SU983796A1 - High-voltage switching apparatus - Google Patents

Description

(54) HIGH-VOLTAGE SWITCHING MACHINE

The invention relates to electrical engineering, and more specifically to electrical high-voltage switching devices with a voltage of up to 10 kV, and can be used in devices for automatic quick-acting ground-to-ground connection used to ensure the good result of an electric shock if a person touches an electrical conductor of an electrical installation, as an executive power switching device for zaklkan to earth damaged phase of the electrical installation.

Automatic phase-to-ground devices must have sufficient speed in the order of 5-7 ms. It is known that at this speed, a high probability of preventing fibrillation of the heart and other serious consequences for the human body exposed to high voltage C1 is achieved.

This is of great importance for ensuring the safety of electrical installation service, especially when the conditions in them are of increased danger or especially dangerous.

In this connection, well-known switching speeds are used as power actuating switching organs in phase scanning devices.

Known thyristor closures, consisting of a series of series-parallel-and counter-connected thyristors, KC-chains, control unit 10 and G2. .

A vacuum switch is known that turns on a vacuum arc chamber, which is located in it. fixed and stationary contacts and an electromagnetic drive 3.

A twisting electromagnetic contactor containing an arc-suppressing chamber, a system of power and auxiliary contacts, and an electromagnetic drive t4 3..

The disadvantage of these switching devices is that they are single-phase, and therefore, when performing automatic phase closure in three-phase electrical installations, it is necessary to install a separate switching device in each phase. And since the device must provide artificial

Claims (5)

