SU1180990A1 - Overload protection device - Google Patents

Abstract

1. A DEVICE FOR PROTECTION AGAINST OVERVOLTAGE, comprising a cylindrical insulating body in which columns of highly linear resistors are connected in parallel, each of which is made up of several sections connected in series, and means for mechanically fixing the sections of columns inside the body, characterized in that the purpose of increasing reliability, improving manufacturability and improving maintainability, the means for mechanically fixing the column sections are made as mounted on the axis of the core a carrier insulating support in the form of a rod or pipe with elements for mounting sections on its side surface, which are shifted relative to one another along the support by distances equal to the height of one section of the column. 2. The device according to claim 1, which is designed in such a way that the fastening elements of the column sections are made in a single entrance with a carrier support (O support projections located on its side surface. 3. The device according to claim 1, characterized by The fastening elements of the column sections are made in the form of brackets fixed on the side surface of the carrier support. 4. The device according to Claims 1 and 2, characterized in that the fastening elements of the column sections are made in the form of the spanning sections of the tires of the tires.

Description

1 The invention relates to electrical engineering and is intended to protect the insulation of electrical equipment of stations and substations of alternating direct current from atmospheric and switching overvoltages. The purpose of the invention is to increase reliability, improve manufacturability and increase maintainability. FIG. 1 shows an overvoltage protection device with elements for fastening the column sections of resistors on a carrier support, made in the form of brackets, longitudinal section J in FIG. 2 is the same, cross section J in FIG. 3 and 4 are versions of the sections of the resistor columns in a sheath of heat-shrinkable polyethylene with core leads (Fig. 3) and with plate leads (Fig. 4) J in FIG. 5-the proposed device with elements for fastening sections of resistor columns, made in the form of bandages, longitudinal section; in fig. 6 is a device with elements for mounting sections of resistor columns, made in the form of supporting protrusions on the side surface of the carrier support, longitudinal section. An overvoltage protection device (Figs. 1 and 2) consists of an insulating body 1 with parallel columns 2 installed inside it, consisting of sections 3 of highly linear resistor 4 serially connected. Each section 3 columns 2 of resistors 4 is fixed on brackets 5, reinforced with electrically insulating glue or mechanically, on a carrier of lation support 6, made in this case in the form of a fiberglass pipe. The space between the carrier insulating support 6 and the inner surface of the housing 1 is filled with quartz sand 7 to remove heat when current flows through columns 2 of resistors 4. Each section 3 of columns 2 n linear resistors 4 (Fig. 3) is arranged into a single structure 0 using heat shrinkable polyethylene 8 and has pins 9 for connection with adjacent sections of the corresponding columns 2, which can be made rod (Fig. 3) or plate (Fig. 4) depending on the type of fastening of sections 3 of column 2 on support 6. esto brackets 5 may be used bandages 10, clasping section 3 columns two nonlinear resistors 4 (FIG. 5). Bands 10 tightly press sections 3 of columns 2 to the carrier insulating support 6 and fix them on it. Bands 10 may be made of a heat shrinkable material (e.g., polyethylene), rubber, or a metal tape with an insulating cover on it and a fastening lock. As elements for fastening sections 3 of columns 2 of nonlinear resistors 4, protrusions 11 are used (FIG. 6), integrally formed with the carrier insulating support 6. In this case sections 3 of columns 2 are filled with lamellar leads (FIG. 4). The heat shrinkable polyethylene used for the design of the column sections can be replaced with any other insulating material, such as a steklogshastikov stocking or compound, that resists resistors. In comparison with the known, the proposed overvoltage protection device provides increased reliability due to a decrease in pressure of the connecting sections of the resistor columns to the lower sections of the columns, relieves the mechanical forces arising from the block mounting of the sections of the columns. The relatively simple mounting of the column sections to the insulating support eliminates the complex block-by-block assembly of the column sections, which improves the manufacturability of the device. In addition, it is easier to repair the device if it is necessary to replace one or several column sections, since in this case disassembly of the unit as a whole is not required.

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Claims (4)

1. DEVICE FOR PROTECTION ¹ From overvoltage, containing a cylindrical insulating casing, in which parallel connected columns of highly non-linear resistors are installed, each of which is made in the form of several series-connected sections, and means for mechanically securing the column sections inside the casing, characterized in that, in order to increase reliability, improve manufacturability and improve maintainability, a means for mechanically securing the column sections is made in the form of a supporting insulating support mounted on the axis of the housing s in the form of a rod or pipe with elements for fastening sections on its lateral surface, which are shifted relative to one another along the support at distances equal to the height of one section of the column. 2. The device according to p. ^ Characterized in that the fastening elements of the column sections are made in the form of unified support protrusions located on its side surface with the supporting support. 3. The device according to claim 1, characterized in that the fastening elements of the column sections are made in the form of brackets mounted on the side surface of the bearing support. 4. The device according to paragraphs. 1 and 2, characterized in that the fastening elements of the column sections are made in the form of enveloping sections of the columns of the bandages.