US1450762A - Carburetor - Google Patents

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US1450762A
US1450762A US184586A US18458617A US1450762A US 1450762 A US1450762 A US 1450762A US 184586 A US184586 A US 184586A US 18458617 A US18458617 A US 18458617A US 1450762 A US1450762 A US 1450762A
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fuel
valve
air
passage
chamber
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US184586A
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Caleb E Summers
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MASTER CARBURETER Corp
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MASTER CARBURETER CORP
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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
    • F02M21/00Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M2700/00Supplying, feeding or preparing air, fuel, fuel air mixtures or auxiliary fluids for a combustion engine; Use of exhaust gas; Compressors for piston engines
    • F02M2700/13Special devices for making an explosive mixture; Fuel pumps
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/08Carburetor primers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/23Fuel feeding valves
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/39Liquid feeding nozzles

Definitions

  • a suction controlled air valve formed of a single pivoted member, and a movable jet actuated thereby in such manner that its fuel orifices" are maintained substantially centrally in the air current whereby the air and fuel are intimately and uniformly commingled;
  • a suction controlled air valve arranged to raise and lower a movable jet, together with a metering pin associated with the jet and a manually operated lever for operating the pin against the force of a spring to change the fuel mixture at will;
  • a fuel jet arranged to be raised and lowered by a suction controlled air valve and having a'diaphragm movable in the float chamber for retarding the movements of the jet and preventing fluttering of the air valve ,an additional fuel supplying means arranged to be operable at will upon starting by the same means which lowers the metering piii; means for reliey; ing the valve of the additional fuel supplying means of suction whereby leakage is prevented under normal running conditions and means, controlled by the
  • Fig. 1 is a side'view, parts being broken away, showing a preferred embodiment of the invention.
  • Fig. 2 is a section on the line 22 of Fig. 1.
  • Fig. 3 is a section on the line 33 of Fig. 2.
  • Fig. 4 is a perspective of the delivery end of the fuel nozzle.
  • the rectangular portion of the mixing chamber preferably merges at one end into the cylindrical neck 13 having a flange or ears 14 for attachment to the manifold; at its opposite or intake end the walls of the air passage may be perforated at 1 1 and provided with a set screw 15 whereby a pipe (not shown) for supplying heated airv may be fastened.
  • a manually actuated butterfly throttle valve 16 in the neck 13 of the mixing chamber controls the flow of fuel mixture in the usual way.
  • a pivot 20 Extending across the upper rear corner portion of the mixing chamber is a pivot 20 on which is mounted a suction controlled air valve 21 formed of a single piece of sheet metal having its central portion 22 struck upwardly to form a pocket between the end walls 23 of which a fuel pipe 24 is hung on a trunnion or pivot 25.
  • a suction controlled air valve 21 formed of a single piece of sheet metal having its central portion 22 struck upwardly to form a pocket between the end walls 23 of which a fuel pipe 24 is hung on a trunnion or pivot 25.
  • the pipe passes downwardly into the float chamber through a hole 26 of somewhat greater diameter than the pipe, and that a washer 28, although allowin the necessary f reedom of movement, seals the passage to prwit undesirableeaporation.
  • the trunnion being above the plane of the valve rises almost vertically as the latter opens, thus avoiding any great amount of movement of the pipe longitudinally of the air passage.
  • the cover 5 is also preferably inclined upwardly and forwardly in the direction of the flow of air as indicated at 29 to a point some distance beyond the pipe, and the latter has aT-shaped delivery nozzle 30 which extends forwardly to the apex of the incline and has its tubular head or cross bar provided with a number of orifices 31 distributed across the air passage from side to side.
  • the forward end of the air valve rests on the delivery end of the nozzle.
  • the lower end of the fuel pipe is bored out to form a valve seat 33, and opens latdetermines the free opening through the diaphragm and a bracket 43 letter.
  • the pin 39-40 is fixed by an arm 41 to an actuating rod 42, and the latter passes upwardly through the and has its head 44 projecting from the float chamber cover.
  • a spring 45 suffices to hold the metering pin against the seat when the fuel pipe is in lowermost position. Therefore, as the fuel pipe rises and increases the head against which the fuel must be lifted, the free opening gradually increases in accord- ]ance with the taper of the metering pin,
  • valve 54 When suction is applied to the opening 5 3 (as occurs in starting), the valve 54 being open, a very rich mixture, due tothe admission of air through an opening 58 into the passage 52, is supplied. though the valve 54 might be operated informer longitudinally to receive the latter andmby providing the lever with a surface 59 that strikes the end wall 60 of the-slot ta draw the valve open as' the lever approaches'the limit of'its movement in de- 62 for the valve guiding pressingthe metering pm.
