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Publication numberUS2120914 A
Publication typeGrant
Publication dateJun 14, 1938
Filing dateOct 4, 1935
Priority dateNov 19, 1934
Publication numberUS 2120914 A, US 2120914A, US-A-2120914, US2120914 A, US2120914A
InventorsErnst Vogel
Original AssigneeErnst Vogel
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
US 2120914 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

June 14, 1938. E. VOGEL 2,120,914

ELECTROMOTOR Filed on. 4, 1955 Patented June 14, 1938 PATENT OFFICE EIECTBOMOTOB Ernst Vogel, Stockerau, Austria Application October 4; 1935, Serial No. 43,583 In Austria November 19, 1984 1 Claim.

In electromotors operating in a liquid in the upright position, the dead weight of the rotor and, in case the motor serves for driving a centrifugal pump, also the dead weight of theirotating parts of this pump and the axial movement have to be compensated for. In the latter event it is known to construct the pump in such a manner, that it produces a hydraulic axial thrust which substantially corresponds in n agnitude to the weight but is exerted in the opposite direction. However this axial thrust varies with the different heads of the pump. Further it is known to provide the pump with a relieving plate whereby the weight of the revolving parts is balanced by the upward thrust of liquid pumped against the under side of said plate by the motor. However this relieving device is adapted for use in connection with pure feed-liquid only, because impure or sandy water, when discharged through a small openingunderneath the relieving plate, would cause the plate to be worn or otherwise influenced unfavorably.

Compared with the above, the present invention relates to a relieving device for electromotors 25 working in a liquid in an upright position and serving for the operation of any desired device for instance centrifugal pumps. The invention consists in that the relieving plate, known per se, rotates in a liquid which is separated as tight- 30 ly as possible from the outer liquid and which may be the liquid frequently enclosed in the rotor compartment for instance a lubricant or may be in communication with the same. The relieving plate is arranged below or above the rotor of 35 the electromotor independently of the principal centrifugal pump driven by the motor and the liquid surrounding'the plate exerts a pressure underneath the relieving plate by means of a separate pump which is also operated by the electromotor.

The pump driven by the electromotor may be of any convenient type, for instance it may be a rotary piston pump, a centrifugal pump or an automatic suction pump, or if desired a so-called water annulus pump.

The space enclosing the relieving plate and the pump or the chamber, surrounding the said space and closing the cycle of the pressure liquid, is surrounded by the outer liquid and thus is cooled. 50 In particular, a system of pipes for cooling the rotor-liquid is provided and surrounded by the outer liquid.

Also the liquid contained in the rotor compartment and placed in circulation by a feed-device, rotating with the motor-shaft particularly a centrifugal wheel, and passing through the annular gap between stator and rotor is passed through the system of cooling pipes surrounded by the outer liquid.

A constructional example of the invention is illustrated in the drawing, Fig. 1 being an axial section through the motor with relieving and cooling device, while Fig. 2 is the evolution of the section taken on line AB of Fig. 1.

The rotor 2 of the electric motor is mounted on the shaft I and opposite thereto is arranged the stator 3 leaving a gap 4 between itself and the rotor. The stator is enclosed in known manner within the fluid-tight casing 5 and is shielded from the gap by means of the pressure sleeve 6. The top end of the casing is closed by a head, of which only the connection-flange is illustrated and through which the wires pass in a watertight manner.

According to the invention, the relieving plate I, secured to the shaft I underneath the rotor 2, is arranged in a compartment 8 which is in communication with the rotor compartment 9 containing the rotor 2 in the manner described hereinafter, so that the relieving plate I is surrounded by a pure liquid filling this compartment and this pure liquid being separated as completely as the nature of the above mentioned communication permits from the liquid L in which the electric motor is operating.

The rotor-part II) of a pump, which may if desired be a inulti-stage pump and to which the liquid is supplied from below, is mounted on the shaft I underneath the relieving plate I. By means of the pump, the liquid is forced against the bottom face of the relieving plate 1 and then escapes through a very narrow gap II between this bottom face and a counter-ring I2. The pressure below the plate I adjusts itself automatically by slightly lifting the relieving plate and thus varying the gap in such a manner, that the upward pressure balances the weight of the parts connected with it, such as the shaft I, so that the relieving plate is kept suspended.

