RU216014U1 - SWITCHING DEVICE - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to switching devices with devices for extinguishing an electric arc, and can be used in the design of circuit breakers. The technical result of the claimed utility model is the efficient synchronous control of three phases of alternating current. The switching device, equipped with switching contacts, contains three clamp springs fixed on the axis, three movable main switching contacts, each of which is equipped with a contact pad and fixed in the axis dielectric holder. It also contains three plates, each of which is equipped with a threaded protrusion made with the possibility of interacting with a dielectric lever placed on the axis, common for three releasers. The dielectric lever is equipped with a protrusion for acting on the protrusion placed on the axis of the metal lever. The switching device also contains three electromagnetic releases, each of which contains a copper-containing plate placed between the fixed part of the electromagnet and the movable part of the electromagnet. The movable part of the electromagnet contains a pusher configured to act on the dielectric lever. 1 ill.

Description

The utility model relates to the field of electrical engineering, in particular to contactors with devices for extinguishing an electric arc and can be used in the construction of vacuum circuit breakers and contactors of various voltage classes.

The closest in technical essence and achieved effect is a switching device (patent RU 2 656 231 C2, publ. 20.12.2016 Bull. No. 35), having at least one electrical input, at least one electrical output, at least one first a switching contact, one second switching contact and one movable bridge contact, wherein the electrical circuit is electrically conductive from input to output when the first switching contact and the second switching contact are conductively connected by means of a bridge contact, wherein the DC switching device also has an arc extinguishing system, wherein the arc quenching system has the first arc chute and the second arc chute, respectively, including several quenching flat electrodes. The disadvantage of this prototype is the inability to synchronously control three phases of the alternating current.

The task to be solved by the claimed utility model is the development of a switching device that provides synchronous control of three phases of alternating current at once.

The technical result of the claimed utility model is the efficient synchronous control of three phases of alternating current.

The technical result is achieved by the fact that the switching device, equipped with switching contacts, contains three clamp springs fixed on the axis, three movable main switching contacts, each of which is equipped with a contact pad and fixed in the dielectric holder of the axis, and three electromagnetic releases, each of which contains a copper-containing plate placed between the fixed part of the electromagnet and the movable part of the electromagnet.

The term "pole" means a part of a switching device associated exclusively with one electrically independent current-carrying path of an electric circuit, with the exception of elements that ensure the fastening and joint functioning of the poles.

The term "main switching contact" (main moving switching contact and/or main fixed switching contact) means a contact included in the main circuit of a contact switching device and intended to conduct the main circuit current in the closed position. The main circuit current is indicated on the marking of the switching device as the rated operational current Ie (and/or rated current In). The term "plate" means a body whose thickness is small compared to its other dimensions.

The term "mechanically linked" means that the parts are connected to each other through one and/or more parts.

The term "lever" means a device for transmitting force.

The utility model is illustrated in figure 1, which shows a General view of the mechanism of the switching device.

The switching device contains the main switching contacts, an arcing system and electromagnetic releases with a copper-containing plate placed between the fixed and moving parts of the electromagnet. Each pole of the switching device contains fixed on the axes in the dielectric holder 4 three main switching movable contacts 1 with pads 2, three springs 3 placed on the axes of the contact clamp, made with the possibility of transferring force to the copper-containing main switching movable contacts 1 placed on the axes. three electromagnetic releases (not shown in the drawing), each of which contains a copper-containing plate placed between the fixed part of the electromagnet and the movable part of the electromagnet. The switching device also includes a trip dielectric lever 5, common for three electromagnetic releases, three plates 6, equipped with threaded protrusions 7, made with the possibility of interacting with the protrusions of the trip dielectric lever 5, a conductive metal lever 8, made with the possibility of interacting with the trip dielectric lever 5 and conclusions 9 for connecting external conductors.

