SU1487007A1 - Two-positional controller - Google Patents

Description

The invention is intended for on-off regulation of temperature, pressure of liquids and gases, and other parameters using three-position contact sensors corresponding to

corresponding values The regulator contains an actuator connected through one diagonal of the diode bridge to an AC power source, a thyristor connected by an anode to a diode bridge, two diodes, a resistor, a capacitor and sensor contacts connecting the control electrode of the thyristor with its anode "To reduce the minimum adjustable power cathode a thyristor is connected to a diode bridge through a resistor, in parallel to which a capacitor is connected through one diode to a thyristor anode through one diode. 1 il. with

(ABOUT

The invention relates to automation and is intended for on-off control of temperature, pressure of liquids and gases, and other parameters in combination with appropriate contact sensors.

The aim of the invention is to reduce the minimum regulated power.

The drawing shows the scheme of the On-off regulator "

The regulator contains a thyristor (sy-mystor) 1 connected to one diagonal of diode bridge 2 through a resistor 3. The other diagonal of this bridge is connected to terminals 5 and 6 of the AC mains via actuator 4, such as a solenoid valve. The control electrode of the thyristor 1 is connected to its anode using a three-position contact sensor 7 with a throw-over

contact 8 and contact 9, and with the cathode through the contacts 8 of this sensor and the resistor 3. Parallel to the resistor 3 is connected a capacitor 11 through a diode 12, the anode of which is connected to the cathode of the thyristor 1. The cathode of the thyristor 1 is connected through diode 12 to the terminals of the capacitor 10 and diode 13. When used, the Zener diode 14 is turned on as an actuator of an electromagnet, a contactor, etc. with a high multiplicity of starting and operating currents parallel to the resistor 3. Resistor 15 serves to limit the current through the sensor contacts.

In the proposed scheme can be

used executive body DC. In this case, the thyristor 1 will be connected to the diode

bridge 2 is not only through the resistor 3,

311 .... 1487007 A1

3

1487007

four

but also through the sequentially actuating element 4.

The regulator works as follows.

. When both contacts of the pressure sensor are open, the thyristor 1 is closed and the valve 4 is turned off. When the contacts 8 and 9 of the sensor 7 are closed under the action of the voltage at the terminals of the network 5 and 6 through the opening 4, diode bridge 2, resistor 15, contacts 8-9, the control electrode – cathode of the thyristor 1 and resistor 3 passes a current pulse causing the thyristor unlocking on the anode circuit, and the solenoid valve 4 is turned on. The current through the contacts 8-9 decreases almost to zero. The capacitor 11 is charged to the amplitude of the voltage drop across the resistor 3 through the separating diode 12. By discharging the capacitor 11 in the gap between the rectified current pulses through the anode to cathode 1 transition to the resistor 3, the thyristor 1 is kept open, and the valve is turned on and after opening the contacts 8 and 9 of the sensor 7, i.e. due to the inclusion in the cathode circuit of the thyristor resistor 3, in parallel. to which a capacitor 11 is connected through diode 12 and the thyristor 1 is connected in parallel with the thyristor through diode 12 of diode 13, the thyristor 1 self-holds in the on state, ensuring the valve is turned on. Diode 12 eliminates the discharge of capacitor 11 to resistor 3, and diode 13 prevents the charge of this capacitor when the thyristor is locked

When the temperature rises and the contacts 8-10 of the sensor 7 close, the resistor 3 is shunted through the thyristor control circuit, a capacitor.

11 is not charging, the thyristor is locked, turning off the solenoid valve 4 o Turning on the valve again can occur only when the contacts 8 and 9 are closed. Then the process repeats.

When an electromagnet, a contactor or {an electric motor, the inrush current of which is several times longer than the steady-state current, is used as a load, Zener diode 14 serves to limit the voltage drop on the resistor 3 when the thyristor is unlocked

Thus, the introduction of a diode bridge, through one diagonal of which a second output of the actuating element is connected to the second output of the power source, and a thyristor connected to the second diagonal of the diode bridge and connected in parallel to the resistor via a diode to the thyristor anode, via a resistor allows you to significantly expand the scope of the regulator due to the use in it of a different contactless nagrue · 'ki: solenoid valves, contactors, relays, electromagnets, actuators x electric motors, etc., while the reliability of the regulator increases.

Since the holding current of the thyristors along the anode circuit, in particular of the triacs, is less than the thyristor control current, and the voltage falling at the anode-cathode junction is usually several times less than the control electrode-thyristor junction, in the proposed controller Resistor 3 is less powerful than other circuits, and it is possible to use executive devices with a several times lower operating current (since the triac current may have a lower holding current than the thyristors, the dotted line in the drawing shows the connection of the triac used instead of the thyristor) „

Claims (1)

Claim A two-position regulator containing a thyristor, an actuator, two resistors, two diodes, a zener diode and a three-position contact sensor whose transition contact is connected to the control electrode of the thyristor, the anode of which is connected to that, in order to reduce the minimum regulated power, the regulator contains a diode bridge connected through an actuating element into the AC network, one of the outputs of the diode bridge ene with the anode of the thyristor and via serially connected diodes, with its cathode connected through a parallel-connected, the other resistor and a zener diode; to another con ⁵ 1487007 ⁶ a three-point contact stroke is given through a capacitor and one sensor and another output of the bridge, connected diodes with the anode of the thyristor.