SU56147A1 - Device for automatically maintaining constant humidity, density, temperature, light, pressure, speed, concentration, and other variables - Google Patents

Description

The invention relates to a device for automatically maintaining constancy of humidity, density, temperature, light, pressure, speed, concentration, and other physical variables, in which a change in the controlled variable causes a change in its indicator — capacitance, self-induction, or resistance (resistance thermometer, photocell, etc. ) included in the electrical control circuit of the mechanism acting on the regulated physical quantity.

According to the present invention, it is proposed to drive an adjustable mechanism using two variable speed electric motors connected through a differential, powered by two thyratron rectifiers, one of which has an indicator of adjustable physical magnitude on the control grid circuit, and another one has the same standard setting element.

As one of the many possible examples of the use of the proposed device, a description of the paper moisture controller according to the invention is given below.

As a device that reacts to a change in the moisture content of paper, it is best to use a capacitor, as the most sensitive of all devices and reliably operating in various working conditions. In view of the absence of moving parts, such a capacitor has considerable strength and compactness.

A circuit for automatically maintaining the paper moisture constant using a capacitor is shown in the attached drawing.

The circuit contains two full-wave rectifiers on thyratrons, the anodic circuits of which include shunt electric motors of direct current. The primary windings of the transformers supplying the circuit are included in the AC network.

In the anode circuit of the thyratrons G, and T, a pulsating current flows and the engine MI rotates. By varying the capacitance of the variable reference capacitor Ci in the circuit of Ti and Gg thyratron nets, it is possible to change the average value of the anode current passing through the MI motor, i.e., the speed of the latter can be changed in this way.

The second rectifier with T3 and T thyratrons works in the same way as the first rectifier, only in the TS and T nets of the thyratron grids the capacitor C is installed on the paper machine. A change in the moisture content of the paper leads to a change in the capacitance of this capacitor, due to which the phase voltage of the grid voltage of the thyratrons Gz and 74 occurs and the average value of the anode current passing through these thyratrons changes. Therefore, the MZ motor included in the anode circuit of this rectifier works with a variable number of revolutions depending on the humidity of the paper.

Both engines operate on differential D, which is connected to valve B, which controls the flow of steam to the cylinders. As long as the paper moisture is normal and the engines run at the same speed, the shaft of the dial, the rotary valve is at rest, but as soon as the moisture of the paper changes, the speed of the motor MZ changes and the shaft connected to the valve will turn for adjusting steam to cylinders.

The advantages of the proposed system, compared with the existing ones, are simplicity, inertia, continuous and smooth control; adjustment speed and magnitude

depending directly on the speed and magnitude of the change in moisture of the paper; the possibility of establishing any proportionality between the sensitivity of the capacitor and the magnitude of the regulation by selecting the transfer of the differential to the valve shaft.

With the same success, the proposed controller can be used in other installations where smooth control is necessary, for example, to control the temperature. Variable resistances or photo cells can be used as an indicator and reference included in the circuits of the thyratron nets.

The subject matter of the invention.

A device for automatically maintaining constant humidity, density, temperature, light, pressure, speed, concentration, and other physical variables, in which a change in the controlled value causes a change in its indicator — capacitance, self-induction or resistance (resistance thermometer, photocell, etc.) included in the electrical control circuit of a mechanism acting on an adjustable physical quantity, characterized in that, in order to drive an adjustable mechanism, connected The potential of two variable speed electric motors powered by two thyratron rectifiers, one of which has an indicator of an adjustable physical quantity connected to the control grid, and the other has the same reference installation element. to the author's testimony of V.S. Smirnov and A.V. Godubeva L 56147