Each of the three main switching movable contacts 1 is fixed on the axle, on which the spring 3 of the contact clamp is fixed. The axis ensures the rotation of the main switching moving contacts 1 in the direction of the main switching fixed contacts (not shown in the drawing), ensuring their closure, while synchronous control (switching on) of three phases of the alternating current occurs at once. Three springs 3 of the clamp press the main switching moving contacts 1, ensuring the closure of the main switching contacts (moving contact to the fixed one when the contacts are closed), while synchronous control (switching on) of three phases of the alternating current occurs at once. In each of the three poles, the contact pressure spring 3 presses on the main switching movable contact 1, and the main switching movable contact 1 presses on the pad 2 of the main switching movable contact 1, ensuring that the pad 2 of the main switching movable contact 1 is fully attached to the pad of the main switching fixed contact along the entire area of the lining 2 of the main switching movable contact 1, thus ensuring the closure of the contacts in each of the three poles.

Conductive main switching movable contact 1 and spring 3 of the contact clamp are placed on the axis, the axis is made of metal and conductive, therefore, to prevent the transfer of current from one phase to another and to eliminate failures in the control of three phases of alternating current (in the event of a current transfer from one phase to another this will prevent the normal closing of the main switching contacts and the normal flow of current or lead to premature shutdown), the axis is fixed in the dielectric holder 4. The dielectric holder 4 is not able to conduct electric current and prevents the transfer of electric current from one phase to another, due to this, normal synchronous control of three phases of alternating current at once, in normal mode, the main switching contacts remain closed, and in emergency modes, synchronous control (shutdown) of three phases of alternating current occurs at once.

The main switching movable contact 1 is placed on the axis, while the ends of the spring 3 of the clamp of the main switching movable contact 1 abut against the dielectric holder 4. The spring 3 of the contact clamp presses on the movable contact 1 and pushes, twisting the main switching movable contact 1 around the axis, in the direction of the main switching fixed contact, trying to press it against the main switching fixed contact. The spring 3 ensures the rotation of the main switching movable contact 1 around the axis, the pressure on the main switching movable contact 1 and the complete fit of the pad 2 of the main switching movable contact 1 to the pad of the main switching fixed contact over the entire area of the pad 2 of the main switching movable contact, thus ensuring the closure of the main switching contacts and synchronous control of three phases of alternating current at once.

The properties of copper make it possible to increase the magnetic flux. The materials containing copper in this utility model include all materials in the chemical composition of which copper is present. For example, copper or brass may be used. Copper has a low resistivity of 0.017-0.018 Ohm⋅mm ² /m compared to other materials, for example, the resistivity of aluminum is 0.0262-0.0295 Ohm⋅mm ² /m, the resistivity of zinc is about 0.059 Ohm⋅mm ² / m, the resistivity of nickel is 0.087 Ohm⋅mm ² /m, the resistivity of steel is about 0.098 Ohm⋅mm ² /m, the resistivity of tin is 0.12 Ohm⋅mm ² /m. This property of copper reduces the heating of parts.

The magnetic flux Ф is proportional to the current strength I:

Ф=L*I

where L is the inductance.

According to Ohm's law, current is inversely proportional to resistance. Thus, the lower the resistance of the conductor, the greater the magnetic flux. It is preferable to make a copper-containing plate from pure copper with a minimum amount of impurities or no impurities at all.

When a current exceeding the normal operating current passes through the copper-containing plate, sufficient magnetic flux is created, as a result of which the moving part of the magnet of each of the three electromagnetic releases is attracted to the fixed part by the magnetic flux created by the copper-containing plate located between the fixed part of the magnet and the moving part of the magnet. magnet, while the movable part of the magnet, equipped with a pusher, of each of the three electromagnetic releases, acts on the disconnecting dielectric lever 5, placed on the axis and containing protrusions for contact with the pushers of the movable part of the magnet. Turning around the axis on which it is fixed, the disconnecting dielectric lever 5 acts with a protrusion on the protrusion of the metal lever 8 fixed on the axis, turning it around the axis on which it is fixed, while the switching device controls (turns off) synchronously three phases of the alternating current.

