US336962A - Regulator For Dynamo—Electric Machines - Google Patents

Regulator For Dynamo—Electric Machines Download PDF

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Publication number
US336962A
US336962A US336962DA US336962A US 336962 A US336962 A US 336962A US 336962D A US336962D A US 336962DA US 336962 A US336962 A US 336962A
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Prior art keywords
brushes
dynamo
helices
current
field
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Expired - Lifetime
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Inventor
Nikola Tesla
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Tesla Electric Light And Manufacturing Co
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Tesla Electric Light And Manufacturing Co
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K23/00DC commutator motors or generators having mechanical commutator; Universal AC/DC commutator motors
    • H02K23/02DC commutator motors or generators having mechanical commutator; Universal AC/DC commutator motors characterised by arrangement for exciting
    • H02K23/20DC commutator motors or generators having mechanical commutator; Universal AC/DC commutator motors characterised by arrangement for exciting having additional brushes spaced intermediately of the main brushes on the commutator, e.g. cross-field machines, metadynes, amplidynes or other armature-reaction excited machines

Definitions

  • My invention is designed to provide an improvedmcthod for regulating the current in dynamo-electric machines.
  • I employ one or more auxiliary brushes, by means of which I shunt a portion or the whole of the field-helices. According to the relative position upon the commutator of the respective brushes more or less current is caused to pass through the helices of the field, and the current developed by the machine can be varied at will by varying the relative positions of the brushes.
  • a and b are the positive and negative brushes of the main circuit, and c an auxiliary brush.
  • the main circuit D extends from the brushes (4 and b, as usual, and
  • the auxiliary brush c is connected to the point a: of the main circuit by means of the wire 0.
  • H is a commutator of ordinary construction. From that which has been said in the application above referred to it will be seen that when the electro-motive force between the 0 brushes a and c is to the electro-motive force between the brushes 0 and b as the resistance of the circuit a M 0 c A. to the resistance of the circuit Z) O B c c D, the potentials of the points x and 3/ will be equal, and no current 5 will pass over the auxiliary brush 0,- butif said brush occupies a different position rela tively to the main brushes the electric condition is disturbed, and current will fiow either from 3 to m or from w to 9, according to the 0 relative position of the brushes.
  • the current through the field-helices will be partly neutralized and the magnetism of the field-magnets diminished.
  • the current will be increased and the magnets will gain strength.
  • Figs. 6 and 7 I have represented some. of the automatic means that may be used for moving the brushes.
  • the core I, Fig. 6, of the solenoid-helix S is connected with the brush 0 to move the same, and in Fig. 7 the core P is shown as within the helix S, and connected with both brushes a and 0, so as to move the same toward or from each other, according to the strength of the current in the helix, the helixbeing within an iron tube, S, that becomes magnetized and increases the 7c action of the solenoid.
  • auxiliary brush In practice it is sufficient to move only the auxiliary brush, as shown in Fig. 6, as the regulation is very sensitive to the slightest changes; but the relative position of the auxiliary brush to the main brushes may be varied by moving the main brushes, or both main and auxiliary brushes may be moved, as illustrated in Fig. 7. In the latter two cases, it will. be understood, the motion of the main 8o brushes relatively to the neutral line of the machine causes variations in the strength of the current independently of their relative position to the auxiliary brush. In all cases the adjustment may be such that when the 5 machine is running with the ordinary load no current flows over the auxiliary brush.
  • the field-helices may be connected as shown in Fig. 1, or a part of the field-helices may be in the outgoing and the otherpart in the return circuit, and two auxiliary brushes may be employed as shown in Figs. 8 and 4. Instead of shunting the whole of the field-helices, a
  • the arrangement shown in Fig. 4. is advantageous, as it diminishes the sparking upon the commutator, the main circuit being closed through the auxiliary brushes at the moment of the break of the circuit at the main brushes.
  • the field-helices may be wound in the same direction, orapart may be wound in opposite directions.
  • connection between the helices and the auxiliary brush or brushes may be made by a wire of small resistance, or a resistance may be interposed (B, Fig. 5) between the point x and the auxiliary brush or brushes to divide the sensitiveness when the brushes are ad- 10 justed.
  • auxiliary brushes received the current continuously and caused great sparking, whereas in my invention the auxiliary brush receives current only when the normal electrical conditions of the circuit are disturbed.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Motor Or Generator Current Collectors (AREA)

