US2929333A - Fuel pump with pulsator - Google Patents

Fuel pump with pulsator Download PDF

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US2929333A
US2929333A US462982A US46298254A US2929333A US 2929333 A US2929333 A US 2929333A US 462982 A US462982 A US 462982A US 46298254 A US46298254 A US 46298254A US 2929333 A US2929333 A US 2929333A
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chamber
pump
pulsator
diaphragm
main body
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US462982A
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Gordon W Harry
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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
    • F02M1/00Carburettors with means for facilitating engine's starting or its idling below operational temperatures
    • 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
    • F02M2700/43Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel
    • F02M2700/4302Arrangements for supplying air, fuel or auxiliary fluids to a combustion space of mixture compressing engines working with liquid fuel whereby air and fuel are sucked into the mixture conduit
    • F02M2700/438Supply of liquid to a carburettor reservoir with limitation of the liquid level; Aerating devices; Mounting of fuel filters
    • F02M2700/4388Supply of liquid to a carburettor reservoir with limitation of the liquid level; Aerating devices; Mounting of fuel filters with fuel displacement by a pump
    • F02M2700/439Supply of liquid to a carburettor reservoir with limitation of the liquid level; Aerating devices; Mounting of fuel filters with fuel displacement by a pump the pump being a membrane pump

Definitions

  • This invention relates to pumps and more particularly to fuel pumps for internal combustion engines.
  • An object of the invention is to provide a simplified fuel pump employing a pulsator to stabilize the'pump discharge.
  • Another object of the invention is to provide a iiuid pump having a pulsator and which is of compact construction.
  • a feature of the invention resides in a main pump body having three chambers arranged in series with a pulsator diaphragm forming the Wall of one of ysaid chambers and a recessed cover holding the diaphragm in place.
  • Another feature is a main fuel pump body having an annular chamber forming a portion of a passage through which iiuid is caused to iiowv and Ia pulsator diaphragm associated with or partially defining said annular chamber and held in place by means of a cover attached to the main body by means of a centrally located fastening.
  • Another feature of the invention is an improved pulsator pump having three chambers arranged in series and one of these chambers being the smallest and having a shield therein for creating an air chamber to supplement the stabilizing effect of the pulsator on the fluid flow.
  • Another feature is an improved pulsator pump having a small inlet chamber in which a filtering device is provided for removing impurities from the fiuid.
  • Fig. 1 is a sectional elevational view of bodying features of the present invention
  • Fig. 2 is a plan view of the pump shown in Fig. l with portions broken away to show the details of construction;
  • Fig. 3 is a sectional view taken along the line 3 3 of Fig. 1 and looking in the Idirection of the arrows;
  • Fig. 4 is an enlarged view of a portion of the structure shown in Fig. l with an additional detail;
  • Fig. 5 is similar to that of Fig. 4 showing an alternative detail
  • Fig. 6 is a plan View similar to that of Fig. 2 but showing a different embodiment and with theV cover removed.
  • the pump illustrated in Fig. l of the drawings comprises a main body 10 having a threaded inlet 12 and a threaded outlet 14 communicating with inlet and outlet chambers 16 and 18, respectively.
  • the outlet chamber 18 is annular in form as it extends above and by the chamber 16 which is the smallest chamber of the pump.
  • the chamber 18, however, is substantially U-shaped except for a reduced or restricted portion 20 which is separated from the chamber 16 by la thin wall or partition 21.
  • Chamber 24 is a pumping chamber which communicates with the chambers 16 and 1s by means Qt ports 2,6 'and 28, respectively. These a pump emports are controlled by conventional one-Way valves 30 and 32 which are fixed in position in the ports and held there by upsetting the metal at spaced points 38 in the body 10 as seen in Fig. 3. Sealing washers 29 and 31 are employed against which the valves are seated.
  • the pumping chamber 24 is partially defined by a pumping diaphragm 40, the margin of which is clamped between a lower body portion 42 and the main body 10 of the pump.