  • a spring 61 interposed between the valve 5% and a plug boss 63 ordinarily holds the valve to its seat, and the opening 58 supplies sufiicient air to satisfy the suction through the valve due, to leakage,
  • a porcelain or similar sleeve 65 is preferred to line the tube 56 with a porcelain or similar sleeve 65 and to provide in the passageway a .bare resistance coil 66 (which may be grounded to the tube 56 at 67) to :which current is supplied through the plug 68, wire 69 and insulated contact 70 (carried by the lever 48) when the latter strikes the contact 71 at the endof its counter-clockwise movement- (Fig. '1).
  • the last mentioned contact may be conven iently carried on a lug 72 and is supplied with current .throughthe wire 73.
  • the spring 61 is allowed to throwthe'valve 54 to its seat'and the opening 58 thereupon prevents leakage as heretofore explained.
  • the lever 48' is then properly adjusted and the air valve 21, acting on the fuel pipe, varies the free open-' ing about the metering pin to.suit the de- Because. of the size across. the mixingchamber, together with their arrangement at all times substantially midway in the depth of the air current, a much more-uniform mixture is secured than can be obtained froma single nozzle located centrally in the current.
  • The. device comprises few parts and is compact and readily constructed.
  • I have described what I regard as the most desirable embodiment of the invention, but I am aware that the. details may be changed within considerable limits. I do not, therefore, wish to be limited except as indicated by the subjoined claims.
  • a carburetor comprising a mixing chamber, a fuel chamber, a suction controlled air valve in the mixing chamber, said air valvehaving a rear end and a forward end and being pivoted near its rear end, and a fuel pipe connected to the air valve to be moved thereby. and having a nozzle extending laterally therefrom toward the forward end of the air valve, said nozzle being constructed and arran ed to deliver fuel from the fuel chamber su stan tially midway in the air current between the forward end of the air valve and the adjacent wall of the mixing chamber at all positions of the air valve.
  • A- carburetor comprising an air passage, a suction controlled air valve therein, said valve being'pivoted near 1ts rear end,
  • a carburetor including an air passage
  • a carburetor comprising a mixing chamber, a fuel chamber, a suction-controlled air valve in the mixing chamber, said air valve having a rear end and a forward endand being pivoted near its rear swing about a substantially horizontal pivot near one end thereof, and a fuel pipe hung from the air valve at a point half-way between the pivot and the free end of the valve and having a nozzle provided with a discharge orifice. at the free end of the valve.
  • 69A carburetor comprising a float chamber, an air passage, a suction controlled air valve therein, a fuel pipe carried by the air valve and depending into the float chamber, a diaphragm secured to the fuel pipe below the level of the fuel, a metering pin associated with the fuel pipe, and means entering the float-chamber above the level of the fuel and .passing through the diaphragm for manipulating the pin to vary the opening through the fuel pipe at will.
  • a carburetor the combination of a fuel chamber and a mixing chamberabove the -fuel chamber, a throttle valve controlling the passage of air through the mixing chamber, a fuel pipe extending from the fuel chamber to the mixing chamber, an independent passage extending from the fuel chamber to the discharge end of the mixing chamber, a heating coil in said passage submerged in the fuel, a fuel valve to close-said passage, electric connections for said coil, and means to operate the fuel valve and to close the circuit to said coil to cause additional heated fuel to flow to the discharge end of the mixing chamber when desired.
  • a carburetor having a float chamber and an air passage, a fuel pipe extending till pin, said member having ahead projecting from the chamber, a spring tending to project the head from the chamber, and a manually operated lever coacting with the head to lower the meteringpin.
  • a carburetor COIDPIISlIIg a suction controlled fuel pipe, a metering pin therefor, manually operable means for movin the pin, a normally closed starter valve, anc means controlled by the manually operable means as it approaches the limit of its movement in one direction'for opening the starter valve.
  • a carburetor comprising'a main fuel pipe, regulating means for the pipe, said merged-in the fuel,
  • valve being operablethe circuit through the coil as the lever approaches the limit of its movement in the direction stated.
