US2488995A - Pump for gases and liquids to obtain variating pressures - Google Patents

Pump for gases and liquids to obtain variating pressures Download PDF

Info

Publication number
US2488995A
US2488995A US8775A US877548A US2488995A US 2488995 A US2488995 A US 2488995A US 8775 A US8775 A US 8775A US 877548 A US877548 A US 877548A US 2488995 A US2488995 A US 2488995A
Authority
US
United States
Prior art keywords
diaphragm
pump
leg
strip
gases
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US8775A
Inventor
George A Thiberg
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US8775A priority Critical patent/US2488995A/en
Application granted granted Critical
Publication of US2488995A publication Critical patent/US2488995A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B43/00Machines, pumps, or pumping installations having flexible working members
    • F04B43/02Machines, pumps, or pumping installations having flexible working members having plate-like flexible members, e.g. diaphragms
    • F04B43/04Pumps having electric drive
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B45/00Pumps or pumping installations having flexible working members and specially adapted for elastic fluids
    • F04B45/04Pumps or pumping installations having flexible working members and specially adapted for elastic fluids having plate-like flexible members, e.g. diaphragms
    • F04B45/047Pumps having electric drive
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N1/00Sampling; Preparing specimens for investigation
    • G01N1/02Devices for withdrawing samples
    • G01N1/22Devices for withdrawing samples in the gaseous state
    • G01N1/24Suction devices

