RU10003U1 - DISCONNECTOR SECTION (RUBBER) - Google Patents

Abstract

Section of the disconnector (circuit breaker), containing two open tires with contact surfaces at the ends and electrically conductive bodies closing these tires on their contact surfaces using a rotary mechanism and pressure devices, characterized in that the section is equipped with arcing chambers and a mechanism for accelerating actuation, and the ends of the tires overlapping, while their contact surfaces lie in the same plane, and the electrically conductive bodies are made in the form of round rollers mounted in a rotary mechanism with the possibility of roll on said contact surfaces and slide down them, wherein the clamping devices are formed as spring loaded balls.

Description

DISTRIBUTOR SECTION (RUBBER)

The proposed utility model relates to electrical engineering, namely, to low-voltage disconnectors or circuit breakers (circuit breakers) that allow switching electrical circuits both without load and with load.

These devices are widely used in various areas of the electric power industry (in power grids of industrial facilities, ships, etc.). Both foreign and domestic designs of these devices, for example, /, p. 7, Fig. 1-1 /, are made on the basis of cut-in contacts, commutated open tires on their end surfaces using rotary mechanisms and clamping devices made in the form of spring-loaded sponges / I, p. 8, Fig. 1-2 /. Such contacts are realized using electrohydraulic bodies such as knives and essentially contain two different types of contacts: axial rotary (one-piece) and actually cut-in (detachable) contacts. This determines the low reliability and the following disadvantages of the respective devices.

1.When the device is turned on and off, wear of the contact surfaces occurs (both in the presence and absence of their coatings, fcro increases the transition resistance, and hence the overheating of the contact system.

2. Due to backlash and possible misalignment of the contact surfaces, there is an instability of the contact points in | M1 removable contacts, which during the operation of the apparatus may increase their transient resistance.

3.When the apparatus is used to reduce sliding friction, periodic lubrication of the contact surfaces is necessary, which for permanent contacts, as a rule, also requires disassembly.

4. Due to the backlash caused by the kinematic links of the rotary mechanism (levers, rods, etc.), it is possible that the various sections of the apparatus, for example, related to different phases, are not simultaneously closed.

5. Due to the lack of elements of arcing and should | o.operation when the annapaTli is triggered (turned on and off) under load, the contacts are burnt due to the appearance of an electric arc.

IPC: HOIH2I / 54

These shortcomings fully relate to the disconnector / 2, p. II / and the circuit breaker / 2, p.14 /, which are closest in technical essence to the claimed solution. In general, they can contain several sections of the same type (for example, equal to the number of phases (poles) or the product of the number of parallel branches of each phase by the number of phases). At the same time, the disconnector (circuit breaker) section is also switched by the aforementioned cut-in contact without proper speed and arc suppression elements, which determines its disadvantages according to claims 1-5.

The inventive utility model solves the problem of creating a section of a disconnector (circuit breaker), devoid of the aforementioned disadvantages (claims 1-5).

The devices consisting of such sections will have both increased reliability and service life, and the ability to work as load switches.

The solution to this problem is achieved by the fact that the known design of the disconnector (breaker) section, containing two open buses and electrically conductive bodies, closing (and opening) these buses on their end contact surfaces with the help of a rotary mechanism and pressure devices, is equipped with arcing chambers and an actuation acceleration mechanism , and the ends of the tires are overlapped (i.e., they go one behind the other), while their contact surfaces lie in the same plane, and the electrically conductive bodies are made in the form of round rollers, Formation in the rotary mechanism with the possibility to roll on said contact surfaces and slide down them, wherein the device are formed as spring-loaded balls, resting on the rollers.

Figure 1 and figure 2 shows the design of the disconnector (knife switch) section corresponding to the utility model formula, containing two open buses I and 2, the ends of which 3 and 4 with contact surfaces 5 and b lying in the same plane, go one behind the other, i.e. e. overlapped. These surfaces are in contact, for example, with two rollers 7. Each roller is pressed against the contact surfaces of both tires, for example, with one ball 8 using, for example, a coil spring 9. The rollers, balls and springs are located in a rotary mechanism 10 located on the shaft P In turn, this mechanism and both tires are located in the insulating casing 12. The section also contains an actuation acceleration mechanism 13 with a control shaft 14 and arcing chambers 15 with plates 16.

- d The disconnector (circuit breaker) section operates as follows.

In the switched on position of the section shown in FIG. 2 and FIG. 2, the rollers 7, in contact with surfaces 5 and 6, electrically connect the tires I and 2. At the same time, the necessary contact pressure is provided by with live balls 8, which during the movement of the rotary mechanism 10 (according to the solid arrow shown in Fig. 1 corresponding to the inclusion of the section) roll along the rollers (naturally, the balls are in retaining clips, which are not shown in the figures). When the section is disconnected as a result of the movement of the rotary mechanism (according to the dashed arrow), the rollers roll off the contact surfaces of the tires and thereby electrically open them. At the same time, in the areas of the exit (and entry) of the roller 7 from the contact surfaces, the latter have bends 17 and 18, which ensure the appearance of an arc on non-working (near-end) surfaces of the roller (i.e., the working contact surfaces of the roller 7 and both tires are not exposed to the arc) .

The claimed solution eliminates the disadvantages of PPL-5 and thereby significantly increases the reliability and service life of the respective devices, radically simplifies their design and allows the use of a disconnector (knife switch) section as a load switch.

Indeed, when the device is turned on and off by rolling the rollers along the contact surface of the tires, there is practically no wear on both these surfaces and the rollers. This circumstance makes it possible to EFFECTIVELY apply various (including relatively wear-resistant) coatings of contact surfaces of tires and the rollers themselves (for example, plating with silver plating) in order to reduce and stabilize the corresponding transition resistance. This stabilization is also facilitated by the absence of distortions of the contacting surfaces of tires and rollers due to the self-installation of the latter. Naturally, the operation of the corresponding apparatus eliminates the need for lubrication of the contact surfaces. In addition, due to the lack of kinematic links, it is possible for almost simultaneously turning on and off various sections (phases) of the apparatus. At the same time, the presence of arcing chambers, a mechanism for accelerating the actuation and bending of tires ensures efficient operation (turning on and off) of the device under load.

USEFUL MODEL FORMULA

A disconnector (breaker) section containing two open tires with contact surfaces at the ends and electrically conductive bodies closing these tires on their contact surfaces using a rotary mechanism and pressure devices, characterized in that the section is equipped with arcing chambers and an actuation acceleration mechanism, and the ends the tires are overlapped, while their contact surfaces lie in the same plane, and the electrically conductive bodies are made in the form of round rollers mounted in a rotary mechanism with the possibility of th roll on said contact surfaces and slide down them, wherein the clamping means are arranged in the form podpruzhineshshh sharikvv.

SOURCES OF INFORMATION

1. Obraztsov V.A. Operation and repair of low-voltage starting equipment. L .: Energy, 1967,,

2, Catalog AO Korenevsky plant of non-voltage equipment: Low-voltage distribution and etching equipment, vi9c.

Claims (1)

A disconnector (breaker) section, containing two open tires with contact surfaces at the ends and electrically conductive bodies closing these tires on their contact surfaces using a rotary mechanism and clamping devices, characterized in that the section is equipped with arcing chambers and a mechanism for accelerating actuation, and the ends of the tires lapped, while their contact surfaces lie in the same plane, and the electrically conductive bodies are made in the form of round rollers mounted in a rotary mechanism with the possibility of roll on said contact surfaces and slide down them, wherein the clamping devices are formed as spring loaded balls.