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Publication numberUS2274274 A
Publication typeGrant
Publication dateFeb 24, 1942
Filing dateMar 17, 1939
Priority dateMar 17, 1939
Publication numberUS 2274274 A, US 2274274A, US-A-2274274, US2274274 A, US2274274A
InventorsPexxillo Albert R
Original AssigneePexxillo Albert R
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Fluid pump and metering device
US 2274274 A
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Description  (OCR text may contain errors)

Feb. 24, 1942. A. R. PEZZILLO 2,274,274

FLUID PUMP AND METERING DEVICE Filed March 17, 1939 2 Sheets-Sheet 1 ALBERT 11.1 EZZ1LL0 1N VENTOR.

W -&

ATTORNEY.

Feb. 24, 1942. PEZZlLLo 2,274,274

FLUID PUMP AND METERING DEVICE Filed March 1'7, 1939 2 Sheets-Sheet 2 IHHH I Will ALBERT R. PEZZILLO IN VENTOR.

ATTORNEY.

Patented Feb. 24, 1942 UNITED STATES PATENT OFFICE Application March 17,(l::91,8e3 rl;:)No. 262,368

2Claims.

My invention relates to a new and useful fluid pump and metering device, that is, one which can be used for propelling fluids whether they be gases or liquids through a pipe or other conduit, or which can, without any change in construction, be used for measuring or metering the fluid passing through said conduit.

My invention still further relates to a device of this character which can be partly or wholly submerged in a gas or liquid, and it relates further to a device of this character in which the fluid being impelled or metered is adapted to pass through the device as distinguished from ordinary pumps the impellers of which simply serve to propel a liquid from one side thereof to the other with or without building up pressure.

My invention further relates to a device of this character comprising a rotor and a stator in which the impelllng element forms part of the rotor while the stator element, which is hermetically sealed and electrically and magnetically insulated from the rotor, is either inserted within a pipe or the like or forms part of the pipe or other conduit to which it is applied.

For the purpose of illustrating my invention, I have shown in the accompanying drawings,

- forms thereof which at the present are preferred by me, since they will give in practice satisfactory and reliable results, although it is to be understood that the various instrumentalities of which my invention consists can be variously arranged and organized and that my invention is not limited to the precise arrangement or organization of these instrumentalities as herein shown and desired.

In the accompanying drawings:

Fig. 1 represents a vertical section of a fluid pump and metering device embodying my invention the same being an enlarged view on line l-l of Fig. 2, certain parts being shown in elevation.

Fig. 2 represents a right hand end elevation of Fig. l with the companion flange removed.

Fig. 3 represents a right hand elevation of Fig. l with the companion flange and the motor cover removed.

Fig. 4 represents a vertical sectional view of a modified form of my invention, the same being an enlarged sectional view on line 44 of Fig. 5.

Fig. 5 represents a top plan view of Fig. 4, this view being taken along line 5-5 of Fig. 4.

Fig. 6 represents a bottom plan view of Figs. 4 or 5.

Fig. '7 represents a sid e elevation of a hollow shaft propeller which may be used in either form of construction.

Fig. 8 represents an end elevation of Fig. 7.

Referring to the drawings in which like reference characters indicate like parts, and more particularly to Fig. 1 my novel pump and metering device comprises an impeller I formed of the blades 2 and 4 which are mounted upon or are formed integral with the hub or sleeve 6 on the shaft 8 running through or made integral with the hub member 6. l0 designates the motor rotor which is fastened to or cast integral with the blades 2 and 4 along their edges l2. In this manner the propeller and the rotor are dynamically balanced on the shaft 0, which is journalled in bearings l4 which are held in perfect concentric alignment by the spiders l6 forming part of the motor covers II. A slight gap 20 is maintained between the rotor l0 and the nonmagnetic and electrically, non-conducting stationary cylinder 22. The cylinder 22 is invested at both ends in rubber gasketed seats 24 which are formed on the inside of the motor covers l8. Mounted about the cylinder 22 is the motor stator which comprises the usual segments 26, the motor windings 28 and clamping band or housing 30. The covers l8 are bolted together against the cylinder 22 and the surrounding stator by the bolts 32 and nuts 33. The covers l8 carry studs and nuts 34 which hold the flanges 36 in a liquid-tight manner against the covers I! along the joints 38. The flanges 36 carry the pipe line sections 39. As will be seen from Fig. 1, except for the space taken up by the blades 2 and 4 of the impeller, the internal area of the rotor is the same as the internal area or capacitylof the pipe lines 39; In order to cool the motor windings 28 I have provided the air vents 4|! best seen in Fig. 2, and the motor stator is provided with the usual thermal overload cut-out 4| which is suitably secured to the motor housing 30. While I have shown the leading edges 42 and 44 of the blades 2 and 4 at an angle of from each other (see Fig. 3), I may use any type or shape of impeller now or in the future available, which, by rotation will propel fluids through the rotor from one of the pipes 39 into the other.

