SU788192A1 - Device for power supply of dc electric drive - Google Patents

Description

(54) POWER SUPPLY ELECTROMAGNETIC DRIVE

one

The invention relates to electrical equipment and can be used in electromagnetic direct current drives powered from an alternating current network through a rectifier, 5 in particular in vacuum contactors in electromagnet forcing devices.

There is a known forced-current electromagnet with a force in which at the moment of switching on the shunt contact short-circuits a resistor connected in series with the coil. The network voltage is applied 15 to the coil of the electromagnet, which causes a large inrush current to flow in it. After the electromagnet is triggered, the shunt contact mechanically connected to the core opens 20, and the current in the electromagnet coil is reduced to the value needed only to hold the core in the pulled position l3.

It is also known a device for turning on 25 a coil of a direct current electric drive operating from an alternating current network. Here, a DC capacitor 2J30 is used as a ballast resistance.

The closest to the invention in its technical essence is a device in which a coil of an electromagnetic drive is inserted into a diagonal bridge rectifier, the arms of which are made up of four diodes. Automatic switching of coil power supply from overvoltage to undervoltage is performed by a capacitor connected in series with a bridge rectifier and shunted by the opening contacts of an electromagnetic actuator.

A disadvantage of this device is the presence in the power supply circuit of the coil of an electromagnetic drive opening contact, through which at the time of switching on, the starting current. With frequent switching on of the electromagnet, the contact burns, its wear increases, and consequently, the reliability of the forcing device decreases.

The purpose of the invention is to increase the reliability of the device.

To achieve this goal, a device for supplying an electromagnetic direct current drive, containing the AC power source, a bridge rectifier, a capacitor.

terminals for connecting a coil of an electromagnetic DC drive, included in the diagonal of a bridge rectifier, and terminals for connecting the disconnecting contacts of an electromagnetic actuator, a resistor connected in series with the terminals for connecting the disconnecting contacts of an electromagnetic DC drive, this series circuit connected in parallel with a capacitor and included in one of the shoulders of the bridge straightener. .

The drawing shows a diagram of the device.

Terminals 1 and 2 are connected to AC power. Pins 3 and 4 of the coil 5 of the electromagnetic DC drive are connected to a bridge diagonal of the rectifier, whose shoulders are made up of diodes 6–9. A capacitor 10 is installed in one of the arms (where diode b is turned on) of the bridge. Since all four arms of the bridge are symmetrical with respect to the electromagnet coil, it does not matter in which of the arms the capacitor is installed. Parallel to the capacitor included a circuit of a resistor 11 and an open contact 12 of the electromagnetic actuator.

The device works as follows.

When applied to terminals 1 and 2 of an alternating voltage at the first moment during charging, capacitor 10 is a low resistance, and the resistance of resistor 11 is large. In this case, the positive half-wave of the current passes through the circuit H diode 8-coil 5 - diode 7 - -, and the negative half-current passes through the circuit + - diode 9 - coil 5 capacitor 10 - diode 7 - -. This provides a starting current, the value of which is determined by the full-wave rectified voltage of the source. After charging the capacitor 10, the circuit in the area of the diode 6 - the capacitor 10 is broken, and the electromagnet goes to power the half-wave rectified voltage. When the electromagnet is disconnected from the network, the contact 12 shunts the capacitor 10 to form a closed circuit to discharge the capacitor 10 to the resistor 11, which ensures the preparation of the circuit for the next switching on. Since there are no stringent requirements for contact 12 and, moreover, it is desirable that this contact opens as soon as possible, and also because the discharge current of the capacitor 10 is limited by a large resistance value of the resistor 11, instead of mechanically connected to the moving a part of the magnetic contact system in this scheme can be used low-current commercially available reed switch, the reed switch is placed on the surface of the coil 5 e so that when current flows through it, the contact 12 times Mykals, under the action of the magnetic field of the coil. The feasibility of the application of the reed switch is dictated by its high mechanical wear resistance, which is much higher than the corresponding indicators of ordinary contacts.

Thus, in a DC electromagnet with a boost, a capacitor mounted in one of the

5 shoulders of a bridge rectifier fed from an AC network automatically switches the power of the electromagnet from a high (full-wave) voltage

0 reduced (half-wave). This ensures the multiplicity of the forced current equal to 2. Contactless switching of the power mode of the electromagnet coil increases reliability

5 work unit forcing. Since the shuntrun capacitor circuit is disconnected from the resistor and the contact in the operating mode and does not consume active power, this device reduces heating losses.

Claims (1)

Invention Formula A power supply device for an electromagnetic DC drive containing an AC power source, a bridge rectifier, a capacitor, terminals for connecting a coil of an electromagnetic DC drive, included in the diagonal of a bridge rectifier, and terminals for connecting the opening contacts of an electromagnetic drive, This is due to the fact that, in order to increase the reliability of the device, a resistor is inserted in it, connected in series with the terminals for connecting the electromagnetic break contacts at direct current water, this series circuit being connected in parallel to the capacitor and connected to one of the shoulders of the bridge rectifier. Sources of information taken into account in the examination 5 1. Koz B. E. Electromagnets of direct current with force. M., Energie, 1964. 2, US Patent 3,699,399, cl. 317-148.5B, 1972. 0 3. USSR author's certificate 437136, cl. H 01 F 7/18, 1972. -CZb four “// // n 8 h (-) b + 9 W 0