▎ 摘　　要

NOVELTY - The heater has a heating case which is comprised with ceramics and carbon conductors and that is integrally formed. An electrical terminal is electrically connected to heating case. The ceramics include a structural ceramic that is not conductive. The carbon conductors include any one of carbon, carbon nanotubes and graphene or combination. The heating case has conductivity by the virtue of carbon conductors distributed over the entire heating case. USE - Heater. ADVANTAGE - The heater includes the ceramics without conductivity and the heat generation case which is integrally formed including the carbon conductor having conductivity. The fabrication cost is lowered and productivity can be improved. Accordingly, the heat generation case of the separate configuration can operate without the need as the heating element having conductivity. Therefore, the structure is simple and the heater in which the manufacturing cost is saved. The cohesive power is excellent in a longitudinal direction between configurations in which the heater arranges the heater regardless of the assembly position of each heat generation structures. Therefore, the poor quality including electrical contact defect can be minimized. DETAILED DESCRIPTION - The heater is comprised with ceramics which is alumina and the silicon oxide. The ceramics includes the iron oxide and/or the kalium oxide. The terminal includes the first terminal and the second terminal, and the first terminal is arranged on one side of the heat generation case and the second terminal is faced at side of the heat generation case. Multiple slit type openings passing through the heat generation case are formed in the heat generation case. The heat generation case (110) includes the second heat generation case (120) positioned adjacent in the first heat generation case. The third electrical terminal is arranged between the first heat generation case and the second heat generation case and is electrically connected with the first heat generation case and the second heat generation case. The third electrical terminal is arranged between the third heat generation case (130) and fourth heat generation case (140) and is electrically connected with the third heat generation case and fourth heat generation case. The combining units are combined in order to fix the heat generation case and first and second electrical terminals. The combining unit surrounds the sides of the heat generation case and the upper side and lower base of the heat generation case expose to the outside. The combining unit includes the connector portion. The end of the second electrical terminal and the first electrical terminal exposes to the outside within the connector portion. The first and second electrical terminals are adhered in the heat generation case by using the conductive adhesives. The surface of the heat generation case is electrically connected with the direct contact between the first electrical terminal and the second electrical terminal. The insulator is formed on the surface of the heat generation case. The first electrical terminal is adapted to the first electrical terminal holding portion. The second electricity terminal holding portion is received to the second electricity terminal holding portion. The ceramic powder and carbon conductor are mixed and prepared for the material powder. The material powder is dried. The heat generation case is molded using the dried material powder. An INDEPENDENT CLAIM is included for a method for manufacturing heater, involves binding the electrical terminal in the heat generation case. The shaped heat generation case is sintered and is comprised with the carbon including ceramic for structural purposes powder without conductivity. The carbon conductor has conductivity. The heat generation case and first and second electrical terminals are bounded by using the combining unit for fixing the heat generation case and first and second electrical terminals in the assembly. The oxide film of the portion in which first and second electrical terminals are contacted with the heat generation case is removed, after the thermal processing of heating up the surface of the sintered heat generation case. The oxide film formed on the heat generation case is removed. The first and second electrical terminals are electrically connected with the heat generation case. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of the structure of heater. (Drawing includes non-English language text) Heat generation case (110,120,130,140) Engaging portion material (210,220) Electrodes (310,320) Heat radiating portion (500)