US2062720A - Regulating transformer - Google Patents

Regulating transformer Download PDF

Info

Publication number: US2062720A
Authority: US; United States
Prior art keywords: contact; regulating; coil; partial; slide
Prior art date: 1934-07-24
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Expired - Lifetime

Application number

US30570A

Other languages

English (en)

Inventor

Leischner Georg

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

MACHINERIEEN EN APP N FABRICKE

N V Machinerieen-En Apparaten Fabricken "meaf"

Original Assignee

MACHINERIEEN EN APP N FABRICKE

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1934-07-24

Filing date

1935-07-09

Publication date

1936-12-01

1935-07-09 Application filed by MACHINERIEEN EN APP N FABRICKE filed Critical MACHINERIEEN EN APP N FABRICKE

1936-12-01 Application granted granted Critical

1936-12-01 Publication of US2062720A publication Critical patent/US2062720A/en

1953-12-01 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Images

Classifications

- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F29/00—Variable transformers or inductances not covered by group H01F21/00
- H01F29/06—Variable transformers or inductances not covered by group H01F21/00 with current collector gliding or rolling on or along winding

Definitions

the present invention relates to a regulating transformer.
a regulating transformer consists, e. g. in maintaining the constancy of the potential of an alternating current net, notwithstanding varying load or fluctuations in feed po- 'tential.
Another use is the generation of a variable potential)v for instance, for feeding the motors of electric locomotives.
transformers For the purpose of regulating alternating potentials, generally transformers are employed,
the present invention relates to a regulating transformer in which these defects have been avoided by causing the iron core to comprise a plurality of partial cores and causing'the regulatlng coil to so contact with a contact slide that,
the short-circuited portion encompasses merely one partial core and the flux, which would otherwise pass through this partial core, is forced on on to the other partial cores.
Fig. 1 is a diagrammatic side. elevation of a part of a regulating transformer in accordance with the present invention.
Fig. 2 represents a diagrammatic plan view of the identical part.
Fig. illustrates an arrangement with five partial c and a star-shaped contact slide.
Fig. 4 is a side elevation of a form of performance of a regulating transformer in accordance 50 with the present invention.
Fig. 5 is a cross-sectional view along the line 5-5ofFig.4. v
Fig. 6 is a side elevation of a further'form or performance ,in section along the line H of Fig. 7 is a cross-sectional view along the line 1-1 of Fig. 6. s
Fig. 8 represents an arrangement inordance with Fig. 5, in which taps on the re ting coil are made to pass through between the par tial cores.
Fig. 9 details an arrangement corresponding to Fig. 7, in which taps on the regulating coil are made to pass through between the partial cores.
the iron core may be of any desired shape, such as is known in the art in connection with transformers. From these known forms the core. or the regulating transformer in accordance with the present invention difiers, however, in so far as the portion, encompassed by the regulating coil ii, is sub-divided into two or more partial cores, i. e. in thecase of Figs. 1 and 2, into two partial cores a1 and 02, being separated by the airgap Ii.
the contact slide i2 is so disposed, that it allows of'being dia placed in a longitudinal direction of the core and that the contact pieces I 3, attached to the contact slide l2, are made to establish contact on the inner face of the regulating coil alternately with the one or the other winding.
the contact slide If the contact slide is made to occupy the position as represented in Fig. 1, in which both contacts it are touching the regulating coil, the one winding half, encompassing the partial core or, will then be short-circuited and the flux will be forced out therefrom. If the contact slide is further displaced so as to establish contact with the next winding, the winding-half, encompassing 35 the partial core 02, will be short-circuited and the flux forced out therefrom and so on, until the contact slide has covered the whole of the path.
the iron core is made to carry on one of the limbs the primary coil l5 and on its other limb the regulatinc .0011 It.
the core encompassed by the regu- 6d lating coil consists of four partial cores, oi, as, as. and m.
the contact slide I1 is slidably disposed in the direction of the longitudinal axis of the regulating coil. This contact slide II touches the regulating coil I6 inwardly by means of its four contact pieces l8, I, III, and II.
Fig. 4 is made to show the arrangement in section at the point, where the contact slide is situated. It will be seen without any diillculty, that in the position of the contact slide indicated in the drawings, the contact pieces II and ii are establishing contact with the regulating coil, whereby a short-circuit, encompassing the limb at, will be produced. This will cause the flux, passing through the limb at at uniform distribution, to be forced off to the limbs or, as, and as, so that in the short-circuit, encompassing the limb in, no shortcircuit currents, endangering the arrangement, will be produced.
a rack 22 in which a toothed wheel 28, actuated by means of a crank 24, is made to engage, is passed through the limb of the iron core in anaxial direc-' tion.
a sliding contact 25 is made to serve as current feed to the contact slide.
the variable potential produced can be taken oi! between one of the binding posts 26 and the binding post 11. It is a matter of course, that the arrangement may also be used as auto-transformer and that the primary potential can be connected with the two binding posts.