From the foregoing it will be seen that my novel pump and metering device becomes part of the pipe line in connection with which it is to be used, the overall diameter of my device being in some instances only slightly larger than the overall diameter of the line itself. The value of this feature can best be realized when it is remembered that if a conventional pump were used it would have to be placed at right angles to the line and the impeller haft would have to run through a stuiling box in a T-shaped housing applied to the line. This conventional structure is clumsy and difficult to keep packed and running eillciently eand quietly. With my novel arrangement the pump conforms to the contour of the pipe line and the ineflicient conventional impeller and stuihng box are eliminated.

can be ejected into the pipe line II in Fig. 4 while the air is admitted through the screen ll. In this construction I can use any desired form of impel1er,eitherasshowninFigs.1and4oras showninFigs'i and8. Ifitisdesiredtomixa plurality of fluids, whether they be gases or liquids or a mixture of both, the desired number of conduits can be positioned at the inlet end of the impeller of the rotor and the mixture will be delivered at the outlet end thereof The operation is as follows:

To use my novel device of the semi-submerged type shown in Figs. 1, 2 and 3, the current is turned on the motor in the conventional manner and the torque impetus given to the rotor by the stator assembly, turns the rotor clockwise as shown in Fig. 3 by the arrow. Th blades 2 and 4 of the rotor I are so designed that the cutting u. The bushing l4 near the top end of the shaft ported in a hub or bearing 5| formed in the cover 52. The cover 52 is supported b the legs 54 which are provided with bolt holes 56 for the purpose of securing the housing in position. The cover 52 is also provided with studs it which are engaged by the nuts 62 to clamp the cover 52 in fluidstight position against the gasket N. The stud 60 and nut 62 also serve to clamp the cover 52 against the insulating cylinder 22 and the housing 50 which encloses the stator of the construction illustrated in Fig. 4. By means ,of the dowel arrangement 66 the housing It is held in proper concentric position with respect to the cover 52 and hence the shaft 8 is properly aligned and this results in adequate alignment and concentricity of the rotor II with respect to the insulating cylinder 22 and also insures the uniform gap 20 between the rotor Ill and .the cylinder 22. A portion of the cover 52 registering with the internal diameter of the rotor is either formed as, or provided with, a screen effect I to prevent suction into the rotor of objects too big to be safely propelled therethrough. In connection with the submerged type of pump, such as is illustrated in Fig. 4, I provide the lead wires 12 which are enclosed in a fluid-tight pipe 14 extending to the source of power. Also, the pipe 14 may enclose other wires (not shown) extending to the cut-out II in the event that such wires cannot be conveniently disposed in the fluid-tight spac 16.

While I have thus far described my invention as relating to a pump, I wish to point out that my invention can be used equally well, and without any change, as a metering device since I can, by disconnecting the wires 12 from the source of power and by connecting the windings to an ammeter, transform the motor into a generatcr, and, by forcing fluid through the rotor to turn the impeller i or 46, I can generate current which, when measured on the ammeter and suitably calibrated, will indicate the volume of rat offiow through the rotor.

Similarly, if it is desired to use my ccnstruc ion for mixing various fluids such, for instance, as air and fuel oil, I can use the hollow shaft 11 (shown in Fig. '7) in place of the shaft I (shown in Figs. 1 and 4), and through the hollow shaft 6 I can pass a tube It through which a fuel meter.

edges 42 and I4 engage the liquid coming from the left or upstream side of the pump and propels it through the rotor and forces the liquid out of the right hand end of the pump as shown by the two arrows in Fig. 1.

To use my fully submerged type shown in Figs. 4, 5 and 6, the current is turned on the motor in the conventional manner, the rotor ll in this structure is so designed that it must turn counterclockwise and the lower cutting edge I! of the helical or spiral propeller blade 48 will pick up the liquid, gas or air coming through the'screen apertures It and move same through the length of the propeller 40 into the outlet pipe II.

