SU688951A1 - Device for protecting electric power consumer from incorrect phase alternation and phase break - Google Patents

Description

the resistor is larger than the capacity of the KOHAciicaiijpa shunting the reacting organ, l resistance.

The drawing shows the scheme of devices

The input terminals 1, 2 and 3 are connected to the output terminals 4, 5, 6, and the input terminals 1, 2 are connected to the output terminals 4 and 5 through the normally closed contacts of the reacting element of the relay 7.

Relay 7 is connected in series with resistor 8 and rectifying diode 9, with relay 7 being connected to the input terminal 2, and diode 9 to the common point of the Star, also formed by capacitor 10 and resistor I connected to the input terminals 1 and 3, respectively. In parallel with the winding of the relay 7, a capacitor 12 is turned on, and a capacitor 13 is turned on parallel to a resistor 8, and the capacitor 12 capacitance 12 is less than the capacitor 13 capacitance.

The device operates as follows.

If we assume that the input terminals 1, 2 and 3 are supplied with the voltage 1ph, 2ph and 3f, respectively, then the resistor 8 and the capacitor 13, the winding of the relay 7 and the capacitor 12 form a voltage, reversely the capacitance of the capacitors 12 and 13, the relay 7 is activated by connecting the input to the output. This redistribution of the terminals will change after some time and the capacitor 12 will have less voltage than the capacitor 13 because the discharge of the capacitor 13 through the resistor 8 is less than that of the capacitor 12 through the winding of the relay 7 in half the voltage of the setp. Diode 9 provides a single-pole power supply to the winding of the relay 7 and the charge on the capacitors 12 and 13. The capacitor 12 does not completely discharge in half the non-power supply of the control panel. The capacitor 13 is chosen to have a larger capacitance than the capacitance of the capacitor 12 in order to create a capacitor 12 at the initial moment, which can turn on the relay 7. Resistor 8 delays the discharge of the capacitor 13 and passes a small constant component of the holding relay 7 in the on state.

If we set the capacitance of capacitor 12 to be greater than that of capacitor 13, then at the initial moment the input voltage is divided between them inversely proportional to capacitance, and relay 7 will not work, since

the voltage on its worm will be neo-large.

When a phase rotation alternates, the current in the relay circuit 7 will be less than the current holding of this relay, and it will turn off. If any of the phases, no matter how low the load is at the output terminals 4, 5, 6, breaks, the current flowing through the winding of relay 1 will drop ne less than 2 times, and

less than holding current. Relay 7 will disconnect the input from the load. From the drawing and the description, we see that the proposed device is not more complicated than the known, but has broader functionality, since

protects the three-phase load from the operation of two-phase pa, regardless of the resistance of this load. The prototype, made on the elements of R7-RES-49 423, and asnort, R88-8,2 com, D9-D223A, And -

620 ohms, CU-0.33 microfarads with 12-1 microfarads, C13-20 microfarads, but showed reliable protection of the consumer of a three-phase voltage of 36 V 400 Hz. P 210 watts.

Claims (2)

1. USSR author's certificate jYo 425260, H 02 H 3/24, 1971. 2. For the number 2456140 / 24-7, cl. H 02 3/24, 1976, according to which the decision to issue an author's certificate was made. 13L t ° t U P 77 ten- 30-0 n -0V