US2515874A - Transformer - Google Patents

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Publication number
US2515874A
US2515874A US697432A US69743246A US2515874A US 2515874 A US2515874 A US 2515874A US 697432 A US697432 A US 697432A US 69743246 A US69743246 A US 69743246A US 2515874 A US2515874 A US 2515874A
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Prior art keywords
blocks
primary coil
turns
primary winding
primary
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Expired - Lifetime
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US697432A
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Cyril N Hoyler
Rudolph A Bierwirth
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RCA Corp
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RCA Corp
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/36Coil arrangements
    • H05B6/362Coil arrangements with flat coil conductors

Definitions

  • winding composed of a number of turns which are differently spaced from a surrounding secondary.
  • Another object is to provide a transformer having a primary winding which is more closely spaced at a point intermediate its ends than at both ends with respect to a surrounding secondary.
  • a further object is to provide a current transformer having a water-cooled primary coil tapered inward toward each end, a surrounding single-turn secondary sheet, and a terminal assembly for attaching a load-coupling coil to the A secondary sheet.
  • Figure 1 illustrates an oscillator circuit for an induction heating system in which the current transformer of the invention may be used
  • Fig. 2 illustrates the cylindrical single-turn secondary of the current transformer of the invention, with the terminal assembly and attached load-coupling coil;
  • Fig/2a is a vertical cross-section of the terminal assembly of Fig. 2;
  • Fig. 3 is a view, partly in perspective and partly in section, of the current transformer of the invention.
  • FIG. 1 there is shown the high frequency generator portion of a high frequency induction heating system in which the current transformer of the invention may be employed. This circuit is given by way of illustration only,
  • the system of Fig. 1 includes a vacuum tube I having its anode, grid and cathode electrodes connected as a Hartley oscillator.
  • the tank or frequency determining circuit compries the primary winding IQ of the current transformer shunted by a condenser 9.
  • the anode is connected to one terminal of the tank circuit 8, through a blocking and bypass condenser 1.
  • the grid is connected via condenser 3 to the other terminal of the tank circuit.
  • the grid is also connected through a resistor I to the cathode which, in turn, is connected to a point P on the 2 it which surrounds the load or batch of metallic material to be heated.
  • the primary winding 10 comprises a plurality of turns of copper tubing through which cooling fluid, such as water, may be passed.
  • the cooling water outlet and the cooling water inlet are indicated respectively by the numerals primary winding 10 intermediate its ends.
  • point P is grounded.
  • Anode polarizing potential from the positive terminal B of a source of unidirectional voltage is supplied via a choke coil 4 to the anode.
  • the secondary of the transformer comprises a single turn 12 inductively coupled to the primary coil 5 and 6 which are connected to points P and P" on the primary 10, at or near ground potential.
  • the anode polarizing potential B may be 20,000 volts D. C. relative to ground; the primary winding i0 may have 20 to 30 turns; the frequency of oscillation may be anywhere in the range from kc. to 250 kc.; the power output from the generator may be 100 kw.; the peak radio frequency voltage in the primary winding may be 18,000 volts and the peak radio frequency voltage in the secondary may be 700 to 900 volts; the primary circulating current may be 50 to 100 ampercs, while the circulating current in the secondary may be 1500 amperes and upward.
  • Fig. 3 shows the general configuration of the current transformer of the invention comprising the primary winding 10 and the surrounding single turn secondary sheet 12.
  • the secondary I 2 is a copper cylinder which surrounds the primary winding 10 along substantially its entire length and is suitably spaced from the primary coil.
  • the copper cylinder constituting the secondary is split lengthwise on one side so as to form a slot (note Fig. 2).
  • the secondary is provided with wide sheet-like copper flanges 26 and 28. These flanges are separated from one another by suitable insulation 30.
  • the flanges serve a dual purpose: First, the spacing between the two flanges is held to a minimum thus reducin the leakage reactance to as low a value as possible, and second, the wide output connections cause the secondary current to flow more nearly uniformly throughout the crosssection of the secondary.
