Method and device for insulation of high-voltage generator tank

What is claimed is: 1. A transformer for a high-voltage generator tank, comprising: an inner insulating bushing; an outer insulating bushing outside the inner insulating bushing; more than one PCB, configured in a stack structure, outside the outer insulating bushing; at least one first oil barrier set on upper and lower surfaces of the stack structure of the more than one PCB: a low-voltage winding wound on the inner insulating bushing; a high-voltage winding wound on the more than one PCB; an iron core going through the inner insulating bushings; and a sampling board; wherein the more than one PCB go through the outer insulating bushing and are located outside the outer insulating bushing, and one end of the stack structure of the more than one PCB is connected with the at least one first oil barrier, and the other end is connected with the sampling board. 2. The transformer of claim 1 , wherein at least one of the more than one PCB comprises a rectifier block. 3. The transformer of claim 1 , wherein the transformer further comprises one or more second oil barriers, wherein the one or more second oil barriers are set in at least one of following positions: a position on the upper or lower surface of the stack structure of the more than one PCB, a position between the transformer and the ground, and a position between the transformer and the tank. 4. The transformer of claim 3 , wherein the one or more second oil barriers are configured as a single piece, or an oil barrier array. 5. The transformer of claim 4 , wherein the oil barrier array is arranged in a side-to-side manner, or in a front-to-back manner. 6. The transformer of claim 3 , wherein an oil barrier of the one or more second oil barriers comprises a first through hole. 7. The transformer of claim 1 , wherein there is a gap between the inner insulating bushing and the outer insulating bushing and an insulating paper layer is set in the gap. 8. The transformer of claim 1 , wherein an insulating paper layer is set between the inner insulating bushing and the iron core. 9. The transformer of claim 1 , wherein there is a gap between the inner insulating bushing and the outer insulating bushing and a fixture is set in the gap. 10. The transformer of claim 1 , wherein the more than one PCB has a shape of a rectangle, a square, a circle, a rounded rectangle, or an irregular geometric shape. 11. The transformer of claim 1 , wherein the more than one PCB configured in the stack structure is equally spaced. 12. The transformer of claim 2 , wherein the rectifier block includes a plurality of rectifier modules that are arranged in a column. 13. The transformer of claim 1 , wherein each of the more than one PCB comprises a second through hole. 14. The transformer of claim 13 , wherein the high-voltage winding is wound around the second through hole of the more than one PCB. 15. The transformer of claim 1 , wherein the high-voltage winding is buried in the more than one PCB. 16. The transformer of claim 3 , wherein the one or more second oil barriers are made of insulating materials. 17. The transformer of claim 3 , wherein the transformer may further include a positive transformer and a negative transformer, and the one or more second oil barriers are placed between the positive transformer and the negative transformer. 18. The transformer of claim 17 , wherein the one or more second oil barriers are placed within a region 10˜30% apart from the positive transformer.