  • the central portion of the diaphragm 40 is clamped between two discs 44 and ⁇ 46 which are held together by means of the threaded portion 48 ofv a vertical shaft 50.
  • a nut 52 and suitable washers 54 act to hold the two discs 44 and 46 in clamping relation and with respect to a shoulder 56 on the shaft 50.
  • a charnber 60 is formed in the lower body 42 to accommodate the disc 46 and a helical spring 62. The latter is relied upon to move the diaphragm 40 upwardly or during its pumping stroke.
  • a lever 64 Loosely connected to the lower end of the shaft 50 is one end of a lever 64. This lever is pivoted to a shaft 66 mounted in the sides of the body 4,2.
  • a second lever 70 is pivoted on the shaft 66 and hasy an arm 72 adapted to bear on the upper surface of the lever 64 and a second arm 74 having a protuberance 76 directed toward the shaft 50.
  • a spring 80 is centered on the protuberance 76 and also on a protuberance 82 formed'on the body 42. The spring 80 serves resiliently to press the free end of the lever 70 against a cam 84 which is adapted to be rotated by a cam shaft 86 which is part of the internal combustion engine to be served by the pump.
  • the main body 10 is held to the outer iiange of the lower body portion 42 by means of bolts 90 which pass down through the main body 10 and 4are threaded into the lower body portion 42.
  • a pulsator diaphragm 92 which is placed on the top concentric surfaces of the main body 10. These Surfaces comprise an annular surface 94 and a central surface 96.
  • a cap 9S is located over the diaphragm 92 land is formed with an annular recess which corresponds in contour with the annular contour of the chamber 18.
  • a screw 102 serves to hold the cap and diaphragm in assembled relation with the main body 10, the screw passing through central portions of the cap and therdiaphragm and being threaded into the central portion 106 of the body.
  • Fig. 4 the structure is the same as that shown in Fig. l, but in this case the chamber 16 is provided with a device for trapping a small quantity of air.
  • the outlet port 26 is fitted with a one-way valve 122 and a sealing washer 123.
  • a shoulder 124 is so formed on the body 10 as to constitute an annular seat for the washer 123.
  • interposed Ibetween the lsealing washer andthe Valve 122 is an annular flange I126 of an upwardly directed and tubular shield 128.
  • shield is of such size that there is an annular space around it and that clearance is provided between the wall 21 and the open end of the shield.
  • Fig. 5 shows essentially the same structure as is shown in Fig. 4, but -in this case the main body 129 is slightly altered, the tubular shield 128 is omitted and a tubular filter or screen member 130 is substituted.
  • a cylindrical protuberance 132 is integrally formed on the upper wall of the inlet chamber 134.
  • a sealing washer 135 is interposed between the valve 122 and the body 129. The arrangement in this case is such that uid entering at the threaded Connection 136l will surround and penetrate the tubular filter 130 on its way Vto discharge through the valve 122 to the pumping chamber 138.
  • a reduced portion 139 of the outlet chamber separates the diaphragm 92 from the upper wall of the inlet chamber.
  • a larger pump is depicted which utilizes a greater number of bolts 140 for holding a pump main body 142. to a lower body, not shown, but similar to that illustrated in Fig. 1.
  • a screw 102 is used to hold a recessed cap (not shown) down and in contact with a pulsator diaphragm covering an annular chamber 156 which is generally of U-shaped construction and extends substantially around the central portion 144 of the body 10.
  • an inlet port 150 which communicates with an inlet chamber 1S2' is arcuately spaced only a short distance from an outlet port 154 communicating with Ythe outlet chamber 156.
  • the diaphragms 40 and 92 are made from resin impregnated fibrous material as commonly used in pumps of this type.
  • the inlet 12 and outlet 14 communicate with the chambers 16 and 18 at points intermediate the heights of the latter.
  • air pockets are formed in the upper portions of the chambers 16 and 118. The trapped air assists or supplements the stabilizing action of the pulsator diaphragm.
