SU125687A1 - Electronic moisture meter - Google Patents

Description

Electronic moisture meters are known, made in the form of two high-frequency generators, a mixer of frequency, a capacitive sensor filled with a sample of the test material and included in the oscillating circuit of one of the generators, an electronic circuit with a device, and a change in the output frequency of the generators depending on from the wall of moisture content of the material under test.

An onsite electronic moisture meter, in order to automate the temperature adjustment of the device in accordance with the temperature of the test material, has a device for controlling the production process in accordance with the humidity change and a thermal resistance installed in the sensor, which is connected to the variable diagonal resistance measuring and regulating devices.

The electronic moisture meter (see drawing) consists of two high-frequency generators 1 and 2 included in the general electronic circuit. The generator 2 contains a mixer of their frequencies. The capacitive sensor, amplifier 4 of the output frequency of the generators, amnlituduler 5, detector 6, measuring bridge 7, are included in the channel of the device 8, measuring the moisture content of the test material as a percentage of the change in the dielectric constant of humidity and temperature. The device 9 regulates any technological process for changing the moisture content of this material and power supply unit 70. The generator / is made on a double triode V /. A capacitive sensor 3 or a set of reference capacitors 14, the capacitance of which corresponds to the capacitance of an unloaded test material, is connected to the oscillating circuit 12 through a switch 13.

The described sensor is designed to measure the moisture content of non-conductive liquids, such as cream, and is designed as: 125687-2 -

trial 15, the loaded sample of the test material, and several plate electrodes. One part 16 of these electrodes is grounded, and the other part 17 is included in the oscillator circuit of the generator, changing its oscillation frequency in accordance with the change in the sensor capacitance, due to the change in the electrical conductivity value of the test material. The generator 2 is connected to the generator / inductive coupling 18 and is made on a mixing lamp 19. The output of the generator 2 is connected via capacitor 20 to amplifier 4 made on double triode 21, and the output of amplifier 2 is connected to amplitude driver 5 on double triode 22.

The output of the amplitude driver is connected through capacitance 23 to a detector 6 on a double diode 24 connected to a non-equilibrium measuring bridge 7. The measuring bridge is made on resistances 25, 26 c 27 w. thermal resistance 28, placed in a capacitive sensor.

The bridge power supply circuit includes rectifying diodes 29 and a variable resistance 30, by means of which a value of temperature compensation is established depending on the value of the temperature coefficient of the various materials tested. The diagonal of the bridge includes a measuring device 8, the readings of which are corrected by variable resistance 31, and the device 9, which regulates a technological process by changing the humidity of the test material. Resistance 32, is intended to set the initial value of the temperature correction. The moisture meter power supply unit 10 includes a transformer 33, a full-wave rectifier at the kenotron 34, a choke 35 connected to the rectified current circuit, and a stabilovolt 36.

The action of the electronic moisture meter is as follows.

Due to the change in the humidity of the sample of the test liquid, its dielectric constant changes, causing the capacitance of sensor 3 to change. The frequency of the generator / is mixed with the frequency of generator 2 and the resulting beat frequency is released on the mixing lamp 19, amplified by the amplifier 4, formed in amplitude by the driver 5 and is applied to measuring capacitor 23. This capacitance is charged and discharged at a beat frequency. The discharge current, proportional to the beat frequency, is rectified by the detector b and measured by instrument 8.

Automatic compensation of the change in dielectric constant of the test material due to a change in its temperature is carried out by a thermal resistance 28 placed in a capacitive sensor and included in the shoulder of the measuring bridge 7. The temperature correction is applied accordingly to the reading of the device 8 indicating the percentage moisture content of the test material, and also affects accordingly device 9, which regulates any process by changing the humidity of this material.

Subject invention

An electronic moisture meter, made in the form of two high frequency oscillators, their frequency mixer, a capacitive sensor, filled with a sample of the test material and included in the oscillating circuit of one of the generators, and an electronic circuit with a device measuring the moisture percentage from the change in the output frequency of the generators depending on on the degree of humidity of the test material, which is characterized by the fact that, in order to automate the introduction of temperature corrections to the instrument readings in accordance with the temperature of the test material a, in it a device for regulating the production process in accordance with the change in humidity and a thermal resistance installed in the sensor, included in the shoulder of the bridge on variable resistance, the diagonal of which is connected to the measuring and regulating devices.