SU242523A1 - TEMPERATURE REGULATOR - Google Patents

Description

Non-contact temperature regulators are known, which contain a photoresistance included in the baa circuit of a two-channel amplifier, the output of one of which is connected to a controlled valve, and a corrective device is connected to the output of the other.

In the proposed controller, the output of one amplifier is connected to the base of the transistor of the source-control pulses, the collector of which is through the primary winding of the transformer, and the emitter is connected to the output of the second amplifier via an adjustable resistor.

Due to this regulator performance, its sensitivity is increased.

The drawing shows a schematic diagram of the temperature controller.

Automatic non-contact temperature controller with power control Includes: regulating milli-voltmeter 1, which simultaneously serves as a setter of temperature and power source, source 2 of control pulses, controlling thyristors and regulating power, load power, block 3 of silicon controlled gates, which is contactless actuator unit 4 adjustment devices, stabilizing the temperature of the object.

The regulating millivoltmeter / consists of two photoresistors 5 and 6, which are included in the base circuit, respectively, of trazistorav 7 and 8, which are the elements of two semiconductor amplifiers. The first amplifier is made up of transistors 7 and .9 and is the power source for the source of control pulses. The second amplifier is made on transistors 8 and 10 and serves as a source

power supply for protection circuits with divider elements / V and transistor 12.

The flag 13, located between the light bulb 14 and one of the photoresistors 5 or 6, is rigidly connected with the indicator light.

regulator millivoltmeter arrow. The millivoltmeter is powered by the reference transformer 15 via a semiconductor test unit 16. A thermocouple is connected to the measuring frame of the 17 millivoltmeter 18

the control object, in series with which thermocouples of correcting devices 19 and 20 are included.

The source 2 of control pulses consists of a transistor 12, in the collector depot and the base

windings 21 and 22 of transformer 23 are included respectively. An adjustable resistor 24 is connected to the emitter circuit of transistor 12. The source of control pulses with a block of 3 silicon control gates

transistor 23. Through a series-connected diode 27, a resistor 28 and a parallel-connected diode 29, the output winding 25 of the transformer 23 is connected to the control electrode of the thyristor 30 in a block of silicon controlled gates.

Similarly, the output winding 26 of the transformer 23 is connected to the control electrode of the thyristor 31. The thyristors 30 and 31 are connected on a parallel basis and their point is connected to the network 220 through the ammeter 32 and the heating element 33 of the control object connected in series.

Unit 4 of the correction device consists of two inertia | Zion, which are opposed to each other: a corrective device 19 and a low inertia correction device 20. The heating elements of these devices are resistors 34 and 35 connected in parallel and parallel to the element 33.

An automatic non-contact temperature controller with load power control operates as follows.

If the temperature of the control object, for example, the melting grid in the melting head, is lower than the set one, the light from the light bulb 14 is blocked by the flag 13 and the photoresistor 5 is darkened. Its resistance at this m is large and the transistor 7 is closed. The transistor 9 opens upon the arrival of the minus in the circuit of the base. At the output of the first amplifier, made on transistors 7 and I, a voltage appears that excites the voltage converter.

The current arising at the output of the windings 25 and 26 of transformer 23 flows around the thyristor control circuit 30'31, which opens when a positive voltage half-wave passes through one voltage or a negative voltage half-wave across another thyristor. At the same time, a current flows through the heating element 3301 of the control object, the value of which will be shown by the ammeter 52. At the same time, the current flows to the heaters 34 and 35 of the correcting devices 19 and 20, and the low-inertia correcting device 20 puts the control system into the short-period oscillations, and the inertial correction device 19 slowly destroys the residual regularity caused by the action of the low-inertia correction device 20.

The activation time of the heaters varies by the same amount in both the correction device 20 and the control object. At the same time, the temperature of the control object remains unchanged.

Due to this feature of the correction device 20, the sensitivity of the temperature regulator and the accuracy of the adjustment are improved.

If the pointer of the millivoltmeter / reaches the reference arrow, 13 does not block the light from the light bulb 14, and the photoresistor 5 is illuminated and its resistance decreases.

Minus, arriving at the base of transistor 7, opens it. The transistor 9 is closed as its base potential increases. The current on the amplifier, performed on the transistors 7 and I am zero. Therefore, the source 2 control pulses are de-energized. In the output windings 25 and 26 of the transformer 23, the voltage is zero, and the thyristors 30 and 31 are closed, which will lead to the disconnection of the heater 33 of the control object and the heaters 34 and 35 of the correcting devices.

The power control of the load is carried out by changing the value of resis.

24. It has been established that the frequency of the pulses of the source 2 of the control pulses depends on the magnitude of the current in the transient collector circuit. 12. Therefore, the magnitude of the resistor 24 changes, changing the frequency of the pulses, which are obtained by the source of control pulses. This leads to the movement of pulses along the time axis. Power control is a phase cut-off method. This achieves speed in setting optimal control modes.

When the critical temperature reaches the heating element 33 of the object to be controlled by the photoresistor 6, the flag 13 is darkened, and the output of the second amplifier, made on transistors 8 and 10, causes a voltage applied to the divider. Plus, removed from this amplifier, is applied to the base of transistor 12 and closes it.

Similarly, protection also works in the case of a light bulb 14.

The control of thyristors 30 and 31 with the help of a source of 2 control pulses allows the thyristors to work 30 v. 31 b modes in which the pulse amplitude can be several times higher than the nominal value of the control current.

The subject of the reversal

Temperature controller containing photoresistance sensors included in the amplifier circuit, to the output of which are connected

tiristo.ry, and correction;) devices, characterized in that, in order to increase the sensitivity, in it the output of a single amplifier is connected, with the base, to a transistor of the source of control pulses, the collector of which

through the primary winding of the transformer, and the emitter through an adjustable resistor connected to the output of the second amplifier.