Kiln tool plate for firing ceramic material

The invention claimed is: 1. A kiln tool plate for firing a ceramic material which is used during the firing of an article to be fired, said kiln tool plate having alternating projecting and recessed portions that are imparted to a front surface side, on which the article to be fired is mounted, and that are imparted to an opposed back surface side by arranging rod-like portions in parallel with one another, with each of the rod-like portions having a trapezoidal sectional shape, the trapezoidal sectional shape comprising a quadrilateral having two parallel base sides of unequal length, a shorter first base side and a longer second base side, wherein the shorter first base side of each of the rod-like portions is the outermost contact surface of the front surface side and the opposed back surface side, with the outermost contact surface being a surface that is configured to contact the article to be fired, thereby providing a contact surface and balance between the article to be fired and the rod-like portions, and wherein the longer second base sides of the rod-like portions are spaced apart from one another by a distance that is equal to a height of the rod-like portions, said alternating projecting and recessed portions are integrally formed, with said recessed portions having inner bottoms formed by the rod-like portions disposed on the front surface side and the rod-like portions disposed on the back surface side, wherein opening areas between adjacent rod-like portions in said inner bottoms are smaller than adjacent surface areas respectively formed in said inner bottoms within each of said recessed portions, and wherein the total area of said opening areas is less than the total area of said surface areas. 2. The kiln tool plate for firing the ceramic material according to claim 1 , wherein the arrangement angle of the rod-like portions on the front surface side is shifted from that of the rod-like portions on the back surface side to form said alternating projecting and recessed portions on the front surface side and the back surface side so that said alternating projecting and recessed portions are shifted from each other. 3. The kiln tool plate for firing the ceramic material according to claim 2 , wherein the rod-like portions are formed so as to be arranged at positions of 30 to 60 degrees with respect to a long axis of the kiln tool plate for firing the ceramic material. 4. The kiln tool plate for firing the ceramic material according to claim 1 , which contains at least 50 mass % of SiC. 5. The kiln tool plate for firing the ceramic material according to claim 1 , which contains at least 90 mass % of SiC and Si 3 N 4 in total. 6. The kiln tool plate for firing the ceramic material according to claim 1 , which contains 85 to 90 mass % of SiC and 15 to 10 mass % of SiO 2 . 7. The kiln tool plate for firing the ceramic material according to claim 1 , wherein the rod-like portions disposed on the front surface side and the rod-like portions disposed on the back surface side are respectively disposed at an equal distance therebetween, and wherein respective rod-like portions on the front surface side and on the back surface side are disposed at both ends of the plate. 8. The kiln tool plate for firing ceramic material according to claim 1 , wherein the height of the rod-like portions is from 5 to 10 mm. 9. The kiln tool plate for firing ceramic material according to claim 8 , wherein the rod-like portions have a length from 300 to 700 mm. 10. The kiln tool plate for firing ceramic material according to claim 1 , wherein the front surface side and the back surface side have the same constitution. 11. The kiln tool plate for firing ceramic material according to claim 1 , wherein the kiln tool plate is configured to be integrally formed to obtain a joined structure. 12. The kiln tool plate for firing ceramic material according to claim 1 , wherein the kiln tool plate is configured to be integrally formed using no adhesive to obtain a joined structure. 13. The kiln tool plate for firing ceramic material according to claim 1 , wherein the kiln tool plate is configured to be integrally formed by use of a mold to obtain a joined structure.