Definitions

  • One object of the invention is to provide an improved device or apparatus of this kind which may be employed to operate pneumatic devices and may be utilized in airtesting apparatus for the purpose of drawing test samples of gas, such as flue gases to determine combustion efficiency, or for passing samples of air through testing solutions or meters for determining whether such air contains toxic impurities or abnormal proportions of water vapor, carbon dioxide, and the like.
  • gas such as flue gases
  • testing solutions or meters for determining whether such air contains toxic impurities or abnormal proportions of water vapor, carbon dioxide, and the like.
  • Another object is to provide a pump suitable for pumping gases or circulating gases through liquids or vice versa, thus making it especially adapted for use in chemical and physical laboratories.
  • a further object is to provide a pump for circulating gases, liquid and liquidcontaining chemical substances where said gases and liquid in no way will be contaminated by oil, grease or corrosive material.
  • Additional objects of the invention are to effect simplicity and eiiic'iency in such apparatus and to provide an extremely simple device of this kind which is economical, durable, and reliable in operation, and economical to manufacture and install, and where all parts such as diaphragm valves or coils, are easily removed and replaced.
  • inventive features for the accomplishment of these and other objects are shown herein in connection with pumps which briefly stated, include a base having a concave cavity and valve means associated therewith.
  • a heavy diaphragm of elastic bouncing material such as rubber is secured airtight over the cavity, and magnetic means associated with a fulcrum member are provided for urging the diaphragm toward or into the cavity.
  • Figure 1 is a vertical sectional view, partly in elevation, showing the pump, the section being taken substantially on the line ll of Fig. 2, looking in the direction of the arrows of said line.
  • Figure 2 is a plan of the pump.
  • Figure 3 is a fragmental transverse horizontal view, partly in elevation, showing the valves of the pump, the section being taken substantially on the line 3-3 of Figure 1, looking in the direction of the arrows of said line, and
  • Figure l is a fragmental perspective of the fulcrum member.
  • my pump comprises a base In of metal or other suitable material provided with a wide fiat bottom annular groove I l, in the upper face thereof, and a round concave cavity [2 coaxial with the groove and inner of and remote from the groove whereby an annular upstanding ridge M is formed between the cavity and the roove.
  • a diaphragm E5 of heavy rubber or other elastic material is disposed over the cavity and has its marginal portions received or forced into said groove by a flat ring 16 slightly narrower than the groove disposed over the marginal portions of the diaphragm and secured by screws l8 passing through the ring and into said base. This mounting of the diaphragm causes the latter to bulge slightly and to impart bounce to the diaphragm during operation.
  • the diaphragm I5 is inherently fiat but by the cooperation of the ring [6 and the ridge i4 against the elastic diaphragm there is produced a dome shaped set to the diaphragm which quickly and strongly rebounds, after being depressed, to its normal dome shape.
  • the base is provided with inlet and outlet bores IS and 2G in one end portion and smaller inlet and outlet holes 2
  • Inlet and outlet nipples 26 and 28 are threaded into the outer ends of said bores for connection to tubes or hose, if desired, depending on the use to which the pump is put.
  • An inlet valve disk 29 is adapted to engage against the inner end of the inlet nipple and close same and is urged thereagainst by a spring 39 compressed between the shoulder 24 of the inlet bore and said valve disk.
  • is adapted to cover the opening of the outlet hole 22 into the outlet bore at the shoulder 25.
  • a spring 32 received in the outlet nipple is secured against outward movement at the outer end thereof as by a shoulder 34 and is adapted to urge the outlet valve disk 3
  • An electromagnet 35 has a yoke 36 secured in a deep longitudinal recess 38 in the base and has vertically projecting legs 38 and 39 of equal height, the leg 38 being provided with a coil 40 therearound having terminal connectors 4!.
  • the other leg 39 is of rectangular cross section having a vertical tube 42 of rectangular cross section snugly received thereon.
  • the innermost wall 44 of the tube is substantially the height of the leg while the outermost wall 45 is higher to provide a fulcrum 46, and the two side walls still higher than the fulcrum to form retaining ears 48 and 49.
  • a stifi strip 50 fulcrumed on said outermost wall of the tube at 46 extends over the diaphragm where the two are joined by avertical rod secured to the center of the diaphragm and adjustably secured to the strip at the extending end portion as by nuts 52.
  • An armature 54 is secured to the underface of the strip near the legs and a tension spring 55 stretched between the rear end of the strip and the base hold the strip on the fulcrum.
  • the spring 55 and the resilience or configuration of the diaphragm tend to raise the central portion of the diaphragm causing the fluid, be it a gas or liquid, to enter the cavity past the inlet valve.