The construction of the arrangement is such, that the relieving plate covers the top of a compartment I4 enclosed by a casing I3 and communicating through the bottom of the compartment at IS with a space I5 surrounding the compartment. In this arrangement, a portion of the liquid passes from the space I5 through the port I8 to the pump-runner and into the compartment I4, in which it is subjected to pressure, and by way of the narrow gap II the liquid is forced into the space It again, thus performing a complete cycle as indicated by the arrows in Fig. 1.

The relieving plate 1 rests on the counter ring i2 when the electromotor and the pump iii are at a standstill. The relieving plate is not appreciably worn, because the starting of the electromotor only takes a very short time. However in the case .of high-power motors when the weight of the parts is great, the relieving plate is preferably prevented from resting on the counter ring I2. It is then advantageous to arrange a ball-bearing or other footstep bearing 32 of non-corroding steel which, if the motor and the pump in are at a standstill, keeps open a very small gap I I (up to approximately 0.1 millimetre) and permits the lift of the relieving plate and shaft and the parts mounted thereon during the operation. This bearing prevents the relieving plate I from resting on the counter-ring l2 even if motor and pump in operate in the reverse direction, so that in this respect the bearing and the non-return valve represent alternating or supplementary means of serving the same purpose.

The cooling of the circulating inner liquid is of great advantage to the action of the relieving plate 1 and also of the footstep bearing, it provided, as well as of the electromotor.

The considerable amount of heat generated in electromotors of this kind, particularly in electromotors of high-power owing, on the one hand to the electric losses and on the other hand to the frictional contact of the rotating liquid with the walls of the stator and rotor, has to be abstracted for preventing the surpassing or the highest permissible temperature, because the cooling by the liquid L surrounding the electromotor is insuflicient.

According to a further feature of the invention the heat of the motor is jointly abstracted with the heat generated by the relieving plate and by any bearings that may be provided.

This cooling action is effected by conducting that portion of the liquid which passes from the rotor-compartment 9 through the channel 22 into a system of cooling pipes 23, which enclose the space i preferably in an upright position and through which that portion of the liquid circulates (see also Fig. 2). In these cooling pipes 23 the liquid passes up and down and finally passes through the channel 24 into the compartment 8. The compartments 8 and 9 are separated from each other by a sliding bearing, arranged in the rotor-compartment and comprising a bearing-support 25, brasses 26 and liner 21. The liquid contained in the compartment 8 communicates on the one hand by way of the gap 28 between relieving plate I and easing 3| with the space l5 and on the other hand a portion is sucked through sinuous grooves 30 and into the top part of the rotor-compartment in the direction of the arrows, Fig. 1, by means of a feeder rotating with the motor-shaft, preferably by means of a centrifugal pump impeller 29 arranged outside the rotor 2. In this manner the liquid is put in circulation through the annular gap 4, between liner 6 or pressure sleeve 6 and rotor 2, and through the described cooling device by which the heat accumulated by the lubricant is delivered by way of exchange to the liquid L surrounding the electromotor. After leaving the annular gap, the liquid flows into the compartment 9 and from here through the channel 22 to the cooling device 23.

It is practically impossible to perfectly and permanently pack, against the action of the pressure of the liquid surrounding the electromotor, one or more shaft-bearings which are lubricated preferably by a liquid lubricant or consistent grease. In order to remove this drawback, one or more chambers are arranged in front of the space of these shaft-bearings towards the rotor-compartment or towards the outer liquid and the actual connections are established by narrow passages. In this way stufling boxes are unnecessary and the bearinglubricant is mixed very-slowly only with the liquid in the rotor-compartment or with the outer liquid, so that its lubrication is maintained for a very long time.

