US2249909A - End heating device - Google Patents
End heating device Download PDFInfo
- Publication number
- US2249909A US2249909A US272905A US27290539A US2249909A US 2249909 A US2249909 A US 2249909A US 272905 A US272905 A US 272905A US 27290539 A US27290539 A US 27290539A US 2249909 A US2249909 A US 2249909A
- Authority
- US
- United States
- Prior art keywords
- coil
- heating
- sections
- section
- susceptor
- Prior art date
- 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
Links
Images
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B6/00—Heating by electric, magnetic or electromagnetic fields
- H05B6/02—Induction heating
- H05B6/36—Coil arrangements
- H05B6/40—Establishing desired heat distribution, e.g. to heat particular parts of workpieces
Definitions
- This invention relates to new and useful improvements in induction coils and more particularly to a novel induction ,coil which is particularly adapted for use in high frequency induction heating apparatus to heat objects positioned in av region adjacent the end of the At the present time, the induction coils employed in high frequency heating apparatus for heating objects or portions of objects which cannot very well be disposed within or about an induction coil are generally of the helix (cylindrical) or pancake type.
- a helix form of coil can heat Aan object disposed centrally along its axis within it with a reasonable degree ol efficiency as the strongest field of the coil (high flux density) is at that point, but the end regions of such a coil become progressively weaker outwardly from the center and are quite weak ⁇ even a short distance beyond the ends of the coil.
- the strength of the ileld falls off -tremendously at the ends of. the coil due to its rapidly decreasing and ultimately very low flux density and the conversion of energy into heat in an object placed externally endwise of a helix Itype induction coil, and especially a short distance beyond the end of such a coil,is so low that the efliciency of the device is not considered practical for ordinary purposes.
- the pancake type ofcoil is sometimesused for heating such objects.
- This pancake type of coil consists of a winding of a succession of turns of wire residing essentially in one plane with the result that the object, when placed adjacent to this coil, lies in closer proximity to the region of .the coil of greatest field strength than 'does van object in the case of the helix type of coil.
- the flux distribution or field of both these types are diierent andthe flux density is also quite low at a practical distance adjacent the pancake coil while the iiux distribution is such that this type of coil is limited to highly restricted control of the distribution of heat in a susceptor or portion thereof.
- the cfiiciency of both of these types of coil are so4 relatively low that an inordinate amount of ⁇ powfer is necessary to heat even small objects. and this power requirement increases as the distance between the object andthe end of the coil isincreased to such a degreethat even at a comparatively short distance beyond the coil, the heating of an object inductively with economic justification for the power equipment expenditure is beyond any reasonable limits for practical use.
- the present invention contemplates essentially the provision of an inductive heating' device comprising an induction coil having a section at and about which maximum flux density or ileld concentration is sought, and other sections in association therewith which function to direct the magnetic eld or ilux more toward the first-mentioned section so as .to effect a maximum flux density and field I concentration in a region adjacent such. section so as to obtain maximum efficient heating of an object positioned in such region.
- the present invention contemplates an inductive heating device comprising an induction coil wherein the heating section of the coil is located at one end or side of the coil so that an object or susceptor to be heated may be placed relatively adjacent such section, the other or flux directing sections of the coil being disposed at an angle with respect to each other and extending away from the said heating section at one side or end thereof.
- An induction coil embodying the invention may, for example, comprise a. winding of wire arranged to include fiuxdirecting sections' disposed in angular relation to one another and each consisting ofl a plurality of .turns wound so as to terminate in a common section which constitutes ⁇ the heating section of the coil and is disposed or located at one end or side of the coil.
- the angularly related sections .thereof function to direct the ⁇ magnetic flux more toward the heating section of smallest size with the result that the strength or density of the field is increased in the region adjacent that section permitting extremely eilicient heating of an object or susceptor, or a portion thereof, as desired, which may be positioned either within such section or externally of the coil in the region endwise of said section.
- the principal object of .the present invention is to provide an induction coil of the character set forth and this and other objects ci the invention, as well as the features and details of its construction and arrangement are Ahereinafter fully vset forth and shown in the accompanying drawing, in which:
- Figure 1 is a view in section vertically through induction coil embodying the present inliii leeres 2 and 3 are diagrammatic. illustrations of modified forms of induction coils within the contemplation of this invention.
