Two-level temperature control for induction heating
First Claim
1. An induction heating and temperature responsive control apparatus in combination including an inverter circuit, an induction core unit, including a generally U-shaped ferromagnetic core with an exciter winding wrapped thereabout and in operative connection with the inverter circuit and means integrated with the core to monitor the surface temperature of a workpiece as it is heated by virtue of the magnetic circuit formed with the workpiece by the core, further including means responsive to the temperature, monitoring means for automatically controlling the output of the inverter so as to stop the supply of temperature inducing current to the core at a predetermined surface temperature of the workpiece, said means controlling the output including means for automatically and successively controlling the inverter to maintain a first predetermined temperature for a predetermined time period followed by a subsequent period of operation to increase the temperature to a second temperature level and maintain said second temperature level.
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Abstract
An induction heating apparatus and related temperature control circuitry and method of controlled heating of a workpiece at two temperature levels. The apparatus and method utilizes a temperature sensing device, adjustable reference temperature circuitry utilizing a voltage dividing circuit triggered by a timing circuit to heat the workpiece to a first predetermined temperature, dwell at the predetermined temperature for an amount of time governed by the timing device and continue heating the workpiece to a second predetermined desired temperature. The method and circuitry being particularly useful in heating a laminar structure where a ferromagnetic material is coated with a surface of nonconducting, nonferromagnetic material, such as paint.
43 Citations
11 Claims
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1. An induction heating and temperature responsive control apparatus in combination including an inverter circuit, an induction core unit, including a generally U-shaped ferromagnetic core with an exciter winding wrapped thereabout and in operative connection with the inverter circuit and means integrated with the core to monitor the surface temperature of a workpiece as it is heated by virtue of the magnetic circuit formed with the workpiece by the core, further including means responsive to the temperature, monitoring means for automatically controlling the output of the inverter so as to stop the supply of temperature inducing current to the core at a predetermined surface temperature of the workpiece, said means controlling the output including means for automatically and successively controlling the inverter to maintain a first predetermined temperature for a predetermined time period followed by a subsequent period of operation to increase the temperature to a second temperature level and maintain said second temperature level.
- 2. An induction heating apparatus including a two-level temperature control including a power supply inverter operatively connected to energize an induction core unit, the induction core unit including a temperature sensing element operative therewith including means to convert temperature level sensed to a directly related output voltage, an adjustable, voltage-dividing, reference temperature source, voltage comparator circuit accepting and comparing voltages from the temperature sensing means and the adjustable reference temperature source and including means for producing a first signal when said voltages are equal, means responsive to said first signal including a first time circuit to control the inverter to maintain a first temperature level, switch means responsive to said first signal to increase the value of the reference temperature source after a first predetermined time delay created by said first timing circuit following the initiation of the first signal, means to activate a period of operation of the inverter to increase the temperature to a second, higher temperature level until a second signal is produced by the voltage comparator circuit, at the end of the operating period at the higher temperature level wherein the heating apparatus automatically sensing the temperature level of the workpiece and is capable of controlling the temperature thereof at two levels.
- 8. A method of heating, by induction, a sheet of ferromagnetic base material which is coated with a nonconducting, nonferromagnetic surface material, such as paint, including the step of heating said base material and simultaneously monitoring the temperature of the surface material, automatically stopping the heat input to the base material when the temperature of the surface material reaches a first, predetermined temperature level which is lower than a second, predetermined desired temperature level, allowing the temperature of the base material to equalize with the temperature of the surface material at said first temperature level, automatically resuming heat input to the base material until the surface temperature reaches the second predetermined temperature level, retaining the second temperature level for a predetermined time interval and thereafter deactivating the induction heating apparatus.
- 10. A device for sensing and controlling temperature of a workpiece which is being heated by a selectively operable energy source, including a temperature sensing element and means to convert the temperature level sensed to a directly related output voltage, an adjustable, voltage-dividing, reference temperature source, voltage comparator circuit accepting and comparing voltages from the temperature sensing means and the adjustable reference temperature source and including means for producing a first signal when said voltages are equal, means responsive to said first signal including a first timing circuit to control the energy source to maintain a first temperature level, switch means responsive to said first signal to increase the value of the reference temperature source after a first predetermined time delay created by said first timing circuit following the initiation of the first signal, means to activate a period of operation of the energy source to increase the temperature of the workpiece to a second, higher temperature level until a second signal is produced by the voltage comparator circuit.
Specification