US1907673A - Fuel pump - Google Patents

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US1907673A
US1907673A US544101A US54410131A US1907673A US 1907673 A US1907673 A US 1907673A US 544101 A US544101 A US 544101A US 54410131 A US54410131 A US 54410131A US 1907673 A US1907673 A US 1907673A
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lever
casing
diaphragm
cam
pump
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US544101A
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Edward A Rockwell
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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
    • F02M37/00Apparatus or systems for feeding liquid fuel from storage containers to carburettors or fuel-injection apparatus; Arrangements for purifying liquid fuel specially adapted for, or arranged on, internal-combustion engines
    • F02M37/04Feeding by means of driven 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
    • F02M59/00Pumps specially adapted for fuel-injection and not provided for in groups F02M39/00 -F02M57/00, e.g. rotary cylinder-block type of pumps
    • F02M59/12Pumps specially adapted for fuel-injection and not provided for in groups F02M39/00 -F02M57/00, e.g. rotary cylinder-block type of pumps having other positive-displacement pumping elements, e.g. rotary
    • F02M59/14Pumps specially adapted for fuel-injection and not provided for in groups F02M39/00 -F02M57/00, e.g. rotary cylinder-block type of pumps having other positive-displacement pumping elements, e.g. rotary of elastic-wall type
    • 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
    • F02M2700/1317Fuel pumpo for internal combustion engines
    • F02M2700/1323Controlled diaphragm type fuel pump
    • 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
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/20Control lever and linkage systems
    • Y10T74/20576Elements
    • Y10T74/20582Levers
    • 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
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/21Elements
    • Y10T74/2101Cams
    • Y10T74/2107Follower

Definitions

  • This invent-ion relates to improvements in actuating means for fuel pumps of the type in which the pumping diaphragm may have a resiliently variable discharge stroke in accordance with the delivery pressure.
  • Figure 1 is a vertical section ofa fuel pump showing an improved form of actuating means
  • Figure 2 is a partial vertical section showing a modified construction of the actuating means
  • Figure 3 is a partial vertical section of a fuel pump illustrating an additional modi
  • Figure 4 is a partial vertical section similar vto Figure 3 showing a still further modiv plane indicated 5-5 in Figure 3, 'showing 1931. Serial No. 544,101.
  • Figure 6 is a partial plan view illustrating the manner in which the lever is ported from the fixed pivot.
  • the pump casing in the usual manner consists of a pair of upper and lower casing parts 10 and 12 which serve to clamp therebetween a pumping diaphragm 14.
  • the casing parts are securedby a screw bolt 16.
  • the pumping diaphragm on its upper side, cooperates with a pumping chamber 18 into which extends an intake passageway 20 provided with a springpressed inlet check Valve 22 'and leading from a fuel receiving and sediment trap- Jing chamber 24.
  • the chamber 24 is included within the removable bowl 26.
  • the inlet pipe connection is made at 28 communieating with a passage 30 which leads into the chamber 24.
  • the fuel flowing upward into the intake passage 20 past the inlet 'check valve is filtered by the filter screen 32.
  • the fuel is delivered from the pumping chamber through the vertical out-let passageway 34 provided with a spring-pressed outlet check valve 36.
  • the outlet pipe connection is made at 38 in communication with the vertical -passageway 34 above the outlet check valve.
  • the stem 46 has a hollow portion for receiving a compression spring 50 ⁇ held at its lower end by an adjustable threaded' plug 52 which screws into a boss 54 of the lower casing part and is provided with a lock nut 56.
  • the spring 50 normally acts to produce the discharge stroke of the pumping diai 'y .pivot 58 and the yoke-shaped end 64.
  • operating lever 70 has one end connected to the movable pivot 68 and is formed at its other end with a thrust-receiving portion 72 engaging a driving cam' 74 within the usual engine casing.
  • the lever 70 is continuously held in Contact with cam 'Z4-by means of a follower spring 76 which reacts between the closed end of an obliquely disposed spring pocket 7 8 and a boss 80 formed on the lever 70.
