RU6656U1 - ELECTRIC HEATER - Google Patents

Description

ELECTRIC HEATER.

1. The area of technology to which the utility model belongs.

The proposed device relates to energy and is designed to heat the air and maintain a given temperature, for example, in rooms.

2. The level of technology.

Electric heaters are known that are powered by a three-phase current network and use two symmetric thyristors (triacs) to turn on and turn off 3 electric heating elements (TENs), each of which is connected in one phase in series with the load (see Power Electronics, Moscow, Energoizdat, 1982, p. 134, Fig. 3.4a). The disadvantage of these devices is the complexity and low reliability of the control circuit on and off triacs.

The purpose of the proposal is to simplify the control circuit on and off triacs and thereby increase the reliability of the entire device.

3. The essence of the utility model.

The proposed electric heater differs from the known ones in that for controlling the on and off of the triacs, the connection of the control electrodes of the two triacs is used using a circuit consisting of a resistor, a temperature regulator (thermostat) and a capacitor connected in series. As a result, the control circuit for turning on and off the triacs is greatly simplified and the reliability of the entire device is increased.

4. The list of figures of drawings.

A simplified schematic diagram of the proposed electric heater is given.

5. Information confirming the possibility of implementing a utility model.

In the schematic diagram shown in the drawing, the electric heating elements 1, 2, 3 form a load symmetrical in phase. In this case, the electric heating element 1 is connected directly to phase C, and the electric heating elements 2 and 3 are connected to phases B and A, respectively, through triacs 4 and 5, the control electrodes of which 6 and 7 are connected to the cathodes using resistors 8 and 9 and with each other using a resistor 10, a temperature controller (thermostat) 11 and a capacitor 12 connected in series.

The temperature controller (thermostat) 11 is used to set the ambient temperature. The thermostat's electrical contact is open when the ambient temperature is higher than the thermostat setpoint temperature.

The electric heater operates as follows. When the electrical contact of the thermostat 11 is closed, the thyristors 4 and 5 open and the electric heater is turned on. When the ambient temperature exceeds the set temperature on the thermostat 11, the electrical contact of the thermostat opens, the electric circuit between the control

the electrodes 6 and 7 of the triacs 4 and 5 are broken, as a result of which the triacs 4 and 5 are locked and the electric heater is turned off. At

decreasing the ambient temperature below the setpoint temperature of the thermostat 11, the electrical contact of the thermostat 11 closes again, as a result of which the electric circuit between the control electrodes 6 and 7 of the triacs 4 and 5 is restored and the triacs open, enabling the electric heater to turn on. Next, the process is repeated in automatic mode, ensuring that the ambient temperature is maintained at a level determined by the setting of thermostat 11.

The technical implementation of the proposed electric heater does not cause difficulties, since it uses elements and components that are widely used in technology. A prototype was made and tested. Tests showed complete agreement between the experimental and calculated parameters.

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Claims (1)

An electric heater powered by a three-phase current network and containing three electric heating elements (TENA), forming a load symmetrical in phase, two symmetric thyristors (triac) connected one in each of the two phases in series with the load, a temperature regulator (thermostat) and a control circuit for switching on and switching off the triacs, characterized in that the control electrodes of the triacs are interconnected via a resistor, a thermostat (thermostat) and a capacitor connected in series.