  • the primary coil surrounds a suitable insulating .form 20 such as Bakelite, and this Bakelite form is provided with a plurality of porcelain stand-offs or studs 22 along its length for supporting the individual turns of theprimary winding. It should be noted that successive insulating studs 22 are spaced from one another circumferentially a distance of of a turn; hence, each turn is supported by an insulating stud from the Bakelite tube or form 20.
  • the primary winding 10 is a hollow spirally wound tube through which cooling water flows.
  • An important feature of the present invention is the tapered spacing between the turns of the primary winding l0 and the surrounding cylindrical single-turn secondary sheet 12. It should be noted that point X on the primary winding is 10, and this secondary is coupled to a work coil to more closely spaced from the secondary it than assume 3 pointsYandZoftheprimarywinding,andthat point if is closer to the secondary i2 than the point z. Point 1! is, in practice, grounded and corresponds to point P of Fig. 1 and the spacing of the turns gradually increases in distance away from the secondary sheet II as the peak radio frequency voltage increases on the primary winding.
  • the peak radio frequency voltage between points 2 and X may be 16,000 volts while the peak radio frequency voltage between points 1! and Y may be 2,000 volts.
  • the increased spacing between the secondary sheet i2 and the turns of the primary winding prevents breakdown between the primary winding and the secondary sheet.
  • the terminal assembly for attaching the load coupling, or work coil 32 is shown in Figs. 2 and 2a.
  • This work coil may be copper tubing.
  • This assembly includes a pair of metallic blocks 33 and 31 on flange 26 and another pair of metallic blocks 38 and 39 on flange 28.
  • the blocks 30 and 31 are provided at their centers with semicylindrical apertures for enabling one metallic tubular conductor 34 to enter therein and be securely connected to the blocks 36, 31.
  • blocks 38, 39 are also provided with semicylindrical apertures or holes in the center thereof for enabling the other conductor 34 to enter therein and be securely connected to the blocks 38, 39.
  • the leads 34 are thus securely fastened mechanically, and are electrically connected to the blocks 36, 31 and the blocks 38, 39.
  • the cooling water is fed into the primary coil and taken out therefrom in the direction shown by the arrows at points which are substantially at ground potential.
  • the water inlet and outlet pipes may be of insulation or other suitable material as they do not cary any appreciable voltage.
  • a current transformer comprising a single primary coil of a plurality of spirally wound spaced turns and a single-turn secondary sheet surrounding said primary coil over its entire length and spaced therefrom, the spacing between the turns of said primary coil and said secondary increasing from an intermediate point toward both ends, an insulating form extending longitudinally of and within said primary coil, and stand-off studs positioned along the length of said insulating form and secured to the individual turns of said primary coil for supporting the same, adjacent insulating studs being circumferentially' spaced from one another by a distance which is an appreciable fraction of the 4 cut, and a terminal assembly for said secondary comprising a pair of metallic blocks for each flange, the blocks of each pair having transverse holes at their adjacent edges, said holes together forming a larger opening into which an electrical connection can be inserted and secured between the blocks, and nut and bolt means for rigidly linking the blocks of each pair to each other and to the associated flange.
  • a current transformer comprising a primary coil of a plurality of spirally wound spaced turns and a cylindrical secondary sheet surrounding said primary coil over its entire length and spaced therefrom, the spacing between the turns of said primary coil and said secondary increasing from an intermediate point toward both ends, an insulating form extending longitudinally of and within said primary coil, and stand-oil studs positioned along the length of said insulatins form and secured to the turns of said primary coil for supporting the same, adjacent insulating studs being circumferentially spaced from one another by a distance which is an appreciable fraction of the circumferential distance of a single turn of said primary coil.