  • a source of alternating or pulsating current is applied to the terminal posts 4! thereby energizing the magnet 35, so that the armature 54 and rod 5
  • the diaphragm When the pump is not in operation the diaphragm has its normal dome shape. When it receives its first impulse, which is a strong impulse, the diaphragm is stretched and distorted downwardly from normal. The rebound cooperates sympathetically with the magnetic impulses, and resembles in its action a bouncing ball. Thus there is a sympathetic action between the alterhating magnetism and the elasticity of the diaphragm. To make these work together the ring is screwed down to give the diaphragm the proper amount of bounce or stretch to synchronize with the frequency of the supply current be it 60 cycle or any other.
  • the eificiency of the pump generally increases as the back pressure of the load increases. As the load pressure increases the diaphragm swells up thereby raising the rod 5! to permit a greater stroke when the armature is drawn downwardly. Of course, there is a limit to this increased efficiency since against an extremely high pressure the armature would be removed from the field of the magnet. However my pump has been operated successfully to develop 75 lbs. per sq. inch.
  • the tension of the spring has nothing to do with the successful operation of the pump, but is merely to hold armature and strip in place.
  • the strip could be massive and still the pump would work.
  • the strip is light because thereby the pumping action becomes a soft motion rather than a series of hammer blows.
  • the thickness and stiffness of the strip are determined by maximum pressure the pump is to deliver, and the maximum power the magnet is made to deliver. For example, if I make a pump to deliver 50 lbs. of pressure I shall make a stronger magnet, but also a stronger strip; but the strip will not be as strong as one for a lb. pump because I still want to retain a soft motion of the diaphragm.
  • the diaphragm may swell until it is nearly spherical while the pump is delivering gas at high pressure.
  • a pump comprising a base of metal having a round concave cavity at the upper face thereof, a diaphragm of heavy elastic material disposed over the cavity, inlet and outlet valve means providing communication with the cavity, an electromagnet having a yoke secured to said base and having a vertically projecting leg of rectangular cross section; a vertical tube of rectangular cross section snugly received on the said leg, the innermost wall of the tube being substantially the height of the leg, the outermost wall being higher to provide a fulcrum, and the two side walls being still higher than the fulcrum, a lever fulcrumed on said outermost wall of the tube and having an arm extending over the diaphragm and having an armature secured to the arm, and means for transmitting vertical motion of the arm to the diaphragm.
  • a pump comprising a base of metal having a round concave cavity at the upper face thereof, a diaphragm of heavy elastic material disposed over the cavity and stretched to impart a dome shape to the diaphragm, the base being provided with inlet and outlet bores in one end portion and having smaller inlet and outlet holes communicating between the respective bores and the cavity, inlet and outlet valve means in said bores; an electromagnet having a yoke secured to said base and having vertically projecting legs of equal height, One leg being nearer the diaphragm, a coil around the leg nearer the diaphragm; the other leg being of rectangular cross section; a vertical tube of rectangular cross section snugly received on the rectangular leg, the innermost wall of the tube having substantially the height of the leg, the outermost wall being higher to provide a fulcrum, and the two side walls being still higher than the fulcrum, a stiff strip fulcrumed on said outermost wall of the tube and having an arm extending over the diaphragm and having an
  • a base In a pump, a base, an electromagnet having a yoke secured to said base and having vertically projecting legs, a coil around one leg, the other leg being of rectangular cross section, a vertical tube of rectangular cross section snugly received on the rectangular leg, the innermost wall of the tube being substantially the height of the leg the outermost wall being higher to provide a fulcrum and the two side walls being still higher than the fulcrum, a stiff strip fulcrumed on Said outermost wall of the tube, said base being provided with a pump chamber and valves therefor, a diaphragm covering the chamber, means for transmitting motion of the strip to the diaphragm, and an armature on the strip and cooperating with the electromagnet.
  • an electromagnet of substantially U-shape a wall member at the lateral face of a leg of the electromagnet most remote from the other leg and projecting beyond the end of the first mentioned leg to form a fulcrum, a pair of side walls projecting beyond said fulcrum and each end thereof, a lever disposed on said fulcrum between the side walls, and an armaturabetween the leg and lever and secured to the latter and having an end portion between the side walls, a pump chamber and valves therefor and having a diaphragm, and means for transmitting motion of the lever to the diaphragm.

