US851743A - Variable-voltage transformer. - Google Patents

Variable-voltage transformer. Download PDF

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US851743A
US851743A US32519306A US1906325193A US851743A US 851743 A US851743 A US 851743A US 32519306 A US32519306 A US 32519306A US 1906325193 A US1906325193 A US 1906325193A US 851743 A US851743 A US 851743A
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coil
primary
voltage
variable
secondary coil
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US32519306A
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Edward F Gehrkens
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General Electric Co
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General Electric Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F29/00Variable transformers or inductances not covered by group H01F21/00
    • H01F29/08Variable transformers or inductances not covered by group H01F21/00 with core, coil, winding, or shield movable to offset variation of voltage or phase shift, e.g. induction regulators
    • H01F29/10Variable transformers or inductances not covered by group H01F21/00 with core, coil, winding, or shield movable to offset variation of voltage or phase shift, e.g. induction regulators having movable part of magnetic circuit

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  • WiCnesses 5 B lnventor' UNITED STATES PATENT OFFICE.
  • My invention relates to variable-voltage transformers of the type in which the variation in secondary voltage is obtained by vathe secondarycoil.
  • the object of my invention is to provide a transformer of this type in which the secondary voltage may be reduced absolutely to zero. I accomplish this by providing a third coil in inductive relationto the primary and connected in series with the secondary coil.
  • This third coil may be arrangedv in constant inductive relation to the primary coil and maybe so proportioned as to produce an in ductive v0 tage approximately equal to the minimum induced voltage in the "secondary coil.
  • Figure '1 shows a plan view of a variablevoltage transformerv arranged in accordance with my invention
  • Fig. 2 shows a side elevation of the same
  • Fig. 3 shows a perspective view of one of the flux shunts.
  • A represents the magnetic core, which is composed in the usual way of laminations clamped between the end-plates a, a.
  • This core is shown arranged for a so-called shell-type transformer, the core having three legs with the primary and secondary coils mounted on the central leg.
  • certam new and' P represents the primary and S the secondary coil. These coils are spaced apart on the core, and a flux shunt B is arranged to move vertically between the primary and secondary coils so as to divert variable portions of the primary flux from the secondary coil.
  • the construction of this shunt is shown clearly in F ig'. 3.
  • a second similar member C is placed at the secondary end of the magnetic core and acts to open and close the magnetic circuit that threads both primary andsecondary coils.
  • the member C moves up as the member B moves down the posltion shown in Fig. 2 being that of maximum secondary voltage.
  • the members B and C are operated by the screw-threaded rods 1) and c, respectively, which are provided with beveled gears actuated from a shaft D which is provided with a hand-wheel.
  • I provide a third coil 8 which is placed close to the rimary coil P and in constant inductive re ation thereto; that is, the induced voltage in the coil 8 is not affected by' the movement of the fluX shunts.
  • This coil 8 is connected in series with themain second- 'ary coil S and opposes the voltage induced in the main secondary coil.
  • the number of turns in the coil 5 should bear to the number of turns in the coil S the same ratio that the portion of the primary flux which threads the coil S under minimum voltage conditions bears to the total primary flux.
  • auxiliary coil 8 is maintained permanently in opposition to the main secondary coil, it will of course be understood that the main secondary coil should be given an excess number of turns for a given maximum voltage, in order to compensate for the opposing voltage of the auxiliary coil.
  • variable-voltage transformer primary and secondary coils, means for varying the inductive effect of the primary on the secondary coil, and a third coil in inductive relation to the primary and connected in series with the secondary coil.
  • variable-voltage transformer primary and secondary coils, means for varying the inductive effect of the primary on the secondary coil, and a third coil in inductive relation to the primary and connected in series with and opposing the secondary coil, said third coil being proportioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
  • a magnetic core, primary and secondary coils thereon means for .moving a portion of the core to vary the inductive effect of the primary upon the secondary coil, and a third coil on the core in series with the secondary coil. 4.
  • a magnetic core, primary and secondary coils thereon means for moving a portion of the core to vary the inductive effect of the primary upon the secondary coil, and a third coil in constant inductive relation to the primary andproportioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
  • variable-voltage transformer primary and secondary coils, means for varying the proportion of total primary flux threading the secondary coil, and a third coil in in ductive relation to the primary and connected in series with the secondary coil.
  • variable-voltage transformer primary and secondary coils, means for varying the proportion of total primary flux threading the secondary coil, and a third coil in inductive relation to the primary and connected in series with and opposing the secondary coil, said third coil being propor- ,tioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
  • primary and secondary coils means for varying the proportion of total primary .llux threading the secondary coil, and a third coil in constant inductive relation to the primary coil, the product of the number of turns of the third coil and the primary flux by which it is threaded being approximately equal to the product of the number of turns of the secondary coil and the minimum primary flux by which it is threaded.
  • a core adapted to afford two magnetic circuits, one passing through both coils and the other shunting the secondary coil, means for varying the relative reluctances of said circuits, and a third coil inconstant inductive relation. to the primary coil and connected in series with the secondary coil.
  • a core in which the flux is not shifted by said means.