  • a current transformer having a primary coil of a plurality of turns and a cylindrical secondary surrounding said primary coil over its entire length and spaced therefrom, said secondary being cut longitudinally along its length, spaced flanges on both sides of said longitudinal cut, and a terminal assembly for said secondary comprising a pair of metallic blocks for each flange, the blocks of each pair having transverse holes at their adjacent edges, said holes together forming a larger opening into which an electrical connection can be inserted and secured between the blocks, and means for rigidly linking the blocks .of each pair to each other and to theassociated flange.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Coils Of Transformers For General Uses (AREA)

Description

y 1950 c. N. HOYLER ETAL 2,515,874
TRANSFORMER Filed Sept. 17, 1946 ATTORN EY Patented July 18, 1950 UNITED STATES PATENT OFFICE TRANSFORMER Cyril N. lioyler, Princeton, N. J., and Rudolph A.
Bierwirth, Chicago, 111., minors to Radio Corporation of America, a corporation of Delaware Application September 17, 1946, Serial No. 697,432
winding composed of a number of turns which are differently spaced from a surrounding secondary.
Another object is to provide a transformer having a primary winding which is more closely spaced at a point intermediate its ends than at both ends with respect to a surrounding secondary.
A further object is to provide a current transformer having a water-cooled primary coil tapered inward toward each end, a surrounding single-turn secondary sheet, and a terminal assembly for attaching a load-coupling coil to the A secondary sheet.
A detailed description of the invention follows, in conjunction with a drawing, wherein:
Figure 1 illustrates an oscillator circuit for an induction heating system in which the current transformer of the invention may be used;
Fig. 2 illustrates the cylindrical single-turn secondary of the current transformer of the invention, with the terminal assembly and attached load-coupling coil;
Fig/2a is a vertical cross-section of the terminal assembly of Fig. 2; and
Fig. 3 is a view, partly in perspective and partly in section, of the current transformer of the invention.
Referring to Fig. 1, there is shown the high frequency generator portion of a high frequency induction heating system in which the current transformer of the invention may be employed. This circuit is given by way of illustration only,
. as other types of oscillator circuits may be used.
The system of Fig. 1 includes a vacuum tube I having its anode, grid and cathode electrodes connected as a Hartley oscillator. The tank or frequency determining circuit compries the primary winding IQ of the current transformer shunted by a condenser 9. The anode is connected to one terminal of the tank circuit 8, through a blocking and bypass condenser 1. The grid is connected via condenser 3 to the other terminal of the tank circuit. The grid is also connected through a resistor I to the cathode which, in turn, is connected to a point P on the 2 it which surrounds the load or batch of metallic material to be heated.
In practice, the primary winding 10 comprises a plurality of turns of copper tubing through which cooling fluid, such as water, may be passed. The cooling water outlet and the cooling water inlet are indicated respectively by the numerals primary winding 10 intermediate its ends. It
should be noted that point P is grounded. Anode polarizing potential from the positive terminal B of a source of unidirectional voltage is supplied via a choke coil 4 to the anode. The secondary of the transformer comprises a single turn 12 inductively coupled to the primary coil 5 and 6 which are connected to points P and P" on the primary 10, at or near ground potential.
By way of illustration only, the anode polarizing potential B may be 20,000 volts D. C. relative to ground; the primary winding i0 may have 20 to 30 turns; the frequency of oscillation may be anywhere in the range from kc. to 250 kc.; the power output from the generator may be 100 kw.; the peak radio frequency voltage in the primary winding may be 18,000 volts and the peak radio frequency voltage in the secondary may be 700 to 900 volts; the primary circulating current may be 50 to 100 ampercs, while the circulating current in the secondary may be 1500 amperes and upward.
Fig. 3 shows the general configuration of the current transformer of the invention comprising the primary winding 10 and the surrounding single turn secondary sheet 12.
