SU145786A1 - Pressure Regulator - Google Patents

Description

The present invention relates to pressure regulators using hollow vibrators, the rigidity of which depends on the applied pressure.

The proposed controller differs from the known ones in that it employs an additional hollow vibrator with a natural oscillation frequency and a generator with self-excitation.

Such an embodiment of the device allows one to have clear indications of the nominal pressure value, increases the sensitivity and accuracy of the device readings, as well as the reliability of its operation.

FIG. 1 shows a regulator circuit; in fig. 2-inclusion in the regulator of the windings of its reverse output.

The pressure regulator is a hollow vibrator, polarized by a permanent magnet and placed in an air gap of an E-shaped magnetic system. When the pressure in the cavity of the vibrator changes, its elasticity changes and, consequently, its own resonant frequency, which makes it possible to judge the change in pressure. An additional reed vibrator having a certain natural frequency of oscillation allows the output signal to note a certain nominal frequency and the corresponding nominal value of the measured pressure corresponding to it. A magnetic system with polarized vibrators is included in a semiconductor oscillator with self-excitation, the output frequency of which depends on the measured pressure. The regulator (Fig. 1) consists of an E-shaped steel core 7 with two individual windings 2 and 5 and one common winding-4.

In one of the air gaps of the core, a hollow tongue vibrator 5 is placed in the form of a steel tube, embedded in the base 5, through which pressure is applied. A vibrator 7 is placed in another gap of the core, fixed to the same base 6.

No. 145786-2 Both vibrators are polarized with a permanent magnet NS. The parameters of the vibrators as well as the windings of the circuit and the core are chosen so that with stationary vibrators the magnetic fluxes on the middle rod are equal and opposite in direction, and the voltage v on the winding 4 will be zero with the same vibration amplitude of the vibrators at the intermediate frequency / o; the voltage v will be maximum at the resonant frequencies fs and f of the vibrators 5 and 7, due to the fact that at these frequencies the oscillation amplitude of one vibrator is maximum and the other is close to zero, which causes an increase in the winding inductance of one arm and a decrease in the other . When the frequency changes from / about voltage, v will change.

The iKOHTypa windings 2 and 3 are included in the collector circuit of semiconductor triode 8, and winding 4 is a positive feedback winding. The winding from this winding is applied to triode 9, from which, after amplification, the signal goes to the base of triode 8. The turn-on phase of winding 4 is chosen so that it provides circuit excitation at a frequency close to the resonant frequency of the hollow vibrator 5. The circuit is energized stress when in ko; There are fluctuation noise with a wide range of frequencies in the electric circuit of the triodes. Vibrators oscillate with frequencies equal to their resonant frequencies with negligible amplitudes. When these frequencies are different in magnitude, then there is always some frequency at which the circuit circuit is unbalanced, which leads to the appearance of a positive feedback signal and the appearance of self-firing.

The generated voltage is removed from the windings 10 and / / loop and is fed to the device, giving a constant voltage at the output, the polarity of which depends on the magnitude of the generated frequency. Such a device is a resonant relay with a DC output. The device contains two vibrators (tongues) placed in the air gaps of the core; if the vibrator vibrations placed in the core gap with windings 12 and 13 (Fig. 2) are larger in amplitude, their inductance increases and windings 14 and 15 decrease. A current circuit is then carried out: from the winding 14 through the load and the winding 15 (the unbalance current flows in the opposite direction). In this way, the phase-sensitivity of the circuit is achieved when the frequency is changed. As a result, the total output of the circuit will be the voltage of one polarity at a pressure less than the nominal; the voltage will be zero at a pressure equal to the nominal, and, finally, the voltage will be of another polarity at a pressure greater than the nominal. The regulator with an electromechanical vibrator is stable in operation. Regulator to find application in industry.

Subject invention

1. Pressure regulator with a hollow vibrator, the stiffness of which depends on the applied pressure, characterized in that, in order to clearly indicate the nominal pressure value and increase the sensitivity of the device, a hollow vibrator is used in it.

2. Pressure control by n. 1, characterized in that, in order to increase the accuracy and reliability of its operation, a self-excited oscillator is used in it.