Description

N0. 851,743. PATBNTED APR. 30, 1907.
B. F GEHRKENS. VARIABLE VOLTAGE TRANSFORMER.
APPLICATION FILED JULYQ, 1906.
WiCnesses: 5 B lnventor' UNITED STATES PATENT OFFICE.
EDWARD F. GEHRKENS, OF SCHENECTADY, NEW YORK, ASSIGNOR TO GEN- ERAL ELECTRIC COMPANY, A CORPORATION OF NEW YORK.
Specification of Letters Patent.
Patented April 30, 1907.
Application filed July 9,1906. Serial No. 325,193.
To all wh07n it may cancer-m Be'it known that I, EDWARD F. GEHRKENS, a citizen of the United States, residing at Schenectad' county of Schenectady, State of New Yorli, useful Improvements in Variable-Voltage Transformers, of which the following is a specification. V
My invention relates to variable-voltage transformers of the type in which the variation in secondary voltage is obtained by vathe secondarycoil.
rying the inductive effect of the primary on One form of'transformer which has been developed heretofore for this purpose 18 arranged with. a portion or portions of the core movable so as to divert a portion of the primary flux from the secondary coil. I "have found that in such trans formers it is very difficult and practically im possible to divert the entire primary flux from the secondary coil, so that even when the transformer is set for minimum voltage a certain induced voltage still exists in the secondary-coil.
The object of my invention is to provide a transformer of this type in which the secondary voltage may be reduced absolutely to zero. I accomplish this by providing a third coil in inductive relationto the primary and connected in series with the secondary coil.
.This third coil may be arrangedv in constant inductive relation to the primary coil and maybe so proportioned as to produce an in ductive v0 tage approximately equal to the minimum induced voltage in the "secondary coil. By connecting this third coil in series with the secondary coilthe resultant of the electromotive force of the two coils is zero when the transformer is adjusted for minimum voltage.
My invention will best be understood by reference to the accompanying drawings, in which,
Figure '1 shows a plan view of a variablevoltage transformerv arranged in accordance with my invention; Fig. 2 shows a side elevation of the same; and Fig. 3 shows a perspective view of one of the flux shunts.
In'the drawings, A represents the magnetic core, which is composed in the usual way of laminations clamped between the end-plates a, a. This core is shown arranged for a so-called shell-type transformer, the core having three legs with the primary and secondary coils mounted on the central leg.
have invented certam new and' P represents the primary and S the secondary coil. These coils are spaced apart on the core, and a flux shunt B is arranged to move vertically between the primary and secondary coils so as to divert variable portions of the primary flux from the secondary coil. The construction of this shunt is shown clearly in F ig'. 3. As Will be'seen from this figure, it consists of two magnetic laminated masses movable between the central leg and the two outer legs of the transformer core so as to form a magnetic short-circuit for the primary flux. A second similar member C is placed at the secondary end of the magnetic core and acts to open and close the magnetic circuit that threads both primary andsecondary coils. The member C moves up as the member B moves down the posltion shown in Fig. 2 being that of maximum secondary voltage. The members B and C are operated by the screw-threaded rods 1) and c, respectively, which are provided with beveled gears actuated from a shaft D which is provided with a hand-wheel.
' With the members B and C in position shown in Fi 2, nearly all the primary flux passes through the secondary coil, but as the member C is raised and the member B lowered, more and more of the primary flux is shunted around the secondary coil so as'to reduce the secondary voltage. It will be seen, however, that when the member B is in its lowest position and member C in its high est position, a-certain small portion of the primary flux will still leak through the secondary coil, closing itself through the airgaps at the secondary end of the core. Consequently, even when the flux shunts are in the position for minimum voltage a certain amount of voltage still exists in the secondary coil S.
In order to render it possible to obtain a varying voltage that maybe reduced fully to zero, I provide a third coil 8 which is placed close to the rimary coil P and in constant inductive re ation thereto; that is, the induced voltage in the coil 8 is not affected by' the movement of the fluX shunts. This coil 8 is connected in series with themain second- 'ary coil S and opposes the voltage induced in the main secondary coil. By proportioning the coil 8 so that it has a constant induced voltage equal to the minimum induced voltage in coil S, the resultant voltage when the flux shunts are in the position of minimum voltage will be zero.