The secondary I 2 is a copper cylinder which surrounds the primary winding 10 along substantially its entire length and is suitably spaced from the primary coil. The copper cylinder constituting the secondary is split lengthwise on one side so as to form a slot (note Fig. 2). The secondary is provided with wide sheet-like copper flanges 26 and 28. These flanges are separated from one another by suitable insulation 30. The flanges serve a dual purpose: First, the spacing between the two flanges is held to a minimum thus reducin the leakage reactance to as low a value as possible, and second, the wide output connections cause the secondary current to flow more nearly uniformly throughout the crosssection of the secondary.
The primary coil surrounds a suitable insulating .form 20 such as Bakelite, and this Bakelite form is provided with a plurality of porcelain stand-offs or studs 22 along its length for supporting the individual turns of theprimary winding. It should be noted that successive insulating studs 22 are spaced from one another circumferentially a distance of of a turn; hence, each turn is supported by an insulating stud from the Bakelite tube or form 20. In practice, the primary winding 10 is a hollow spirally wound tube through which cooling water flows.
An important feature of the present invention is the tapered spacing between the turns of the primary winding l0 and the surrounding cylindrical single-turn secondary sheet 12. It should be noted that point X on the primary winding is 10, and this secondary is coupled to a work coil to more closely spaced from the secondary it than assume 3 pointsYandZoftheprimarywinding,andthat point if is closer to the secondary i2 than the point z. Point 1! is, in practice, grounded and corresponds to point P of Fig. 1 and the spacing of the turns gradually increases in distance away from the secondary sheet II as the peak radio frequency voltage increases on the primary winding. Thus, as the peak radio frequency voltage across both ends of the primary winding I is 18,000 volts, the peak radio frequency voltage between points 2 and X may be 16,000 volts while the peak radio frequency voltage between points 1! and Y may be 2,000 volts. The increased spacing between the secondary sheet i2 and the turns of the primary winding prevents breakdown between the primary winding and the secondary sheet.
The terminal assembly for attaching the load coupling, or work coil 32 is shown in Figs. 2 and 2a. This work coil may be copper tubing. This assembly includes a pair of metallic blocks 33 and 31 on flange 26 and another pair of metallic blocks 38 and 39 on flange 28. The blocks 30 and 31 are provided at their centers with semicylindrical apertures for enabling one metallic tubular conductor 34 to enter therein and be securely connected to the blocks 36, 31. Similarly, blocks 38, 39 are also provided with semicylindrical apertures or holes in the center thereof for enabling the other conductor 34 to enter therein and be securely connected to the blocks 38, 39. The leads 34 are thus securely fastened mechanically, and are electrically connected to the blocks 36, 31 and the blocks 38, 39. For rigidly linking metallic blocks 30, 31 together and to flange 28, and for rigidly connecting blocks 38, 39 to flange 28, there are provided pairs of studs or screws 40, 40 and lock nuts 3|, 4|, the details of which are shown clearly in Fig. 2a. The insulation spacer 30 electrically spaces the flanges 29 and 28 and hence, the blocks 31, 38 from each other.
It should be noted from an inspection of Fig. 1 that the cooling water is fed into the primary coil and taken out therefrom in the direction shown by the arrows at points which are substantially at ground potential. Thus, the water inlet and outlet pipes may be of insulation or other suitable material as they do not cary any appreciable voltage.
What is claimed is:
1. A current transformer comprising a single primary coil of a plurality of spirally wound spaced turns and a single-turn secondary sheet surrounding said primary coil over its entire length and spaced therefrom, the spacing between the turns of said primary coil and said secondary increasing from an intermediate point toward both ends, an insulating form extending longitudinally of and within said primary coil, and stand-off studs positioned along the length of said insulating form and secured to the individual turns of said primary coil for supporting the same, adjacent insulating studs being circumferentially' spaced from one another by a distance which is an appreciable fraction of the 4 cut, and a terminal assembly for said secondary comprising a pair of metallic blocks for each flange, the blocks of each pair having transverse holes at their adjacent edges, said holes together forming a larger opening into which an electrical connection can be inserted and secured between the blocks, and nut and bolt means for rigidly linking the blocks of each pair to each other and to the associated flange.