- Figure is a view in section showing an nductive heating device comprising a coil of the present invention.
- the invention consists essentially in the discovery that by constructing an induction coil to provide therein angularly related sections each comprising a plurality of turns wound so as to terminate at one end of the coil in a'common heating section of predetermined size in contrast to the cylindrical and pancake forms of coil, the iiux or magnetic field set up within .the coil is directed by the angularly related sections more toward an object or susceptor located within, or externally of said heating section at such end of the coil, and referring to the drawing, one form of induction coilmade according to the present invention is composed of a wire l Wound to form angularly related portions A and C, respectively, which converge axially of the coil and terminate at one end thereof in a heating section B of predetermined shape and size.
- the induction coil is preferably wound upon i a suitable mandrel or mandrels, as the case may require, having surface configurations conforming to the desired shape of the coil, and the winding may be single or multiple layer, honeycomb, or otherwise so long as the aforementioned surface configuration is maintained.
- a circular, square, rectangular or other cross-section shape of tubing may be used for winding the coil edgewise, lengthwise or otherwise spaced to permit desired inductance effects.
- the angle between the two angularly related sections A and C may be varied and determined to suit any given operating characteristics'while the shape or configuration of each such turn may be circular, oval, elliptical, square, rectangular, or otherwise, as may be required to most eiciently generate and control the inductive heating of a particular shaped object or portion thereof disposed wlthin or in the region endwise of the heating section B of the coil.
- the induction coil contemplated by the invention is not restricted to the particular configuration or shape illustrated in Figure 1 of thedrawing and similar results are obtained, for example, by constructing the induction coil so that the several sections A3, B3 and C3 thereof are of generally concave-convex configuration, as shown in Figure 3 of the drawing, for use in obtaining various magnetic field distribution requirements in the heating susceptors or portions thereof having either curvcd or plane surfaces.
- the shape smallest turn or turns constituting the heating section B3, as well as the turns of the angularly related scctions A3 and C3, may be oval, elliptical, rectangular, square, circular, or otherwise as may be required to provide most eiiicient heating of a susceptor or portion thereof according to a given set of requirements.
- One such form is shown in Figure 3 of the drawing wherein the heating section B is of such configuration as to receive the teeth of a band saw between portions thereof in order to heat-treat the same. Still other forms or shapes may, however, be employed with satisfactory results.
- a coil constructed in accordance with the invention may be employed to advantage to materially increase the eiiiciency of inductive heating devices and equipment such as, for example, of vthe form as shown in Figure 4 of the drawing which which comprises an induction coil 2 having an object 3, in this case an annular disk supported externally endwise of the heating section B of the coil 2 by means of insulation or other suitable support indicated by reference numeral' 4.
- inductive heating devices and equipment such as, for example, of vthe form as shown in Figure 4 of the drawing which comprises an induction coil 2 having an object 3, in this case an annular disk supported externally endwise of the heating section B of the coil 2 by means of insulation or other suitable support indicated by reference numeral' 4.
- insulation may be disposed between the susceptor ⁇ and heating section of the coil while in others no insulation is needed or desirable.
- the induction coil 2 is of the same general form and arrangement shown in Figure 1 and a high frequency current is supplied thereto at the extremities Sand 6 of the wire or at intermediate points therealong as desired.
- the wire is preferably tubular and for the purpose of cooling the coil 2, water or other cooling fluid may be circulated therethrough from the openings afforded at the extremities 5 and 6 of the wire or at intermediate points.
- the coils of the present invention for heating purposes is confined essentially to the region bounded by the heating section B or that externally adjacent thereto in order to obtain a stronger external magnetic field and consequently maximum heating of an object, the converging angularly related sections A and C functioning to direct and concentrate the magnetic field more toward and at this region with the result that most efficient heating of an object so located is assured.
- the heating emciency of the coil and control of heat distribu-I tion in the object is materially increased'wlth the result ⁇ that the length of time required to heat an object, the amount of power consumed and equipment necessary are each substantially reduced.