  • the lever 7 0 is providedl with an abutment 82 which may be of suitable shock-absorbing material and which normally engages the hub 84 o'f the lever 62.
  • the lever and the lever 62 will tend to rotate as a unit about the fixed'pivot 58 thereby transmitting a positive suction stroke to the pumping diaphragm.
  • the follower spring 76 will act during the passive Spring 50 will cooperate with the follower spring 76 in causing the lever 62 to follow lthe movement of the lever 70.
  • the deliveryT pressure become sufciently high to resist a further expansion of the spring 50, the full delivery stroke of the pumping diaphragm will be prevented and a relative movement will occur between the lever 62 and the lever 72 by reason of their pivotal connection 68.
  • the lever 70 will be moved by the camabout the pivot 68 and the abutment 82, which is carried by the lever 70, moves towards and away from the hub 84 of the lever 62.
  • the abutment 82 is required so that the pumping diaphragm will be positively returned for its suction stroke after each discharge stroke, otherwise the lever 70 might be moved without imparting any movement to the pumping diaphragm.
  • FIG. 2 there is shown the lower part 90 of a pump casing which guides a vertical reciprocable pump stem 92 actuated by a lever 94 which has a yoke-shaped end 96 connected to the yoke-shaped extension 98 of the pump stem and having a thrust rephase of thev cam to return the lever 70 and the dischargev 'abutment 114 carried by the casing part 90 immediately above the pivot 108.
  • the lever 94 During positive movement of the lever 94 by the cam transmitting a positive suction stroke to the lpumping member, the lever will rock on the abutment 114.
  • Figures 3 and 4 illustrate further modifications of the actuating means fora fuel pump in which a single lever extends from the cam tothe pumping member and which is supported from a fixed pivot pin by a link pivoted to the lever.
  • the lever is preferably formed in two pparts which are rigidly fastened together in order to reduce the cost of construction and make it possible to standardize one part while the other may be constructed in different sha es in accordance with the different types o engine upon which the'fuel pump is to be mounted.
  • the lower part of the pump casing is indicated 120 and has a flexible diaphragm 122 secured toits upper side at the marginal edge thereof.
  • the sprmg immediately beneath the diaphragm, as in Figure 2, ⁇ may be eliminated and the casing part brought up close to the diaphragm with only a small annular recess 121.
  • the opening 123 through the casing into communication with the engine casing does not require, in this design, machine bearings since the reciprocable pump stem is eliminated by attaching the lever ldirectly to the diaphragm.
  • To theopposite sides of the diaphragm are attached a pair of conforming disk-members 124-125.
  • the lower disk 125 has a flanged annular portion received in the recess 121 of the casing.
  • the disks are secured to the 'diaphragm by the bolt 126 and nut 127. Between the head of the bolt and the disk 125 is a spacing washer 128, enabling the connection to be tightened but leaving a space into which the end of the lever may be received.
  • the lever is formed in two parts, the in- 'ner part 129 being preferably formed of pressed metal and of standard design for a particular size of pump while the exterior part of the lever 130 may be cast in suitable shape to protrude into the engine casing and engage at the proper point on a driving cam 131.
  • the pressed metal member 129 has a slotted bent end 132 extending beneath the head of the bolt 126 and therebyis freetohave a slight sliding movementI to accommodate for inaccuracies.
  • the other end 133' of the member 129 tits into the slotted end of the" cast member 130.
  • the lever 130 is provided .with an opening extending from the slot to the top of the lever, as indicated at 134 and the end 133 of the member 129 has a similar opening whereby a securing plug 13 5 ⁇ may be forced through the opening 134 1n thel cast lever until it engages the opening 1n the member 129 and holds the member 129 in place.
  • the plug 135 may be preferably component of pressure to the lever causingV of shock-absorbing material for a purpose to be described.
  • the pressedmetal member 129 at its end 133 is slightly wider than the part 130 and the overlapping endsv are swaged upwardly as at 136.
  • the part 130 carries a transverse pivot pin 137 positioned intermediate the ends of the part and slightly in back of the connection between the parts.
  • a pivot pin 138 1s mounted on the casing part 120 and the lever is hung from the fixed pivot 138l through a link 139 which has itsends curled around the4 pivot pins, as at 140.
