SU1010667A2 - Device for boosting dc electromagnet - Google Patents

Description

The invention relates to electrical engineering and can be used in electromechanical control devices intended for ex-operation in conditions with increased spark hazard, for example, in mines. According to the main author. No. 811338, a device for forcing a direct current electromagnet containing a catuic of an electromagnet, a diode bridged bypass, a power source, a boost unit made on a capacitor, a thyristor, a diode (X and a resistor. A distor and another capacitor are inserted, one capacitor, one resistor and a thyristor are connected, parallel to the series circuit from the electromagnet and dynistor catches, to the control electrode of the thyristor through one diode a parallel circuit from the other capacitor is connected and A resistor connected to the negative pole of the power supply, to which a common connection point of a capacitor connected in parallel to the thyristor, dynistor and cathode of the thyristor is connected via a series circuit from another diode and the third resistor. a shunt thyristor is triggered l. The disadvantage of this device is unreliability when the scientific research institute winding an electromagnet is short-circuited in spark-hazardous conditions. The purpose of the invention is to increase the reliability of the device when operating in spark conditions; The goal is achieved by the fact that an additional resistor and a diode are introduced into the device for forcing an electromagnet of direct current, and an additional resistor is connected between the connecting points of the capacitor connected in series with the successive string of the electromagnet and the distor and the cathode of the distor and An additional diode is connected between the dynistor cathode and the thyristor control electrode. The drawing shows a diagram of the proposed device. Electromagnet coil 1, shunted by diode 2, is connected through one dynistor 3 to negative plate of capacitor 4, shunted by resistor 5 and thyristor 6 .. Another lead of coil 1 is connected to positive plate of capacitor 4 connected to the positive pole of the power source. The negative pole of the device is connected to the control electrode of the thyristor b through diode 7 and resistor 8, as well as through diode 9 and a parallel chain of resistor 10 and capacitor 11. K. Control. the electrode of the thyristor 6 is connected to the cathode diode 12, the anode of which is connected to the cathode of the dynistor 3 connected in series with the resistor 13. The device works as follows. When voltage is applied, capacitor 4 is charged through diode 7 and resistor 8. When the voltage on capacitor 4 reaches the switch-on voltage of distor 3, the capacitor discharges through coil 1, distor 3 and resistor 13, and the electromagnet is activated and then holds the current along the circuit through the coil 1, the dynistor 3, the resistor 13, the diode 7 and the resistor 8. The switching on of the electromagnet is removed, while; : energy stored in the electromagnet coil, is quenched at its active resistance in the circuit with diode 2. Resistor 5 provides the discharge of capacitor 4 when the power is off. Thyristor 6 is triggered when a short circuit occurs between the external positive and negative poles of the device or when the winding of electromagnet 1 is short-circuited when the capacitor 4 is discharged. external short circuit - parallel circuit with a resistor 10 and a capacitor 11, diode 9, the control electrode of the thyristor b, the capacitor plate 4 is negative. Ti: the riser b is activated, akorachiva capacitor 4, resulting in the final discharges. Resistor 8 limits the current in the coil circuit of the electromagnet, and diode 7 prevents the discharge of capacitor 4 through a short-circuited external circuit. In the second case, during a short circuit of the winding of the electromagnet 1, the capacitor 4 creates a short-term discharge current in the circuit: the capacitor 4 plate is positive, the terminals of the coil 1 are shorted, the dynistor is shorted. 3, diode 12, the control electrode of the thyristor b, the capacitor 4 plate being negative, as a result of which the latter is discharged. Thus, the reliability of the proposed device, when used in the Temp-500 complex, designed to isolate a fire in coal mines, by ensuring the intrinsic safety of the circuit between the electromagnet and the rest of the device circuitry. Intrinsic safety is achieved by introducing

31010667

additional resistor and diode capacitor, timely quenched

allowing to include protective tiri- | and does not enter into the spark circuit,

stator in case of short circuit of the coil This is important for a rescue tech electromagnet. Thus dangerous nicks used in mines, hazardous

energy stored in gas or dust accumulation.

Claims (1)

(5 4X57) DEVICE FOR FORCING ELECTROMAGNET 'DC ”by ed. St. »811338, with the proviso that, in order to increase the reliability of the device during operation in spark hazardous conditions, an additional resistor and diode are introduced into it, and an additional resistor is connected between the connection points of the capacitor, . connected in parallel to a series circuit of an electromagnet and a dynistor coil, with a thyristor cathode and a dynistor cathode, and an additional diode is connected between the dynistor cathode and the thyristor control electrode.