Lead-Free High-Insulating Ceramic Coating Zinc Oxide Arrester Valve and Preparation Method Thereof

1 - 10 . (canceled) 11 . A method for preparing a zinc oxide surge arrester valve block having a lead-free insulating ceramic coating, the method comprising: preparing an initial powder from starting materials with the following mass percentages: ZnO: 86-95%; Bi 2 O 3 : 1.0-3.0%; Co 3 O 4 : 0.5-1.5%; Mn 3 O 4 : 0.2-1.0%; Sb 2 O 3 : 3.0-9.0%; NiO: 0.2-1.0%; and SiO 2 : 1.0-3.0%; preparing a ceramic coating powder by mixing the initial powder, deionized water and first agate grinding balls, loading the mixture into a polyurethane ball mill jar, ball milling the mixture, and oven-drying and pulverizing a slurry resulting from the ball milling, wherein a ratio of a mass of the initial powder to a mass of the deionized water to a mass of the first agate grinding balls is 3:2:4; preparing a ceramic coating slurry by mixing a PVA solution, the ceramic coating powder and second agate grinding balls, loading the mixture into a polyurethane ball mill jar and ball milling the mixture, wherein a ratio of a mass of the ceramic coating powder to a mass of the PVA solution to a mass of the second agate grinding balls is 1:0.6:3; and spreading evenly the ceramic coating slurry on a side of a ZnO varistor element formed by pressing, once the slurry is dry, it is put into a heating furnace with a green body and integral debinding is performed, a resistor element resulting from debinding is sintered, the sintered green body undergoes abrasive disk processing and heat treatment; an end face of the heat-treated resistor element undergoes aluminum electrode spraying, to obtain the zinc oxide surge arrester valve block having a lead-free insulating ceramic coating. 12 . The method of claim 11 , wherein ball milling takes place for 22 h-48 h at a rotation speed of 450 r/min when preparing the ceramic coating powder. 13 . The method of claim 11 , wherein ball milling takes place for 22 h-48 h at a rotation speed of 400 r/min when preparing the ceramic coating slurry. 14 . The method of claim 11 , wherein the ceramic coating slurry is evenly spread on the side of the ZnO varistor element in a mass range of 8-12 mg/cm26. 15 . The method of claim 11 , wherein debinding comprises debinding at a temperature of 500° C.-650° C. maintained for 2 h-3 h. 16 . The method of claim ii, wherein sintering comprises sintering at a temperature of 980° C.-1080° C. maintained for 3 h-4 h. 17 . The method of claim 11 , wherein the heat treatment comprises a heat treatment temperature of 480° C.-515° C. maintained for 1 h-2 h. 18 . The method of claim 11 , further comprising adding a first ammonium polyacrylate dispersant at a rate of 0.5%-1.0% of the mass of the initial powder, the deionized water and the first agate grinding balls before ball milling is carried out, and ball milling the initial powder, the deionized water and the first agate grinding balls with the first ammonium polyacrylate dispersant. 19 . The method of claim ii, further comprising adding a second ammonium polyacrylate dispersant at the rate of 1%-2% of the mass of the ceramic coating powder, the PVA solution and the second agate grinding balls before ball milling is carried out, and ball milling the ceramic coating powder the PVA solution and the second agate grinding balls with the second ammonium polyacrylate dispersant. 20 . A zinc oxide surge arrester valve block comprising: a surge arrester valve block body; a lead-free insulating ceramic coating disposed on a side of the surge arrester valve block body; a first metal layer disposed on an upper face of the surge arrester valve block body; and a second metal layer disposed on a lower face of the surge arrester valve block body, wherein the insulating ceramic coating comprises ZnO: 86-95%, Bi 2 O 3 : 1.0-3.0%, Co 3 O 4 : 0.5-1.5%, Mn 3 O 4 : 0.2-1.0%, Sb 2 O 3 : 3.0-9.0%, NiO: 0.2-1.0%, and SiO 2 :1.0-3.0%. 21 . A method comprising: preparing an initial powder from starting materials with the following mass percentages: ZnO: 86-95%; Bi 2 O 3: 1.0 -3.0%; Co 3 O 4 : 0.5-1.5%; Mn 3 O 4 : 0.2-1.0%; Sb 2 O 3: 3.0 -9.0NiO: 0.2-1.0%; and SiO 2 : 1.0-3.0%; preparing a ceramic coating powder by mixing the initial powder, deionized water and first grinding balls, milling the mixture, and drying and pulverizing the mixture, wherein a ratio of a mass of the initial powder to a mass of the deionized water to a mass of the first grinding balls is 3:2:4; preparing a ceramic coating slurry by mixing a PVA solution, the ceramic coating powder and second grinding balls and milling the mixture, wherein a ratio of a mass of the ceramic coating powder to a mass of the PVA solution to a mass of the second grinding balls is 1:0.6:3; applying the ceramic coating slurry to a green body; heating and debinding the ceramic coating slurry with the green body thereby forming a resistor element; and sintering the resistor element thereby obtaining a zinc oxide surge arrester valve block having a lead-free insulating ceramic coating. 22 . The method of claim 21 , wherein the ceramic coating slurry is evenly spread on a side of the green body. 23 . The method of claim 22 , wherein the ceramic coating slurry is evenly spread in a mass range of 8-12 mg/cm2. 24 . The method of claim 21 , wherein debinding comprises debinding at a temperature of 500° C.-650° C. maintained for 2 h-3 h. 25 . The method of claim 24 , wherein debinding is maintained for 12 h-3 h. 26 . The method of claim 21 , wherein sintering comprises sintering at a temperature of 980° C.-1080° C. 27 . The method of claim 26 , wherein sintering is maintained for 13 h-4 h. 28 . The method of claim 21 , further comprising adding a first ammonium polyacrylate dispersant at a rate of 0.5%-1.0% of the mass of the initial powder, the deionized water and the first grinding balls before ball milling is carried out, and ball milling the initial powder, the deionized water and the first grinding balls with the first ammonium polyacrylate dispersant. 29 . The method of claim 21 , further comprising adding a second ammonium polyacrylate dispersant at the rate of 1%-2% of the mass of the ceramic coating powder, the PVA solution and the second grinding balls before ball milling, and ball milling the ceramic coating powder the PVA solution and the second grinding balls with the second ammonium polyacrylate dispersant. 30 . The method of claim 21 , wherein the first and second grinding balls are agate grinding balls.