High-voltage feed-in vacuum state device with motion compensation

Abstract

The invention mainly relates to a high-voltage feed-in vacuum state device with motion compensation, which comprises a high-voltage feed-in conductive pole (22). The conductive pole (22) is positioned in a vacuum cavity (9), one end of the conductive pole (22) is connected with a high-voltage electrode (3), a grounding electrode (2) is arranged corresponding to the high-voltage electrode (3), the other end of the conductive pole (22) passes through a transition sleeve (21) and an outer insulating ceramic (14) and is connected with a high-voltage output element (16), the transition sleeve (21) is arranged on the vacuum cavity (9) through a flange (11), one end of the outer insulating ceramic (14) is connected with the transition sleeve (21) through a pressing ring (20) and a bolt, the other end of the outer insulating ceramic (14) is provided with a gland (17), and two ends of the outer insulating ceramic (14) are provided with a shielding ring (19) and a shielding ball (15) respectively. The high-voltage feed-in vacuum state device eliminates the motion resistance of the additional high-voltage electrode and a driving device thereof, implements precise control for the motion in a high-voltage electric field, and has the characteristics of flexibility, reliability, high vacuum, small volume and high transmitted voltage.

Description

Technical field: [0001] The present invention mainly relates to the technical field of high-voltage feeder devices required to form a high-voltage electric field with motion compensation in the field of electric vacuum, and in particular to a high-voltage feed-in vacuum device with motion compensation. Background technique: [0002] At present, in the field of electric vacuum, there are many situations where it is necessary to form a high-voltage electric field with motion compensation in a vacuum state. In order to make the high-voltage feed-in line compensate for the translational and rotational motion of the electric field in the plane, the traditional method is to make the high-voltage feed-in line Made into a wavy shape, it is not only prone to local hardening and fracture during use, and has poor reliability, but also increases the movement resistance of the high-voltage electrode and its driving device, which affects the accuracy of the high-voltage electric field move...

AI Technical Summary

Problems solved by technology

[0002] At present, in the field of electric vacuum, there are many situations where it is necessary to form a high-voltage electric field with motion compensation in a vacuum state. In order to make the high-voltage feed-in line compensate for the translational and rotational motion of the electric field in the plane, the traditional method is to make the high-voltage feed-in line Made into a wavy shape, it is not only prone to local hardening and fracture during use, and has poor reliability, but also increases the movement resistance of the high-voltage electrode and its driving device, which affects the accuracy of the high-voltage electric field movement

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