- lt may be desirable to further aid in the control and intensity of the margrietic path through and about the coil in which event iron or steel laminae may be disposed within the coll as a core 1 as shown in Figure 1 or arranged to conform approximately to the angular contour of the converging seetions of the coil.
- An inductive heating device comprising an induction coil consisting of a Winding of Wire Wound to provide inner and outer angularly related sections which converge toward one end of the coil, at least said outer section being composed of a plurality of turns of progressively decreasing size in thedirection of convergence thereof and both of said sections terminating at said end of the coil in a common heating section, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic flux more toward said susceptor to be heated.
- An inductive heating device comprising an induction coil consisting of a winding kof Wire wound to provide inner andv outer .angularly related sections which converge toward one endi0 of the coil, at least said outer section being composed of a plurality of turns of progressively decreasing size in the direction oflconvergence thereof and both of said sections terminating at said end of the coil in a common heating section of lesser size thanv any of the turns in the angularly related converging sections of said coil, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic iiux more toward said susceptor to beiheated.
- An inductive heating device comprising an induction coil consisting of a winding of Wire Wound to provide inner and outer concentrically arranged ⁇ angularly related sections which converge toward one end of the coil, said angularly related sections being each composed of a plurality of turns of progressively decreasing size in the direction of convergence thereof and terminating at said end of the coil in a common heating section, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic lflux more toward said susceptor 'to be heated.
- the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic flux more toward said susceptor to be heated.
- An inductive heating device comprising an induction coil consisting vof a Winding of wire wound to provide inner and outer concentrically arranged angularly related sections which converge toward one end of the coil, said angularly related sections being each composed of a plurality'of turns of progressively decreasingsize in the direction of convergence thereof and terminating at said end of the coil in a common heating section composed of a single turn of lesser size than any of the turns in the angularly related converging sections of said coil, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and to direct the magnetic flux more toward said susceptor to be heated.
Landscapes
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- General Induction Heating (AREA)
Description
-July 22, 1941. I D P|SAREV 2,249,909
. END HEATING DEVICE Filed May 1o, i939 coil.
Patented July 22,'1941 UNjlTED STATES PATENT OFFICE END HEATING DEVICE David Psarev, Bethlehem, Pa.
Application May 10, 1939, Serial No. 272,905
Claims. (Cl. 219-13) This invention relates to new and useful improvements in induction coils and more particularly to a novel induction ,coil which is particularly adapted for use in high frequency induction heating apparatus to heat objects positioned in av region adjacent the end of the At the present time, the induction coils employed in high frequency heating apparatus for heating objects or portions of objects which cannot very well be disposed within or about an induction coil are generally of the helix (cylindrical) or pancake type. A helix form of coil can heat Aan object disposed centrally along its axis within it with a reasonable degree ol efficiency as the strongest field of the coil (high flux density) is at that point, but the end regions of such a coil become progressively weaker outwardly from the center and are quite weak` even a short distance beyond the ends of the coil.
Thus the strength of the ileld falls off -tremendously at the ends of. the coil due to its rapidly decreasing and ultimately very low flux density and the conversion of energy into heat in an object placed externally endwise of a helix Itype induction coil, and especially a short distance beyond the end of such a coil,is so low that the efliciency of the device is not considered practical for ordinary purposes.
The pancake type ofcoil is sometimesused for heating such objects. lThis pancake type of coil consists of a winding of a succession of turns of wire residing essentially in one plane with the result that the object, when placed adjacent to this coil, lies in closer proximity to the region of .the coil of greatest field strength than 'does van object in the case of the helix type of coil.
However, the flux distribution or field of both these types are diierent andthe flux density is also quite low at a practical distance adjacent the pancake coil while the iiux distribution is such that this type of coil is limited to highly restricted control of the distribution of heat in a susceptor or portion thereof.. The cfiiciency of both of these types of coil are so4 relatively low that an inordinate amount of`powfer is necessary to heat even small objects. and this power requirement increases as the distance between the object andthe end of the coil isincreased to such a degreethat even at a comparatively short distance beyond the coil, the heating of an object inductively with economic justification for the power equipment expenditure is beyond any reasonable limits for practical use.