  • the filter or screen member 130 is so placed as to prevent foreign matter from Ventering the inlet valve 122 and other parts of the pump, fuel line or carburetor.
  • the illustration clearly shows the extent of the arcuate or U-shapedchamber 156 in which the discharge port 154 may be located to suit a given installation. This is a great convenience in many cases where the conduits to be connected to the pump may come from almost any direction. It will be noted that the portion of the chamber 156 which is of substantial depth is such as to extend around the central portion 106 except for the thin wall portion 160 in which the inlet 150 to the chamber 152 is formed.
  • V The relative angular positioning of the ports 150 and 154 is limited or determined only by the size or angular extent of the chamber 156.
  • a fuel pump comprising a main body with a ow passage extending through the latter, said ow passage comprising a rst chamber, a ypumping chamber and an annular second chamber of irregular configuration connected in that order, said second chamber overlying said rst chamber, a pumping diaphragm partially delining said pumping chamber, one-way valves in said main body and arranged tocontrol flow through the said flow passage into and away from said pumping chamber, a yieldable pulsator diaphragm forming a wall of said second chamber, a cover fixed to said main body and defining-an annular dead air space at one side of said pulsator diaphragm, and means for actuating said pumping diaphragm.
  • a pump having a main body formed with a ow passage leading therethrough and including an inlet chamber, a pumping chamber and an outlet chamber connected in that order by ports, said outlet chamber being larger than said inlet chamber and overlying the latter, a cap iixed to said main body and having a recess facing the latter, a pulsator diaphragm of yieldable material interposed between said main body and cap and sealing and partially defining said outlet chamber and said recess, pressure actuated one-way valves arranged to control said ports, and reciprocable means insaid pump for effecting pressure surges in said pumping chamber and a consequent flow through said pump.
  • a pump having a main body with a flow passage therein comprising a small chamber, a pumping chamber, and a larger chamber overlying said pumping chamber, one-way valved ports connecting the latter to the said small and larger chambers, said small chamber being between a portion of said larger chamber and said pumping chamber, a cover fixed to said main body and having a recess in substantial registry with said larger chamber, a yieldable pulsator diaphragm interposed between said cover and main body and sealing said larger chamber and recess, means extending through the said cover and pulsator diaphragm and retaining the latter in position on said main body, and means for eiecting pressure surges in said pumping chamber and a consequent ow through said ow passage while subject to the pressure modulating action of said yieldable pulsator diaphragm.
  • a fuel pump of ⁇ the diaphragm type including a main body with a continuous ow passage leading therethrough, said passage constituting inlet and outlet ports in the outside wall of said main body, a large chamber, a pumping chamber and a smaller chamber, ports with one-way valves connecting said pumping chamber to said large and smaller chambers, said large chamber having a portion overlying said smaller chamber, a cover overlying said large chamber, an annular recess in said cover substantially in registry with said large chamber, a yieldable diaphragm interposed between said main body and cover and sealing said annular recess and large chamber, a pumping diaphragm closing said pumping chamber, and means for actuating said pumping diaphragm.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Reciprocating Pumps (AREA)

Description

March 22, 1960 G. w. HARRY 2,929,333
FUEL PUMP WITH PULSATOR Filed Oct. 18, 1954 2 Sheets-Sheet 1v BY i.
ATTORNEY G. w. HARRY FUEL PUMP WITH PULSATOR March 22, 1960 2 Sheets-Sheet 2 Filed Oct. 18, 1954 ATTODN EY United States Patent- 2,929,333 FUEL PUMP WITH PULSATOR Gordon W. Harry, Flushing, Mich., assignor to General Motors Corporation, Detroit, Mich., a corporation of Delaware Application October 18, 1,954, Serial No. 462,982
4 Claims. (Cl. 10S-150) This invention relates to pumps and more particularly to fuel pumps for internal combustion engines. i
An object of the invention is to provide a simplified fuel pump employing a pulsator to stabilize the'pump discharge.
Another object of the invention is to provide a iiuid pump having a pulsator and which is of compact construction.