Description

G. PUMP FOR GASES AND LIQUIDS TO OBTAIN VARIATING PRESSURES Nov. 22, 1949 A. THIBERG Filed Feb. 17, 1948 INVENTOR. 6EORGE/4. Tweawa BY M/ f7 TTOR/VE X Patented Nov. 22, 1949 UNITED STATES l l'i' GFFICE PUMP FOR GASES AND LIQUIDS T UBTAIN VARIATING PRESSURES 7 Claims.
This application is a continuation in part of my copend-ing application, Serial No. 619,566, filed October 1, 1945, now Patent No. 2,471,796 and relates to pumps both for gases and liquids, and more particularly to apparatus and devices for pumping relatively small amounts of gases or liquids either for obtaining low pressures or for attaining pressures up to the order of a hundred pounds per square inch, or more.
One object of the invention is to provide an improved device or apparatus of this kind which may be employed to operate pneumatic devices and may be utilized in airtesting apparatus for the purpose of drawing test samples of gas, such as flue gases to determine combustion efficiency, or for passing samples of air through testing solutions or meters for determining whether such air contains toxic impurities or abnormal proportions of water vapor, carbon dioxide, and the like.
Another object is to provide a pump suitable for pumping gases or circulating gases through liquids or vice versa, thus making it especially adapted for use in chemical and physical laboratories.
A further object is to provide a pump for circulating gases, liquid and liquidcontaining chemical substances where said gases and liquid in no way will be contaminated by oil, grease or corrosive material.
Although this pump is built for continuous operation, it requires no oiling or greasing, and the parts through which gas or fluid will pass and come in contact with, can be made wholly of rubber and plastic or glass or any other material resistent to the particular'fluid or gas in question.
Other objects of the invention are to provide an improved device of this kind which has a minimum of moving parts and may be operated on a commercial source of current without sparking which might ignite combustible gases, or other materials.
Additional objects of the invention are to effect simplicity and eiiic'iency in such apparatus and to provide an extremely simple device of this kind which is economical, durable, and reliable in operation, and economical to manufacture and install, and where all parts such as diaphragm valves or coils, are easily removed and replaced.
Still other objects of the invention will appear as the description proceeds; and while herein details of the invention are described in the specification, the invention is not limited to these and many and various changes may be made without departing from the scope pf the invention.
The inventive features for the accomplishment of these and other objects are shown herein in connection with pumps which briefly stated, include a base having a concave cavity and valve means associated therewith. A heavy diaphragm of elastic bouncing material such as rubber is secured airtight over the cavity, and magnetic means associated with a fulcrum member are provided for urging the diaphragm toward or into the cavity.
In the accompanying drawing showing, by way of example, one of many possible embodiments of the invention:
Figure 1 is a vertical sectional view, partly in elevation, showing the pump, the section being taken substantially on the line ll of Fig. 2, looking in the direction of the arrows of said line.
Figure 2 is a plan of the pump.
Figure 3 is a fragmental transverse horizontal view, partly in elevation, showing the valves of the pump, the section being taken substantially on the line 3-3 of Figure 1, looking in the direction of the arrows of said line, and
Figure l is a fragmental perspective of the fulcrum member.
Referring more particularly to the drawings, my pump comprises a base In of metal or other suitable material provided with a wide fiat bottom annular groove I l, in the upper face thereof, and a round concave cavity [2 coaxial with the groove and inner of and remote from the groove whereby an annular upstanding ridge M is formed between the cavity and the roove. A diaphragm E5 of heavy rubber or other elastic material is disposed over the cavity and has its marginal portions received or forced into said groove by a flat ring 16 slightly narrower than the groove disposed over the marginal portions of the diaphragm and secured by screws l8 passing through the ring and into said base. This mounting of the diaphragm causes the latter to bulge slightly and to impart bounce to the diaphragm during operation.
The diaphragm I5 is inherently fiat but by the cooperation of the ring [6 and the ridge i4 against the elastic diaphragm there is produced a dome shaped set to the diaphragm which quickly and strongly rebounds, after being depressed, to its normal dome shape.
