Electrically heated catalyst device and its manufacturing method

The invention claimed is: 1. An electrically heated catalyst device comprises: a catalyst support comprising a ceramics, on which a catalyst is supported; a pair of surface electrodes disposed on an outer surface of the catalyst support, the surface electrodes being disposed opposite to each other and extending in an axial direction of the catalyst support; and a wiring line that externally supplies electric power to the surface electrodes, wherein the catalyst support is electrically heated through the surface electrodes, and a wrought member made of metal is buried in the surface electrodes, the wrought member extending in the axial direction of the catalyst support. 2. The electrically heated catalyst device according to claim 1 , wherein the wrought member is one of a mesh, wires, and a perforated plate. 3. The electrically heated catalyst device according to claim 1 , wherein the surface electrodes are formed by thermal spraying. 4. The electrically heated catalyst device according to claim 3 , wherein a hollow space is formed between the catalyst support and the wrought member. 5. The electrically heated catalyst device according to claim 3 , wherein the wrought member comprises: a bonding region to which the surface electrode is bonded; and a non-bonding region to which the surface electrode is not bonded. 6. The electrically heated catalyst device according to claim 1 , wherein the wrought member is made of one of a stainless-steel-based alloy, a Ni-based alloy, and a Co-based alloy. 7. The electrically heated catalyst device according to claim 1 , wherein a connection area in the surface electrode in which the wiring line is connected is located at a center in the axial direction of the catalyst support. 8. The electrically heated catalyst device according to claim 1 , wherein the ceramics comprises SiC. 9. The electrically heated catalyst device according to claim 1 , wherein the surface electrode comprises a Ni-Cr alloy (with a Cr content of 20 to 60 mass %) or an MCrAlY alloy (M is at least one material selected from Fe, Co and Ni). 10. A manufacturing method of an electrically heated catalyst device that electrically heats a catalyst support comprising a ceramics, on which a catalyst is supported, through surface electrodes formed on a surface of the catalyst support, the manufacturing method comprising: forming a pair of the surface electrodes disposed on an outer surface of the catalyst support, the surface electrodes being disposed opposite to each other and extending in an axial direction of the catalyst support; and connecting a wiring line that externally supplies electric power to the surface electrodes, wherein in the forming of the surface electrodes, a wrought member made of metal is buried in the surface electrodes, the wrought member extending in the axial direction of the catalyst support. 11. The manufacturing method of an electrically heated catalyst device according to claim 10 , wherein the wrought member is one of a mesh, wires, and a perforated plate. 12. The manufacturing method of an electrically heated catalyst device according to claim 10 , wherein in the forming of the surface electrodes, a thermal-spraying is performed over the wrought member put on the catalyst support. 13. The manufacturing method of an electrically heated catalyst device according to claim 12 , wherein a hollow space is formed between the catalyst support and the wrought member. 14. The manufacturing method of an electrically heated catalyst device according to claim 12 , wherein in the forming of the surface electrodes, a surface of the wrought member put on the catalyst support is roughened before the thermal-spraying. 15. The manufacturing method of an electrically heated catalyst device according to claim 14 , wherein in the roughening, a bonding region to which the surface electrode is bonded is roughened and a non-bonding region to which the surface electrode is not bonded is not roughened.