Gas-insulated switchgear

1 . A gas-insulated switchgear comprising: a grounded tank filled with insulation gas; a center conductor which is disposed in the grounded tank and to which a voltage is applied; an insulating support member which is attached to the grounded tank and which insulates and supports the center conductor; and a nonlinear resistive part which is disposed at least on a vertically lower side inner surface of the grounded tank and which is formed by an insulation material containing a nonlinear resistive material, wherein if an electric field applied to the nonlinear resistive part is higher than an electric field value in a vicinity of a contact point between the nonlinear resistive part and a metallic foreign substance mixed in the grounded tank when an operation voltage is applied but no electric field relaxation has occurred, a resistivity of the nonlinear resistive part is lower than a resistivity at which a discharge delay time is equal to an electric field relaxation time constant. 2 . The gas-insulated switchgear according to claim 1 , wherein the switchgear includes an insulating film between the grounded tank and the nonlinear resistive part. 3 . The gas-insulated switchgear according to claim 1 , wherein the resistivity of the nonlinear resistive part at the center conductor side is a value at which a product of a vacuum permittivity, a relative permittivity of the nonlinear resistive film, and a resistivity of the nonlinear resistive film is less than 50 ns. 4 . The gas-insulated switchgear according to claim 1 , wherein the nonlinear resistive part contains the nonlinear resistive material in a larger amount at the center conductor side than that at the grounded tank side. 5 . The gas-insulated switchgear according to claim 4 , wherein a content ratio of the nonlinear resistive material at the center conductor side falls within a range determined on the basis of a condition for causing the nonlinear resistive part to exhibit a nonlinear resistive characteristic and securing desired strength of the nonlinear resistive part. 6 . The gas-insulated switchgear according to claim 1 , wherein the nonlinear resistive part is a coating film formed by an insulating coating material as the insulating material containing the nonlinear resistive material. 7 . The gas-insulated switchgear according to claim 6 , wherein the coating film includes a plurality of layers formed by performing coating a plurality of times while the content ratio of the nonlinear resistive material is changed. 8 . The gas-insulated switchgear according to claim 7 , wherein the content ratio of the nonlinear resistive material increases stepwise from the grounded tank side toward the center conductor side. 9 . The gas-insulated switchgear according to claim 6 , wherein the nonlinear resistive material has a lower specific gravity than the insulation material. 10 . The gas-insulated switchgear according to claim 9 , wherein the content ratio of the nonlinear resistive material increases continuously from the grounded tank side toward the center conductor side. 11 . The gas-insulated switchgear according to claim 1 , wherein the nonlinear resistive part is a nonlinear resistive sheet formed by an insulating coating material as the insulation material containing the nonlinear resistive material. 12 . The gas-insulated switchgear according to claim 11 , wherein the content ratio of the nonlinear resistive material increases continuously from the grounded tank side toward the center conductor side. 13 . The gas-insulated switchgear according to claim 6 , wherein the nonlinear resistive material has a higher thermal conductivity than the insulation material. 14 . A gas-insulated switchgear comprising: a grounded tank filled with insulation gas; a center conductor which is disposed in the grounded tank and to which a voltage is applied; an insulating support member which is attached to the grounded tank and which insulates and supports the center conductor; a first nonlinear resistive part which is disposed at least on a vertically lower side inner surface of the grounded tank and which is formed by a first insulation material containing a first nonlinear resistive material; and a second nonlinear resistive part which is disposed on a surface of the first nonlinear resistive part and which is formed by a second insulation material containing a second nonlinear resistive material, wherein an electric field intensity at which a resistivity of the first nonlinear resistive part changes is higher than that of the second nonlinear resistive part. 15 . The gas-insulated switchgear according to claim 14 , wherein the resistivity of the first nonlinear resistive part in an electric field region having an intensity lower than the electric field intensity at which the resistivity of the first nonlinear resistive part changes is higher than the resistivity of the second nonlinear resistive part in an electric field region having an intensity lower than the electric field intensity at which the resistivity of the second nonlinear resistive part changes. 16 . The gas-insulated switchgear according to claim 1 , wherein the nonlinear resistive material is silicon carbide or zinc oxide. 17 . The gas-insulated switchgear according to claim 1 , wherein the nonlinear resistive material is a mixture of a plurality of types selected from among silicon carbide, zinc oxide, gallium nitride, and diamond.