The base is provided with inlet and outlet bores IS and 2G in one end portion and smaller inlet and outlet holes 2| and 22 communicating between the respective bores and the cavity l2 and forming shoulders 24 and 25 at the inner ends of the bores. Inlet and outlet nipples 26 and 28 are threaded into the outer ends of said bores for connection to tubes or hose, if desired, depending on the use to which the pump is put. An inlet valve disk 29 is adapted to engage against the inner end of the inlet nipple and close same and is urged thereagainst by a spring 39 compressed between the shoulder 24 of the inlet bore and said valve disk. Similarly an outlet valve disk 3| is adapted to cover the opening of the outlet hole 22 into the outlet bore at the shoulder 25. A spring 32 received in the outlet nipple is secured against outward movement at the outer end thereof as by a shoulder 34 and is adapted to urge the outlet valve disk 3| to close said openmg.
An electromagnet 35 has a yoke 36 secured in a deep longitudinal recess 38 in the base and has vertically projecting legs 38 and 39 of equal height, the leg 38 being provided with a coil 40 therearound having terminal connectors 4!. The other leg 39 is of rectangular cross section having a vertical tube 42 of rectangular cross section snugly received thereon. The innermost wall 44 of the tube is substantially the height of the leg while the outermost wall 45 is higher to provide a fulcrum 46, and the two side walls still higher than the fulcrum to form retaining ears 48 and 49. A stifi strip 50 fulcrumed on said outermost wall of the tube at 46 extends over the diaphragm where the two are joined by avertical rod secured to the center of the diaphragm and adjustably secured to the strip at the extending end portion as by nuts 52. An armature 54 is secured to the underface of the strip near the legs and a tension spring 55 stretched between the rear end of the strip and the base hold the strip on the fulcrum.
In operation, the spring 55 and the resilience or configuration of the diaphragm tend to raise the central portion of the diaphragm causing the fluid, be it a gas or liquid, to enter the cavity past the inlet valve. A source of alternating or pulsating current is applied to the terminal posts 4! thereby energizing the magnet 35, so that the armature 54 and rod 5| are moved downwardly, thereby increasing the pressure on the fluid in the cavity and forcing a part of the fiuid out past the outlet valve.
When the pump is not in operation the diaphragm has its normal dome shape. When it receives its first impulse, which is a strong impulse, the diaphragm is stretched and distorted downwardly from normal. The rebound cooperates sympathetically with the magnetic impulses, and resembles in its action a bouncing ball. Thus there is a sympathetic action between the alterhating magnetism and the elasticity of the diaphragm. To make these work together the ring is screwed down to give the diaphragm the proper amount of bounce or stretch to synchronize with the frequency of the supply current be it 60 cycle or any other.
The eificiency of the pump generally increases as the back pressure of the load increases. As the load pressure increases the diaphragm swells up thereby raising the rod 5! to permit a greater stroke when the armature is drawn downwardly. Of course, there is a limit to this increased efficiency since against an extremely high pressure the armature would be removed from the field of the magnet. However my pump has been operated successfully to develop 75 lbs. per sq. inch.
For maximum efficiency it is important that the diaphragm operate against sufficiently high pressure to have good bounce.
The tension of the spring has nothing to do with the successful operation of the pump, but is merely to hold armature and strip in place.
The strip could be massive and still the pump would work. The strip is light because thereby the pumping action becomes a soft motion rather than a series of hammer blows. As a matter of fact the thickness and stiffness of the strip are determined by maximum pressure the pump is to deliver, and the maximum power the magnet is made to deliver. For example, if I make a pump to deliver 50 lbs. of pressure I shall make a stronger magnet, but also a stronger strip; but the strip will not be as strong as one for a lb. pump because I still want to retain a soft motion of the diaphragm.
Gas trapped in the cavity accounts for the major portion of the forces tending to lift the diaphragm. It would appear at a first glance that if this were true the pump would then not be able to suck in air past the intake valve. However, if air is under pressure when the force of the magnet urges the diaphragm downwardly, the cessation of the field will suddenly release a part of the external pressure on the diaphragm causing the diaphragm to be blown up or stretched. The elasticity or bounce of the diaphragm in combination with the tension of the strip is great enough to further distend the diaphragm so that the pressure of the enclosed gas falls below that of the atmosphere, or the supply pressure.
The fact is that the diaphragm may swell until it is nearly spherical while the pump is delivering gas at high pressure.