  • a carburetor In a carburetor, the combination of a fuel chamber and a mixing chamber above the fuel chamber, a throttle valve controlling the passage of air through the mixing chamber, a fuel pipe extending from the fuel chamber. to the mixing chamber, an independent passage extendin chamber to the discharge ent of the mixing chamber, a heating coil in said passage suba fuel valve to close said said" coil,

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of The Air-Fuel Ratio Of Carburetors (AREA)

Description

Apr. 3, 1923. ]1,450,762
(3. E. SUMMERS CARBURETOR Filed Aug. 6, 1917 ik i be 1 g fi'wleh f, @umwers,
V Patented Apr. 3, 1923.
inseam au o sures rare 'w ma E. SUMMERS, OF DETROIT, MICHIGAN, ASSIGNOR TO MASTER CARBURET-ER CORPORATION, 015 DETROIT, MICHIGAN, A CORPORATION OF DELAWARE.
CARBURETOR.
Application filed August'6, 1917. Serial No. 184,586.
To all whom it may concern:
Be it known that I. CALEB E. SUMMERS, a citizen of the United States, and residing at Detroit, in the county of Wayne and State of Michigan, have invented a new and Improved Carburetor, of which the following is a specification. he present invention relates to carburetors, its object being to provide a device of this nature which may be readily manufactured and which is capable of operating economically under a wide range of conditions.
Among its important features are a suction controlled air valve formed of a single pivoted member, and a movable jet actuated thereby in such manner that its fuel orifices" are maintained substantially centrally in the air current whereby the air and fuel are intimately and uniformly commingled; a suction controlled air valve arranged to raise and lower a movable jet, together with a metering pin associated with the jet and a manually operated lever for operating the pin against the force of a spring to change the fuel mixture at will; a fuel jet arranged to be raised and lowered by a suction controlled air valve and having a'diaphragm movable in the float chamber for retarding the movements of the jet and preventing fluttering of the air valve ,an additional fuel supplying means arranged to be operable at will upon starting by the same means which lowers the metering piii; means for reliey; ing the valve of the additional fuel supplying means of suction whereby leakage is prevented under normal running conditions and means, controlled by the common leve of the metering pin and the starting jet con trolling means, for heating the starting fuel. The invention further consists in the details of construction shown, describedand claimed.
In the drawings, Fig. 1 is a side'view, parts being broken away, showing a preferred embodiment of the invention. Fig. 2 is a section on the line 22 of Fig. 1. Fig. 3 is a section on the line 33 of Fig. 2. Fig. 4 is a perspective of the delivery end of the fuel nozzle. j
1 indicates a cup-shaped float chamber to which fuel is supplied by means of the fitting 2, passage 3 in the float chamber top 5,
10, substantially rectangular in cross-section for the most part and provided with a cover ll'which is held in place by screws 12 for affording ready access to the interior. The rectangular portion of the mixing chamber preferably merges at one end into the cylindrical neck 13 having a flange or ears 14 for attachment to the manifold; at its opposite or intake end the walls of the air passage may be perforated at 1 1 and provided with a set screw 15 whereby a pipe (not shown) for supplying heated airv may be fastened. A manually actuated butterfly throttle valve 16 in the neck 13 of the mixing chamber controls the flow of fuel mixture in the usual way.
Extending across the upper rear corner portion of the mixing chamber is a pivot 20 on which is mounted a suction controlled air valve 21 formed of a single piece of sheet metal having its central portion 22 struck upwardly to form a pocket between the end walls 23 of which a fuel pipe 24 is hung on a trunnion or pivot 25. It will be seen that the pipe passes downwardly into the float chamber through a hole 26 of somewhat greater diameter than the pipe, and that a washer 28, although allowin the necessary f reedom of movement, seals the passage to prwit undesirableeaporation. The trunnion being above the plane of the valve rises almost vertically as the latter opens, thus avoiding any great amount of movement of the pipe longitudinally of the air passage. Over the float chamber, the cover 5 is also preferably inclined upwardly and forwardly in the direction of the flow of air as indicated at 29 to a point some distance beyond the pipe, and the latter has aT-shaped delivery nozzle 30 which extends forwardly to the apex of the incline and has its tubular head or cross bar provided with a number of orifices 31 distributed across the air passage from side to side. In the embodiment shown, the forward end of the air valve rests on the delivery end of the nozzle. Assuming that the distance from the pivot 20 to the pivot 25 is approximately the same as that from the latter to the holes 3i, it will be seen that as the valve is swung open by the suction of the engine the holes 31 will be maintained substantially in the middle of the current of air, and that the'valve 21 and wall 29 will direct the air in a converging stream past the fuel orifices.
