Coil resistor and method for manufacturing same

The invention claimed is: 1. A coil resistor made by attaching a cap electrode on either end part of a resistive element formed by winding a resistance wire around the circumference of a core that is formed by twisting together fibrous insulating material, comprising a plurality of notches of a predetermined length formed along the axis of the resistive element on rims of either end surface of the resistive element. 2. The coil resistor according to claim 1 , wherein the resistance wire is cut at the rims. 3. The coil resistor according to claim 1 , wherein the plurality of notches is formed at substantially equal intervals along the circumference of the rims, and the intervals of the notches along the circumference are shorter than depth of the cap electrode toward the axis. 4. The coil resistor according to claim 1 , wherein depth of the plurality of notches toward the axis center of the resistive element is deepest near the axial end part of a peripheral surface of the resistive element, and becomes shallower as the notches approach the central part along the axis of the peripheral surface from the end parts. 5. The coil resistor according to claim 1 , wherein depth of the plurality of notches toward the axis center of the resistive element is the same depth at a notch starting point in the axial end part of a peripheral surface of the resistive element and at a notch ending point at a predetermined distance from the end part along the axis. 6. The coil resistor according to claim 1 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 7. A manufacturing method for a coil resistor comprising the steps of: twisting together fibrous insulating material to form a long core; winding a resistance wire around the circumference of the core; cutting at a predetermined length the core around which the resistance wire is wound, so as to form a resistive element; forming a plurality of notches of a predetermined length along the axis of the resistive element in rims of either end surface of the resistive element; and attaching a cap electrode on either end part of the resistive element. 8. The manufacturing method for a coil resistor according to claim 7 , wherein in the step of forming the plurality of notches, the resistance wire at the rims is cut. 9. The manufacturing method for a coil resistor according to claim 7 , wherein in the step of forming the plurality of notches, the plurality of notches is formed in a plurality of places simultaneously in the rims of either end surface of the resistive element. 10. The manufacturing method for a coil resistor according to claim 7 , wherein the plurality of notches is formed at substantially equal intervals along the circumference of the rims, and the intervals of the notches along the circumference are shorter than depth of the cap electrode toward the axis. 11. The manufacturing method for a coil resistor according to claim 7 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 12. The coil resistor according to claim 2 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 13. The coil resistor according to claim 3 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 14. The coil resistor according to claim 4 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 15. The coil resistor according to claim 5 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 16. The manufacturing method for a coil resistor according to claim 8 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 17. The manufacturing method for a coil resistor according to claim 9 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode. 18. The manufacturing method for a coil resistor according to claim 10 , wherein the plurality of notches is formed within a range of less than 10% of the region of the peripheral surface of the resistive element that is covered by the cap electrode.