By the present invention these deficiencies are materially minimized and at the same time all of the advantages of a multiple turn helix type of coil yare retained. The present invention contemplates essentially the provision of an inductive heating' device comprising an induction coil having a section at and about which maximum flux density or ileld concentration is sought, and other sections in association therewith which function to direct the magnetic eld or ilux more toward the first-mentioned section so as .to effect a maximum flux density and field I concentration in a region adjacent such. section so as to obtain maximum efficient heating of an object positioned in such region.
More particularly the present invention contemplates an inductive heating device comprising an induction coil wherein the heating section of the coil is located at one end or side of the coil so that an object or susceptor to be heated may be placed relatively adjacent such section, the other or flux directing sections of the coil being disposed at an angle with respect to each other and extending away from the said heating section at one side or end thereof.
An induction coil embodying the invention may, for example, comprise a. winding of wire arranged to include fiuxdirecting sections' disposed in angular relation to one another and each consisting ofl a plurality of .turns wound so as to terminate in a common section which constitutes `the heating section of the coil and is disposed or located at one end or side of the coil.
In such-a coil the angularly related sections .thereof function to direct the `magnetic flux more toward the heating section of smallest size with the result that the strength or density of the field is increased in the region adjacent that section permitting extremely eilicient heating of an object or susceptor, or a portion thereof, as desired, which may be positioned either within such section or externally of the coil in the region endwise of said section.
With the foregoing observations inmind, the principal object of .the present invention is to provide an induction coil of the character set forth and this and other objects ci the invention, as well as the features and details of its construction and arrangement are Ahereinafter fully vset forth and shown in the accompanying drawing, in which:
Figure 1 is a view in section vertically through induction coil embodying the present inliii leeres 2 and 3 are diagrammatic. illustrations of modified forms of induction coils within the contemplation of this invention; and
Figure is a view in section showing an nductive heating device comprising a coil of the present invention.
pointed out above, the invention consists essentially in the discovery that by constructing an induction coil to provide therein angularly related sections each comprising a plurality of turns wound so as to terminate at one end of the coil in a'common heating section of predetermined size in contrast to the cylindrical and pancake forms of coil, the iiux or magnetic field set up within .the coil is directed by the angularly related sections more toward an object or susceptor located within, or externally of said heating section at such end of the coil, and referring to the drawing, one form of induction coilmade according to the present invention is composed of a wire l Wound to form angularly related portions A and C, respectively, which converge axially of the coil and terminate at one end thereof in a heating section B of predetermined shape and size.
The induction coil is preferably wound upon i a suitable mandrel or mandrels, as the case may require, having surface configurations conforming to the desired shape of the coil, and the winding may be single or multiple layer, honeycomb, or otherwise so long as the aforementioned surface configuration is maintained. A circular, square, rectangular or other cross-section shape of tubing may be used for winding the coil edgewise, lengthwise or otherwise spaced to permit desired inductance effects.
','I'he number of turns or coils of wire in the angularly related sections A and C of the coil, as well as the spacings between such turns, may vary as desired or to meet any particular performance requirements. Likewise, the angle between the two angularly related sections A and C may be varied and determined to suit any given operating characteristics'while the shape or configuration of each such turn may be circular, oval, elliptical, square, rectangular, or otherwise, as may be required to most eiciently generate and control the inductive heating of a particular shaped object or portion thereof disposed wlthin or in the region endwise of the heating section B of the coil. rIlhus with a heating section B of correctly designed shape the contour or configuration of the area heated upon i a substantially nat surface of a susceptor will be determined by the shape of said heating section B. So far as concerns the angular relation of theux directing sections A and C of the coil are concerned, the limiting angular relations or positions thereof' are approximately those shown in Figures 1 and 2 of the drawing wherein, in Figure 1 the included angle between said sections is relatively small and in Figure 2 the section A is disposed substantially in the plane of the heating section B and at an angle with respect to section C which is relatively large. However, the included angle between sections A and C of said coil may be 90 or more so long as the sections A do not extend or reside at the other side of the plane of the heating sections B from the other angular sections C.