the primary coil II can, in this instance, be dispensed with.
the contact slide can also be so dispoud, that it establishes contact with the outer face of the regulating coil of the inner face.
the magnetic flux return conductors require to be sub-divided and the separate contact pieces of the contact slide to be passed through between the former.
the iron core is so composed of four bilimbed iron cores, that the four limbs or. as. as,
the limbs bl, ba, ha, and b4 have been annularly disposed.
a ring as, serving as contact slide has been provided and is adapted to be displaced in the direction of the axis of'symmetry of the arrangement. From this ring four contact arms 3
the contact arms it and II are made to establish contact with the regulating coil.
the contact slide is also adapted, apart from the displacement in direction of the axis of the regulating coil, to :zgcribe an eccentric motion round the regulating It is, of course, understood, that in all the arrangements described, the direction of theenergy may be reversed and that the regulating coils may be connected with the source of supply as primary coils, and the fixed coils with the point of consumption as secondary coils.
a regulating transformer comprising an iron core, a regulating coil, a contact slide and contact pieces, the part, encompassed by the regulating coil, consisting of a plurality of partial cores, the contact slide being moveably dilposed between the partial cores. the contact pieces on the contact slide being so arranged, that they establish contact with the inside of the regulating coil'and that the short-circuit, produced by the contact of two points of the regulating coil, encompasses one partial core.
a regulating transformer comprising an iron core, a regulating coil, a contact slide and contact pieces, the part of the iron core. encompassed by the regulating coil, being made to consist of a plurality of partial cores annularly disposed, the star-shaped contact slide being moveably disposed between the partlal cores, the contact pieces on the contact slide being so disposed. that they establish contact with the regulating coil on the inside and that the short-circuit, produced by the contact of two points of the regulating coil, encompasses one partial core.
a regulating transformer comprising an iron core, a regulating coil, a contact slide and contact pieces, the part of the iron core enemipassed by the regulating coil being made to consist of four partial cores,'the cross-shaped contact slide being moveably disposed between the partial cores, the contact pieces on the contact slide being. so disposed, that they establish contact with the regulating coil on the inside and that the short-circuit, produced by the contact of two points of the regulating coil, encompa-es one partial cone.
a regulating transformer comprising an iron core, a regulating coil, a contact slide and contact pieces, the part of the iron core encompassed by the regulating coil consisting of a plurality of partial cores, the contact slide being moveably disposed between the partial cores, the contact pieces on the contact slide being so disposed, that they establish contact with the Mlllating coil on the inside and that the short-circuit, produced by the contact of two contact pieces connected with the regulating coil, encompasses one partial core.
Regulating transformer comprising an inn core, a regulating coll, a contact slide and contact pieces, the part of the iron core, situated outside the regulating coil, consisting of a plurality of partial cores, the contact slide outside the partial cores being mcveably disposed, the contact pieces being so disposed on the contact slide that, passing through between the partial cores, they establish contact with the outside of the regulating coil and that the short-circuit, produced by the contact of two points of the regulating coil, encompasses one partial core.
Regulating transformer comprising an iron core, a regulating coil, a contact slide and contact pieces, the part of the iron core, situated outside the regulating -coil, consisting of a plurality of annularly' disposed partial cores, the contact slide outside the partial cores being moveably disposed, the contact pieces on the contact slide being so disposed, that they are made to pass through between the partial cores and establish contact with the regulating coil on the outside. and that the short-circuit, producedby the contact of two points of the regulating coil, encompasses one partial core.
Regulating transformer comprising an iron core, a regulating coil, a contactslide andcontact pieces, the part of the iron core situated outside the regulating coil consisting of a plurality of partial cores, the contact slide outside the partial cores being moveably disposed, the contact pieces being so disposed on the contact slide, that they establish contact with the contact pieces, connected with the regulating coil, from the outside and that the short-circuit, produced by the contact of two Contact pieces con nected with the regulating coil, encoinpasses one partial core.
a regulating transformer comprising a plurality of. partial cores, over which the power flux generated by a transformer is distributed, a regu lating coil and a contact slide, at least one of the cores carrying the regulating coil, the contact slide engaging between the partial cores provided with at least two electrically connected contacts which contact with the regulating coil encompassing the core at two diametrically opposite points, in such manner that the thereby resulting short circuit encompasses only one of the cores partially traversed by the main current flux.

