SU809108A1 - Three-positional temperature regulator - Google Patents

Description

(54) THREE-POSITIONAL TEMPERATURE REGULATOR

one

The invention relates to regulation and is intended to use direct current control in a resistive load, such as a thermoelectric battery, when the latter is required to be activated in heating or cooling mode, and also provides for a state of no current through the thermoelectric battery.

A device is known; forming a three-position law for regulating the current of the thermoelectric battery containing a current regulator with a setpoint for the error signal, an amplifier, an actuator, a reversing unit and a switching unit made on controlled gates 1.

The disadvantages of this device is the limitations of its functionality.

Closest to the proposed technical entity is a three-position temperature controller containing the first and second threshold elements, the first inputs of which are connected to the output of the temperature sensor, and the outputs to the first and

the second inputs of the blocker, the output of which is connected to the input of the power amplifier, and the first inputs of the first and second pulse formers, respectively, whose outputs are connected to the corresponding inputs of the reversing unit, as well as a three-phase voltage source and a controlled three-phase rectifier. The inclusion of the regulator current is carried out by applying a control voltage to the two thyristors of the reversing unit, which is a bridge of four thyristors, the diagonal of which includes a load. Turning off the thyristors is provided for complete shutdown of the controlled three-phase cell and is carried out in the known controller in the absence of a signal from the power amplifier to the three thyristor controlled three-phase rectifier. When the control voltage appears on the three thyristors of the rectifier and on the two other thyristors of the reversing unit, the voltage through the load changes. Counter-turning on the thyristors of the reversing unit is eliminated by blocker 2.

The disadvantages of the known regulator are the need to control several thyristors of a controlled three-phase rectifier, which provides for the parallel connection (along the control circuits) of three thyristors, which, with a large variation in the characteristics of the thyristors, requires a large control power and can cause one of the thyristors not to be turned on. The circuit uses the potential turn on of the thyristors of the reversing unit through optocouplers and galvanically distributed power sources; a large number of power sources and large losses in the control circuits due to the use of a potential switch. The control circuit of the known regulator is cumbersome, which is especially noticeable at a relatively small (hundreds of watts) washing capacity on the load.

The purpose of the invention is to increase the reliability of the efficiency of the controller.

This goal is achieved by the fact that in a three-position temperature controller containing first and second threshold elements, the first inputs of which are connected to the output of the temperature sensor, and the outputs to the first and second inputs of the blocker, the output of which is connected to the input of the power amplifier, and the first inputs of the first and the second pulse shapers, respectively, whose outputs are connected to the corresponding inputs of the reversing unit, as well as a three-phase voltage source and a controlled three-phase rectifier controlled by a three-phase The rectifier is made in the form of three parallel-connected branches connected to the input of the reversing unit, each of the two first branches contains two in series and according to connected valve elements, common points of which are connected to the first and second outputs of the three-phase voltage source, and a third branch - in series and according to the included controlled valve element, a control electrode connected to the output of the power amplifier, and a valve element, the common point of which is connected to the third output and three-phase voltage source.

FIG. I shows a functional diagram of a three-position temperature controller; in fig. 2 - epu ;; and output voltages of individual units.

The three-position temperature controller contains the first and second threshold elements 1 and 2, the first inputs of which are connected to the output of temperature sensor 3, and the outputs to the first and second inputs of blocker 4, the output of which is connected to the input of power amplifier 5, and the first inputs of the first and second shapers 6 and 7 pulses, respectively, whose outputs are connected to the corresponding inputs of the reversing unit 8, as well as a three-phase voltage source 9 and a controlled three-phase rectifier 10, which is made in the form of three parallel United branches 11 to 13 connected to the input of the reversing unit 8, each of

the first two branches 11 and 12 contain two in series and according to the included valve elements 14 and 15, the common points of which are connected to the first and second outputs of the source 9. three-phase voltage, and the third branch 13 - sequentially and according to the included controlled ve {1tile element 16 a control electrode connected to the output of the power amplifier 5 and the valve element 17, the common point of which is connected to the third input

source 9 of three-phase voltage, as well as source 18 constant voltage.

The device works as follows. When the controlled parameter deviates from the temperature set at the output of sensor 3, an unbalance signal appears, depending on the mismatch sign, the first or second threshold element is triggered, the signal of which through the blocker 4 and the power amplifier 5 is fed to the control electrode of the controlled valve element 16. At the output of the controlled three-phase rectifier 10, a rectified continuous voltage is applied. At the same time, the signal from the corresponding threshold element OR 2 is fed to the input of the first or second shaper 6 or 7 control pulses, the outputs of which are connected to the control electrodes of the corresponding thyristors of the temperature sensor of the reversing unit 8. With

5 in the absence of an error signal at the output, no signals are input to the input of the controlled valve element, nor are they at the input of the thyristors of the reversing unit 8. The voltage at the output of the rectifying three-phase bridge 10 is intermittent due to the disconnection of the controlled valve element 16, at the time of interruption of the voltage at the output of the controlled three-phase bridge 10 the thyristors of the reversing unit 8 are disconnected.

5 The proposed temperature controller preserves the characteristics of a known device (the law of regulation, the presence of a blocking device), has one control supply source, and the consumption over the control circuit is significantly

0 is less due to the reduction in the number of controlled elements in a controlled three-phase rectifier.

Claims (2)

1. USSR Author's Certificate No. 255392, cl. G 05 F 46/50, 1969. 2. USSR author's certificate according to application no. 2620543 / 18-24, cl. G 05 D 23/19, 24.05.78 (prototype). re 15 15 V V (rig. 7 (rig 2