SU414813A3 - - Google Patents

Description

The invention relates to a device for thermal measurements and is intended to control the temperature of various media, in particular oils, by means of a measuring zoid placed in a controlled environment.

Control circuits for controlling and adjusting independent quantities are known based on tilting amplifying circuits and measuring resistances.

Temperature control circuits consist of a washing system powered by direct current, to the bullet branch of which control bodies are connected, which may include executive bodies. A temperature independent resistor is included in the bridge branch, which serves as a measuring probe, the change in sleep) of which is a measure of the instantaneous value of the controlled well.

For working measurements, use: (Uyg iren. Substantially half bridge bridges. Chem.

Control circuits are known in which, at the junction point of the measuring resistance with the adjusting one, the tipping amplifier is of the Schmitter type trigger. The low impedance of this amplifier is obyc .iiaiijHiiiacT and the use of low-resistance and, therefore, inaccurate measuring circuits.

The aim of the invention is to improve the accuracy of measurement, i.e. the creation of a con2 scheme

The control temperature of different media works reliably and does not react 1 1 and a noise.

The goal is achieved due to the cathode of a semiconductor device, such as a Zener Zener diode, the anode of the device connected to the base of the transistor, the collector of which is connected through a control resistor with a positive voltage source, to the junction point of the probe and resistor and the emitter through a parallel-connected resistor and capacitor - with a zero non-potential of the constant-voltage source, with an on-switch input, with its amplifying circuit.

An outline of the temperature control scheme is presented.

I. Measuring probe 1 (thermstronic) li a resistor with a constant sonotnilennym 2 are connected in series to an additional and zero potentials of the terminal. At the point of the c-in, in-11 probe resistor ICL:) the cathode of the polarized zener diode or Zener 3 diode is obtained. The Traisistor 4 emitter is connected via a parallel-connected resistor b and a co-capacitor 7 with a zero potential voltage source and at the same time as the input A of the tipping circuit of the amplifier 8, for example, a Schmitt-type trigger. The amplifier may consist of two transistors 9 and 10, the emitters of which are connected to zero potential through resistor 11. The collector of transistor 9 is connected via resistor 12 with positive potential n through resistor 13 to base of transistor 10. Base of transistor 10 is connected to zero point via a resistor 14. The collector of the transistor 10 is connected to a positive note switch through a relay 15, to the contacts of which control or signal elements can be connected.

To ensure the reliability of the circuit in its normal mode, the nanoparticles are applied to the junction point of probe 1 with resistor 2. Due to this, the voltage level of the zener diode 3 is reached and through its current transistor 4, the base-emitter circuit. At the same time, the potential of the PA input A is determined by a voltage divider from adjustable resistors 5 and 6. Capacitor 7 filters out interferences that enter through the base-emitter of transistor 4, and the base-emitter section serves as additional resistance for capacitor 7, thanks to an R-O real element is created.

The potential at input A in normal operation is so high that a current passes through the transistor 9 of the tilting amplifying circuit, and a low note is applied through the resistors 12, 13 and 14 to the base of the transistor 10 so that this transistor is blocked. Due to this, through the coil of the relay 15, no current is flowing, and the relay is at rest.

If, in the event of interference, the measuring temperature sensor 1 is heated by its environment to a temperature that is set, its resistance decreases and the potential at the point of connection of the zoid with the resistance of constant resistance 2 decreases. In ipe3y; starts locking up.

If the potential decreases through resistor 6 or in input A so that the tipping amplifier's transistor 9 is locked, then the potential on the collector of transistor 9 and the base of transistor 10 increases, so that current flows through transistor 10. It forms a circuit: an emitter-collector of the Traisistor 10, a resistor 1 acting on the on-switch mode of the amplifying circuit 8, and a relay coil 15. The contacts of the relay are closed and the control units can be controlled. The required circuit trigger value

is selected by adjusting the south of the resistor 5. Resistors 5, 6 can be placed in places. By inserting the resistor 5 into the load value of the transistor 4, the undesirable influence of the measurement circuit is eliminated. Zeier 3 Diode

ensures optimal proportionality between the measuring probe 1 and the nastose resistance 2 resistor regardless of the voltage of the base - emitter of the transistor 4. The constant resistance of the resistor 2 is chosen such

so that the flow of current through the measuring probe 1 is organized to prevent its heating. The closer the potential of the connection point of the measuring probe 1 and the resistor 2 to the total potential,

the more accurate the circuit works. Optimization of the measurement loop 1 and the resistor 2 is thus limited only by the need to eliminate the heating of the test tube 1. Therefore,

A measuring sensor with low power is installed and no additional switching of the sensitive amplifying circuit is required.

PRIOR DIRECTORSHIP

The temperature control circuit, in particular, oils, containing a full-bridge circuit consisting of a temperature measuring probe and a resistor with a constant resistance, is different from the fact that, with a new increase in the measurement accuracy, the cathode of the conductor device, nanoparticles of the Zener diode or Zener diode, the anode of the device is connected to the base of the transistor, the collector of which is connected through an adjusting resistor with a constant voltage potential of the constant voltage circuit, and the emitter but included a resistor and a capacitor with zero poteptsialom DC source voltage and to the input of the amplifying circuit tipping.