3. A current transformer comprising a primary coil of a plurality of spirally wound spaced turns and a cylindrical secondary sheet surrounding said primary coil over its entire length and spaced therefrom, the spacing between the turns of said primary coil and said secondary increasing from an intermediate point toward both ends, an insulating form extending longitudinally of and within said primary coil, and stand-oil studs positioned along the length of said insulatins form and secured to the turns of said primary coil for supporting the same, adjacent insulating studs being circumferentially spaced from one another by a distance which is an appreciable fraction of the circumferential distance of a single turn of said primary coil.
4. A current transformer having a primary coil of a plurality of turns and a cylindrical secondary surrounding said primary coil over its entire length and spaced therefrom, said secondary being cut longitudinally along its length, spaced flanges on both sides of said longitudinal cut, and a terminal assembly for said secondary comprising a pair of metallic blocks for each flange, the blocks of each pair having transverse holes at their adjacent edges, said holes together forming a larger opening into which an electrical connection can be inserted and secured between the blocks, and means for rigidly linking the blocks .of each pair to each other and to theassociated flange.
CYRIL N. HOYLER.
RUDOLPH A. BIERWIRTH.
REFERENCES crrsn The following references are of record in the flle of this patent:
UNITED STATES PATENTS Number Name Date 1,713,214 Brand May 14, 1929 1,813,857 Kubler July 7, 1931 1,882,075 Gebhard Oct. 11, 1932 1,898,931 Bahrmann Feb. 21, 1933 1,940,840 Bellaschi Dec. 26, 1933 2,115,826 Norton et al May 3, 1938 2,153,090 Libbe Apr. 4, 1939 2,182,820 Plsarev Dec. 12, 1939 2,314,865 Bierwirth Mar. 30, 1943 2,314,875 Gillespie Mar. 30, 1943 2,366,290 Rudd Jan. 2, 1945 2,374,597 Garin Apr. 24, 1945 2,414,990 Weed Jan. 28, 1947 2,445,169 Frey July 13, 1948 FOREIGN PATENTS Number Country Date 171,836 Great Britain Dec. 1, 1921 344,181 Great Britain Mar. 5, 1931 OTHER REFERENCES Eiflciency of Induction Heating Coils," R. C. A. Reprint from August 1944 issue of Electronics, by George H. Brown.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3204074A (en) * 1963-04-25 1965-08-31 Lockheed Aircraft Corp Induction heating detachable work coil
FR2174153A1 (en) * 1972-02-29 1973-10-12 Illinois Tool Works
US4017701A (en) * 1972-02-29 1977-04-12 Illinois Tool Works Inc. Induction heating unit with combined tank circuit and heating coil
US4174510A (en) * 1977-12-28 1979-11-13 The United States Of America As Represented By The United States Department Of Energy RF transformer
US4283687A (en) * 1979-07-27 1981-08-11 The United States Of America As Represented By The Secretary Of The Air Force Free electron laser with end tapered wiggler strength
US4402309A (en) * 1981-10-22 1983-09-06 Donald L. Morton & Associates Therapeutic magnetic electrode
US4994637A (en) * 1989-10-30 1991-02-19 Fmc Corporation Induction coil with lapped joint

Citations (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB171836A (en) * 1920-09-20 1921-12-01 Gen Electric Improvements in and relating to electric transformers and the like
US1713214A (en) * 1928-07-11 1929-05-14 Gen Electric Transformer
GB344181A (en) * 1930-02-11 1931-03-05 Brian Laidlaw Goodlet Improvements in high frequency electric transformers for generating high voltages