  • the pivoted'link 139 is substantially H- shaped in pl'an, as seen in Figure 6, 1n order that the portion of the pivot pin 138 between the side portions of the link 139 may engage the shock-absorbing abutment 135.
  • the sides of the member 130 may be slightly recessedas at 141 in Figure 4 so as not to contact with the curled ends of, the pivoted link.
  • a compression spring 142 is mounted between the projection-143 of the part ⁇ 13l and a fixed abutment 144 formed in -the cas-Ad ing.
  • the spring 142 transmits a it to contact at the shock-absorbing abutment with the pivot pin l39 ⁇ and upon movement being imparted'to the lever by the cam, the lever tends to remain in contact with the pivot pin throughout its reciprocable movement until the discharge pressure becomes i excessive whereupon the diaphragm will be prevented from movement andthe lever will be reciprocated about its connection. with the diaphragm and relative lost motion will take place between the ⁇ abutment 135 and pivot pin 138.
  • the construction is vquite similar to Figure 3 except that the abutment 144 for the follower spring, 142" is closer to the axis of the pumping diaphragm to accommodate a ⁇ longer spring.
  • a fuel pump having a pump casing, a flexible pumping diaphragm secured at its marginal edge to said casing, an operating lever supported lwithin said pump casing and having a thrust-receiving arm protruding therefrom, a rotatable cam in thrust engagement with said protruding armof said lever, a follower spring reacting between. said casing and said lever to continuously maintain contact between said cam and lever, a xed pivot in said pump casing, 'a link pivotally connected to said pivot and to said lever, an abutment carried.
  • a fuel pump having a pump casing, a flexible pumping diaphragm secured at its marginal edge to said casing, an operating lever supported within said pump casing and having a thrust-receiving arm protruding therefrom, a rotatable cam in thrust engagement with said protruding arm, a follower spring reacting between said casing and said lever to .continuously maintain contact between said cam and" said lever and to impart movement to said lever in a discharge direction, a motion" transmitting connection between'said lever and said diaphragm, abutment means within said pump casing normall causing said lever to rotate about a fixe pivot, 'said lever being free to move laterally with respect to the fixed pivot when excessive resistance occurs during discharge movement of saiddiaphragm.- l
  • a fuel pump having a pump casing, a flexible pumping diaphragm, an operating lever having a .thrust-receiving portion and a tension transmitting portion, a cam en-l gaging the thrust-receiving portion of said lever to produce movement thereof lin one direction, V ⁇ said tension transmitting portion being connected to said pumping. diaphragm," l
  • a pump casing In a fuel pump, a pump casing, a resupporting link with respect to the pivotal ciprocable ypumping diaphragm marginally 10 connection between said link and lever. secured to said casing, amoton transmitting 75 4.
  • a fuel pump having a pump casing, lever operatively connected to said dia-l a flexible pumping diaphragm, a lever conphragm, a cam acting upon said lever to v nected at one end to the pumping diaphragm impart movement thereto in one direction Y and adapted to be cam-actuated at the other and to transmit a positive suction stroke -to end in one direction, a spring reacting besaid diaphragm, a single compression spring 8 tween the casing and the lever for holding reacting betweenA said casing and said lever c -the lever continously in Contact with the effective to maintain contact b'etween said cam, a fixed pivot in said pump casing, an lever and cam at all times and to impart a abutment carried by said lever normally resilientlyvariable ⁇ discharge stroke to said engaging said fixed pivot and a supporting diaphragm, and a fulcrum for said lever link pivotally connected to said fixed pivot fixed with respect to said cas

Description

May 9, 1933- I `E. A, RocKwELL 1,907,673
FUEL PUMP 2 Shets-Sheet l Filed June 15, 1951 s kIIE,
/ NLG lo JAHWWW% May 9, 1933- E. A. RocKwELl.