A feature of the invention resides in a main pump body having three chambers arranged in series with a pulsator diaphragm forming the Wall of one of ysaid chambers and a recessed cover holding the diaphragm in place.
Another feature is a main fuel pump body having an annular chamber forming a portion of a passage through which iiuid is caused to iiowv and Ia pulsator diaphragm associated with or partially defining said annular chamber and held in place by means of a cover attached to the main body by means of a centrally located fastening.
Another feature of the invention is an improved pulsator pump having three chambers arranged in series and one of these chambers being the smallest and having a shield therein for creating an air chamber to supplement the stabilizing effect of the pulsator on the fluid flow.
Another feature is an improved pulsator pump having a small inlet chamber in which a filtering device is provided for removing impurities from the fiuid.
These and otherA important features of the invention will now be described in detail in the specification and then pointed out more particularly in the appended claims.
In the drawings:
Fig. 1 is a sectional elevational view of bodying features of the present invention;
Fig. 2 is a plan view of the pump shown in Fig. l with portions broken away to show the details of construction;
Fig. 3 is a sectional view taken along the line 3 3 of Fig. 1 and looking in the Idirection of the arrows;
Fig. 4 is an enlarged view of a portion of the structure shown in Fig. l with an additional detail;
Fig. 5 is similar to that of Fig. 4 showing an alternative detail; and
Fig. 6 is a plan View similar to that of Fig. 2 but showing a different embodiment and with theV cover removed.
The pump illustrated in Fig. l of the drawings comprises a main body 10 having a threaded inlet 12 and a threaded outlet 14 communicating with inlet and outlet chambers 16 and 18, respectively. It will -be noted that the outlet chamber 18 is annular in form as it extends above and by the chamber 16 which is the smallest chamber of the pump. The chamber 18, however, is substantially U-shaped except for a reduced or restricted portion 20 which is separated from the chamber 16 by la thin wall or partition 21.
Beneath chambers 16 and 18 and formed in the body 10 is a third chamber 24. Chamber 24 is a pumping chamber which communicates with the chambers 16 and 1s by means Qt ports 2,6 'and 28, respectively. These a pump emports are controlled by conventional one-Way valves 30 and 32 which are fixed in position in the ports and held there by upsetting the metal at spaced points 38 in the body 10 as seen in Fig. 3. Sealing washers 29 and 31 are employed against which the valves are seated.
The pumping chamber 24 is partially defined by a pumping diaphragm 40, the margin of which is clamped between a lower body portion 42 and the main body 10 of the pump. The central portion of the diaphragm 40 is clamped between two discs 44 and `46 which are held together by means of the threaded portion 48 ofv a vertical shaft 50. A nut 52 and suitable washers 54 act to hold the two discs 44 and 46 in clamping relation and with respect to a shoulder 56 on the shaft 50. A charnber 60 is formed in the lower body 42 to accommodate the disc 46 and a helical spring 62. The latter is relied upon to move the diaphragm 40 upwardly or during its pumping stroke. Loosely connected to the lower end of the shaft 50 is one end of a lever 64. This lever is pivoted to a shaft 66 mounted in the sides of the body 4,2. A second lever 70 is pivoted on the shaft 66 and hasy an arm 72 adapted to bear on the upper surface of the lever 64 and a second arm 74 having a protuberance 76 directed toward the shaft 50. A spring 80 is centered on the protuberance 76 and also on a protuberance 82 formed'on the body 42. The spring 80 serves resiliently to press the free end of the lever 70 against a cam 84 which is adapted to be rotated by a cam shaft 86 which is part of the internal combustion engine to be served by the pump. As the cam 84 rotates, the springs 62 and 80 cooperate therewith so that the dia-A phragm 40 is flexed upwardly and then downwardly to cause the pumping action or pressure pulsation of each operative pump cycle in the fluid ybeing pumped. The detail-s of the pump mechanism within the lower body portion 42 need not be further described herein as they are conventional.