It is obvious that changes may be made in the form, construction and arrangement of the several parts, as shown, within the scope of the appended claims, without departing from the spirit of the invention, and I do not, therefore, wish to limit myself to the exact construction shown and described herein.
What I claim as new, and desire to secure by Letters Patent of the United States, is:
1. A pump comprising a base of metal having a round concave cavity at the upper face thereof, a diaphragm of heavy elastic material disposed over the cavity, inlet and outlet valve means providing communication with the cavity, an electromagnet having a yoke secured to said base and having a vertically projecting leg of rectangular cross section; a vertical tube of rectangular cross section snugly received on the said leg, the innermost wall of the tube being substantially the height of the leg, the outermost wall being higher to provide a fulcrum, and the two side walls being still higher than the fulcrum, a lever fulcrumed on said outermost wall of the tube and having an arm extending over the diaphragm and having an armature secured to the arm, and means for transmitting vertical motion of the arm to the diaphragm.
2. In a pump, a base and a diaphragm secured to the upper face thereof, an electromagnet secured to said base and having a vertically projecting leg of rectangular cross section; a vertical tube of rectangular cross section snugly received on the leg, the innermost Wall of the tube being substantially the height of the leg, the outermost wall being higher to provide a fulcrum, and the two side walls being still higher than the fulcrum; a stiff strip fulcrumed on said outermost wall and between the side walls of the tube and having an armature thereon and extending over the diaphragm, said side walls preventing lateral motion of the strip, and means connecting one end of the strip to the diaphragm.
3. A pump comprising a base of metal having a round concave cavity at the upper face thereof, a diaphragm of heavy elastic material disposed over the cavity and stretched to impart a dome shape to the diaphragm, the base being provided with inlet and outlet bores in one end portion and having smaller inlet and outlet holes communicating between the respective bores and the cavity, inlet and outlet valve means in said bores; an electromagnet having a yoke secured to said base and having vertically projecting legs of equal height, One leg being nearer the diaphragm, a coil around the leg nearer the diaphragm; the other leg being of rectangular cross section; a vertical tube of rectangular cross section snugly received on the rectangular leg, the innermost wall of the tube having substantially the height of the leg, the outermost wall being higher to provide a fulcrum, and the two side walls being still higher than the fulcrum, a stiff strip fulcrumed on said outermost wall of the tube and having an arm extending over the diaphragm and having an armature secured under said arm for cooperation with said electro-magnet, a vertical rod secured to the center of the diaphragm and to the strip at one end portion, and a tension spring stretched between the other end of the strip and the base.
4. In a pump, a base, an electromagnet having a yoke secured to said base and having vertically projecting legs, a coil around one leg, the other leg being of rectangular cross section, a vertical tube of rectangular cross section snugly received on the rectangular leg, the innermost wall of the tube being substantially the height of the leg the outermost wall being higher to provide a fulcrum and the two side walls being still higher than the fulcrum, a stiff strip fulcrumed on Said outermost wall of the tube, said base being provided with a pump chamber and valves therefor, a diaphragm covering the chamber, means for transmitting motion of the strip to the diaphragm, and an armature on the strip and cooperating with the electromagnet.
5. In a diaphragm pump, an electromagnet of substantially U-shape, a wall member at the lateral face of a leg of the electromagnet most remote from the other leg and projecting beyond the end of the first mentioned leg to form a fulcrum, a pair of side walls projecting beyond said fulcrum and each end thereof, a lever disposed on said fulcrum between the side walls, and an armaturabetween the leg and lever and secured to the latter and having an end portion between the side walls, a pump chamber and valves therefor and having a diaphragm, and means for transmitting motion of the lever to the diaphragm.
6. In a pump as claimed in claim 4 said walls and wall member being integral parts of a sleeve on said leg.
7. In a pump as claimed in claim 4 and a sleeve on said leg comprising said walls and wall member.
GEORGE A. THIBERG.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 214,442 Pew Apr. 15, 1879 886,863 Riebenack May 5, 1908 1,383,549 Lang July 5, 1921 2,228,565 I-Iaddaway Jan. 14, 1941 2,471,796 Thiberg May 31, 1949
US8775A 1948-02-17 1948-02-17 Pump for gases and liquids to obtain variating pressures Expired - Lifetime US2488995A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US8775A US2488995A (en) 1948-02-17 1948-02-17 Pump for gases and liquids to obtain variating pressures