FUEL PUMP l Fi1e 1 June 15. 1951 2 sheets-sheet 2 Patented May 9, 1933 UNITED STATES i EDWARD A. ROCKWELL, OF CHICAGO, ILLINOIS rtm1. PUMP 'Application' led June 13,
This invent-ion relates to improvements in actuating means for fuel pumps of the type in which the pumping diaphragm may have a resiliently variable discharge stroke in accordance with the delivery pressure.
It is now common practice to actuate the flexible pumping diaphragm` of the fuel pump through a lever which is continuously held in contact with a driving cam wit-hin o the engine casing and to provide some form provide an improved construction of the 1 actuating means in which the relative moveo ment between the pumping diaphragm and the cam actuated lever is permitted by causing the lever to remain in contact with the cam for movement about a. fulcrum at its connection with' the diaphragm.
It is further an object of the present inventio to provide a. more simplified construction of the operating means which enables a relatively more compact construc-y tion than in present types of fuel pumps.
Further objects and advantages of the present improvements will be more readily apparent from the following description taken in connection with the attached drawings in which several embodiments of the invention are illustrated.
In the drawings: g
Figure 1 is a vertical section ofa fuel pump showing an improved form of actuating means;
Figure 2 is a partial vertical section showing a modified construction of the actuating means;
Figure 3 is a partial vertical section of a fuel pump illustrating an additional modi;
45 fication of the actuating means;
Figure 4 is a partial vertical section similar vto Figure 3 showing a still further modiv plane indicated 5-5 in Figure 3, 'showing 1931. Serial No. 544,101.
the slotted connection of the lever to the diaphragm, and
Figure 6 is a partial plan view illustrating the manner in which the lever is ported from the fixed pivot.
In the design of fuel pump shown in Figure 1, the pump casing in the usual manner consists of a pair of upper and lower casing parts 10 and 12 which serve to clamp therebetween a pumping diaphragm 14. The casing parts are securedby a screw bolt 16. The pumping diaphragm, on its upper side, cooperates with a pumping chamber 18 into which extends an intake passageway 20 provided with a springpressed inlet check Valve 22 'and leading from a fuel receiving and sediment trap- Jing chamber 24. The chamber 24 is included within the removable bowl 26. The inlet pipe connection is made at 28 communieating with a passage 30 which leads into the chamber 24. The fuel flowing upward into the intake passage 20 past the inlet 'check valve is filtered by the filter screen 32. The fuel is delivered from the pumping chamber through the vertical out-let passageway 34 provided with a spring-pressed outlet check valve 36. The outlet pipe connection is made at 38 in communication with the vertical -passageway 34 above the outlet check valve.
1disk member 42 clamped to .the under side of the pumping diaphragm. The disk members 40 and 42 are secured to the central portion of the diaphragm by -means of a nut 444 which threads on to a reduced eX- tension of la reciprocable' pump stem v46 guided for vertical reciprocation by the bearing 48 of the lower casing'part. In the form-shown,` the stem 46 has a hollow portion for receiving a compression spring 50` held at its lower end by an adjustable threaded' plug 52 which screws into a boss 54 of the lower casing part and is provided with a lock nut 56. `It will be understood that the spring 50 normally acts to produce the discharge stroke of the pumping diai 'y .pivot 58 and the yoke-shaped end 64. An
operating lever 70 has one end connected to the movable pivot 68 and is formed at its other end with a thrust-receiving portion 72 engaging a driving cam' 74 within the usual engine casing. The lever 70 is continuously held in Contact with cam 'Z4-by means of a follower spring 76 which reacts between the closed end of an obliquely disposed spring pocket 7 8 and a boss 80 formed on the lever 70. The lever 7 0 is providedl with an abutment 82 which may be of suitable shock-absorbing material and which normally engages the hub 84 o'f the lever 62. The operation of the fuel pump, as shown in Figure 1, will be readily apparent. During the active phase of the cam, the lever and the lever 62 will tend to rotate as a unit about the fixed'pivot 58 thereby transmitting a positive suction stroke to the pumping diaphragm. The follower spring 76 will act during the passive Spring 50 will cooperate with the follower spring 76 in causing the lever 62 to follow lthe movement of the lever 70. However, should the deliveryT pressure become sufciently high to resist a further expansion of the spring 50, the full delivery stroke of the pumping diaphragm will be prevented and a relative movement will occur between the lever 62 and the lever 72 by reason of their pivotal connection 68. For example, if the pumping diaphragm is held at the limit of its suction stroke, the lever 70 will be moved by the camabout the pivot 68 and the abutment 82, which is carried by the lever 70, moves towards and away from the hub 84 of the lever 62. The abutment 82 is required so that the pumping diaphragm will be positively returned for its suction stroke after each discharge stroke, otherwise the lever 70 might be moved without imparting any movement to the pumping diaphragm.