The disconnecting dielectric lever 5, which is common for three electromagnetic releases, is placed on the axis, containing protrusions on one side, contacts with metal conductive threaded protrusions 7, and on the other hand, contacts with a metal conductive metal lever 8 fixed on the axis, this necessitates the implementation of the disconnect lever 5 dielectric . This is necessary to prevent current transfer from one phase to another and to avoid failures in the control of the three phases of the alternating current (in the event of a current transfer from one phase to another, this will prevent the main switching contacts from closing and normal current flow, or lead to premature disconnection). Due to this, normal synchronous control of three AC phases at once takes place, in normal mode the main switching contacts remain closed, and in emergency modes, synchronous control (shutdown) of three AC phases occurs at once.

The device works as follows.

When the handle is moved from the “off” position to the “on” position, the main switching moving contacts 1 are closed with the main switching fixed contacts. The main switching movable contact 1 presses on the pad 2 of the movable contact 1, ensuring that the pad 2 of the main switching movable contact is fully attached to the main switching fixed contact over the entire area of the pad 2 of the main switching movable contact 1. When the main switching movable and fixed contacts are closed from the main switching movable contact 1 the current passes to the main switching fixed contact, the spring 3 additionally presses the main switching movable contact 1 to the main switching fixed contact, the spring 3 ensures the rotation of the main switching movable contact around the axis. Thus, the closure of the contacts of the three poles is ensured. When the contacts are opened, the electric arc is instantly extinguished thanks to the arc chutes. The current flows from the source to the consumer through the current-carrying parts of the switching device (including the main switching movable contact, the main switching fixed contact, the overlays of the main switching movable and fixed contacts, as well as the copper-containing plate located between the fixed part of the electromagnet and the spring-loaded movable part of the electromagnet) . In the event of a short circuit, a copper-containing plate located between the fixed part of the electromagnet and the spring-loaded movable part of the electromagnet flows through a current that is many times higher than the nominal one, and a magnetic field arises around the copper-containing plate. The movable part of the electromagnet is attracted to the stationary part of the electromagnet, while the pusher of the movable part of the electromagnet pushes the disconnecting dielectric lever 5, common for three electromagnetic releases, located on the axis, turning it around the axis on which it is fixed. The disconnecting dielectric lever 5, turning around the axis on which it is fixed with a protrusion, acts on the protrusion of the metal lever 8, turning it around the axis on which it is fixed, while the switching device disconnects three phases of the alternating current simultaneously.

The switching device contains three plates 6, each of which is equipped with a protrusion 7 with a thread. The thread of the protrusion 7 of each of the three plates 6 is necessary to provide the desired length of the protrusion, which makes it possible to interact with the opening dielectric lever 5. By turning the thread, the protrusion 7 can be made longer or shorter, depending on the distance provided for in a particular switching device. The thread of the protrusion 7 and the plates 6 equipped with the protrusion 7 are necessary to ensure synchronous control (shutdown) of three AC phases at once. If the protrusion 7 is too short, its length will not be enough to interact with the tripping dielectric lever 5, and if the protrusion 7 is too long, it will interfere with the normal control (on / off) of the three phases of the alternating current, abutting against the tripping dielectric lever 5, which contains protrusions for contact with three threaded protrusions 7. If a current flows through the current-carrying parts of the switching device that exceeds the allowable nominal values, the plates 6 equipped with a threaded protrusion 7 overheat and bend, while acting on the disconnecting dielectric lever.

The switching device contains terminals 9 for connecting external conductors with current, while the terminals 9 in each pole have a mechanical connection with copper-containing plates.

Claims (1)

A switching device equipped with switching contacts, characterized in that it contains three clamp springs fixed on the axis, three movable main switching contacts, each of which is equipped with a contact patch and fixed in the dielectric holder of the axis, three plates, each of which is equipped with a threaded protrusion made with the possibility of interacting with a dielectric lever placed on the axis, common for three releases, while the dielectric lever is equipped with a protrusion for acting on the protrusion of the metal lever located on the axis, while the switching device contains three electromagnetic releases, each of which contains a copper-containing plate placed between the fixed part electromagnet and the movable part of the electromagnet, while the movable part of the electromagnet contains a pusher configured to act on the dielectric lever.

Images