Electric heating – Inductive heating – With power supply system
Reexamination Certificate
2001-11-26
2004-03-30
Leung, Philip H. (Department: 3742)
Electric heating
Inductive heating
With power supply system
C219S668000, C361S103000, C374S141000
Reexamination Certificate
active
06713737
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to induction heating, and particularly to a method and apparatus for inductively heating a workpiece using a thermocouple to indicate workpiece temperature.
BACKGROUND OF THE INVENTION
Induction heating is a method of heating a workpiece. Induction heating involves applying an AC electric signal to a conductor adapted to produce a magnetic field, such as a loop or coil. The alternating current in the conductor produces a varying magnetic flux. The conductor is placed near a metallic object to be heated so that the magnetic field passes through the object. Electrical currents are induced in the metal by the magnetic flux. The metal is heated by the flow of electricity induced in the metal by the magnetic field.
Typically, induction heating systems are designed to heat a workpiece to a desired temperature and maintain the workpiece at that temperature for a desired period of time. Temperature feedback devices, such as thermocouples, are used to provide the system with an electrical signal corresponding to the temperature of the workpiece. Thermocouples typically consist of two dissimilar metals that produce a voltage between the two metals that varies according to the temperature of the two metals. The voltage difference between the two metals is used to produce a signal that is representative of the temperature of the workpiece. In an induction heating system, at least one thermocouple is typically placed on a workpiece in close proximity to the area being heated. Electrical conductors are used to couple the thermocouple to a controller that is used to control the operation of the induction heating system. However, the thermocouple and electrical conductors are susceptible to picking up electrical noise and transmitting the noise, as well as the temperature signal produced by the thermocouple, to the controller. The electrical noise distorts the thermocouple signal, which may result in improper heating of the workpiece or in the recordation of incorrect temperature data.
Electrical noise may be produced by several potential sources. For example, electrical noise may be produced by the varying magnetic field produced by an induction coil placed around a workpiece. Additionally, electrical noise may be produced by the power source in the induction heating system. The arc produced by an electric arc welder may also produce electrical noise that may be transmitted to the thermocouple and conductors. Radios in the vicinity of the workpiece may also produce electrical noise that may interfere with the signal produced by a thermocouple.
There is a need therefore for an induction heating system that avoids the problems associated with current temperature sensing means and methods. Specifically, there is a need for an induction heating system that reduces or eliminates electrical noise in the electrical signal generated by a temperature feedback device, such as a thermocouple.
SUMMARY OF THE INVENTION
The present technique provides novel inductive heating components, systems, and methods designed to respond to such needs. An induction heating system is featured according to one aspect of the present technique. The induction heating system has an electrical connector that is adapted to electrically couple a temperature feedback device to a system controller. In addition, the electrical connector couples the temperature feedback device to ground via a capacitor circuit. The capacitor circuit shunts electrical noise to ground. However, the capacitor circuit allows temperature signals from the temperature feedback device to be conducted to the controller and a data recorder, if used.
According to another aspect of the present technique, a shielded extension cable is provided to electrically couple a temperature feedback device to an induction heating system. The shielded extension cable has conductive shielding that surrounds a plurality of conductors. The plurality of conductors are used to conduct a signal representative of temperature from the temperature feedback device to the system. The shielding is electrically coupled to ground to conduct electrical noise, such as voltage spikes, to ground.
According to another aspect of the present technique, a shielded extension cable is provided that is operable to electrically couple a plurality of temperature feedback devices, such as thermocouples, to an induction heating system. Each of the temperature feedback devices is coupled through a separate group of conductors. The shielded extension cable has shielding that surrounds each of the separate groups of conductors. The shielding is electrically coupled to ground to conduct electrical noise, such as voltage spikes, to ground.
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Leung Philip H.
Yoder Fletcher
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