It will be understood that many modifications may be resorted to in designing` the fuel pump actuating means based upon the operation as described in Figure A1, and in the remaining figures of the drawings I have illustrated several modified constructions.
In Figure 2 there is shown the lower part 90 of a pump casing which guides a vertical reciprocable pump stem 92 actuated by a lever 94 which has a yoke-shaped end 96 connected to the yoke-shaped extension 98 of the pump stem and having a thrust rephase of thev cam to return the lever 70 and the dischargev 'abutment 114 carried by the casing part 90 immediately above the pivot 108. During positive movement of the lever 94 by the cam transmitting a positive suction stroke to the lpumping member, the lever will rock on the abutment 114. If the pumping member is prevented from taking its full discharge I stroke, the lever 94 is separated from the abut-ment 114 and will shift its position with f respect to the pivot pin 108. It will be readily apparent that the operation is quite similar to that of the actuating means shown in Figure 1 except that only a single lever is required.
Figures 3 and 4 illustrate further modifications of the actuating means fora fuel pump in which a single lever extends from the cam tothe pumping member and which is supported from a fixed pivot pin by a link pivoted to the lever. The lever is preferably formed in two pparts which are rigidly fastened together in order to reduce the cost of construction and make it possible to standardize one part while the other may be constructed in different sha es in accordance with the different types o engine upon which the'fuel pump is to be mounted.
In Figure 3 the lower part of the pump casing is indicated 120 and has a flexible diaphragm 122 secured toits upper side at the marginal edge thereof. In this design the sprmg immediately beneath the diaphragm, as in Figure 2, `may be eliminated and the casing part brought up close to the diaphragm with only a small annular recess 121. The opening 123 through the casing into communication with the engine casing does not require, in this design, machine bearings since the reciprocable pump stem is eliminated by attaching the lever ldirectly to the diaphragm. To theopposite sides of the diaphragm are attached a pair of conforming disk-members 124-125. The lower disk 125 has a flanged annular portion received in the recess 121 of the casing. The disks are secured to the 'diaphragm by the bolt 126 and nut 127. Between the head of the bolt and the disk 125 is a spacing washer 128, enabling the connection to be tightened but leaving a space into which the end of the lever may be received.
The lever is formed in two parts, the in- 'ner part 129 being preferably formed of pressed metal and of standard design for a particular size of pump while the exterior part of the lever 130 may be cast in suitable shape to protrude into the engine casing and engage at the proper point on a driving cam 131. The pressed metal member 129 has a slotted bent end 132 extending beneath the head of the bolt 126 and therebyis freetohave a slight sliding movementI to accommodate for inaccuracies. The other end 133' of the member 129 tits into the slotted end of the" cast member 130. The lever 130 is provided .with an opening extending from the slot to the top of the lever, as indicated at 134 and the end 133 of the member 129 has a similar opening whereby a securing plug 13 5` may be forced through the opening 134 1n thel cast lever until it engages the opening 1n the member 129 and holds the member 129 in place. The plug 135 may be preferably component of pressure to the lever causingV of shock-absorbing material for a purpose to be described. In order to further -secure the two parts of the lever together, the pressedmetal member 129 at its end 133 is slightly wider than the part 130 and the overlapping endsv are swaged upwardly as at 136.
The part 130 carries a transverse pivot pin 137 positioned intermediate the ends of the part and slightly in back of the connection between the parts. A pivot pin 138 1s mounted on the casing part 120 and the lever is hung from the fixed pivot 138l through a link 139 which has itsends curled around the4 pivot pins, as at 140.
