The push rod 54 is thus urged in a downward direction against the upward biasing of the spring 62 which is weaker than the spring 36. Downward movement of push rod 54 causes the valve 20 to unseat allowing the added fuel required to meter past the valve 20 through valve orifice 21 and the ports '76 and 78 into the main fuel wells 89, as shown in FIGURE 2.
A modified valve Zila is illustrated in FIGURE 3. The valve 20a is similar to the valve 20 with the exception that the surface 44a thereof is spherical rather than conical, the guide 48 has been eliminated therefrom, and the valve 20a is secured to the push rod 54a by removable head 72a which may be threadedly engaged with valve 20a through push rod 54a.
When it is desired to remove the valve 20 for refinishing of the surface 44 or the valve seat 46, the removable clip 66 is first removed from the push rod 54, after which the push rod 54 and valve 20 may be removed from the passage 58 in the metering spacer 24. The valve 26 is then removed from the push rod 54 on removing the clip 74.
Thus it will be seen that in accordance with the invention there is provided a power valve assembly for use with internal combustion engine carburetors and similar devices which is simple and eflicient, and which includes a valve located at the bottom of the carburetor fuel bowl, which valve is easily removable and replaceable.
T he drawings and the foregoing specification constitute a description of the improved power valve assembly in such full, clear, concise and exact terms as to enable any person skilled in the art to practice the invention, the scope of which is indicated by the appended claims,
What we claim as our invention is:
1. On an engine having means for producing manifold vacuum, a carburetor including separate throttle body and fuel bowl, and fuel bowl cover and air horn members, and a fuel metering spacer sandwiched between the throttle body and fuel bowl member and the air horn and fuel bowl cover member having a carburetor main fuel Well portion suspended therefrom with a bottom adjacent the bottom of the fuel bowl portion of the throttle body and fuel bowl member, a fuel metering orifice in said bottom of the main fuel well portion, a power valve assembly in said carburetor comprising an annular valve seat around said metering orifice, a valve including an annular valve surface positioned between the bottom of said carburetor main fuel well portion and the bottom of the fuel bowl portion of the throttle body and fuel bowl member for reciprocal movement therebetween into and out of closing relation to said metering orifice, an L- shaped push rod extending through the metering spacer and between the bottoms of the main fuel well portion and fuel bowl portion of the carburetor, means removably securing said L-shaped push rod at one end to said valve at a location remote from the metering orifice whereby on movement of the portion of the push rod extending between the bottoms of the main fuel well portion and fuel bowl portion of the carburetor away from the metering orifice unrestricted fuel flow around the complete circumference of the metering orifice is permitted, resilient means for biasing the push rod in a direction to seat the valve on the valve seat, a cylinder recess in the air horn and fuel bowl cover member, means connecting the recess to engine manifold vacuum through the air horn and fuel bowl cover member, the metering spacer and the fuel bowl 'and throttle body member, a hollow cylindrical piston References Cited in the file of this patent UNITED STATES PATENTS 1,909,389 Ball et al May 16, 1933 2,757,913 Sutton et a1 Aug. 7, 1956 2,792,203 Olson et al. May 14, 1957 2,969,965 Braun Ian. 31, 1961 3,076,639 Szwargulski et a1. Feb. 5, 1963

Claims (1)

