RU27751U1 - MOTOR THERMAL PROTECTION DEVICE - Google Patents

Description

g The proposed device relates to the field of electromechanics and can be used, for example, to protect against overload of household submersible centrifugal electric pumps equipped with single-phase electric motors. A device for thermal protection. Containing a power source, a temperature sensor installed on the windings of the electric motor and connected to the input of the control unit, the output of which is connected to the actuator - thyristor (1). Also known is a device for thermal protection of an electric motor, taken as a prototype, made on the basis of a thermal relay, where the protected electric motor is connected to a single-phase network through a normally closed normally closed contact of a PTT type thermal relay, a thermal relay winding and a common electric motor supply wire. The relay is configured in such a way that, if a mechanical short circuit occurs, or if the current exceeds a permissible current, the turn-on time and pause duration provide a steady thermal mode of the electric motor that does not exceed the winding temperature tolerance ("d). However, both the first and second technical solutions have a low response speed, which worsens their protective functions from inrush currents exceeding its rated values, and can lead to excessive overheating of the stator winding and damage to the motor. The task of creating the proposed technical solution is to increase the efficiency of operation of the thermal motor protection device from short circuit currents and open circuit current. The problem is solved in that the device for thermal protection of the electric motor, comprising a thermal relay connected by a winding and a normally closed contact in series with the working winding of the electric motor, a capacitor connected in series with the auxiliary motor winding, further comprises a second thermal relay connected by the follower winding. in a circuit with an auxiliary winding of the electric motor and a normally closed contact connected in series with the circuit of the working winding of the electric motor, with increasing or decreasing moment on the motor shaft, the current in the working winding or auxiliary winding of the electric motor increases or decreases, but in any case it is limited by a capacitor and, therefore below par.

Introduced into the prototype scheme other additional elements allow us to achieve the set, which corresponds to such a |) criterion of a useful model as novelty.

Figure 1 shows a schematic diagram of a device for thermal protection of an electric motor.

The proposed technical solution consists of a PTT thermal relay 1, one end of the winding. Which is connected to the power supply - “iEOB, the author is connected to one of the terminals of the capacitor 2, the second terminal of which is connected to the auxiliary winding 3 of the electric motor. The second end of the auxiliary winding 3 of the electric motor is connected to a power source and one of the ends of the working winding 4 of the electric motor. The second Kowey of the working winding 4 of the electric motor is connected to one of the normally closed contacts 5 of relay 6 (type PTT). The second contact of the normally closed contacts of relay 6 is connected to one of the contacts 7 of relay 1. The second contact of the relay winding 6 is connected to a power source.

The device operates as follows.

When the torque on the shaft of the electric motor increases above the nominal, the current in the working winding 4 of the electric motor and the coil of relay 6 increases, while relay 6 is activated and extends the working winding. Due to the voltage drop across the capacitor, the current through the motor winding 3 will be negligible, i.e. much lower than the nominal, so both windings will be protected from excess temperature. With a decrease in torque on the shaft of the electric motor below the nominal current increases in the auxiliary winding, but since the current in the auxiliary winding is limited by a capacitor, the current is much lower than the rated current, and both windings will be protected from excess temperature.

model is industrially applicable.

Thus, when using the proposed technical solution, an increase in the efficiency of the thermal protection of the electric motor against short circuit currents and open circuit current is achieved.

Sources of information: 1. Application for PM f 2000128778 / .20, Mnf {Н02Н 7/08

E. Certificate for ПМ 10801, ШЖ Г04Д 15/00

Claims (1)

A device for thermal protection of an electric motor, comprising a thermal relay, connected by a winding and a normally closed contact in series with the working winding of the electric motor, and a capacitor connected in series with the auxiliary winding of the electric motor, characterized in that it further comprises a second thermal relay, connected by a winding in series with the auxiliary winding an electric motor and a normally closed contact, connected in series with the working winding of the electric motor.