RU85034U1 - DC ARC TURNING DEVICE BY CONTACT SWITCHING MACHINE - Google Patents

Abstract

A device for arc-free direct current disconnection by a contact switching device, comprising a main contact shunted by a capacitor and a non-linear resistive element, characterized in that it is equipped with a maximum current sensor, the maximum current sensor being connected in series with the main contact and installed at the input of the device, and the non-linear resistive the element is connected in parallel with the main contact and the capacitor.

Description

The utility model relates to electrical engineering and is intended for switching electrical circuits in electrical installations for various purposes, in particular, can be used in automatic high-speed DC circuit breakers.

A device for arcless circuit switching with an inductance according to patent RU No. 2094882, 1995 is known. This invention comprises a main contact shunted by a series of capacitor and main thyristor, a first resistor, a load circuit with a predominance of the inductive component, a second thyristor, first and second reverse diodes , second resistor, inductor, non-linear resistive element. When the switched circuit is turned off, the main thyristor is unlocked and the main contact is shunted, while the arc process on the contacts does not develop. The capacitor charges until the potential begins to exceed the voltage of the power source. The next stage of arc-free tripping occurs along a chain consisting of a second reverse diode and a non-linear resistive element. The disadvantage of this scheme is the strictly polarized direction of the main current, which excludes the possibility of its use in unpolarized DC electrical installations. In addition, if there is an inductive component in the switched line at the input of the device, a shunt capacitor may fail, as it is not protected against overvoltage.

A sufficiently large number of electronic components increases the risk of failure of the entire circuit. This reduces the reliability of the device. In addition, the cost and dimensions of the device as a whole increase.

Also, the above prototype will fail if a current overload occurs in the switched circuit, for example, a short circuit.

The task to which the proposed utility model is directed is to create a device for arc-free DC shutdown by a contact switching device, simple in design with an expanded scope, as well as to increase reliability and reduce the size and cost of the proposed device.

The technical result of the utility model is to increase the reliability during operation of the device, protect the device from emergency currents that occur in the switched line and eliminate the occurrence of an arc in the design of the switching apparatus.

The essence of the utility model consists in the fact that the device for arc-free switching off direct current by a contact switching device is equipped with a maximum current sensor, the maximum current sensor being connected in series with the main contact and installed at the input of the device, and the non-linear resistive element is connected in parallel with the main contact and the capacitor.

The presented circuit of the device for arc-free DC shutdown by the contact switching device in figure 1 contains the main contact 1, shunted by the capacitor 2. The circuit of the active-inductive load 3 is connected in series with the main contact 1. The main contact 1 is additionally shunted by a non-linear resistive element 4, which is parallel connected to a capacitor 2. At the input of the device, at the point of connection to the switched line 5, a maximum current sensor 6 is installed.

In the on state (contacts closed), a direct current flows from the power supply 5 through the overcurrent sensor 6 and the main contact 1 to the load circuit 3.

At the moment of opening of the main contact 1, a voltage occurs, as a result of which the capacitor 2 shunts the main contact 1 and eliminates the occurrence of an arc on the latter. The capacitor is charged during the arc-free opening of the main contact 1. Non-linear resistive element 4 comes into operation after the capacitor 2 is fully charged and eliminates the failure of the capacitor 2 from overvoltage. In the event of emergency currents occurring in the switched line (low currents or short-circuit currents), the maximum current sensor 6 sends a signal to the control circuit 7 of the switching device and the latter immediately opens the main contact 1. The process of opening the contact during emergency operation is similar to that described above.

Thus, in the proposed device for arc-free DC shutdown by a contact switching device, an increase in reliability during operation of the device is achieved, the device is protected from emergency currents occurring in the switched line, and the occurrence of an arc in the design of the switching device is also eliminated.

Claims (1)

A device for arcless DC disconnection by a contact switching device, comprising a main contact shunted by a capacitor and a non-linear resistive element, characterized in that it is equipped with a maximum current sensor, the maximum current sensor being connected in series with the main contact and installed at the input of the device, and the non-linear resistive the element is connected in parallel with the main contact and the capacitor.