Electromagnetic coil, method of manufacturing electromagnetic coil, and electromagnetic actuator

What is claimed is: 1. An electromagnetic coil comprising: a conductor winding formed by winding a conductor and an adhesive layer a plurality of times about a predetermined axis such that adjacent turns of the conductor are bonded together by the adhesive layer provided therebetween, the conductor winding having an axial end surface with respect to a direction of the predetermined axis, the axial end surface having irregularities; and a ceramic layer formed through thermal spraying on the axial end surface, the ceramic layer having a flattened surface, wherein the irregularities of the axial end surface, including portions of the adhesive layer, are embedded in the ceramic layer, and the flattened surface of the ceramic layer is formed on an opposite side of the irregularities. 2. An electromagnetic coil according to claim 1 , wherein the ceramic layer is formed on the axial end surface of the conductor winding in such a manner as to fill recesses at the surface of turns of the conductor. 3. An electromagnetic coil according to claim 1 , wherein the ceramic layer electrically insulates turns of the conductor at the axial end surface of the conductor winding. 4. An electromagnetic coil according to claim 1 , wherein the ceramic layer solidifies the axial end surface of the conductor winding. 5. An electromagnetic coil according to claim 1 , wherein the conductor is formed into a tape shape, the adhesive layer is a tape-like adhesive layer, and the adjacent turns of the conductor are electrically insulated from each other by means of the tape-like adhesive layer. 6. An electromagnetic coil according to claim 1 , wherein a maximal value of thickness of the ceramic layer is set to three times or less a maximal value of depth of the recesses formed at the surface of turns of the conductor at the axial end surface. 7. An electromagnetic coil according to claim 1 , wherein a maximal value of thickness of the ceramic layer is set to about twice a maximal value of depth of the recesses formed at the surface of turns of the conductor at the axial end surface. 8. An electromagnetic coil according to claim 1 , wherein the conductor winding is formed by winding the conductor a plurality of times on an outer circumference of a stationary iron core. 9. An electromagnetic actuator characterized by comprising: an electromagnetic coil including: a conductor winding formed by winding a conductor and an adhesive layer a plurality of times about a predetermined axis such that adjacent turns of the conductor are bonded together by the adhesive layer provided therebetween, the conductor winding having an axial end surface with respect to a direction of the predetermined axis, the axial end surface having irregularities; and a ceramic layer formed through thermal spraying on the axial end surface of the conductor winding so as to embed irregularities of the axial end surface, including portions of the adhesive layer, in the ceramic layer, the ceramic layer having a flattened surface on a side opposite of the irregularities; and a cooling member disposed in such a manner as to face the flattened surface of the ceramic layer. 10. An electromagnetic actuator according to claim 9 , wherein an adhesive layer is formed between the ceramic layer and the cooling member so as to bond the ceramic layer and the cooling member, and the ceramic layer is higher in thermal conductivity than the adhesive layer. 11. An electromagnetic actuator according to claim 9 , wherein the ceramic layer and the cooling member are in contact with each other. 12. An electromagnetic actuator according to claim 9 , wherein the cooling member is a housing of a solenoid valve. 13. An electromagnetic actuator according to claim 9 , wherein the cooling member is a heat pipe in which a volatile liquid is confined.