The lower end of the fuel pipe is bored out to form a valve seat 33, and opens latdetermines the free opening through the diaphragm and a bracket 43 letter. At its lower end the pin 39-40 is fixed by an arm 41 to an actuating rod 42, and the latter passes upwardly through the and has its head 44 projecting from the float chamber cover. A spring 45 suffices to hold the metering pin against the seat when the fuel pipe is in lowermost position. Therefore, as the fuel pipe rises and increases the head against which the fuel must be lifted, the free opening gradually increases in accord- ]ance with the taper of the metering pin,
and fuel is supplied in quantities sufficient to meet the normal demands of the engine. Should it be desired,'however, to increase the flow. itis only necessary to pull on the control rod or wire 46 which is fastened to the end of a lever 4:8,,pivoted at 49 and having a projection or arm 50 bearingon the head thereby depressing the metering pin in respect to its seat.
It is desirable to supply a rich mixture, over and beyond that due'to the main fuelpipe, for starting purposes, and a passage 52, opening into the mixture passage at a point 53 beyond the throttle valve is therefore formed in the wall of the mixing chamber.
This passage forms a seat for the valve 54' and communicates. when the latter is open,
vwith the passage 55 and depending tube 5 the end of which dips intothe liquid fuel. When suction is applied to the opening 5 3 (as occurs in starting), the valve 54 being open, a very rich mixture, due tothe admission of air through an opening 58 into the passage 52, is supplied. though the valve 54 might be operated informer longitudinally to receive the latter andmby providing the lever with a surface 59 that strikes the end wall 60 of the-slot ta draw the valve open as' the lever approaches'the limit of'its movement in de- 62 for the valve guiding pressingthe metering pm. A spring 61 interposed between the valve 5% and a plug boss 63 ordinarily holds the valve to its seat, and the opening 58 supplies sufiicient air to satisfy the suction through the valve due, to leakage,
and thereby prevents leakage of fuel during the normal operation of the engine.
In order to heat the fuel for starting, it
is preferred to line the tube 56 with a porcelain or similar sleeve 65 and to provide in the passageway a .bare resistance coil 66 (which may be grounded to the tube 56 at 67) to :which current is supplied through the plug 68, wire 69 and insulated contact 70 (carried by the lever 48) when the latter strikes the contact 71 at the endof its counter-clockwise movement- (Fig. '1). The last mentioned contact may be conven iently carried on a lug 72 and is supplied with current .throughthe wire 73. I
It may be desirable for purposes of acceleration and economy, to in some instances slot the neck 13 longitudinally just back of the closed position of the throttle valve as indicated at 75, and to supply the fuel'pipe with a larger free opening past the metering pin than would otherwise be used. Should the throttle valve in this case be suddenlyopened, an overly rich mixture, suitable for acceleration, will be suppliedvery little air then entering the slot, but on the other hand the throttle valve, when close to the slot 75, applies the suction effectively to the latter to draw in an amount of a1r which increases during the early part of the movement of the valve,
and which is sufficient to render the resulting mixture lean enough for economy.-
v.Vere no means provided to prevent it the diaphragm might cause the fuel pipe to settle too slowly when the throttle valve Hear/Tear 0 f operation.
Upon starting, the lever 48 is drawn over to the limit of its movement, thus depressing the metering pin 'and opening a free passage through the fuel pipe and at the same time striking the end 'wall 60 of the slot in the valve 54 and opening the passage mixed with air from the opening 58, is delivered, When the coil 66 is present this mixture is of course heated. As soon as.
the engine is started, the spring 61 is allowed to throwthe'valve 54 to its seat'and the opening 58 thereupon prevents leakage as heretofore explained. The lever 48' is then properly adjusted and the air valve 21, acting on the fuel pipe, varies the free open-' ing about the metering pin to.suit the de- Because. of the size across. the mixingchamber, together with their arrangement at all times substantially midway in the depth of the air current, a much more-uniform mixture is secured than can be obtained froma single nozzle located centrally in the current.
The. device comprises few parts and is compact and readily constructed. In ac- 'cordance with the patent statutes, I have described what I regard as the most desirable embodiment of the invention, but I am aware that the. details may be changed within considerable limits. I do not, therefore, wish to be limited except as indicated by the subjoined claims.
I claim 1. A carburetor comprising a mixing chamber, a fuel chamber, a suction controlled air valve in the mixing chamber, said air valvehaving a rear end and a forward end and being pivoted near its rear end, anda fuel pipe connected to the air valve to be moved thereby. and having a nozzle extending laterally therefrom toward the forward end of the air valve, said nozzle being constructed and arran ed to deliver fuel from the fuel chamber su stan tially midway in the air current between the forward end of the air valve and the adjacent wall of the mixing chamber at all positions of the air valve.
