SU765918A1 - Discharger - Google Patents

Description

(54) DISCHARGE

Claims (2)

The invention relates to electrical engineering, namely to high-power protective dischargers. A protective discharge with coaxially located electrodes is known, in which the initiation of a breakdown occurs in a small gas discharge gap, after which the discharge channel by its own field of current moves into a large gap 1. The disadvantage of the discharge discharge is a short service life, since the main discharge current causes rapid wear and destruction of the internal electrode in the area of its small diameter. The closest of the known technical solutions to the invention is a gas-filled overvoltage discharger, containing at least a high-voltage cylindrical electrode coaxially mounted in a hollow outer grounded electrode made in the form of a bell that is surrounded by a cylindrical current lead electrically connected at the end with the base of the socket 2. When the glitter is triggered, the arc occurs in the narrow part of the gap between the high-voltage electrode and the socket, and then private golf blown current in the wide part. However, when the discharge current of the falling form is prolonged due to a drop in the voltage of the electrodes, due to the large length of the current path through the electrodes, the discharge can return to the initiation site, which leads to additional erosion of the electrodes near the discharge initiation and, consequently, decrease lifetime of the discharge. The purpose of the invention is to increase the service life while maintaining the same stability of the trigger. This is achieved by the fact that in the discharge the specified grounded electrode is provided with a conductive disk, which is installed in the axial gap of a relatively large socket base and electrically connected along the outer edge with the specified electrical lead, and the distance between the high-voltage electrode and the specified disk is greater than the minimum 366 iioro gap between) volity;) with electrode and socket of a grounded electrode. The drawing shows an embodiment of the proposed bit for protecting a two-wire line. The arrester has internal cylindrical high-voltage electrodes 1 and an external grounded electrode consisting of hollow sockets 2 and a disk 3 interconnected by a cylindrical current lead - housing 4. The initiation of a breakdown occurs in a fixed place between the internal electrode 1 and the socket 2 of the external electrode. The fixing of the place of breakdown is carried out either by using the initiating discharge of the capacitance formed by the metal cylinder 5 and the socket 2 on the surface of the ceramic washer 6, or by using any other initiating devices, or simply by decreasing the inter-electrode distance. The configuration of the electrodes 1, 2 and the direction of the currents in them create conditions for the displacement of the discontinuous channel from the point of initiation. Having moved, the discharge channel passes from socket 2 to disk 3 and continues to remain on it with a minimum voltage drop on the electrodes due to the smaller current path length through the external electrode. The current-conducting disk 3 has one or several holes for initiating the breakdown of the second gap during the breakdown of the first, which eliminates voltage distortion in the protected two-wire lines. A two-electrode version of the discharge with one gap is also possible. In this case, there is one internal electrode 1, one socket 2, and the disk 3 is made solid and is the bottom of the bit. These armature designs make it possible to make sockets of material with lower thermal conductivity and electrical conductivity and not vacuum, but with increased wear resistance and heat resistance to improve the movement of the discharge channel and reduce the dust content of the insulator of the arrester. In addition, the ballast volume between the socket and the housing reduces the effect of gas stiffness and increases the durability of the arrester. Claims An overvoltage protection discharge circuit comprising at least one high voltage cylindrical electrode coaxially mounted inside a hollow external grounded electrode formed in the form of a socket, which is surrounded by a cylindrical current support electrically connected to the end of the socket with a smaller base, characterized by , in order to increase the service life while maintaining the same stability of operation, this grounded electrode is provided. a conductive disk that is installed with an axial gap of a relatively large base of the socket and electrically connected along the outward edge to the current lead, and the distance between the high-voltage electrode and the specified disk is greater than the minimum gap between the high-voltage electrode and the socket of a grounded electrode. Sources of information taken into account in the examination 1. US Patent N 3626337, cl. 313-325, 1971. 2. USSR author's certificate number 641567, cl. H 01 T 3/00, 1977.