TH85325A - Induction heating machine - Google Patents

Abstract

DC60 (04/04/54) has provided induction heating. Which the magnetic flux leaks of the heating coil It has been used effectively to reduce the temperature rise in the opposite end. Of sheet metal And the temperature is reduced in the inner upper part of the opposite end for a uniform heating action. The machine has an induction heating power source 1, a primary coil 2 attached to the magnetic core 3 and a secondary coil 5, which forms a continuous secondary magnetic flux. By the primary magnetic flux produced by the primary winding And the attenuation increases or decreases Of the 4 metal plate temperature is some Has provided induction heating machine Which the magnetic flux leaks of the heating coil It has been used effectively to reduce the temperature rise in the opposite end. Of sheet metal And a decrease in the inner upper portion of the opposite ends For action Even heating The machine has an induction heating power source 1, primary coil 2 attached to the magnetic core 3 and the secondary coil 5, which produces the secondary magnetic flux due to the flux. The primary magnet is formed by the primary winding. And partially inhibit the increase or decrease of 4 plate temperature

Claims (9)

1. Integrated induction heating machine The primary winding connected to the induction heating source. And attached to the magnetic core and the secondary winding for the generation of secondary magnetic flux by the leakage magnetic flux of the magnetic flux. Primary, which is formed by the primary winding And which pass through the outside of the sheet metal by which an induction heater is built to heat the sheet metal. Where the secondary windings are built, a number of coils carry current as a result of the induced emf voltage generated by the flux leakage magnetic flux. Primary magnet to a part under the sheet metal. And will form a secondary magnetic flux in Same direction as the direction of the primary magnetic flux. Or will produce a secondary magnetic flux in the direction Opposite to the direction of the primary magnetic flux. To increase or decrease the temperature partially by Conforms to the shape of the metal sheet 2. Induction heater according to claim 1, where a number of secondary wire vials will be formed. The secondary magnetic flux is formed independently and simultaneously with the direction of the primary magnetic flux and in the opposite direction to the direction of the primary magnetic flux, and the temperature is increased. And reduced to some extent in accordance with the shape of the sheet metal 3. Induction heater according to claim 1 or 2, where the number of coils of the coil Secondary is one Or more 4. Induction heater according to one of Clause 1 to 3 where the secondary winding is fixed to the magnetic core. 5. Induction heater according to any of Clause 1 to 4 where the secondary winding is formed from the tubular-shaped conductors and the cooling fluid is flowed. Spiral through the pipe 6.Induction heater in accordance with one of Clause 1 to 5. Where a variable resistor and / or circuit breaker is connected to the secondary winding to control and / or cut off the induced current generated in the secondary winding. 7. Induction heater according to any of Clause 1 to 6 where the primary winding is arranged above and under the sheet metal. The transverse system and the secondary vial are arranged similarly above and below the plaque. 8. Induction heater according to claim 7, where the secondary windings provided above And beneath the metal plates facing each other has been connected in series, respectively. 9. Induction heater according to one of Claims 1 to 7 where the primary coil does not have any magnetic core and the secondary winding is placed on the inside of the primary winding. Landscape And has been formed In the same plane as the primary winding 1 0. Induction heater according to any of Clause 1 to 9 where the secondary winding can be moved along the metal plate.