The main body 10 is held to the outer iiange of the lower body portion 42 by means of bolts 90 which pass down through the main body 10 and 4are threaded into the lower body portion 42.
Enclosing the annular substantially U-shaped chamber 18 Iis a pulsator diaphragm 92 which is placed on the top concentric surfaces of the main body 10. These Surfaces comprise an annular surface 94 and a central surface 96. A cap 9S is located over the diaphragm 92 land is formed with an annular recess which corresponds in contour with the annular contour of the chamber 18. A screw 102, with the aid of a washer 104, serves to hold the cap and diaphragm in assembled relation with the main body 10, the screw passing through central portions of the cap and therdiaphragm and being threaded into the central portion 106 of the body.
In Fig. 4 the structure is the same as that shown in Fig. l, but in this case the chamber 16 is provided with a device for trapping a small quantity of air. The outlet port 26 is fitted with a one-way valve 122 and a sealing washer 123. A shoulder 124 is so formed on the body 10 as to constitute an annular seat for the washer 123. interposed Ibetween the lsealing washer andthe Valve 122 is an annular flange I126 of an upwardly directed and tubular shield 128. It will be noted that shield is of such size that there is an annular space around it and that clearance is provided between the wall 21 and the open end of the shield.
Fig. 5 shows essentially the same structure as is shown in Fig. 4, but -in this case the main body 129 is slightly altered, the tubular shield 128 is omitted and a tubular filter or screen member 130 is substituted. In order to insure proper anchoring of the tubular lter 130, a cylindrical protuberance 132 is integrally formed on the upper wall of the inlet chamber 134. A sealing washer 135 is interposed between the valve 122 and the body 129. The arrangement in this case is such that uid entering at the threaded Connection 136l will surround and penetrate the tubular filter 130 on its way Vto discharge through the valve 122 to the pumping chamber 138. A reduced portion 139 of the outlet chamber separates the diaphragm 92 from the upper wall of the inlet chamber.
In the modification shown in Fig. 6 a larger pump is depicted which utilizes a greater number of bolts 140 for holding a pump main body 142. to a lower body, not shown, but similar to that illustrated in Fig. 1. As
in Fig. l, a screw 102 is used to hold a recessed cap (not shown) down and in contact with a pulsator diaphragm covering an annular chamber 156 which is generally of U-shaped construction and extends substantially around the central portion 144 of the body 10. The
main difference between this device as shown in Fig. 5
6 and that shown in the other figures vis that an inlet port 150 which communicates with an inlet chamber 1S2'is arcuately spaced only a short distance from an outlet port 154 communicating with Ythe outlet chamber 156.
The diaphragms 40 and 92 are made from resin impregnated fibrous material as commonly used in pumps of this type.
In the operation of the pump shown in Fig. 1, fuel enters the port 12 and passes through the body 10 by way of the smallest chamber 16, the pumping chamber 24, the larger chamber 18 and the outlet port 14. The pulsations induced by the pumping diaphragm 40 ordinarily would create an uneven discharge of the fuel, but the pulsator diaphragm 92 resiliently yields during that portion of the pumping cycle when the fluid pressure is the highest so that the air entrapped in the recess 100 tends to exert a stabilizing effect on the pump discharge pressure and ow. Y
It will be noted that the inlet 12 and outlet 14 communicate with the chambers 16 and 18 at points intermediate the heights of the latter. When the pump is installed with the cover 98 uppermost, air pockets are formed in the upper portions of the chambers 16 and 118. The trapped air assists or supplements the stabilizing action of the pulsator diaphragm.
In the modification of Fig. 4 the incoming ow of uid to the pump is somewhat stabilized by the distributive action of the sleeve 128. The desired effect of the shield is appreciably increased if the pump is installed for use in the inverted positioni.e. with the cover 98 at the bottom instead of at the top. In such an installation, air will be trapped around the shieldl 128 and adjacent the flange 126. This air will be alternately compressed and relieved by the action of the pump and the force of the air on the fuel will aid -to level ot the surges.
