RU86041U1 - DC CIRCUIT BREAKER BY CONTACT SWITCHING MACHINE - Google Patents

Abstract

A DC disconnect device with a contact switching device containing contacts included in the main circuit, an arcing chamber, a parallel magnetic blast coil and an independent power source, characterized in that the parallel magnetic blast coil is connected to an independent power source through a parallel magnetic blast coil control unit, and in the main circuit includes a current sensor and a current direction sensor, while the current in the circuit of the parallel magnetic blast coil flows continuously as with open and closed contacts, depending on the direction of current of the main circuit.

Description

The utility model relates to electrical engineering, namely to switching devices, in particular, to high-current devices and is designed to disconnect both large and low currents, for example, for switches that protect the electrical equipment of urban electric vehicles from short-circuit currents.

DC disconnect devices are known from the following sources.

In the source, O.B. Bron, “The electric arc in control devices”, - M. - L .: Gosenergoizdat, 1954, pp. 214-222, two devices are described. The first contains a pole having a breakable contact, an arcing chamber and a coil through which a current of the switched circuit flows. The second device is characterized in that instead of the coil through which the current of the switched circuit flows, it contains a coil connected to the full voltage of the circuit. The first device can be used to turn off current in circuits where the direction of current flow changes, but it is not effective enough when low currents are turned off. The second device is more effective when disconnecting low currents, but is applicable only in circuits where the direction of current flow does not change.

The closest analogue to the patented device can be considered a DC disconnect device with a contact switching device, described in the book by I. Taev. Electrical control devices: Textbook for universities on special. "Electrical apparatus." 2nd edition, revised. and additional.- M .: Higher. sch., 1984., § 3-2. This device contains contacts included in the main circuit, an arcing chamber and a coil of parallel magnetic blast. A parallel magnetic blast coil is connected to a main circuit power source. The disadvantages of this device are dependent on the direction of current flow in the main circuit, which does not allow to turn off the current when changing its direction. In addition, the absence of galvanic isolation between the contacts in the disconnected position of the contacts, which creates a risk of electric shock in operation.

These disadvantages are eliminated in the device according to the patent for utility model RU No. 35923, Н01Н 33/62, 2003. It contains contacts included in the main circuit, an arcing chamber, a parallel magnetic blast coil, an independent power source, to which a parallel magnetic blast coil is connected, and a current sensor for controlling an independent power source. Various current sensors can be used as current sensors, including those based on a Hall converter.

However, this device is not reliable enough to extinguish the arc at the time of shutdown. This is due to the fact that the voltage on the parallel magnetic blast coil is supplied by an independent power source only when the contacts open, which slows down the process of extinguishing the arc at the initial moment of contact opening, due to the absence of the magnetic field of the parallel magnetic blast coil.

A useful model solves the problem of creating a reliable and safe device in operation.

The technical result, which is created by the utility model, consists in reducing the arc burning time and in eliminating the dependence on the direction of current flow in the main circuit.

This is achieved due to the fact that the parallel magnetic blast coil is connected to an independent power source through the control unit of the parallel magnetic blast coil, and a current sensor and a current direction sensor are included in the main circuit. The polarity of the independent power supply is controlled by a current direction sensor. The continuous current flow provided by the control unit of the parallel magnetic blast coil creates a magnetic field in the contact area in both their closed and open state. Therefore, at the initial instant of opening of the contacts, the magnetic field of the coil of the parallel magnetic blast immediately blows the arc into the chamber.

The patented device is illustrated in the drawing, which shows a block diagram of the device.

The DC disconnect device by a contact switching device contains contacts 1 included in the main circuit, an arcing chamber (not shown in the drawing), a parallel magnetic blast coil 2 connected to an independent power source 3 through a control unit 4, a current sensor 5 and a current direction sensor 6 for polarity control. The device serves to disconnect the variable load 7. The control unit 4 is made with the possibility of current flowing in the circuit of the coil 2 of the parallel magnetic blast continuously, both with open and closed contacts 1.

The device operates as follows.

When the device is operating, the parallel magnetic blast coil 2 operates in a continuous mode, which contributes to the presence of the magnetic field of the parallel magnetic blast coil 2 at the initial moment of opening of contacts 1. According to the trip signal from the current sensor 5, contacts 1 open and an arc forms between them, which immediately tightens the magnetic field of the coil 2 in the area of the arcing chamber. In this case, the polarity of the independent power source 3 is determined by the current direction sensor 6. The polarity must be such that the magnetic field created by the coil 2 of the parallel magnetic blast provides the force to move the arc formed between the contacts 1 into the arcing chamber. This contributes to the extinction of the arc during the flow of the main circuit in any direction. After the extinction of the arc, the voltage from the coil 2 is not removed, which contributes to the immediate extinction of the arc during the subsequent opening of the contacts and increases the reliability of the device due to the reduction in the number of control elements.

Thus, in the created device, the dependence on the direction of current flow is excluded and a reduction in the arc burning time is achieved.

Claims (1)

A DC disconnect device with a contact switching device containing contacts included in the main circuit, an arcing chamber, a parallel magnetic blast coil and an independent power source, characterized in that the parallel magnetic blast coil is connected to an independent power source through a parallel magnetic blast coil control unit, and in the main circuit includes a current sensor and a current direction sensor, while the current in the circuit of the parallel magnetic blast coil flows continuously as with open and closed contacts, depending on the direction of current of the main circuit.