DE1613118A1 - Dynamo-electric machine with a current collector made of a liquid metal - Google Patents

Description

Dipl.-Ing. Egon Prince

'Dr. Gertrud Hausef eooo Make.eo «,. ; ■ i ^

Dipf.-Ing. Gottfried Leiser "" ^! I ^ ^f f ^r ^% f #

Patent attorneys,. - ".... -, _: ,

Telegrams: Labyrinth Munich j-- Telephone ^ JTS 10 ^; . <■ '■ - Post check account Munich 117078

General Electric Company; ^ Μ - ^ - Λ n “e ^; c · .t ^ d »-yr» ■ ItewrXork

Us he sign: Q-. 1100

Dynamo-electric machine with one "made of a 'liquid, metal' vest"

The invention relates to décor, n for circulating .One :, fj-uid-metal which is used in a dynamoelectric machine for receiving the stream ", / ■" - ^ - ■ - ^{'; -:} "-. ■ · ■ · ■ - '■ *>' - '<■■ * ■ ■■>"■' - ■

It is known to use liquid metals such as -Λ Mercury or ifetriu ^^ Xalium, as- str ^ Äe ^ te-nde Media in a gap between relatively rotating. Share to use. The liquid metal has to be used by many Embodiments are circulated outside the gap to cool this metal. One round or Up to now, overturning has been done by means of in-an outer circle

ORIGlNAL lNSPEDTeD

arranged

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arranged "pumps or" the like carried out, -wherein these parts have a pressure difference between ' the inlet and outlet channels' associated with the Communicating gap. Auxiliary spunapen or similar devices are devices that are advantageously avoided should be in order to simplify the construction and control and also to reduce the duration of a trouble-free To increase operation.

It is to provide accordingly an object of the invention to provide such apparatus in which the liquid metal itself revolves <,

According to the invention are the inlets and outlets for the liquid metal in the stator arranged in pairs in the circumferential direction at a distance around the rotor. The inlets and outlets of each pair have oppositely directed nozzles which ira_ Gap open between the rotor and the stator ,, The Nozzle openings in the gap are essentially aligned tangentially. the opposite rotor surface By the arrangement according to the invention, the necessary pressure differences are generated to .einen outside circulation of the liquid metal during

Operation can be achieved without external pumps. The symmetrical The arrangement is such that the operational

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wise - independent of the direction of rotation of the rotor is, although here the direction of the orbit is itself changes. In addition, the circulation or decreases, namely with corresponding changes in the speed of the rotor, so that a self-regulation takes place, which is compatible in the pail of a homopolar machine with the output power of the machine.

The invention should be made with reference to the figures will be explained in the drawing. Show it: . .

Big.β 1 a sectional view of a current collector, wherein an external feed system for a liquid metal is shown schematically and ".,. ■" .- ..

Figure 2 is a section taken along lines 2-2 : of Fig «1.

The illustrated in Figs. 1 and 2 according to the invention "Device has a stator. Or a stationary & lied 10 and a rotor 12 attached to a shaft 14 is mounted or stored in a different way is, in such a way that this rotor 12 is within of the stator 10 can rotate. An outer peripheral surface 16 of the rotor 12 is at a distance from a complementarily shaped surface 18 of the stator 10

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arranged, and thereby an annular gap 20 of approximately uniform width between the Rotor 12 and the stator 10 formed «, In operation, a conductive liquid metal fills the gap 20, a current conduction path between the radially outer surface of the rotor 12 and the corresponding surfaces of the stator 10 facing the surfaces of the rotor 12. With the described Build up can be electricity quite generally between rotating and stationary bodies, and this system is particularly suitable for large To transmit green current quantities in the rotor of a homopolar machine are available o

According to the invention, an annular pumping groove 22 is provided in the stator 10 in the power transmission area, and this annular groove 22 is interrupted by circulating devices 24 for the liquid metal at points arranged in a circumferential direction and spaced from one another. The radially outer surface 26 of the hat 22 has a radial distance from the radially outermost surface 28 of the rotor 12 which is greater than the current transmission gap 20 _9. The radial clearance between the rotor 12 and the stator 10 is preferably twice that in the hat 22 as large as the width of the gap 20 in order to generate a maximum pump pressure.

