JPS63110965A - Electrostatic induction generator for inducing opposite electric charge respectively to two rotors separated from each other with insulating plate - Google Patents

Abstract

PURPOSE:To suppress generation voltage drop due to internal discharge, by contriving the mechanism of an electrostatic induction generator. CONSTITUTION:A rotary shaft 6 with an electric conductor group for carrying electric charge which is fixed on an insulating plate 1 is provided with two rotors 2, 7 of the same ones, and the two rotors 2, 7 are separated from each other with the insulating plate 1. In the meantime, electrodes to be collector electrodes 3, 8 for the one-side rotors 2, 7 are arranged to be the induction electrodes 3, 8 for the other side rotors 7, 2 separated from the insulating plate 1. Positive and negative electric charges are perfectly separated from each other with the central insulating plate 1. As a result, even if potential difference between both the positive and negative electrodes and between the rotors is increased, discharge between both the positive and negative electrodes and between the rotors can be suppressed by the central insulating plate 1.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application This invention relates to an electrostatic induction generator that suppresses a drop in generated voltage due to internal discharge within the electrostatic induction generator.

(b) Conventional technology Conventional electrostatic induction generators use electric conductors that carry charges between both positive and negative electrodes to move, and electric conductors that carry charges that are fixed on the same surface to generate both positive and negative charges. It was not possible to completely separate both positive and negative charges to generate . Therefore, discharge occurs inside the electrostatic induction generator, and special measures such as operating the electrostatic induction generator in an inert gas are required to suppress the resulting drop in generated voltage.

(c) Problems to be solved by the invention This invention suppresses the discharge within the electrostatic induction generator and generates electricity without using special means such as operating the electrostatic induction generator body in an inert gas. The purpose is to suppress voltage drops.

(d) Means for solving the problem Two rotors have the same rotating shaft with a group of electric conductors fixed on an insulating plate as carriers of charge, and an insulating plate is placed between the two rotors. Separate by. Along with this, electrodes that serve as current collecting electrodes for one rotor are placed across an insulating plate and serve as induction electrodes for the other rotor.
By doing so, the positive and negative charges are completely separated using the central insulating plate.

(E) Function The charges appearing on one rotor are collected by the current collecting electrode by the rotation of that rotor. The collected charges induce opposite charges on the other rotor across the insulating plate, and as the rotor rotates, the induced charges are collected on the other current collecting electrode. In this way, opposite charges are generated between the two rotors with the insulating plates in between, and the current is collected at the respective electrodes. Therefore, even if the potential difference between the positive and negative electrodes and between the rotor becomes large, the central insulating plate can suppress the discharge between the positive and negative electrodes and between the rotor, and the resulting drop in the generated voltage can be suppressed. .

(F) Effects of the Invention As explained above, the present invention has the following advantages: In order to prevent the conventional positive induction generator from reducing the generated voltage due to internal discharge, the electrostatic induction generator main body is operated in an inert gas. However, by devising the structure of the electrostatic induction generator, it is possible to suppress the drop in generated voltage due to internal discharge of the electrostatic induction generator without using special means. .

[Brief explanation of the drawing]

Figure 1 is the front view of the electrostatic induction generator, Figure 2 is the back side,
FIG. 3 is a sectional view taken along line AA' in the direction of the arrow. 1-insulating plate, 2-rotor, 3-collecting (induction) electrode, 4-
Current collector black, 5- Induction black, 6- Rotating shaft, 7- Rotor, 8- Current collecting (induction) electrode, 9- Current collecting brush,
10-Induction black, *The current collection black (4) is placed on the current collection (induction) electrode (3), the current collection black (9) is placed on the current collection (induction) electrode (8),
The induction blacks (5) are each connected to the induction black (1o).

Claims (1)

[Claims] It has two rotors in which a group of electric conductors are fixed on a disk made of an insulator separated from each other by an insulating plate, and when an electric charge is generated in one rotor, the electric charge is generated in the other rotor. The insulating plate that induces opposite charges and separates the positive and negative electrodes and the rotor even when the potential difference between them becomes large suppresses the discharge between the positive and negative electrodes and between the rotor and suppresses the drop in the generated voltage due to discharge. Characteristic electrostatic induction generator.