Obviously, the number of turns in the coil 5 should bear to the number of turns in the coil S the same ratio that the portion of the primary flux which threads the coil S under minimum voltage conditions bears to the total primary flux.
While I have shown my invention applied to a variable voltage transformer of a particular type, it will of course be understood that my invention is not limited to this par ticular construction. If the auxiliary coil 8 is maintained permanently in opposition to the main secondary coil, it will of course be understood that the main secondary coil should be given an excess number of turns for a given maximum voltage, in order to compensate for the opposing voltage of the auxiliary coil.
What I claim as new and desire to secure by Letters Patent of the United States, is:
1. In a variable-voltage transformer, primary and secondary coils, means for varying the inductive effect of the primary on the secondary coil, and a third coil in inductive relation to the primary and connected in series with the secondary coil.
2. In a variable-voltage transformer, primary and secondary coils, means for varying the inductive effect of the primary on the secondary coil, and a third coil in inductive relation to the primary and connected in series with and opposing the secondary coil, said third coil being proportioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
3. In a variablevoltage transformer, a magnetic core, primary and secondary coils thereon, means for .moving a portion of the core to vary the inductive effect of the primary upon the secondary coil, and a third coil on the core in series with the secondary coil. 4. In a variable-voltage transformer, a magnetic core, primary and secondary coils thereon, means for moving a portion of the core to vary the inductive effect of the primary upon the secondary coil, and a third coil in constant inductive relation to the primary andproportioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
5. In a variable-voltage transformer, primary and secondary coils, means for varying the proportion of total primary flux threading the secondary coil, and a third coil in in ductive relation to the primary and connected in series with the secondary coil.
6. In a variable-voltage transformer, primary and secondary coils, means for varying the proportion of total primary flux threading the secondary coil, and a third coil in inductive relation to the primary and connected in series with and opposing the secondary coil, said third coil being propor- ,tioned to give an induced voltage approximately equal to the minimum induced voltage in the secondary coil.
7. In a variable-voltage transformer, primary and secondary coils, means for varying the proportion of total primary .llux threading the secondary coil, and a third coil in constant inductive relation to the primary coil, the product of the number of turns of the third coil and the primary flux by which it is threaded being approximately equal to the product of the number of turns of the secondary coil and the minimum primary flux by which it is threaded.
8. In a variable-voltage transformer, primary and secondary coils, a core adapted to afford two magnetic circuits, one passing through both coils and the other shunting the secondary coil, means for varying the relative reluctances of said circuits, and a third coil inconstant inductive relation. to the primary coil and connected in series with the secondary coil.
9. In a variable-voltage transformer, a core, primary and secondary coils spaced apart on said core, means for shifting the flux from one portion of the core to another, and a third coil in series with and opposing the secondary and arranged on a portion of the core in which the flux is not shifted by said means.
In witness whereof, 'I have hereunto set my hand this 6th day of July, 1906.
EDVTARD EIGEHRKENS,
Witnesses BENJAMIN B. HULL, HELEN Gnronn.
US32519306A 1906-07-09 1906-07-09 Variable-voltage transformer. Expired - Lifetime US851743A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437021A (en) * 1945-10-06 1948-03-02 Fries Eduard Transformer with regulatable leakage reactance
US2671196A (en) * 1948-06-24 1954-03-02 Frederick C Owen Welding transformer

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437021A (en) * 1945-10-06 1948-03-02 Fries Eduard Transformer with regulatable leakage reactance
US2671196A (en) * 1948-06-24 1954-03-02 Frederick C Owen Welding transformer

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