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The axial dimension of the groove 22 can advantageously be determined so that it is equal to the radial dimension of the Fut.

The circulation devices 24 for the liquid 'Ketal! Have two nozzles 30 and 32, doLe " in ^ dlen 'gap; 2Ό open into _β The nozzles 30 and 32 form openings into the gap which are oriented in opposite directions, so that in each pair one: - Nozzle develops a discharge pressure _- while the other develops an inlet suction to create the pressure differential required "that the liquid metal can be circulated in an outer circle." as far as possible from one another, and the openings of the nozzles are preferably substantially tangential to the rotor surface 28 and in the plane of rotation of the rotor 12. Manufacture of the "nozzles" is simplified by providing a pair of nozzles in an integral block as it is "shown, and this block is welded to the stator 10 or fastened in a corresponding manner. Connecting channels 36 and 36 are bored out in the stator 10 or formed in a different way and are aligned with the radially outer openings of the nozzle -50 and 32 »

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That

The external system for the liquid metal is schematic]! and has a reservoir 40 in which a quantity 42 of the conductive liquid metal is stored and it is a cover gas. 44 is provided, the pressure of which is slightly above atmospheric pressure. Ο The storage container 40 is advantageously installed at the height of the machine. arranges in order to facilitate a withdrawal of the liquid metal from the gap, if this is necessary. It has been found that in this case the gas 44 must be under pressure _? to create a preload pressure that changes with engine speed to counter the centrifugal force acting on the liquid metal. A gas pressure of 3 pounds per square inch overpressure gives optimal results at a surface velocity of 13,000 liters per minute, and the same is true for a gas pressure of 5 pounds per square inch overpressure at 27,000 bites per minute ο Eb are means of changing the Gas pressure is provided in the bed container 40, and a Dr'uokgas source "58 is provided, which is connected to the top" of the container 40 via a valve 60 in connection. An adjustable control valve 62 for maintaining a constant pressure is provided to remove excess gas 44 to drain »This is

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an advantageous arrangement, since in operation Ab de olegas enters the liquid metal and is therefore continuously fed to the storage container 40 The outlet of the valve 62 is advantageously connected to the machine via a return line in order to save gas. When the machine is switched off, the liquid metal is drained by opening the container 4-0 directly to the atmosphere is vented ο

In one embodiment, the metal cover may be used 42 WaE and the gas 44 can be Stielest off. However, numerous other combinations can be envisaged that are known per se «, one not The illustrated heat exchanger is in most of the cases provided to the temperature of the liquid Metal «, connecting lines, .like the Lines 46 and 48 are provided to the channels and 36 to connect to the storage container 40 ,, and although below the surface of the liquid metal. Further circulation devices 24 are via lines and 52 connected in parallel A parallel connection is desirable in order to maximize flow rate achieve * ..'... "

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In operation, liquid metal is circulated through the gap 20 in the feed system without external pumps generated »When the rotor 12 rotates in the clockwise direction, as shown, is the Nozzle 30 for gap 20 is the metal outlet nozzle, and nozzle 32 is the inlet nozzle in this column This relationship is reversed for opposite rotation of the rotor 12.

It has been found that the optimal circumferential spacing of the circulators 24 is in the range of 6-9 inches. In most cases more than one circulation device is provided per collector, depending on the inner diameter of the stator _o If the circumferential distance is less than about 6 inches, a direct exchange between facing nozzles can take place without sufficient mixing with the remaining quantity of the liquid metal takes place in the gap 20. If the distance exceeds substantially 9 inches, the flow rate will not be sufficient to transfer the maximum amount of current that the collector can be designed for.

