Apparatus for coating catalyst slurry

The invention claimed is: 1. A coating apparatus for coating slurry containing a catalyst material on inner surfaces of a plurality of channels which extend through a substrate in a first direction and are adjacent to one another, the coating apparatus comprising: slurry supply means for supplying the slurry into the plurality of channels from one end of the substrate, as defined in the first direction, the plurality of channels including (i) first channels located in an outer circumferential area of the substrate, and (ii) second channels located in a center area close to a radial center of the substrate; air stream generation means for generating air streams flowing through the plurality of channels from the one end of the substrate to another end, as defined in the first direction, such that the slurry supplied from the one end of the substrate by the slurry supply means flows from the one end of the substrate through the plurality of channels toward said another end and reaches an intermediate point, as defined in an overall length of the substrate; and air stream suppression means, arranged away from said another end of the substrate and facing downstream-side ends of the first channels, as viewed in the first direction, for suppressing the air streams in the first channels such that the air streams in the first channels are slower than the air streams in the second channels. 2. The coating apparatus according to claim 1 , wherein the first channels and the second channels have an equal cross sectional area, and the air stream suppression means causes the air streams in the first channels to be slower than the air streams in the second channels and thereby permits a slurry coat width on the inner surfaces of the first channels, as determined in the first direction, to be shorter than a slurry coat width on the inner surfaces of the second channels, as determined in the first direction. 3. The coating apparatus according to claim 2 , further comprising: adjusting means for adjusting a distance between said another end of the substrate and the air stream suppression means so as to control a difference between the slurry coat width on the inner surfaces of the first channels and the slurry coat width on the inner surfaces of the second channels. 4. The coating apparatus according to claim 3 , wherein the first channels are annularly arranged around the second channels, and the air stream suppression means is an annular member facing the downstream-side ends of the first channels, as defined in the first direction. 5. The coating apparatus according to claim 4 , wherein the annular member is a plate member that prevents air streams from flowing therethrough. 6. The coating apparatus according to claim 4 , wherein the annular member is a net member that permits air streams to flow therethrough. 7. The coating apparatus according to claim 1 , wherein the first channels are annularly arranged around the second channels, and the air stream suppression means is an annular member facing the downstream-side ends of the first channels, as defined in the first direction. 8. The coating apparatus according to claim 7 , wherein the annular member is a plate member that prevents air streams from flowing therethrough. 9. The coating apparatus according to claim 7 , wherein the annular member is a net member that permits air streams to flow therethrough. 10. The coating apparatus according to claim 1 , wherein the first channels have a cross sectional area wider than that of the second channels, the air stream suppression means causes the air streams in the first channels to be slower than the air streams in the second channels and thereby permits a slurry coat width on the inner surfaces of the first channels, as determined in the first direction, to be equal to a slurry coat width on the inner surfaces of the second channels, as determined in the first direction. 11. The coating apparatus according to claim 10 , further comprising: adjusting means for adjusting a distance between said another end of the substrate and the air stream suppression means such that the slurry coat width on the inner surfaces of the first channels and the slurry coat width on the inner surfaces of the second channels become equal to each other. 12. The coating apparatus according to claim 11 , wherein the first channels are annularly arranged around the second channels, and the air stream suppression means is an annular member facing the downstream-side ends of the first channels, as defined in the first direction. 13. The coating apparatus according to claim 12 , wherein the annular member is a plate member that prevents air streams from flowing therethrough. 14. The coating apparatus according to claim 12 , wherein the annular member is a net member that permits air streams to flow therethrough. 15. The coating apparatus according to claim 10 , wherein the first channels are annularly arranged around the second channels, and the air stream suppression means is an annular member facing the downstream-side ends of the first channels, as defined in the first direction. 16. The coating apparatus according to claim 15 , wherein the annular member is a plate member that prevents air streams from flowing therethrough. 17. The coating apparatus according to claim 15 , wherein the annular member is a net member that permits air streams to flow therethrough. 18. The coating apparatus according to claim 2 , wherein the first channels are annularly arranged around the second channels, and the air stream suppression means is an annular member facing the downstream-side ends of the first channels, as defined in the first direction. 19. The coating apparatus according to claim 18 , wherein the annular member is a plate member that prevents air streams from flowing therethrough. 20. The coating apparatus according to claim 18 , wherein the annular member is a net member that permits air streams to flow therethrough.