" In the modification of Fig. 5 the filter or screen member 130 is so placed as to prevent foreign matter from Ventering the inlet valve 122 and other parts of the pump, fuel line or carburetor.
v In the modification of Fig. 6 the illustration clearly shows the extent of the arcuate or U-shapedchamber 156 in which the discharge port 154 may be located to suit a given installation. This is a great convenience in many cases where the conduits to be connected to the pump may come from almost any direction. It will be noted that the portion of the chamber 156 which is of substantial depth is such as to extend around the central portion 106 except for the thin wall portion 160 in which the inlet 150 to the chamber 152 is formed.
VThe relative angular positioning of the ports 150 and 154 is limited or determined only by the size or angular extent of the chamber 156.
It will be appreciated that in the modification of either Fig. i or Fig. 6 the direction of fluid ow may be re-v versed by reversing the position of each of the one-way valves. Such reversal is contemplated by the present invention. If chamber 18 is used as the inlet chamber instead of as the outlet chamber and is subjected to the pulsator action of the diaphragm 92, then the capacity of the pump is increased by eliminating surges in the inlet line.
I claim:
y1. A fuel pump comprising a main body with a ow passage extending through the latter, said ow passage comprising a rst chamber, a ypumping chamber and an annular second chamber of irregular configuration connected in that order, said second chamber overlying said rst chamber, a pumping diaphragm partially delining said pumping chamber, one-way valves in said main body and arranged tocontrol flow through the said flow passage into and away from said pumping chamber, a yieldable pulsator diaphragm forming a wall of said second chamber, a cover fixed to said main body and defining-an annular dead air space at one side of said pulsator diaphragm, and means for actuating said pumping diaphragm.
2. `A pump having a main body formed with a ow passage leading therethrough and including an inlet chamber, a pumping chamber and an outlet chamber connected in that order by ports, said outlet chamber being larger than said inlet chamber and overlying the latter, a cap iixed to said main body and having a recess facing the latter, a pulsator diaphragm of yieldable material interposed between said main body and cap and sealing and partially defining said outlet chamber and said recess, pressure actuated one-way valves arranged to control said ports, and reciprocable means insaid pump for effecting pressure surges in said pumping chamber and a consequent flow through said pump.
3. A pump having a main body with a flow passage therein comprising a small chamber, a pumping chamber, and a larger chamber overlying said pumping chamber, one-way valved ports connecting the latter to the said small and larger chambers, said small chamber being between a portion of said larger chamber and said pumping chamber, a cover fixed to said main body and having a recess in substantial registry with said larger chamber, a yieldable pulsator diaphragm interposed between said cover and main body and sealing said larger chamber and recess, means extending through the said cover and pulsator diaphragm and retaining the latter in position on said main body, and means for eiecting pressure surges in said pumping chamber and a consequent ow through said ow passage while subject to the pressure modulating action of said yieldable pulsator diaphragm.
4. A fuel pump of `the diaphragm type including a main body with a continuous ow passage leading therethrough, said passage constituting inlet and outlet ports in the outside wall of said main body, a large chamber, a pumping chamber and a smaller chamber, ports with one-way valves connecting said pumping chamber to said large and smaller chambers, said large chamber having a portion overlying said smaller chamber, a cover overlying said large chamber, an annular recess in said cover substantially in registry with said large chamber, a yieldable diaphragm interposed between said main body and cover and sealing said annular recess and large chamber, a pumping diaphragm closing said pumping chamber, and means for actuating said pumping diaphragm.