It will be seen that my novel electric pump has few parts, all of them are of simple construction and of great durability, with none of the complications which arise over a period of long use." The rotor is easily balanced dynamically and it can be maintained in its concentric position without costly manufacturing processes, which insures that the gap II will be maintained accurately throughout.

With the above described reversal of action, the pump now becomes a generator which with a suitable ammeter is metamorphosed into a flow This reversed action will make it possible to produce a very cheap and reliable metering device which would replace many of the costly and unsatisfactory orifice metering valves now on the market. There is no lubrication necessary, no annoying stuffing boxes to be repacked at inconvenient intervals and no mechanical moving parts that have to be serviced, which would entail the breaking of pipe joints and interrupting the service for which the installation was made.

Having thus described my invention, what I claim as new and desire to secure by Letters Patentis:

i. In a device of the character stated, a sectional housing having end sections one of which forms an inlet and the other an outlet and having an outer casing clamped between said end members, the latter having annular grooves on their inner faces. preformed sealing means in said grooves, a non-magnetic open ended cylinder contributing with said housing to form stator and rotor chambers, means to secure said end members to said casing and thereby press the open ends of said cylinder against said sealing means, a stator in the stator casing. and a rotor within the stator and having a bladed shaft journalled in said end members.

2. In a device of the character stated, a sectional housinghaving end sections one of which forms an inlet and the other an outlet and having an outer casing clamped between said end members, the latter having annular grooves on their inner races, sealing means in said grooves, a non-magnetic cylinder contributing with said housing to form stator and rotor chambers, means to secure said end members to said casing and thereby press the ends of said cylinder against said sealing means, a stator in the stator casing, and a rotor having an impeller within the stator and having a shaft journalled in said and members, said shaft being tubular for passage of a fluid diflerent from that or the fluid circulated by the blades.

ALBERT R. PEZZILLO.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2517233 *Jan 19, 1946Aug 1, 1950Peters Layman RSingle cavity type motor-driven pump
US2518597 *Jun 20, 1945Aug 15, 1950Niagara Alkali CompanyPumping apparatus
US2761078 *Mar 29, 1952Aug 28, 1956Wetmore HodgesElectrical motor pump or compressor
US3083538 *Oct 6, 1958Apr 2, 1963Gross George EApparatus for maintaining a body of water free of ice
US4908012 *Aug 8, 1988Mar 13, 1990Nimbus Medical, Inc.Chronic ventricular assist system
US5484266 *Feb 3, 1994Jan 16, 1996Murga; JoseHigh speed electrically driven axial-flow pump and boat driven thereby
US5947892 *Dec 13, 1996Sep 7, 1999Micromed Technology, Inc.Rotary blood pump
US6769745Jun 7, 2002Aug 3, 2004Lucas Varity GmbhVehicle brake system comprising a motor/pump unit and an aggregate
US8690749Nov 2, 2010Apr 8, 2014Anthony NunezWireless compressible heart pump
DE974755C *Sep 22, 1950Apr 20, 1961Hans Dr-Ing MoserUmwaelzpumpe mit einem Elektromotor, der einen als Foerderorgan ausgebildeten Rotor aufweist
DE1038919B *Jan 25, 1954Sep 11, 1958Howard Theodore WhiteIn eine Rohrleitung einbaubare, von einem Elektromotor angetriebene Pumpe
EP1095648A1 *Sep 14, 2000May 2, 2001GŁnter Dipl.-Ing. WuschikWhirlpool bath aeration device for the introduction of air into water
WO1990001347A1 *Aug 7, 1989Feb 22, 1990Nimbus Medical IncChronic ventricular assist system
WO1994018458A1 *Feb 3, 1994Aug 18, 1994Jose MurgaHigh-speed electrically driven axial-flow pump and boat driven thereby
WO1999060274A1 *May 21, 1999Nov 25, 1999Kim Kyoung HunPump utilizing an impeller with a magnet
WO2001042069A1 *Dec 7, 2000Jun 14, 2001Gilles LeoVehicle brake unit comprising a motor/pump unit and an aggregate
Classifications
U.S. Classification417/356, 417/357, 310/67.00R
International ClassificationF04D13/06, F04D3/00, F04D3/02
Cooperative ClassificationF04D13/0646, F04D3/02
European ClassificationF04D3/02, F04D13/06C