Heater and glow plug provided with same

What is claimed is: 1. A heater comprising: a resistor comprising a heat-generating portion configured to heat a glow plug; one or more leads joined to end portions of the resistor; and an insulating base body which covers the resistor and the leads, wherein an end surface of the resistor is covered with one of the leads over a whole circumference in a circumferential direction of the resistor, the end surface of the resistor is spaced apart from the insulating base body by way of the one of the leads, wherein the resistor has a folded shape, the leads are joined to each of the end portions of the resistor at a corresponding joining portion, and an inner-side inclination angle of the resistor is set steeper than an outer-side inclination angle of the resistor when the joining portion is viewed in cross section parallel to the axial direction of each of the leads. 2. The heater according to claim 1 , wherein a profile of the resistor in the joining portion is tapered toward a side opposite to the heat-generating portion. 3. The heater according to claim 1 , wherein when each corresponding joining portion is viewed in cross section perpendicular to an axial direction of each of the leads: each end portion of the resistor comprises a resistor centroid, each lead comprises a lead centroid, and for at least one corresponding joining portion, the resistor centroid is displaced from the lead centroid. 4. The heater according to claim 1 , wherein a profile of the resistor is formed in a curve when the joining portion is viewed in cross section perpendicular to the axial direction of each of the leads. 5. A heater comprising: a resistor comprising a heat-generating portion configured to heat a glow plug; one or more leads joined to end portions of the resistor; and an insulating base body which covers the resistor and the leads, wherein an end surface of the resistor is covered with one of the leads over a whole circumference in a circumferential direction of the resistor, the end surface of the resistor is spaced apart from the insulating base body by way of the one of the leads, wherein the resistor has a folded shape, the leads are joined to each of the end portions of the resistor at a corresponding joining portion, and a distal end surface of each of the leads is inclined inwardly when the joining portion is viewed in cross section parallel to the axial direction of each of the leads. 6. The heater according to claim 5 , wherein a profile of the resistor in the joining portion is tapered toward a side opposite to the heat-generating portion. 7. The heater according to claim 5 , wherein when each corresponding joining portion is viewed in cross section perpendicular to an axial direction of each of the leads: each end portion of the resistor comprises a resistor centroid, each lead comprises a lead centroid, and for at least one corresponding joining portion, the resistor centroid is displaced from the lead centroid. 8. The heater according to claim 5 , wherein a profile of the resistor is formed in a curve when the joining portion is viewed in cross section perpendicular to the axial direction of each of the leads. 9. A heater comprising: a resistor comprising a heat-generating portion configured to heat a glow plug; one or more leads joined to end portions of the resistor; and an insulating base body which covers the resistor and the leads, wherein an end surface of the resistor is covered with one of the leads over a whole circumference in a circumferential direction of the resistor, the end surface of the resistor is spaced apart from the insulating base body by way of the one of the leads, the leads are joined to each of the end portions of the resistor at a corresponding joining portion, and a profile of each of the leads in the joining portion is tapered toward a heat-generating portion side. 10. The heater according to claim 9 , wherein a profile of the resistor in the joining portion is tapered toward a side opposite to the heat-generating portion. 11. The heater according to claim 9 , wherein the resistor has a folded shape, and when each corresponding joining portion is viewed in cross section perpendicular to an axial direction of each of the leads: each end portion of the resistor comprises a resistor centroid, each lead comprises a lead centroid, and for at least one corresponding joining portion, the resistor centroid is displaced from the lead centroid. 12. The heater according to claim 9 , wherein a profile of the resistor is formed in a curve when the joining portion is viewed in cross section perpendicular to the axial direction of each of the leads.