Integral hand-held induction heating tool
First Claim
Patent Images
1. An induction heating apparatus, comprising:
- (a) an induction work coil;
(b) an oscillator circuit that supplies a first alternating current to said work coil;
(c) an inverter circuit that supplies a second alternating current to said oscillator circuit;
(d) an input power circuit that supplies a third electrical current to said inverter circuit; and
(e) a controller circuit;
wherein said inverter circuit exhibits an output side that is in electrical communication with said oscillator circuit and an input side that is in electrical communication with said input power circuit; and
wherein said controller circuit is configured to control a power magnitude provided by said oscillator circuit to said work coil by monitoring an electrical power magnitude at a location on the input side of said inverter circuit, thereby operating said heating apparatus in a feed-forward configuration.
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Accused Products
Abstract
An apparatus and system for using magnetic fields to heat magnetically susceptible materials within and/or adjacent to adhesives, resins, or composites so as to reversibly or irreversibly bond, bind, or fasten opaque or non-opaque solid materials to one another. The system makes use of the effect that alternating magnetic fields induce eddy currents and generate heat within susceptors, and the effect that alternating magnetic fields additionally induce magnetic hysteresis that occurs in magnetic materials and thereby generate heat. An induction heating tool is used to emit the magnetic field at its work coil, and an electronic controller measures the energy being used by a power converter that generates the alternating current driving the work coil which creates the magnetic field. The distance between the susceptor and work coil is repeatedly analyzed based upon the power converter'"'"'s input energy, and the work coil is driven at a repeatedly corrected power level during the heating cycle. Once a sufficient accumulated energy has been delivered to the susceptor, the magnetic field is turned off automatically by the tool, thus preventing overheating of the susceptor.
173 Citations
26 Claims
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1. An induction heating apparatus, comprising:
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(a) an induction work coil;
(b) an oscillator circuit that supplies a first alternating current to said work coil;
(c) an inverter circuit that supplies a second alternating current to said oscillator circuit;
(d) an input power circuit that supplies a third electrical current to said inverter circuit; and
(e) a controller circuit;
wherein said inverter circuit exhibits an output side that is in electrical communication with said oscillator circuit and an input side that is in electrical communication with said input power circuit; and
wherein said controller circuit is configured to control a power magnitude provided by said oscillator circuit to said work coil by monitoring an electrical power magnitude at a location on the input side of said inverter circuit, thereby operating said heating apparatus in a feed-forward configuration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
wherein said power magnitude provided by said oscillator circuit comprises substantially real power when said oscillator circuit operates at its resonant frequency.
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11. The induction heating apparatus as recited in claim 10, wherein a power quantity that is delivered to said susceptor by said work coil is substantially proportional to a voltage at said input side of the inverter circuit multiplied by a current at said input side of the inverter circuit.
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12. The induction heating apparatus as recited in claim 1, wherein said work coil is readily detachable from and attachable to said induction heating apparatus, and wherein a second work coil of a different physical size and shape can be readily attached to said induction heating apparatus and receive said first alternating current from the oscillator circuit, thus allowing for an interchangeable coil feature.
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13. An induction heating apparatus, comprising:
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(a) an induction work coil;
(b) an oscillator circuit that supplies a first alternating current to said work coil;
(c) tin inverter circuit that supplies a second alternating current to said oscillator circuit;
(d) an input power circuit that supplies a third electrical current to said inverter circuit; and
(e) a controller circuit that is configured to determine an output energy quantity being output by said induction heating apparatus by;
(i) monitoring an electrical power magnitude being drawn by said inverter circuit, (ii) correcting for inverter losses and work coil losses to thereby arrive at a corrected power magnitude, and (iii) integrating said corrected power magnitude to determine said corrected output energy quantity.- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
wherein said controller circuit automatically adjusts said corrected power magnitude being output by said induction heating apparatus so as to achieve a substantially constant power delivery to said susceptor.
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20. The induction heating apparatus as recited in claim 13, wherein said function of integrating said corrected power magnitude occurs over a plurality of time intervals that periodically sample the electrical power magnitude being drawn by said inverter circuit, the inverter losses, and the work coil losses.
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21. The induction heating apparatus as recited in claim 13, wherein said work coil is readily detachable from and attachable to said induction heating apparatus, and wherein a second work coil of a different physical size and shape can be readily attached to said induction heating apparatus and receive said first alternating current from the oscillator circuit, thus allowing for an interchangeable coil feature.
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22. An induction heating system, comprising:
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an induction heating apparatus, comprising;
(a) an induction work coil;
(b) an oscillator circuit that supplies a first alternating current to said work coil;
(c) an inverter circuit that supplies a second alternating current to said oscillator circuit;
(d) an input power circuit that supplies a third electrical current to said inverter circuit; and
(e) a controller circuit that is configured to operate said induction heating apparatus in a plurality of modes, by energizing said work coil at a commencement of a heating event, and by de-energizing said work coil at a termination of said hearing event; and
a susceptor structure that exhibits a length, width, and thickness, said structure including at least one layer of an electrically conductive material that generates an eddy current when exposed to a magnetic field produced by said work coil when the first alternating current is supplied from said oscillator circuit;
wherein said controller circuit is further configured to operate in an “
ironing”
mode of operation to sequentially creak a plurality of bonds between said susceptor and at least one surface of a substrate.- View Dependent Claims (23, 24, 25, 26)
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Specification
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Current AssigneeOMG Incorporated (Steel Partners Holdings LP)
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Original AssigneeNexicor, LLC
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InventorsBarber, John P., Malofsky, Adam G., Pacholok, David R., Claypoole, Gary L., Reiss, Edward A., Cravens, Robert Carl II, Kuecker, Charles A.
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Primary Examiner(s)Hoang, Tu Ba
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Application NumberUS10/302,692Publication NumberTime in Patent Office487 DaysField of Search219/632-635, 219/660-666, 219/642, 219/216, 219/618, 219/676, 336/55, 336/57-69, 336/83, 336/94, 336/98, 336/70, 324/338-341, 324/343, 324/369, 399/69, 399/70, 399/328, 361/270US Class Current219/633CPC Class CodesB23K 13/01 by induction heating