If this advantageous arrangement is used in the present invention for the liquid in the rotorcompartment, the result will be that the' relieving action caused by the relieving plate 1 remains perfectly effective also if in the case of a longer operation, the inner liquid has mixed with the outer liquid, because the relieving plate (contrary to a thrust-bearing) does not need any liquid lubricant. The footstep bearing is provided solely for the object above mentioned and may be dispensed with.

What I claim is In an electric motor, a casing containing a liquid, a stator arranged in said casing, a rotorshaft also arranged in said casing, a rotor mounted on said rotor-shaft, means operated by said rotor for circulating said liquid through the gap between the rotor and stator, a relieving plate connected with said rotor-shaft, a compartment in said casing below said plate, a pump in said compartment adapted to subject said plate to an upwardly directed liquid pressure, a stop in the casing preventing closure of said compartment by said plate, and means for conducting the portion of said liquid passing through said gap to the vicinity of said pump, said casing being adapted to be arranged in a second liquid and said conducting means being of circuitous form and arranged adjacent the portion of the casing contacting the second liquid.


Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2460371 *Mar 31, 1947Feb 1, 1949Carter Carburetor CorpMotor cooling means
US2687695 *Dec 12, 1949Aug 31, 1954Byron Jackson CoMotor pump
US2722892 *Jul 9, 1952Nov 8, 1955Morrison CompanySubmerged liquid pump
US2725012 *Mar 22, 1952Nov 29, 1955Mcgraw Electric CoMotor-pump unit
US2768584 *Jan 4, 1954Oct 30, 1956Hayward Tyler & Company LtdPump-motor combinations
US2810348 *Dec 8, 1954Oct 22, 1957White Howard TMotor driven pump
US2827855 *May 18, 1953Mar 25, 1958Fmc CorpPump drive mechanism
US2885963 *Dec 10, 1954May 12, 1959Hayward Tyler And Company LtdStructures comprising a motor and a pump driven thereby
US2887061 *Jul 1, 1954May 19, 1959Westinghouse Electric CorpTotally enclosed canned motor pump
US2913988 *Apr 6, 1956Nov 24, 1959Fostoria CorpMotor driven pumps
US2925041 *Jan 23, 1956Feb 16, 1960Miroslav SigmundPump and driving motor unit
US2939399 *Feb 23, 1956Jun 7, 1960Karl RutschiPump
US2941476 *Jun 23, 1955Jun 21, 1960Goulds PumpsMotor pump units
US2993132 *Oct 7, 1957Jul 18, 1961Us Electrical Motors IncSubmersible motor
US3152551 *Jan 25, 1963Oct 13, 1964Viking Pump CompanyPump
US3220352 *Dec 3, 1962Nov 30, 1965Atkinson Guy F CoPump lubrication system
US3443519 *Dec 11, 1967May 13, 1969Acf Ind IncFuel pump with collector chamber
US4304296 *Apr 9, 1979Dec 8, 1981Ingersoll-Rand Co.Body assembly for a fluid cooler
US4610212 *Oct 11, 1985Sep 9, 1986Petrovich Enrique GFast self righting catamaran
US4747757 *Nov 26, 1986May 31, 1988Haentjens Walter DSubmersible mixing pump
US5028218 *Jun 5, 1989Jul 2, 1991Grundfos International A/SImmersion pump assembly
US5641275 *Jan 26, 1995Jun 24, 1997Ansimag Inc.Grooved shaft for a magnetic-drive centrifugal pump
US7582997 *Sep 30, 2005Sep 1, 2009Ebm-Papst St. Georgen Gmbh & Co. KgArrangement for conveying fluids
US8496448 *Mar 16, 2010Jul 30, 2013Toyota Motor Engineering & Manufacturing North America, Inc.Pump assembly
US20080061638 *Sep 30, 2005Mar 13, 2008Lulic Francisco RArrangement for Conveying Fluids
US20110229357 *Sep 22, 2011Toyota Motor Engineering & Manufacturing North America, Inc.Pump assembly
U.S. Classification310/54, 417/368, 415/109
International ClassificationH02K5/128, H02K5/12
Cooperative ClassificationH02K5/1285
European ClassificationH02K5/128C