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US8775A US2488995A (en) 1948-02-17 1948-02-17 Pump for gases and liquids to obtain variating pressures

Publications (1)

Publication Number Publication Date
US2488995A true US2488995A (en) 1949-11-22

Family

ID=21733593

Family Applications (1)

Application Number Title Priority Date Filing Date
US8775A Expired - Lifetime US2488995A (en) 1948-02-17 1948-02-17 Pump for gases and liquids to obtain variating pressures

Country Status (1)

Country Link
US (1) US2488995A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2673938A (en) * 1951-07-25 1954-03-30 Winkelman James Electromagnetic vibrator for aerators
US2732806A (en) * 1956-01-31 felez alvarez etal
DE1067560B (en) * 1955-04-07 1959-10-22 J C Eckardt A G Diaphragm pump
US3093900A (en) * 1959-09-14 1963-06-18 Fuller Myers Hydraulic shaving implement
US3981632A (en) * 1975-04-24 1976-09-21 Lefebre Halbert Allen Metering pump
US4616122A (en) * 1980-08-06 1986-10-07 Clairol Incorporated Electrically heated facial sauna vapor generating apparatus
US20120237375A1 (en) * 2009-12-07 2012-09-20 Niklaus Schneeberger Flexible element for micropump

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US214442A (en) * 1879-04-15 Improvement in air-forcing apparatus for carbureters
US886863A (en) * 1907-09-14 1908-05-05 Henry G Riebenack Pump.
US1383549A (en) * 1916-03-10 1921-07-05 Stover Lang Company Device for producing actuating impulses
US2228565A (en) * 1937-09-25 1941-01-14 John K Haddaway Pumping mechanism
US2471796A (en) * 1945-10-01 1949-05-31 George A Thiberg Air pump for aquarium aerators

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US214442A (en) * 1879-04-15 Improvement in air-forcing apparatus for carbureters
US886863A (en) * 1907-09-14 1908-05-05 Henry G Riebenack Pump.
US1383549A (en) * 1916-03-10 1921-07-05 Stover Lang Company Device for producing actuating impulses
US2228565A (en) * 1937-09-25 1941-01-14 John K Haddaway Pumping mechanism
US2471796A (en) * 1945-10-01 1949-05-31 George A Thiberg Air pump for aquarium aerators

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2732806A (en) * 1956-01-31 felez alvarez etal
US2673938A (en) * 1951-07-25 1954-03-30 Winkelman James Electromagnetic vibrator for aerators
DE1067560B (en) * 1955-04-07 1959-10-22 J C Eckardt A G Diaphragm pump
US3093900A (en) * 1959-09-14 1963-06-18 Fuller Myers Hydraulic shaving implement
US3981632A (en) * 1975-04-24 1976-09-21 Lefebre Halbert Allen Metering pump
US4616122A (en) * 1980-08-06 1986-10-07 Clairol Incorporated Electrically heated facial sauna vapor generating apparatus
US20120237375A1 (en) * 2009-12-07 2012-09-20 Niklaus Schneeberger Flexible element for micropump
US9822774B2 (en) * 2009-12-07 2017-11-21 Debiotech S.A. Diaphragm pump having a strip connector

Similar Documents

Publication Publication Date Title
US2488995A (en) Pump for gases and liquids to obtain variating pressures
US3485441A (en) Magnetically biased compressor check valves
US5004405A (en) Pneumatically powered submersible fluids pump with integrated controls
US4406591A (en) Electromagnetic fluid pump
US2618977A (en) Pressure gauge
US1101266A (en) Pump.
US2693821A (en) Relief valve
US2989227A (en) Pneumatic pump
US2644477A (en) Magnetically biased fluid pressure responsive valve
US3421448A (en) Fluid pressure actuated reciprocable pump
US3601509A (en) Electromagnetic pump
US2832291A (en) Electromagnetic pump
US3970099A (en) Liquid level responsive vent valve
GB1459607A (en) Undulating pressure responsive devices
US3597122A (en) Oscillatory compressor
US2765747A (en) Reciprocating electromagnetic pump
US2801591A (en) Electro-magnetic pump
US2250464A (en) Differential stage lift flow device
US3437043A (en) High volume,electro-magnetic,reciprocating pump mechanism
US2349155A (en) Flat disk valve
US1779420A (en) Electrically-operated fuel pump
US2693767A (en) Oil well pump plunger valve
US2588753A (en) Electrically operated compressor
US2717553A (en) Electromagnetic fuel pump
US2605717A (en) Pump for wells