References Cited in the file ot this patent UNITED STATES PATENTS 1,796,126 Smith Mar. l0, 1931- l,944,340 Zubaty Jan. 23, 1934 2,308,041 Babitch Jan. 12, 1943 2,625,114 Coffey Ian. 13, 1954 FOREIGN PATENTS 664,235 France Aug. 30, 1.929
US462982A 1954-10-18 1954-10-18 Fuel pump with pulsator Expired - Lifetime US2929333A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3096722A (en) * 1961-08-17 1963-07-09 Acf Ind Inc Fuel pump
US3125033A (en) * 1964-03-17 marye
US3164168A (en) * 1961-07-12 1965-01-05 Acf Ind Inc Combined check valve and strainer unit for fuel pumps
US3252425A (en) * 1963-12-05 1966-05-24 Airtex Prod Valve pulsator diaphragms for fuel pumps
US3803686A (en) * 1969-12-24 1974-04-16 C Phillips Method of manufacturing fuel pumps
US4305702A (en) * 1979-09-17 1981-12-15 Hartley E Dale Pump with expandable chamber
US5094599A (en) * 1988-03-17 1992-03-10 Alfred Teves Gmbh Radial piston pump, in particular for automotive vehicle brake systems with anti-lock control
US20030091440A1 (en) * 2001-11-12 2003-05-15 Patel Anil B. Bilge pump
US6623245B2 (en) 2001-11-26 2003-09-23 Shurflo Pump Manufacturing Company, Inc. Pump and pump control circuit apparatus and method
US20040009075A1 (en) * 2001-11-26 2004-01-15 Meza Humberto V. Pump and pump control circuit apparatus and method

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR664235A (en) * 1928-02-15 1929-08-30 Ac Spark Plug Co Advanced fuel pump
US1796126A (en) * 1928-06-28 1931-03-10 Ac Spark Plug Co Pulsator for fuel pumps
US1944340A (en) * 1928-06-27 1934-01-23 Zubaty Joseph Auxiliary means for fuel pumps
US2308041A (en) * 1939-07-03 1943-01-12 Gen Motors Corp Fuel pump
US2625114A (en) * 1947-02-17 1953-01-13 Carter Carburetor Corp Fuel pump

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR664235A (en) * 1928-02-15 1929-08-30 Ac Spark Plug Co Advanced fuel pump
US1944340A (en) * 1928-06-27 1934-01-23 Zubaty Joseph Auxiliary means for fuel pumps
US1796126A (en) * 1928-06-28 1931-03-10 Ac Spark Plug Co Pulsator for fuel pumps
US2308041A (en) * 1939-07-03 1943-01-12 Gen Motors Corp Fuel pump
US2625114A (en) * 1947-02-17 1953-01-13 Carter Carburetor Corp Fuel pump

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3125033A (en) * 1964-03-17 marye
US3164168A (en) * 1961-07-12 1965-01-05 Acf Ind Inc Combined check valve and strainer unit for fuel pumps
US3096722A (en) * 1961-08-17 1963-07-09 Acf Ind Inc Fuel pump
US3252425A (en) * 1963-12-05 1966-05-24 Airtex Prod Valve pulsator diaphragms for fuel pumps
US3803686A (en) * 1969-12-24 1974-04-16 C Phillips Method of manufacturing fuel pumps
US4305702A (en) * 1979-09-17 1981-12-15 Hartley E Dale Pump with expandable chamber
US5094599A (en) * 1988-03-17 1992-03-10 Alfred Teves Gmbh Radial piston pump, in particular for automotive vehicle brake systems with anti-lock control
US20030091440A1 (en) * 2001-11-12 2003-05-15 Patel Anil B. Bilge pump
US6715994B2 (en) 2001-11-12 2004-04-06 Shurflo Pump Manufacturing Co., Inc. Bilge pump
US20040191090A1 (en) * 2001-11-12 2004-09-30 Shurflo Pump Manufacturing Company, Inc. Bilge pump
US7806664B2 (en) 2001-11-12 2010-10-05 Shurflo, Llc Bilge pump
US6623245B2 (en) 2001-11-26 2003-09-23 Shurflo Pump Manufacturing Company, Inc. Pump and pump control circuit apparatus and method
US20040009075A1 (en) * 2001-11-26 2004-01-15 Meza Humberto V. Pump and pump control circuit apparatus and method
US7083392B2 (en) 2001-11-26 2006-08-01 Shurflo Pump Manufacturing Company, Inc. Pump and pump control circuit apparatus and method

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