The induction coil contemplated by the invention is not restricted to the particular configuration or shape illustrated in Figure 1 of thedrawing and similar results are obtained, for example, by constructing the induction coil so that the several sections A3, B3 and C3 thereof are of generally concave-convex configuration, as shown in Figure 3 of the drawing, for use in obtaining various magnetic field distribution requirements in the heating susceptors or portions thereof having either curvcd or plane surfaces. Transversely, the shape smallest turn or turns constituting the heating section B3, as well as the turns of the angularly related scctions A3 and C3, may be oval, elliptical, rectangular, square, circular, or otherwise as may be required to provide most eiiicient heating of a susceptor or portion thereof according to a given set of requirements. One such form is shown in Figure 3 of the drawing wherein the heating section B is of such configuration as to receive the teeth of a band saw between portions thereof in order to heat-treat the same. Still other forms or shapes may, however, be employed with satisfactory results.
By thus directing the iiux or magnetic field more toward a susceptor disposed or positioned within or externally endwise of the heating section of the coil at one end thereof, a coil constructed in accordance with the invention may be employed to advantage to materially increase the eiiiciency of inductive heating devices and equipment such as, for example, of vthe form as shown in Figure 4 of the drawing which which comprises an induction coil 2 having an object 3, in this case an annular disk supported externally endwise of the heating section B of the coil 2 by means of insulation or other suitable support indicated by reference numeral' 4. In some cases insulation may be disposed between the susceptor` and heating section of the coil while in others no insulation is needed or desirable.
The induction coil 2 is of the same general form and arrangement shown in Figure 1 and a high frequency current is supplied thereto at the extremities Sand 6 of the wire or at intermediate points therealong as desired. The wire is preferably tubular and for the purpose of cooling the coil 2, water or other cooling fluid may be circulated therethrough from the openings afforded at the extremities 5 and 6 of the wire or at intermediate points.
Use of the coils of the present invention for heating purposes is confined essentially to the region bounded by the heating section B or that externally adjacent thereto in order to obtain a stronger external magnetic field and consequently maximum heating of an object, the converging angularly related sections A and C functioning to direct and concentrate the magnetic field more toward and at this region with the result that most efficient heating of an object so located is assured. Thus the heating emciency of the coil and control of heat distribu-I tion in the object is materially increased'wlth the result `that the length of time required to heat an object, the amount of power consumed and equipment necessary are each substantially reduced. In some instances of use of the coil under certain conditions of frequency, lt may be desirable to further aid in the control and intensity of the margrietic path through and about the coil in which event iron or steel laminae may be disposed within the coll as a core 1 as shown in Figure 1 or arranged to conform approximately to the angular contour of the converging seetions of the coil.
Use of the term adjacent" herein and in the appended claims regarding the location of the susceptor with respect .to the heating section of the coil is, of course, relative and is intended to cover` and include that spacing of thesusceptor within the heating range of heating section of the coil either with or without intermediate insulation and. while the description of the invention has been confined to the embodiment or adaptation thereof to high frequency induction heaters and furnaces, it will be obvious, of course, that use of said invention is not limited to a device of that nature, but may be employed to advantage in any instance Where it is desired to obtain a maximum magnetic field strength in a susceptor located in a regionl local to or external from the end of the coil and like- Wise, changes and modications maybe made and incorporated in the invention Within the scope of the annexed claims.
I claim:
l. An inductive heating device comprising an induction coil consisting of a Winding of Wire Wound to provide inner and outer angularly related sections which converge toward one end of the coil, at least said outer section being composed of a plurality of turns of progressively decreasing size in thedirection of convergence thereof and both of said sections terminating at said end of the coil in a common heating section, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic flux more toward said susceptor to be heated.
2. An inductive heating device comprising an induction coil consisting of a winding kof Wire wound to provide inner andv outer .angularly related sections which converge toward one endi0 of the coil, at least said outer section being composed of a plurality of turns of progressively decreasing size in the direction oflconvergence thereof and both of said sections terminating at said end of the coil in a common heating section of lesser size thanv any of the turns in the angularly related converging sections of said coil, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic iiux more toward said susceptor to beiheated.