2. A- carburetor comprising an air passage, a suction controlled air valve therein, said valve being'pivoted near 1ts rear end,
a fuel pipe operably connected to the valve 'near the mid-point in the length of the latter and having a nozzle portion extending into proximity to the free end of the valve, whereby the fuel delivery end of the nozzle is maintained substantially half way from the 1free end of the air valve to the adjacent wal 3. A carburetor including an air passage,
intervals substantially entirely across the width thereof.
4. A carburetor comprising a mixing chamber, a fuel chamber, a suction-controlled air valve in the mixing chamber, said air valve having a rear end and a forward endand being pivoted near its rear swing about a substantially horizontal pivot near one end thereof, and a fuel pipe hung from the air valve at a point half-way between the pivot and the free end of the valve and having a nozzle provided with a discharge orifice. at the free end of the valve.
69A carburetor comprising a float chamber, an air passage, a suction controlled air valve therein, a fuel pipe carried by the air valve and depending into the float chamber, a diaphragm secured to the fuel pipe below the level of the fuel, a metering pin associated with the fuel pipe, and means entering the float-chamber above the level of the fuel and .passing through the diaphragm for manipulating the pin to vary the opening through the fuel pipe at will.
7. In acarburetor, an air passage, a suction control air valve therein pivoted to swing about a horizontal axis near its rear end, an intermediate portion of the valve being pressed upwardly to form a pocket, and a fuel pipe hung from the walls of said pocket.
8. In a carburetor, the combination of a fuel chamber and a mixing chamberabove the -fuel chamber, a throttle valve controlling the passage of air through the mixing chamber, a fuel pipe extending from the fuel chamber to the mixing chamber, an independent passage extending from the fuel chamber to the discharge end of the mixing chamber, a heating coil in said passage submerged in the fuel, a fuel valve to close-said passage, electric connections for said coil, and means to operate the fuel valve and to close the circuit to said coil to cause additional heated fuel to flow to the discharge end of the mixing chamber when desired.
9. A carburetor having a float chamber and an air passage, a fuel pipe extending till pin, said member having ahead projecting from the chamber, a spring tending to project the head from the chamber, and a manually operated lever coacting with the head to lower the meteringpin.
10. A carburetor COIDPIISlIIg a suction controlled fuel pipe, a metering pin therefor, manually operable means for movin the pin, a normally closed starter valve, anc means controlled by the manually operable means as it approaches the limit of its movement in one direction'for opening the starter valve.
11. A carburetor .comprising'a main fuel pipe, regulating means for the pipe, said merged-in the fuel,
said valve being operablethe circuit through the coil as the lever approaches the limit of its movement in the direction stated. I
12. In a carburetor, the combination of a fuel chamber and a mixing chamber above the fuel chamber, a throttle valve controlling the passage of air through the mixing chamber, a fuel pipe extending from the fuel chamber. to the mixing chamber, an independent passage extendin chamber to the discharge ent of the mixing chamber, a heating coil in said passage suba fuel valve to close said said" coil,
passage, electric connections for and means to operate the fuel valve and ,to.
close the circuit to said coil to cause additional heated fuel to flow to the discharge end of the mixing chamber when desired, said independent let above the fuel level to limit the flow of fuel through the assglge.
AL B E. SUMMERS.
from the. fuel passage having an air in-'
US184586A 1917-08-06 1917-08-06 Carburetor Expired - Lifetime US1450762A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1981002913A1 (en) * 1980-03-31 1981-10-15 M Showalter Analog carburetor
US4318868A (en) * 1980-03-31 1982-03-09 Automotive Engine Associates Analog carburetor
US4530805A (en) * 1980-12-10 1985-07-23 Abbey Harold Flow regulating carburetors
US4655976A (en) * 1977-12-27 1987-04-07 Buttner Horace Judson Carburetor components and carburetor

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4655976A (en) * 1977-12-27 1987-04-07 Buttner Horace Judson Carburetor components and carburetor
WO1981002913A1 (en) * 1980-03-31 1981-10-15 M Showalter Analog carburetor
US4318868A (en) * 1980-03-31 1982-03-09 Automotive Engine Associates Analog carburetor
US4530805A (en) * 1980-12-10 1985-07-23 Abbey Harold Flow regulating carburetors

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