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Engineering & Computer Science (AREA)
Power Engineering (AREA)
Coils Of Transformers For General Uses (AREA)

US30570A 1934-07-24 1935-07-09 Regulating transformer Expired - Lifetime US2062720A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
DE2062720X		1934-07-24

Publications (1)

Publication Number	Publication Date
US2062720A true US2062720A (en)	1936-12-01

Family

ID=7983164

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US30570A Expired - Lifetime US2062720A (en)	1934-07-24	1935-07-09	Regulating transformer

Country Status (2)

Country	Link
US (1)	US2062720A (es)
ES (1)	ES138162A1 (es)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2098218A1 (es) *	1970-07-07	1972-03-10	Sato Ryoda
FR2420243A1 (fr) *	1978-03-17	1979-10-12	Siemens Ag	Transformateur triphase de reglage
FR2514190A1 (fr) *	1981-10-06	1983-04-08	Thomson Csf	Inductance a ruban imprime et emetteur comportant une telle inductance

1935
- 1935-05-09 ES ES0138162A patent/ES138162A1/es not_active Expired
- 1935-07-09 US US30570A patent/US2062720A/en not_active Expired - Lifetime

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2098218A1 (es) *	1970-07-07	1972-03-10	Sato Ryoda
FR2420243A1 (fr) *	1978-03-17	1979-10-12	Siemens Ag	Transformateur triphase de reglage
FR2514190A1 (fr) *	1981-10-06	1983-04-08	Thomson Csf	Inductance a ruban imprime et emetteur comportant une telle inductance
EP0077240A1 (fr) *	1981-10-06	1983-04-20	Thomson-Csf	Inductance à ruban imprimé et émetteur comportant une telle inductance

Also Published As

Publication number	Publication date
ES138162A1 (es)	1935-08-16

Publication	Publication Date	Title
GB1211885A (en)	1970-11-11	Improvements relating to inductive windings
US2600057A (en)	1952-06-10	High-voltage multiple core transformer
GB1090995A (en)	1967-11-15	Improvements in or relating to high voltage rectifier systems
US2283711A (en)	1942-05-19	Electrical winding
US2062720A (en)	1936-12-01	Regulating transformer
GB986323A (en)	1965-03-17	Electric inductive apparatus
US1227302A (en)	1917-05-22	Means for controlling alternating currents.
US1698634A (en)	1929-01-08	Electrical induction apparatus
US2482489A (en)	1949-09-20	Interwound coil
US2770767A (en)	1956-11-13	Winding arrangement using a tertiary winding
US1794717A (en)	1931-03-03	Magnetic modulator
US3185946A (en)	1965-05-25	Transformer tap winding
GB587997A (en)	1947-05-12	Improvements in inductive windings
US1635060A (en)	1927-07-05	Induction voltage regulator
US3271659A (en)	1966-09-06	Tap changing autotransformer
US1801608A (en)	1931-04-21	Electric ignition apparatus
US3031633A (en)	1962-04-24	Differential transformer
US1140920A (en)	1915-05-25	Transformer.
US2295371A (en)	1942-09-08	Electrical apparatus
US1738117A (en)	1929-12-03	Nonmagnetic-core reactance coil
US1870272A (en)	1932-08-09	Alternating current motor
US1507190A (en)	1924-09-02	High-tension transformer
US1836615A (en)	1931-12-15	Transformer for electric arc cutting and welding apparatus
GB693037A (en)	1953-06-24	Improvements in or relating to inductive apparatus such as power transformers
US2975358A (en)	1961-03-14	Transformer