3. An inductive heating device comprising an induction coil consisting of a winding of Wire Wound to provide inner and outer concentrically arranged` angularly related sections which converge toward one end of the coil, said angularly related sections being each composed of a plurality of turns of progressively decreasing size in the direction of convergence thereof and terminating at said end of the coil in a common heating section, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic lflux more toward said susceptor 'to be heated.
gressively decreasing size in the direction of convergence thereof and terminating at said end of the coil in a common heating section of lesser size than any of the turns in the angularlyfrelated converging sections of said coil, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and direct the magnetic flux more toward said susceptor to be heated.
5. An inductive heating device comprising an induction coil consisting vof a Winding of wire wound to provide inner and outer concentrically arranged angularly related sections which converge toward one end of the coil, said angularly related sections being each composed of a plurality'of turns of progressively decreasingsize in the direction of convergence thereof and terminating at said end of the coil in a common heating section composed of a single turn of lesser size than any of the turns in the angularly related converging sections of said coil, the said common end heating section being arranged for disposition adjacent a susceptor to be heated and said angularly related converging sections of the coil functioning to control the distribution of heat in and to direct the magnetic flux more toward said susceptor to be heated.
DAVID PISAREV.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US272905A US2249909A (en) | 1939-05-10 | 1939-05-10 | End heating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US272905A US2249909A (en) | 1939-05-10 | 1939-05-10 | End heating device |
Publications (1)
Publication Number | Publication Date |
---|---|
US2249909A true US2249909A (en) | 1941-07-22 |
Family
ID=23041771
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US272905A Expired - Lifetime US2249909A (en) | 1939-05-10 | 1939-05-10 | End heating device |
Country Status (1)
Country | Link |
---|---|
US (1) | US2249909A (en) |
Cited By (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2420377A (en) * | 1943-01-06 | 1947-05-13 | Carl G Jones | Method of brightening tinned strip |
US2422561A (en) * | 1940-07-26 | 1947-06-17 | Simonds Saw And Steel Co | Saw blade |
US2430005A (en) * | 1942-06-01 | 1947-11-04 | Ohio Crankshaft Co | Differential heat treating |
US2442776A (en) * | 1944-11-08 | 1948-06-08 | Thomas A Newkirk | Radio-frequency choke coil |
US2452801A (en) * | 1944-06-07 | 1948-11-02 | Sunbeam Corp | Apparatus for high-frequency induction heating |
US2459894A (en) * | 1945-01-11 | 1949-01-25 | Western Electric Co | Electrical coil and a method of making such |
US2468796A (en) * | 1944-06-17 | 1949-05-03 | Ohio Crankshaft Co | Method of and apparatus for dual coil induction heating |
US2553925A (en) * | 1945-11-06 | 1951-05-22 | Electromecanique Sa | Method and installation for applying metal to at least one metallic part |
US2600034A (en) * | 1949-02-08 | 1952-06-10 | Richard I N Weingart | Method and apparatus for applying heat in hot machining processes |
US2788426A (en) * | 1952-09-03 | 1957-04-09 | Plastic Containers Inc | Method and apparatus for treating materials |
US2803731A (en) * | 1954-10-15 | 1957-08-20 | Texas Instruments Inc | Induction soldering machine |
US2866551A (en) * | 1954-05-24 | 1958-12-30 | Schlebusch Ludwig | Induction influenced screening apparatus |
US3658605A (en) * | 1968-09-18 | 1972-04-25 | Japan National Railway | Method of induction hardening for improving fatigue strength of boundary of heated zone |
FR2441988A1 (en) * | 1978-11-16 | 1980-06-13 | Electricite De France | Inductive heating coil for cooker hotplate - has large number of turns in central area and intermediate zone spaced from hot plate |
