Gas insulated switchgear

The invention claimed is: 1. A gas insulated switchgear comprising: a grounded tank that is filled with an insulating gas; a central conductor that is provided inside the grounded tank and to which a voltage is applied; an insulating support member that is attached to the grounded tank and that supports the central conductor in an insulating manner; and a non-linear resistance part that is provided on an inner surface of the grounded tank on a lower side and that has a non-linear resistance material contained in an insulating material, wherein the non-linear resistance part has a first content rate of the non-linear resistance material on a grounded tank side and a second content rate of the non-linear resistance material on a central conductor side, the first content rate being greater than zero, and the second content rate being greater than the first content rate. 2. The gas insulated switchgear according to claim 1 , wherein the second content rate of the non-linear resistance material on the central conductor side is within a range determined based on a condition on which the non-linear resistance part has a non-linear resistance property and a strength of the non-linear resistance part is ensured. 3. The gas insulated switchgear according to claim 1 , wherein the non-linear resistance part is a coated film having the non-linear resistance material contained in an insulating coating material as the insulating material. 4. The gas insulated switchgear according to claim 3 , wherein the coated film includes a plurality of layers formed by plural times of coating with changed content rates of the non-linear resistance material. 5. The gas insulated switchgear according to claim 4 , wherein a content rate of the non-linear resistance material increases in a stepwise manner from the grounded tank side to the central conductor side. 6. The gas insulated switchgear according to claim 3 , wherein a content rate of the non-linear resistance material increases continuously from the grounded tank side to the central conductor side. 7. The gas insulated switchgear according to claim 3 , wherein a thermal conductivity of the non-linear resistance material is higher than that of the insulating material. 8. The gas insulated switchgear according to claim 1 , wherein the non-linear resistance part is a non-linear resistance sheet having the non-linear resistance material contained in an insulating coating material as the insulating material. 9. The gas insulated switchgear according to claim 8 , wherein a content rate of the non-linear resistance material increases continuously from the grounded tank side to the central conductor side. 10. The gas insulated switchgear according to claim 8 , wherein a thermal conductivity of the non-linear resistance material is higher than that of the insulating material. 11. A gas insulated switchgear comprising: a grounded tank that is filled with an insulating gas; a central conductor that is provided inside the grounded tank and to which a voltage is applied; an insulating support member that is attached to the grounded tank and that supports the central conductor in an insulating manner; a first non-linear resistance part that is provided on an inner surface of the grounded tank on a lower side and that has a first non-linear resistance material contained in a first insulating material; and a second non-linear resistance part that is provided on a surface of the first non-linear resistance part and that has a second non-linear resistance material contained in a second insulating material, wherein the first non-linear resistance part is configured to change a resistivity state thereof at a first electric field strength, the second non-linear resistance part is configured to change a resistivity state thereof at a second electric field strength that is lower than the first electric field strength, the first non-linear resistance part has a first resistivity at an electric field strength that is less than the second electric field strength, and the second non-linear resistance part has a second resistivity less than the first resistivity at the electric field strength.