The pivoted'link 139 is substantially H- shaped in pl'an, as seen in Figure 6, 1n order that the portion of the pivot pin 138 between the side portions of the link 139 may engage the shock-absorbing abutment 135. The sides of the member 130 may be slightly recessedas at 141 in Figure 4 so as not to contact with the curled ends of, the pivoted link. A compression spring 142 is mounted between the projection-143 of the part`13l and a fixed abutment 144 formed in -the cas-Ad ing. The spring 142, as shown, transmits a it to contact at the shock-absorbing abutment with the pivot pin l39`and upon movement being imparted'to the lever by the cam, the lever tends to remain in contact with the pivot pin throughout its reciprocable movement until the discharge pressure becomes i excessive whereupon the diaphragm will be prevented from movement andthe lever will be reciprocated about its connection. with the diaphragm and relative lost motion will take place between the `abutment 135 and pivot pin 138. In the-form illustrated inFigure 4 the construction is vquite similar to Figure 3 except that the abutment 144 for the follower spring, 142" is closer to the axis of the pumping diaphragm to accommodate a `longer spring. v
It is obvious that the improved design of casing together with the novel manner of/ mounting the lever enables a more and simplified construction.
I claim: c
. 1. In a fuel pump having a pump casing, a flexible pumping diaphragm secured at its marginal edge to said casing, an operating lever supported lwithin said pump casing and having a thrust-receiving arm protruding therefrom, a rotatable cam in thrust engagement with said protruding armof said lever, a follower spring reacting between. said casing and said lever to continuously maintain contact between said cam and lever, a xed pivot in said pump casing, 'a link pivotally connected to said pivot and to said lever, an abutment carried. by said lever normally `engaging said 'pivot causing the lever and link to rotate as a unit with respect to said fixed pivot in both directions and a motion-transmittin connection be` tween said lever and lin and said diaphragm whereby excessive resistance to disy charge movement of said diaphragm procompact duces relative movement between said lever and link and relative separation of said abutment from said pivot. l'
2. In a fuel pump having a pump casing, a flexible pumping diaphragm secured at its marginal edge to said casing, an operating lever supported within said pump casing and having a thrust-receiving arm protruding therefrom, a rotatable cam in thrust engagement with said protruding arm, a follower spring reacting between said casing and said lever to .continuously maintain contact between said cam and" said lever and to impart movement to said lever in a discharge direction, a motion" transmitting connection between'said lever and said diaphragm, abutment means within said pump casing normall causing said lever to rotate about a fixe pivot, 'said lever being free to move laterally with respect to the fixed pivot when excessive resistance occurs during discharge movement of saiddiaphragm.- l
3. In a fuel pump having a pump casing, a flexible pumping diaphragm, an operating lever having a .thrust-receiving portion and a tension transmitting portion, a cam en-l gaging the thrust-receiving portion of said lever to produce movement thereof lin one direction, V`said tension transmitting portion being connected to said pumping. diaphragm," l
' contact` with said .cam and asupporting link for said lever\pivotally connected" to said xed p ivot and lto said thrust receiving portionof said lever whereby sai-d lever and phragm, a suppprting link pivotally carried supporting link are normally turned as a by said fixed pivot and pivotally connected unit about said pivot in both dlrections but to said lever whereby said lever turns with the pumping diaphragm may take a varirespect to the pivotal connection between the 5 able discharge stroke permitted by relative lever and link when the pumping diaphragm 10 vseparation between the abutment carried is prevented from taking its full dischargey by said lever and said fixed pivot and relastroke. tive movement betweensaid lever and said 7 In a fuel pump, a pump casing, a resupporting link with respect to the pivotal ciprocable ypumping diaphragm marginally 10 connection between said link and lever. secured to said casing, amoton transmitting 75 4. In a fuel pump having a pump