1. ON AN ENGINE HAVING MEANS FOR PRODUCING MANIFOLD VACUUM, A CARBURETOR INCLUDING SEPARATE THROTTLE BODY AND FUEL BOWL, AND FUEL BOWL COVER AND AIR HORN MEMBERS, AND A FUEL METERING SPACER SANDWICHED BETWEEN THE THROTTLE BODY AND FUEL BOWL MEMBER AND THE AIR HORN AND FUEL BOWL COVER MEMBER HAVING A CARBURETOR MAIN FUEL WELL PORTION SUSPENDED THEREFROM WITH A BOTTOM ADJACENT THE BOTTOM OF THE FUEL BOWL PORTION OF THE THROTTLE BODY AND FUEL BOWL MEMBER, A FUEL METERING ORIFICE IN SAID BOTTOM OF THE MAIN FUEL WELL PORTION, A POWER VALVE ASSEMBLY IN SAID CARBURETOR COMPRISING AN ANNULAR VALVE SEAT AROUND SAID METERING ORIFICE, A VALVE INCLUDING AN ANNULAR VALVE SURFACE POSITIONED BETWEEN THE BOTTOM OF SAID CARBURETOR MAIN FUEL WELL PORTION AND THE BOTTOM OF THE FUEL BOWL PORTION OF THE THROTTLE BODY AND FUEL BOWL MEMBER FOR RECIPROCAL MOVEMENT THEREBETWEEN INTO AND OUT OF CLOSING RELATION TO SAID METERING ORIFICE, AN LSHAPED PUSH ROD EXTENDING THROUGH THE METERING SPACER AND BETWEEN THE BOTTOMS OF THE MAIN FUEL WELL PORTION AND FUEL BOWL PORTION OF THE CARBURETOR, MEANS REMOVABLY SECURING SAID L-SHAPED PUSH ROD AT ONE END TO SAID VALVE AT A LOCATION REMOTE FROM THE MEETING ORIFICE WHEREBY ON MOVEMENT OF THE PORTION OF THE PUSH ROD EXTENDING BETWEEN THE BOTTOMS OF THE MAIN FUEL WELL PORTION AND FUEL BOWL PORTION OF THE CARBURETOR AWAY FROM THE METERING ORIFICE UNRESTRICTED FUEL FLOW AROUND THE COMPLETE CIRCUMFERENCE OF THE METERING ORIFICE IS PERMITTED, RESILIENT MEANS FOR BIASING THE PUSH ROD IN A DIRECTION TO SEAT THE VALVE ON THE VALVE SEAT, A CYLINDER RECESS IN THE AIR HORN AND FUEL BOWL COVER MEMBER, MEANS CONNECTING THE RECESS TO ENGINE MANIFOLD VACUUM THROUGH THE AIR HORN AND FUEL BOWL COVER MEMBER, THE METERING SPACER AND THE FUEL BOWL AND THROTTLE BODY MEMBER, A HOLLOW CYLINDRICAL PISTON SPACED FROM ONE END OF SAID L-SHAPED PUSH ROD AND MOUNTED IN SAID CYLINDER RECESS, SAID PISTON BEING CLOSED AT ONE END AND OPEN AT THE OTHER END TO THE MANIFOLD VACUUM IN THE CYLINDER RECESS AND RESILIENT MEANS STRONGER THAN THE FIRST MENTIONED RESILIENT MEANS IN THE CYLINDER RECESS FOR URGING THE OTHER END OF THE PISTON MEMBER INTO ENGAGEMENT WITH THE PUSH ROD.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3343820A (en) * 1965-10-20 1967-09-26 Holley Carburetor Co Carburetor
US3795387A (en) * 1971-12-23 1974-03-05 Ford Motor Co Power fuel supply system
US3983189A (en) * 1974-08-21 1976-09-28 General Motors Corporation Carburetor

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1909389A (en) * 1930-05-08 1933-05-16 Frederick O Ball Carburetor
US2757913A (en) * 1953-10-30 1956-08-07 Bendix Aviat Corp Carburetor
US2792203A (en) * 1954-09-16 1957-05-14 Gen Motors Corp Carburetor
US2969965A (en) * 1958-06-11 1961-01-31 Gen Motors Corp Fuel metering pin
US3076639A (en) * 1960-03-28 1963-02-05 Acf Ind Inc Carburetor

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1909389A (en) * 1930-05-08 1933-05-16 Frederick O Ball Carburetor
US2757913A (en) * 1953-10-30 1956-08-07 Bendix Aviat Corp Carburetor
US2792203A (en) * 1954-09-16 1957-05-14 Gen Motors Corp Carburetor
US2969965A (en) * 1958-06-11 1961-01-31 Gen Motors Corp Fuel metering pin
US3076639A (en) * 1960-03-28 1963-02-05 Acf Ind Inc Carburetor

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3343820A (en) * 1965-10-20 1967-09-26 Holley Carburetor Co Carburetor
US3795387A (en) * 1971-12-23 1974-03-05 Ford Motor Co Power fuel supply system
US3983189A (en) * 1974-08-21 1976-09-28 General Motors Corporation Carburetor

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