US1813857A (en) * 1929-08-09 1931-07-07 Kubler Johannes Transformer
US1882075A (en) * 1930-12-24 1932-10-11 Wired Radio Inc Fluid cooled inductance system
US1898931A (en) * 1929-06-08 1933-02-21 Koch & Sterzel Ag High tension transformer
US1940840A (en) * 1932-09-30 1933-12-26 Westinghouse Electric & Mfg Co Electrical apparatus
US2115826A (en) * 1936-09-30 1938-05-03 Bell Telephone Labor Inc Impedance transformer
US2153090A (en) * 1937-01-14 1939-04-04 Transformateurs De Mesure E Wa Electric transformer for high tension
US2182820A (en) * 1938-12-21 1939-12-12 Pisarev David Induction coil
US2314865A (en) * 1941-05-31 1943-03-30 Rca Corp Heating device
US2314875A (en) * 1941-11-29 1943-03-30 Rca Corp Heating device
US2366290A (en) * 1942-06-15 1945-01-02 Induction Heating Corp High-frequency power transformer
US2374597A (en) * 1942-06-24 1945-04-24 Gen Electric Electric induction apparatus
US2414990A (en) * 1943-12-29 1947-01-28 Gen Electric Electrical induction apparatus
US2445169A (en) * 1944-12-05 1948-07-13 Mallory & Co Inc P R Electrical transformer and primary winding thereof

Patent Citations (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB171836A (en) * 1920-09-20 1921-12-01 Gen Electric Improvements in and relating to electric transformers and the like
US1713214A (en) * 1928-07-11 1929-05-14 Gen Electric Transformer
US1898931A (en) * 1929-06-08 1933-02-21 Koch & Sterzel Ag High tension transformer
US1813857A (en) * 1929-08-09 1931-07-07 Kubler Johannes Transformer
GB344181A (en) * 1930-02-11 1931-03-05 Brian Laidlaw Goodlet Improvements in high frequency electric transformers for generating high voltages
US1882075A (en) * 1930-12-24 1932-10-11 Wired Radio Inc Fluid cooled inductance system
US1940840A (en) * 1932-09-30 1933-12-26 Westinghouse Electric & Mfg Co Electrical apparatus
US2115826A (en) * 1936-09-30 1938-05-03 Bell Telephone Labor Inc Impedance transformer
US2153090A (en) * 1937-01-14 1939-04-04 Transformateurs De Mesure E Wa Electric transformer for high tension
US2182820A (en) * 1938-12-21 1939-12-12 Pisarev David Induction coil
US2314865A (en) * 1941-05-31 1943-03-30 Rca Corp Heating device
US2314875A (en) * 1941-11-29 1943-03-30 Rca Corp Heating device
US2366290A (en) * 1942-06-15 1945-01-02 Induction Heating Corp High-frequency power transformer
US2374597A (en) * 1942-06-24 1945-04-24 Gen Electric Electric induction apparatus
US2414990A (en) * 1943-12-29 1947-01-28 Gen Electric Electrical induction apparatus
US2445169A (en) * 1944-12-05 1948-07-13 Mallory & Co Inc P R Electrical transformer and primary winding thereof

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3204074A (en) * 1963-04-25 1965-08-31 Lockheed Aircraft Corp Induction heating detachable work coil
FR2174153A1 (en) * 1972-02-29 1973-10-12 Illinois Tool Works
US4017701A (en) * 1972-02-29 1977-04-12 Illinois Tool Works Inc. Induction heating unit with combined tank circuit and heating coil
US4174510A (en) * 1977-12-28 1979-11-13 The United States Of America As Represented By The United States Department Of Energy RF transformer
US4283687A (en) * 1979-07-27 1981-08-11 The United States Of America As Represented By The Secretary Of The Air Force Free electron laser with end tapered wiggler strength
US4402309A (en) * 1981-10-22 1983-09-06 Donald L. Morton & Associates Therapeutic magnetic electrode
US4994637A (en) * 1989-10-30 1991-02-19 Fmc Corporation Induction coil with lapped joint

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