FR2455418A1 (en) * | 1979-04-25 | 1980-11-21 | Sachs Systemtechnik Gmbh | INDUCTION COIL FOR INDUCTION COOKING APPARATUS |
US4505763A (en) * | 1981-07-08 | 1985-03-19 | Hitachi, Ltd. | Heat-treating method of weld portion of piping system and heating coil for the heat treatment |
US5208433A (en) * | 1990-06-15 | 1993-05-04 | Rotelec S. A. | Inductive heating coil |
-
1939
- 1939-05-10 US US272905A patent/US2249909A/en not_active Expired - Lifetime
Cited By (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2422561A (en) * | 1940-07-26 | 1947-06-17 | Simonds Saw And Steel Co | Saw blade |
US2430005A (en) * | 1942-06-01 | 1947-11-04 | Ohio Crankshaft Co | Differential heat treating |
US2420377A (en) * | 1943-01-06 | 1947-05-13 | Carl G Jones | Method of brightening tinned strip |
US2452801A (en) * | 1944-06-07 | 1948-11-02 | Sunbeam Corp | Apparatus for high-frequency induction heating |
US2468796A (en) * | 1944-06-17 | 1949-05-03 | Ohio Crankshaft Co | Method of and apparatus for dual coil induction heating |
US2442776A (en) * | 1944-11-08 | 1948-06-08 | Thomas A Newkirk | Radio-frequency choke coil |
US2459894A (en) * | 1945-01-11 | 1949-01-25 | Western Electric Co | Electrical coil and a method of making such |
US2553925A (en) * | 1945-11-06 | 1951-05-22 | Electromecanique Sa | Method and installation for applying metal to at least one metallic part |
US2600034A (en) * | 1949-02-08 | 1952-06-10 | Richard I N Weingart | Method and apparatus for applying heat in hot machining processes |
US2788426A (en) * | 1952-09-03 | 1957-04-09 | Plastic Containers Inc | Method and apparatus for treating materials |
US2866551A (en) * | 1954-05-24 | 1958-12-30 | Schlebusch Ludwig | Induction influenced screening apparatus |
US2803731A (en) * | 1954-10-15 | 1957-08-20 | Texas Instruments Inc | Induction soldering machine |
US3658605A (en) * | 1968-09-18 | 1972-04-25 | Japan National Railway | Method of induction hardening for improving fatigue strength of boundary of heated zone |
FR2441988A1 (en) * | 1978-11-16 | 1980-06-13 | Electricite De France | Inductive heating coil for cooker hotplate - has large number of turns in central area and intermediate zone spaced from hot plate |
FR2455418A1 (en) * | 1979-04-25 | 1980-11-21 | Sachs Systemtechnik Gmbh | INDUCTION COIL FOR INDUCTION COOKING APPARATUS |
US4505763A (en) * | 1981-07-08 | 1985-03-19 | Hitachi, Ltd. | Heat-treating method of weld portion of piping system and heating coil for the heat treatment |
US5208433A (en) * | 1990-06-15 | 1993-05-04 | Rotelec S. A. | Inductive heating coil |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2249909A (en) | End heating device | |
USRE36787E (en) | High power induction work coil for small strip susceptors | |
US2181899A (en) | Transformer | |
JP5235836B2 (en) | Induction cooking device | |
US1981629A (en) | Method and apparatus for inductive heating | |
CA2093887A1 (en) | Induction heating tool | |
US2182820A (en) | Induction coil | |
US20160014851A1 (en) | Induction heater coil accessory | |
US2509713A (en) | Device for obtaining electric fields of high frequency and great intensity and apparatus embodying such devices | |
EP2838316A2 (en) | Induction heating unit | |
US2281334A (en) | Heat treatment | |
US2182341A (en) | Radio tube manufacture | |
CN104682526A (en) | Energy conversion device for wireless charging of electric automobile | |
US2537289A (en) | Device for heating pieces of work by means of high-frequency alternating currents | |
US2151035A (en) | Transformer | |
JP2022096731A (en) | Induction heating type heat treatment apparatus for winding iron core and heat treatment method therefor | |
WO1996038020A1 (en) | Inductor | |
US2675461A (en) | Method and apparatus for heating metallic wire, bars, and strips | |
US1839801A (en) | Electric induction furnace | |
US2385031A (en) | Multiple-channel inductive heating apparatus | |
CN101257741A (en) | Induction heating device | |
US1742608A (en) | Electrical transformer | |
US2599229A (en) | Work coil | |
US2655589A (en) | High-frequency inductor | |
US2879366A (en) | Electrical conductor for induction heating coils |