30 earth fault of only one damage-phase, i.e. The phases that the person touched, to avoid possible triggering of two or three single-phase apparatuses, different interlocking schemes are used. However, this complicates the electrical circuit, reduces the reliability of the electrical installation due to accidental failure of the interlock, increases the overall response time. devices, such as thyristor devices, there is a real danger of two or three of them simultaneously triggering due to improper operation of the interlock circuit, selection of a damaged PS or thyristor control. With the most careful implementation of the indicated cxeNfci, there still cannot be a complete guarantee of the impossibility of its incorrect operation due to changes in the characteristics, semiconductor devices included in its composition, violations of the serviceability of mounting, etc. Incorrect operation of this circuit leads to a two-phase or three-phase short-circuit to earth and even more aggravates the consequences of an electric shock, since a person is switched on between two phases. In addition, in the practical implementation of a device on power thyristors for installations with a voltage of 6-10 kV, difficulties arise due to the fact that thyristors are released. Lower nominal voltages, they have to be connected in series, take measures to uniform distribution of voltages. etc. This requires a significant complication of the entire device and is accompanied by an additional decrease in its reliability. The closest to the invention according to the technical solution is a three-phase tank oil switch of the VMZ-B type, which is intended for switching in networks of 6-10 KB. This switch consists of a tank filled with transformer oil, three fixed and three moving contacts connected to the terminals for connection to the phases of the electrical network G5}. However, the known circuit breaker is more or less precisely impractical to use as a power switching device in devices for automatic grounding of the phase, since the contacts of the three phases are simultaneously closed in the switch. In addition, assuming that the contacts of one switch can be electrically connected and used as one, three switches will be required for the device and in this case there is a need for interphase interlocking from simultaneous switching on the switches on different phases, as in the case of analogs . The disadvantage of this inclusion is that the system of three switches is too cumbersome. The aim of the invention is to increase the reliability and reduce the dimensions of the switching apparatus by creating a circuit breaker, in which the possibility of simultaneous earth fault closing of two or three different phases should be completely excluded constructively and only one damaged phase should be reliably and quickly connected to earth. For this purpose, this switching device must have a mechanical self-blocking, allowing only one of the three contacts connected to the opposite phases of the network to close to earth. This goal is achieved by the fact that in a switch having a tank filled with an arc-extinguishing fluid, stationary and mobile the contacts, the drive inside the tank, at the insulating distance from the bottom, in the plane perpendicular to the tank axis, and fixedly fixed to it is the fixing device of the movable contact. I have three guide slots located in the form of a conventional three-beam star, the mobile contact is made in the form of a rod, which is a two-arm lever. Fastening rod made in the lid on the axis of the tank using a ball joint. At the same time, the end of its lower arm, the carrying tip of the movable contact, in the disconnected state, is closed in the center of the three-beam star of the slots, and during stationary contact of opposite phases, they are installed opposite each slot, respectively. The device operates according to the following scheme. Under the influence of the actuator, the rod makes a two-stroke swinging movement. The first stroke, when switched on, the lower end of the rod, on which the movable contact is fixed, moves from a fixed position in the center in the radial direction along one of three slots (depending on the control signal) to its end and closes with one fixed contact. The second cycle, when disconnected, the rod makes a reverse movement, opening the Cs with a fixed contact, and is fixed in the center of the three-pointed star of the slots. Fig, 1 shows a high-voltage switching apparatus, a section; in fig. 2 shows the section L-A in FIG. in fig. 3 - shows the apparatus, vkts top. The switching device has three Fixed contacts 1, connected by tires 2 to conductive rods 3, insulated from tank 4c, cover 5 bushing insulators b, vertical rod 7 with movable contact 8. A ball joint 9 is installed in the opening of the tank 4 cover stock. The movable rod 7 is connected by a flexible conductor 10 to a terminal 11 intended for connection to a grounding device. Inside the tank 4 to the current-carrying rods m 3 of the three phases, with the aid of tires 2, is mounted a circuit board 12, on which a clamp 13 is installed, having three slots arranged in the form of a three-beam star. The latch 13 has three L-shaped plates 14, pressed by the springs 15, 16 and having the ability to rotate at a small angle around the axes 17. On the plates: 14 there are three locking pins 18 pressed to the movable rod 7 by springs 19. The movable rod 7 is made of conductive material, for example, duralumin. The circuit board 12 may be made of a solid insulating material, for example, a PCB. The actuator 20, for example, electromagnetic, consists of three pairs of electromagnets Sodin including and one disconnecting for each Phase. The technical and economic efficiency of the proposed ground phase plug in comparison with limestone developments consists in the fact that the phase breaker is made three-phase, while only one damaged phase stays on the ground while simultaneously blocking the contact of the other two intact phases. Thus, the use of a locker in a quick-acting phase-to-ground circuit eliminates the possibility of a two-phase or three-phase ground-to-ground fault due to a fault in the blocking circuit of the circuit breaker, which increases the reliability of operation of both the device and the electrical installation in general. The three-phase circuit breaker on; the earth, in comparison with the known ones, is compact, quite simple, and easy to install. Consequently, devices equipped with the proposed slag can be widely used in networks of 1.14–10 kV industrial enterprises with increased electrical hazards and especially dangerous, for example, open pit mining. The actual effect of the application of the invention will be a significant increase in the reliability of the phase blister fabrication devices. Claims High-voltage switching apparatus comprising a tank with arcing fluid, movable and fixed contacts, a drive characterized in that, in order to increase operating reliability and reduce the overall dimensions of the hooker, by providing only one phase contact when grounding on the ground and simultaneously blocking from the closure of the contacts of the two other phases, it is provided with a clamp of the moving contact with three guide slots arranged in the form of a symmetric three-beam star, rigidly mounted coaxially inside the tank, the movable contact is made in the form of a rod, which is a double-shouldered lever mounted on a hinge vertically along the axis of the tank, while its lower end is fixed in the center of the slots, and three fixed contacts of opposite phases are installed opposite each slot. Sources of information taken into account in the examination 1.Sirota I.M. and Nazarov V.V. Automatic switching of the faulty phase in networks with insulated neutral. - Electricity, 1980, № 8, p. 13-19. 2.Nazarov V.V. and Orphan I.M. High-speed automatic for plugging the damaged phase to earth in uncompensated networks with voltages up to 10 kV. , Preprint, IED, Ukrainian Academy of Sciences, 197J. 3. USSR author's certificate number 524244, cl. H 01 And 33/66, 1976. 4..Tabata Yasuki. Device for preventing electrical shock in switchgear. - Ohm, 1979, 66, No. 2, p. 81-84 (Japan). 5. Electrotechnical reference. Ed. Chi; ikina M.G. M., Energie, T. I, 5th ed. 1975, p. 610. / 9 P Fie.1. V