Image heating apparatus

What is claimed is: 1. An image heating apparatus's comprising: a hollow heating roller, including an electroconductive layer of magnetism-adjusted alloy having a Curie temperature lower than a heat-resistant temperature of said apparatus, configured to heat an image on a sheet; an excitation coil provided in said heating roller and configured to generate a magnetic flux for heating said heating roller, said excitation coil being wound about a winding center; a first magnetic core provided in said heating roller and configured to direct the magnetic flux to said heating roller, said first magnetic core including a first end portion positioned in the winding center and adjacent to said heating roller; a second magnetic core provided in said heating roller and configured to direct the magnetic flux to said heating roller, said second magnetic core including a second end portion adjacent to said heating roller not through said excitation coil; a controller configured to control electric power supply to said excitation coil so that a temperature of said heating roller is maintained at a target temperature lower than the Curie temperature; and a magnetic flux shielding plate provided so as to oppose said excitation coil through said heating roller and configured to shield the magnetic flux when said heating roller is heated up to a temperature higher than the Curie temperature, said magnetic flux shielding plate being made of a non-magnetic metal having a resistivity smaller than that of said magnetism-adjusted alloy and being stationary relative to said heating roller, wherein said magnetic flux shielding plate is disposed within an angular range between a first angular position in which said first end portion is positioned and a second angular position in which said second end portion is positioned and excluding the first angular position and the second angular position, and wherein a length of said magnetic flux shielding plate is the same or larger than a half length of the angular range, in a rotational direction of said heating roller. 2. An apparatus according to claim 1 , wherein said controller controls the electric power such that a skin depth said electroconductive layer when the temperature of said heating roller is lower than the Curie temperature is smaller than a thickness of said electroconductive layer, and the skin depth when the temperature of said heating roller is higher than the Curie temperature is larger than the thickness of said electroconductive layer. 3. An apparatus according to claim 1 , wherein said magnetic flux shielding plate has an arcuate configuration substantially concentric with said heating roller. 4. An apparatus according to claim 1 , wherein said first magnetic core and said second magnetic core are integral with each other to form a T-shape. 5. An apparatus according to claim 1 , wherein said second magnetic core further includes a third end portion adjacent to said heating roller, not through said excitation coil. 6. An apparatus according to claim 1 , further comprising a rotary member configured to form a nip portion in which the sheet is nipped and conveyed cooperatively with said heating roller. 7. An apparatus according to claim 1 , wherein said magnetism-adjusted alloy is comprised of iron, nickel, chrome, and said magnetic flux shielding plate is made of copper. 8. An image heating apparatus comprising: a hollow heating roller, including an electroconductive layer made of magnetism-adjusted alloy having a Curie temperature lower than a heat-resistant temperature of said apparatus, configured to heat a toner image on a sheet; an excitation coil provided in said heating roller and configured to generate a magnetic flux for heating said heating roller, said excitation coil being wound about a winding center; a substantially T-shaped magnetic core having a substantially T-shaped cross-section and provided in said heating roller and configured to direct the magnetic flux to said heating roller, said T-shaped magnetic core including a first end portion positioned in the winding center and adjacent to said heating roller and a second end portion adjacent to said heating roller; a controller configured to control electric power supplied to said excitation coil so that a temperature of said heating roller is maintained at a target temperature which is lower than the Curie temperature; and a magnetic flux shielding plate provided so as to oppose said excitation coil through said heating roller and configured to shield the magnetic flux when said heating roller is heated up to a temperature higher than the Curie temperature, said magnetic flux shielding plate being made of a non-magnetic metal having a resistivity smaller than that of said magnetism-adjusted alloy, and being stationary relative to said heating roller, wherein said magnetic flux shielding plate is disposed within an angular range between a first angular position in which said first end portion is positioned and a second angular position in which said second end portion is positioned and excluding the first angular position and the second angular position, and wherein a length of said magnetic flux shielding plate is the same or larger than a half length of the angular range, in a rotational direction of said heating roller. 9. An apparatus according to claim 8 , wherein said controller controls the electric power such that a skin depth of said electroconductive layer when the temperature of said heating roller is lower than the Curie temperature is smaller than a thickness of said electroconductive layer, and the skin depth when the temperature of said heating roller is higher than the Curie temperature is larger than the thickness of said electroconductive layer. 10. An apparatus according to claim 8 , wherein said magnetic flux shielding plate has an arcuate configuration substantially concentric with said heating roller. 11. An apparatus according to claim 8 , further comprising a rotary member configured to form a nip portion in which the sheet is nipped and conveyed cooperatively with said heating roller. 12. An apparatus according to claim 8 , wherein said magnetism-adjusted alloy comprises iron, nickel, chrome, and said magnetic flux shielding plate is a copper plate.