casing, lever operatively connected to said dia-l a flexible pumping diaphragm, a lever conphragm, a cam acting upon said lever to v nected at one end to the pumping diaphragm impart movement thereto in one direction Y and adapted to be cam-actuated at the other and to transmit a positive suction stroke -to end in one direction, a spring reacting besaid diaphragm, a single compression spring 8 tween the casing and the lever for holding reacting betweenA said casing and said lever c -the lever continously in Contact with the effective to maintain contact b'etween said cam, a fixed pivot in said pump casing, an lever and cam at all times and to impart a abutment carried by said lever normally resilientlyvariable `discharge stroke to said engaging said fixed pivot and a supporting diaphragm, and a fulcrum for said lever link pivotally connected to said fixed pivot fixed with respect to said casing, said lever and pivotally connected to said lever. at a being normally maintained in engagement point between the abutme it carried by said with said fulcrum by the reaction of said lever and the contact of the lever and the sprin but separable therefrom when the cam. y full ischarge stroke of said diaphragm is '9 5, In a fuel pump having a pump oaslimited by excessive discharge pressure. ing, a flexible pumping diaphragm, a lever Signed at Chicago, Illinois, this 4th day connected at onef end to said pum'pilng of June, 1931. a hragm, a cam or engagin tie ot er en oi?) said lever to produce mofement thereof EDWARD A ROCKWELL' in one direction, a fixed pivot. carried by 4 said casing, ,an abutment on said lever normally engaging said fixed pivot 'intermedi-l ate the connection of the lever to the`dia` phragm and the contact of the cam and lcv- 100 er, a follower spring reacting between the casing and a .portion of the lever intermediate the' abutment and the contact between the `cam and lever, a supporting link for` said 40 lever carried by said fixed pivot and pivotal- 105 ly connected to said lever at a point inter'y mediate the abutment and the contact between the cam and lever whereby-relative angular movement between the lever and link .with respect to the pivotal connection 110 therebetween may\ occur during the spring pressed movement of the leverto permit a ,variable discharge stroke.
, 6. I'n a fuel pump havi s ng a pump casing,
i `a flexible pumping diaphragm carried by 115 said pump casing, an operating lever con nected at one end to saidrdiaphragm having its other end protruding from said casing, a cam engaging the protruding end of said lever to produce movement nthereof in one direction, a fixed pivot lin said casing, an abutment carried by said lever normally engaging said fixed pivot whereby, during the cam actuated movement of said lever the" abutment acts as a. stop to cause said leve'r u 'to move above said fixed lpivot, a spring reacting between the cashing and said lever to"- continuously maintain the contact between the cam and lever and to produce" the dis 5 charge movement of the pumping dia
US544101A 1931-06-13 1931-06-13 Fuel pump Expired - Lifetime US1907673A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2621524A (en) * 1947-03-07 1952-12-16 Bretschneider Curt Clutch operator
US2849162A (en) * 1954-11-29 1958-08-26 Tokheim Corp Pump-discharge fitting
DE1058312B (en) * 1956-07-07 1959-05-27 Vincent Guarnaschelli Adjustable diaphragm fuel pump
US3003428A (en) * 1958-06-13 1961-10-10 Gen Motors Corp Pump
US3779092A (en) * 1971-04-24 1973-12-18 Rollei Werke Franke Heidecke Film winding mechanism for motion picture apparatus
US4968301A (en) * 1989-02-02 1990-11-06 Imed Corporation Disposable infusion device
US5368570A (en) * 1991-11-12 1994-11-29 Imed Corporation Apparatus for infusing medical solutions

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2621524A (en) * 1947-03-07 1952-12-16 Bretschneider Curt Clutch operator
US2849162A (en) * 1954-11-29 1958-08-26 Tokheim Corp Pump-discharge fitting
DE1058312B (en) * 1956-07-07 1959-05-27 Vincent Guarnaschelli Adjustable diaphragm fuel pump
US3003428A (en) * 1958-06-13 1961-10-10 Gen Motors Corp Pump
US3779092A (en) * 1971-04-24 1973-12-18 Rollei Werke Franke Heidecke Film winding mechanism for motion picture apparatus
US4968301A (en) * 1989-02-02 1990-11-06 Imed Corporation Disposable infusion device
US5368570A (en) * 1991-11-12 1994-11-29 Imed Corporation Apparatus for infusing medical solutions

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