In a particular preferred embodiment of the invention, the groove 22 is rectangular Cross-section and has a depth of 1/8 of an inch and

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one

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1/8 "wide * The nozzle orifices are also square, 1/8" χ 1/8 ". The outermost surface of the axially erstreikende Hotor _s 12 for S ^ -is used romlcollelctorzwecke, -Assign an axial dimension of 1/2 inch to> and the gap 20.weist a dimension of 0, -050 inches to .The leitfällige j The liquid is sodium-I-potassium, with nitrogen being used as a cover gas. With a gas pressure of 3 pounds per square inch in container 40 and an eotor surface speed of 13,000 bites per minute, the measured flow is 3/4 balloons per minute per nozzle unit. With a gas pressure of 5 pounds per square inch and a surface speed of 27,000 cts per minute, the flow rate is 1 3/4 gallons per minute p-ro nozzle set. It has been found that the expected recirculation current losses are not significant as long as the axial length of the current collection area is no more than 1/2 inch, and. the nozzle and gap dimensions are equal to 1/8 inch or less «With this design the losses introduced by the self-pumping effect ■ are around 100 watts per Zioli rotor diameter or are even less»

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Claims (1)

Claims Dynamo-electric machine with one made of liquid Metal current collector, wherein a rotor is provided, which has a circumferential current transmission surface having, and a stator having a stationary Strpm transmission surface that of of said circumferential current transmission surface in is arranged a predetermined distance so that a gap is formed during operation be charged with a conductive liquid metal can, characterized by a self-pumping arrangement for the liquid metal, which has a first nozzle and a second nozzle in the stator that are connected to the Gap in communication, the nozzles approximately in opposite circumferential directions relative to the circumferential flow transfer surface are directed, and wherein a source of the conductive liquid metal is provided which is in communication with the nozzles and wherein the structure is such that the circulation of the liquid metal through the gap in accordance with the rotation of the rotor iin dependent on the direction of rotation is trained,. 00985 2/05 40 2 / dynamo-electric machine, according to claim 1, characterized 'characterized in that an annular pumping groove in the stationary flow transmission surface provided is, and that the breasts into this pump nujj extend and this pump groove - lower chen ",. 3 "Dynamo-electric machine" according to claim 2, characterized characterized in that this pumping groove is axially connected to a part of the circumferential current transmission surface which protrudes most radially flees" ρ dynamoelectric machine according to claim 3, characterized characterized in that the radial distance of the outermost Projections to the radially outermost surface which is at least two times larger than that Sρaltabit and.. 5. Dynamo-electric machine according to one of the claims 2-4, characterized in that the source for the conductive liquid .Metall is a storage container, and that the nozzles with equal pressure areas in the storage container are connected" 6ο dynamoelectric machine according to claim 5, characterized characterized in that the first and second nozzle assemblies Have nozzles, and that pairs in the circumferential direction 009852/0540 - around around the But are spaced apart. ο Dynamoelectric machine according to claim 6, characterized marked that nozzles that are in the same circumferential orientation -wise, connected in pairs " 8. Dynamoelectric machine according to claim 6 or 7 »characterized in that these pairs of nozzles are arranged in the circumferential direction at a distance in the range of 6" to about 9 inches from each other _e 9ο dynamo-electric machine according to one of the claims 6-8, characterized in that each of the nozzles of the pairs are arranged in separate nozzle blocks ο 10ο dynamo-electric machine according to one of claims 5 - 9> characterized in that the storage container is arranged below the overall height of the collector, and that a pressurized gas is arranged in the storage container * ο Dynamoelectric machine according to claim 10, characterized characterized in that a pressure regulating device is provided is to increase the pressure of this pressurized gas. regulate" 009852/0540> - ¹³ - ■■■ '■■■ .. " 12 «Dynamoelectric machine according to claim 11, characterized characterized in that the openings of courage are essentially the same, corresponding transverse harmony dimensions to have" ' · 13o dynamo-electric machine according to claim 12, characterized in that these dimensions are equal to or
are smaller than 1/8 inch " 0098 52/05 40 ■ ί; ί Blank page