Claims
- 1. An induction heating furnace comprising:
an accommodating vessel for accommodating a material to be melted, the accommodating vessel having a bottom, a tapping portion formed at the bottom, and a side wall formed by a plurality of longitudinally split, conductive segments arrayed circumferentially and insulated from each other; a coil arranged at an outer periphery of said tapping portion and said side wall, for subjecting the material in said accommodating vessel to induction heating; a power source for supplying power to said coil; and a power source controller for controlling an amount of power produced by said power source such that said tapping portion may be selectively switched between open and closed states by melting and solidification of the material at the tapping portion.
- 2. An induction heating furnace comprising:
an accommodating vessel having a bottom, a top edge portion, and a side wall extending so obliquely as to increase in radius from said bottom to said top edge portion and formed by a plurality of longitudinally split, conductive segments arrayed circumferentially and insulated from each other; a coil arranged at an outer periphery of said side wall for subjecting a material accommodated in said accommodating vessel to induction heating; and a power source supplying AC power to said coil.
- 3. An induction heating furnace comprising:
an accommodating vessel having a bottom, a top edge portion, a tapping portion formed at said bottom, and a side wall extending so obliquely as to increase in radius from said bottom to said top edge portion and formed by a plurality of longitudinally split, conductive segments arrayed circumferentially and insulated from each other; a coil arranged at an outer periphery of said tapping portion and said side wall for subjecting a material accommodated in said accommodating vessel to induction heating; a power source supplying AC power to said coil; and a power source controller for controlling an amount of power produced by said power source such that said tapping portion may be selectively switched between open and closed states by melting and solidification of the material.
- 4. An induction heating furnace according to claim 1, wherein said tapping portion has an inlet portion which is joined to said bottom of said accommodating vessel, wherein an aperture of said inlet portion is gradually reduced in diameter from a top toward a bottom thereof, said tapping portion further having a hollow cylinder-like outlet portion which is integrally formed with said inlet portion and located below said inlet portion.
- 5. An induction heating furnace according to claim 1, wherein said coil is an integral coil comprising a first coil portion arranged at an outer periphery of said side wall and a second coil portion arranged at an outer periphery of said tapping portion, and wherein said power source controller controls said power source such that when the material is to be melted, said tapping portion is closed by a solid part of material, and when the molten material is taken out, said solid part of the material is allowed to melt to open the tapping portion.
- 6. An induction heating furnace according to claim 1, wherein said coil means is separated into a first coil portion arranged at an outer periphery of said side wall and a second coil portion arranged at an outer periphery of said tapping portion, wherein said power source comprises a first power source supplying power to said first coil portion and a second power source supplying power to said second coil portion, and wherein said power source controller controls said first power source and said second power source independently.
- 7. An induction heating furnace according to claim 6, wherein said second power source comprises a melt-use power source portion producing a first frequency AC power of such a value that the material at the tapping portion is melted; and a solidification-use power source portion producing a second frequency AC power of such a value that the melted material is allowed to solidify, and wherein said power source controller causes the melt-use power source portion to function when the tapping portion is to be opened, and causes the solidification-use power source portion to function when the tapping portion is to be closed.
- 8. An induction heating furnace according to claim 1, further comprising a drawing device for forcibly drawing the material out from said tapping portion.
- 9. An induction heating furnace according to claim 1 wherein the material is melted under a reduced pressure.
- 10. An induction heating furnace according to claim 3, wherein said tapping portion has an inlet portion which is joined to said bottom of said accommodating vessel, wherein an aperture of said inlet portion is gradually reduced in diameter from a top toward a bottom thereof, said tapping portion further having a hollow cylinder-like outlet portion which is integrally formed with said inlet portion and located below said inlet portion.
- 11. An induction heating furnace according to claim 3, wherein said coil is an integral coil comprising a first coil portion arranged at an outer periphery of said side wall and a second coil portion arranged at an outer periphery of said tapping portion, and wherein said power source controller controls said power source such that when the material is to be melted, said tapping portion is closed by a solid part of material, and when the molten material is taken out, said solid part of the material is allowed to melt to open the tapping portion.
- 12. An induction heating furnace according to claim 3, wherein said coil means is separated into a first coil portion arranged at an outer periphery of said side wall and a second coil portion arranged at an outer periphery of said tapping portion, wherein said power source comprises a first power source supplying power to said first coil portion and a second power source supplying power to said second coil portion, and wherein said power source controller controls said first power source and said second power source independently.
- 13. An induction heating furnace according to claim 12, wherein said second power source comprises a melt-use power source portion producing a first frequency AC power of such a value that the material at the tapping portion is melted; and a solidification-use power source portion producing a second frequency AC power of such a value that the melted material is allowed to solidify, and wherein said power source controller causes the melt-use power source portion to function when the tapping portion is to be opened, and causes the solidification-use power source portion to function when the tapping portion is to be closed.
- 14. An induction heating furnace according to claim 3, further comprising a drawing device for forcibly drawing the material out from said tapping portion.
- 15. A bottom tapping mechanism in an induction heating furnace, including:
an inverted-hollow-cone-shaped aperture bored in a flat plate-like bottom of an accommodating vessel for accommodating therein a molten material; and a funnel-shaped tapping portion.
- 16. The bottom tapping mechanism of claim 15, wherein said funnel-shaped tapping portion comprises an inlet portion formed within said aperture and contacting an inner periphery thereof, and a hollow-pipe-like outlet portion integrally formed with and located below said inlet portion.
- 17. The bottom tapping mechanism of claim 16, further comprising induction heating coils arranged around said tapping portion, and a power source connected to said induction heating coils.
Priority Claims (2)
Number |
Date |
Country |
Kind |
9-118620 |
Apr 1997 |
JP |
|
10-032688 |
Feb 1998 |
JP |
|
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application is a Divisional of patent application Ser. No., 09/064,774, filed on Apr. 23, 1998.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09064774 |
Apr 1998 |
US |
Child |
09923426 |
Aug 2001 |
US |