Description

(No Model.) 2 Sheets-Sheet 1.
N. TESLA.
REGULATOR FOR DYNAMO ELEGTRIG MACHINES. No. 336,962. Patented Mar. 2, 1886.
(No Model.) 2 SheetsSheet 2.
N. TESLA.
REGULATOR FOR DYNAMO ELECTRIC MAGHINES. No. 336,962. Patented Mar. 2 1886.
N, PETERS. Phnm-Lnm m mr, washin wn. D. c.
-Urvrrsn STATES PATENT Genres.
NIKOLA. TESLA, OF SMILJAN LIKA, AUSTRIA-HUNGARY, ASSIGNOR TO THE TESLA ELECTRIC LIGHT AND MANUFACTURING COMPANY, OF RAHYVAY,
NEW JERSEY.
REGULATCR FOR DYNAMG-ELECTRIC MACHINES SFECIEICATIQN forming part of Letters Patent No. 336,962, dated March 2, 1886.
(No model.)
f aZZ whom it may concern.-
Beit known that I, NIKOLA TESLA, of Smiljan Lika, border country ofAustriaHungary, have invented an Improvement in Dynamo- Electric Machines, of which the following is a specification.
My invention is designed to provide an improvedmcthod for regulating the current in dynamo-electric machines.
In another application, No. 165,793, filedby me May 18, 1885, I have shown a method for regulating the current in a dynamo having the field-helices in a shunt. My present application relates to a dynamo having its field- 1 helices connected in the main circuit.
In my improvement I employ one or more auxiliary brushes, by means of which I shunt a portion or the whole of the field-helices. According to the relative position upon the commutator of the respective brushes more or less current is caused to pass through the helices of the field, and the current developed by the machine can be varied at will by varying the relative positions of the brushes.
In the drawings the present invention is illustrated by diagrams, which are hereinafter separately referred to.
In Figure 1, a and b are the positive and negative brushes of the main circuit, and c an auxiliary brush. The main circuit D extends from the brushes (4 and b, as usual, and
contains the helices M of the field-wire and the electric lamps or other working devices.
The auxiliary brush cis connected to the point a: of the main circuit by means of the wire 0.
H is a commutator of ordinary construction. From that which has been said in the application above referred to it will be seen that when the electro-motive force between the 0 brushes a and c is to the electro-motive force between the brushes 0 and b as the resistance of the circuit a M 0 c A. to the resistance of the circuit Z) O B c c D, the potentials of the points x and 3/ will be equal, and no current 5 will pass over the auxiliary brush 0,- butif said brush occupies a different position rela tively to the main brushes the electric condition is disturbed, and current will fiow either from 3 to m or from w to 9, according to the 0 relative position of the brushes. In the first case the current through the field-helices will be partly neutralized and the magnetism of the field-magnets diminished. In the second case the current will be increased and the magnets will gain strength. By combining with the brushes a b c any automatic regulating mechanism the current developed can be regulated automatically in proportion to the demands in the working-circuit.
In Figs. 6 and 7 I have represented some. of the automatic means that may be used for moving the brushes. The core I, Fig. 6, of the solenoid-helix S, is connected with the brush 0 to move the same, and in Fig. 7 the core P is shown as within the helix S, and connected with both brushes a and 0, so as to move the same toward or from each other, according to the strength of the current in the helix, the helixbeing within an iron tube, S, that becomes magnetized and increases the 7c action of the solenoid.
In practice it is sufficient to move only the auxiliary brush, as shown in Fig. 6, as the regulation is very sensitive to the slightest changes; but the relative position of the auxiliary brush to the main brushes may be varied by moving the main brushes, or both main and auxiliary brushes may be moved, as illustrated in Fig. 7. In the latter two cases, it will. be understood, the motion of the main 8o brushes relatively to the neutral line of the machine causes variations in the strength of the current independently of their relative position to the auxiliary brush. In all cases the adjustment may be such that when the 5 machine is running with the ordinary load no current flows over the auxiliary brush.
The field-helices may be connected as shown in Fig. 1, or a part of the field-helices may be in the outgoing and the otherpart in the return circuit, and two auxiliary brushes may be employed as shown in Figs. 8 and 4. Instead of shunting the whole of the field-helices, a
portion only of such helices may be shunted,
as shown in Figs. 2 and 4.
The arrangement shown in Fig. 4. is advantageous, as it diminishes the sparking upon the commutator, the main circuit being closed through the auxiliary brushes at the moment of the break of the circuit at the main brushes. 3
The field-helices may be wound in the same direction, orapart may be wound in opposite directions.
The connection between the helices and the auxiliary brush or brushes may be made by a wire of small resistance, or a resistance may be interposed (B, Fig. 5) between the point x and the auxiliary brush or brushes to divide the sensitiveness when the brushes are ad- 10 justed.
said auxiliary brushes received the current continuously and caused great sparking, whereas in my invention the auxiliary brush receives current only when the normal electrical conditions of the circuit are disturbed.
I claim as my invention- The combination, with the commutator and main brushes and one or more auxiliary brushes, of the field-helices in the main circuits and one or more shunt-connections from the field-helices to the auxiliary brushes, the relative positions upon the commutator of the respective brushes being adjustable, for the purpose set forth.
Signed by me this 16th day of May, A, D. 1885.
NIKOLA TESLA.
Witnesses:
GEo. T. PINOKNEY, WALLACE L. SERRELL.
US336962D Regulator For Dynamo—Electric Machines Expired - Lifetime US336962A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US336961A (en) * 1886-03-02 The Tesla Electric Light And Manufacturing Company Regulator For Dynamo
DE102017000657A1 (en) 2016-01-26 2017-07-27 Alf Holger Tschersich Fusion devices and methods for cold hydrogen fusion

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US336961A (en) * 1886-03-02 The Tesla Electric Light And Manufacturing Company Regulator For Dynamo
DE102017000657A1 (en) 2016-01-26 2017-07-27 Alf Holger Tschersich Fusion devices and methods for cold hydrogen fusion

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