A stator makes a rotor produce electrostatic induction, keeping a strong electric connection owing to the high voltage of D.C. high voltage generator. When electricity is generated into just one of (+) and (-) poles in D.C high voltage like B in Figure 1, it is called a simple-system stator(Patent No. 8606). And when electricity is generated into both of (+) and (-) poles like A and B of Figure 3, it is called a plural-system stator.
After many insulated plates with 2mm thick are made quadrilateral, they are cut in half and the opposite angles of coupling holes(7, 8) are also cut to decompose and compose them freely. And after posting thin aluminum paper on it and with razor blade drawing lines on electrode(1), coupling wires(3, 4) and another coupling wires(5, 6) connecting all electrodes with coupling holes(7, 8) like a form of Figure 16, detach the aluminum paper from other parts except electrode(1), coupling wires(3, 4, 5, 6) and coupling holes(7, 8).
And electrode, coupling wire and coupling hole are made on the back side just like on the front side, but all electrodes(1) on both front and back side should match each other and the same. And also, as high voltage is allowed in stator, insulation is very important. So an insulated tape was attached four times and after cutting it, a strong adhesive was posted on the edge.
But I made this easily. If a stator is practically made, this insulation alone is not enough. As long as there isn`t a perfect insulator, electricity flows to places(2) other than electrode(1) under high voltage. So the result is that the voltage of electrode becomes nearly the same as that of non-electrode and the output decreases much. So in order not to transmit electricity to non-electrode, as illustrated in Figure 16, it should be detached(2; dotted line part) or it should be sunken in.
