SU864368A1 - Disconnector - Google Patents

Description

(54) DISCONNECTOR

Claims (3)

The invention relates to electrical engineering, in particular to disconnectors designed to disconnect electrical installations or high-voltage lines of a distribution network. A disconnector is known in which fixed contacts are fixed on three insulators, and on three others there are chopping knives set in motion when the insulating wires and the leverage system are turned on and off. The disadvantage of this disconnector is the unstable arrangement of current-carrying elements (insulators attached only at one point), a large number of insulating elements and a complex kinematic scheme for moving the knives during switching on and off, which reduces reliability and complicates manufacture and installation. Also known disconnector, in which the contact blades are located on the supporting insulators. In order to prevent the possibility of destruction of the insulators, by a considerable electrodynamic force, insulating struts pass along the disconnector, and for perception of shock loads, elastic gaskets 2j are placed under the insulators. Disconnectors of this type also have a complex kinematic scheme, an unstable arrangement of current-carrying elements and, in addition, a complex structure to prevent the destruction of the insulator from thermodynamic forces during short-circuit currents. The closest in technical essence to the invention is a disconnector containing insulated elements mounted on the frame with installation: on them with knives, power busbars with contacts, diverting shells with flexible inserts and LSJ manual drive. However, this disconnector has the following disadvantages. The kinematic on-off circuit is complex. To set the knives in motion, it is necessary to have pivotal levers at each movable insulator, connected between one another and a common traction; When the electric arc is blocked, the arc often breaks down the insulators, which leads to long line outages and accidents, the voltage across the insulation structure is unevenly distributed; the high strength of the electric field is created on the insulators near the current-carrying parts, it causes accelerated aging, in particular due to ionized breakdown, which is very unfavorable for new polymer insulators; in the short-circuit mode, the bending load is applied to the insulators, the most unfavorable for many insulating materials from which insulators are made, due to which the dimensions of the insulators are significantly increased. Consequently, the disconnector has a relatively large weight, inconvenient during transportation, installation, and little reliable in operation; rotary insulators with knives have two connections made on the adhesive principle using cementite (pin with an insulator and a knife base with an insulator: a torus), which during frequent torsion work during switch-off causes damage design and reliability improvements. This goal is achieved by the fact that a known disconnector containing insulating elements mounted on a frame with knives mounted on them, feeding tires with contacts, retracting tires with flexible inserts and a manual drive, insulating elements are in the form of three ribbed ones located in the plane of the frame rods, the outermost of which are rigidly fixed to the ends of the frame, and the middle one is equipped with a handle for the drive and is connected to the frame pivotally, and the power supply tires with contacts and exhaust tires with flexible inserts are installed at the ends terzhn x and blades are mounted on the middle bar. In addition, in order to simplify the attachment of current-carrying elements to ribbed pins, the necks of the latter are made, each in the form of a polyhedron, and on the necks are additionally inserted metal cages with rings on the ends, to which the corresponding current-carrying elements are rigidly attached. FIG. 1 shows the proposed disconnector, top view; in fig. 2, section A-A in FIG. 1; FIG. 3 shows the structure of fastening knives to ribbed sr 8 8 kn, the general view in FIG. BB in FIG. 3, On the metal frame 1 insulating rods with ribs are reinforced. Contacts 2 and feed tires 3 are mounted on a fixed insulating rod 4. The main knives 5 are rigidly mounted on a rotating middle insulating rod 6, which rotates in bearings 7 by means of a handle 8. Flexible inserts 9 are connected at one end to the blades on a rotating middle insulating rod 6, another with feed rails 10 on a fixed insulating rod 11. The fastening of the knives 5 and the contacts 2 (Fig. 1-2) to the insulating rods 6 is made on the necks of the rods having a hexagonal shape using the coupling halves 12 and 13, bolted . Wires 14 or flexible inserts 9 (Fig. 2-4) are reinforced with an upper or lower fixing bolt 15, depending on the location of the disconnector. Knives and sponges are fixed on one of the half couplings. The disconnector is mounted by mounting the frame on four or more support angles or strips. In this case, the distance from the current-carrying elements to the structure is determined by the discharge distance in the air. Creepage distance must- to comply with the nominal voltage and operating conditions. The shape and cross-section of current-carrying elements, as well as contacts, is determined by the load. If necessary, the disconnector may have earthing knives, which are more conveniently located below. During installation of the disconnector, it should be borne in mind that on the vertical wall the inclined position of the disconnector eliminates or significantly reduces the damage to the insulating elements from the electric arc when overlapping the underlying insulating elements. Switching on and off is done by turning the knob or by the drive and the lever system under remote control. The slitting knives can be replaced with fuses and then the structure can be used as a separate fuse. With two fixed insulating rods with contacts and fuses, the structure will be used as fuses. The economic effect of using the proposed disconnector follows. to expect due to simplification of the circuit, reduction of material consumption, reduction of the number of insulating elements, simplification of installation and operation. In the proposed disconnector, a metal saving of the order of 50% takes place due to the fact that the extreme insulating rods perform the function of the frame crossbars. The formula is an image of and 1. A disconnector containing elements mounted on an insulating frame with knives mounted on them, feeding tires with contacts, exhaust tires with flexible inserts and a manual drive, characterized in that, in order to simplify the design and increase reliability, insulated elements are made in the form of three ribbed rods located in the frame plane, the outermost of which are rigidly fixed to the ends of the frame, and the Middle is equipped with a handle for the drive and is connected to the frame more hinged than with the contact These and exhaust tires with flexible inserts are mounted on the extreme rods, and the knives are mounted on the middle rod, 2. The disconnector according to claim 1, is about that, in order to simplify the attachment of current-carrying elements to the ribbed rods, The cheeks of the latter are made, each in the form of a polyhedron i, and additionally inserted metal clips with rings on the ends, to which the current-carrying elements are rigidly attached, are fixed on the cheeks. Sources of information taken into account in the examination 1. Catalog 02.06.46-77, type PB (3) RON. 2. USSR author's certificate number 137150, cl. H 01 N C / ZO, 1961. 3. Authors certificate of the USSR 358736, cl. H 01 H 31/16, 1973