Zeolite structure and method for producing the same

The invention claimed is: 1. A zeolite structure having a honeycomb shape and having partition walls that define a plurality of cells extending from one end face of the zeolite structure to its other end face so as to function as fluid passages, wherein each partition wall has an inner portion and two surface portions, wherein each partition wall is ion-exchanged with metal ions such that a content amount of metal ion per unit zeolite in each surface portion of each partition wall is larger than a content amount of metal ion per unit zeolite in the inner portion of the partition wall, wherein a main metal ion in the surface portion of the partition walls and a main metal ion in the inner portion of the partition walls are different from each other, and wherein all of the partition walls in the zeolite structure have the same ion-exchanged profile. 2. The zeolite structure according to claim 1 , wherein the content amount of the metal ion per unit zeolite in the surface portion of the partition walls is 1.1 to 5.0 times the content amount of the metal ion per unit zeolite in the inner portion of the partition walls. 3. The zeolite structure according to claim 1 , wherein the metal ion in the surface portion of the partition walls is at least one kind selected from the group consisting of iron ion, copper ion and silver ion and the metal ion in the inner portion of the partition walls is at least one kind selected from the group consisting of iron ion, copper ion and silver ion. 4. The zeolite structure according to claim 1 , wherein the main metal ion in the surface portion of the partition walls is iron ion and the main metal ion in the inner portion of the partition walls is copper ion. 5. The zeolite structure according to claim 2 , wherein the metal ion in the surface portion of the partition walls is at least one kind selected from the group consisting of iron ion, copper ion and silver ion and the metal ion in the inner portion of the partition walls is at least one kind selected from the group consisting of iron ion, copper ion and silver ion. 6. A method for producing a zeolite structure, which comprises extruding a forming material comprising a zeolite powder and a forming aid, to form a honeycomb-shaped body which has partition walls forming a plurality of cells extending from one end face of the honeycomb-shaped body to its other end face and functioning as a passage of fluid, wherein each partition wall has an inner portion and two surface portions, firing the honeycomb-shaped body, and subjecting the fired honeycomb-shaped body to an ion exchange treatment with metal ions to produce a zeolite structure wherein the content per unit zeolite amount of metal ion in each surface portion of each partition wall is larger than the content per unit zeolite amount of metal ion in the inner portion of the partition wall, wherein a main metal ion in the surface portion of the partition walk and a main metal ion in the inner portion of the partition walls are different from each other, and wherein all of the partition walls in the zeolite structure have the same ion-exchanged profile. 7. The method for producing a zeolite structure according to claim 6 , wherein the metal ion is at least one kind selected from the group consisting of iron ion, copper ion and silver ion. 8. The method for producing a zeolite structure according to claim 7 , wherein the metal ion contains at least iron ion and copper ion. 9. The method for producing a zeolite structure according to claim 6 , wherein the ion-exchange treatment with a metal ion, to the fired honeycomb-shaped body is conducted a plurality of times and the kind of the metal ion used in at least one time of ion-exchange treatment is different from the kind of the metal ion used in remaining ion-exchange treatment. 10. The method for producing a zeolite structure according to claim 9 , wherein, in the ion-exchange treatment of a plurality of times, the final ion-exchange treatment is an ion-exchange treatment only for the surface portion of the partition wall and the remaining ion-exchange treatment is an ion-exchange treatment for the surface portion and inner portion of the partition wall. 11. The method for producing a zeolite structure according to claim 10 , wherein the ion-exchange treatment is conducted using a metal ion-containing solution and the metal ion concentration in the solution is the same in all the ion-exchange treatments conducted a plurality of times, and, in the ion-exchange treatments of a plurality of times, the time length of final ion-exchange treatment is ½ or less relative to the total time length of remaining ion-exchange treatment. 12. The method for producing a zeolite structure according to claim 10 , wherein the ion-exchange treatment is conducted using a metal ion-containing solution and, in the ion-exchange treatments of a plurality of times, the metal ion concentration in the metal ion-containing solution used in final ion-exchange treatment is ½ or less relative to the metal ion concentration in the metal ion-containing solution used in remaining ion-exchange treatment. 13. The method for producing a zeolite structure according to claim 7 , wherein the ion-exchange treatment with a metal ion, to the fired honeycomb-shaped body is conducted a plurality of times and the kind of the metal ion used in at least one time of ion-exchange treatment is different from the kind of the metal ion used in remaining ion-exchange treatment. 14. The method for producing a zeolite structure according to claim 8 , wherein the ion-exchange treatment with a metal ion, to the fired honeycomb-shaped body is conducted a plurality of times and the kind of the metal ion used in at least one time of ion-exchange treatment is different from the kind of the metal ion used in remaining ion-exchange treatment. 15. The method for producing a zeolite structure according to claim 13 , wherein, in the ion-exchange treatment of a plurality of times, the final ion-exchange treatment is an ion-exchange treatment only for the surface portion of the partition wall and the remaining ion-exchange treatment is an ion-exchange treatment for the surface portion and inner portion of the partition wall. 16. The method for producing a zeolite structure according to claim 14 , wherein, in the ion-exchange treatment of a plurality of times, the final ion-exchange treatment is an ion-exchange treatment only for the surface portion of the partition wall and the remaining ion-exchange treatment is an ion-exchange treatment for the surface portion and inner portion of the partition wall.