SU1377698A1 - Thermogravimetric moisture meter - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure the moisture content of bulk materials. The aim of the invention is to improve the measurement accuracy. The device contains a cargo area, placed in a drying chamber and connected to an electromagnetic vibrator, a displacement sensor, displacement signal amplifiers and a derivative of a displacement signal, an adder indicator. An increase in the measurement accuracy is achieved by measuring the weight of the sample in the levitation mode, eliminating the effect on the measurement of the elements providing the material shaking. 1 il.

Description

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The invention relates to technical physics, namely, moisture measurement, and can be used in construction, foundry, agriculture and other industrial areas where moisture measurement of bulk materials is required.

The purpose of the invention is to improve the measurement accuracy .JQ

The drawing shows a block diagram of the moisture meter.

The moisture meter contains a spill chamber 1, a lifting platform 2 with a breakdown 3 of the test material, an inductive 15 transducer 4, a solenoid 5, a magnetic rod 6 with a metal ring 7, a current regulator 8 consisting of a high-frequency generator 9, a detector 10 forming the displacement sensor - 20 Neither cargo area, indicator 11, amplifier 12, signal of movement of cargo area / amplifier 13 by transducer, adder 14, power amplifier 15, contact 16 of amplifier circuit 25 13 by derivative, time relay 17.

The moisture meter works as follows o. ,

Load area 2 with sample 3 of the test material is placed in 30 drying chamber I and, using magnetic rod 6, is freely suspended in the magnetic field of solenoid 5. Electromagnetic compensation method is used to hold magnetic rod 6 in the working zone of the solenoid. In this lower part of the rod 6, there is a metal ring 7, which acts as a sensitive element of the high-frequency inductive sensor 4, included in the oscillator circuit of the generator 9, whose amplitude of oscillation is proportional to the position of the ring 7 relative to the sensor coil 4, Output signal 5 the generator after the end of the detector, the detector 10 is fed to the input of the amplifier stages. In order to keep the magnetic rod 6 in a state of free-floating (levitation), the contact of the time 17 relay should be closed. At the same time, the derivative signal amplifier 13 is included in the amplification circuit. Then the signal from the output of the amplifier 13 of the derivative signal is amplified by each of them, it is summed at the adder 14 and fed to the power amplifier 15 by adjusting the current of the solenoid 6. The magnetic field generated by this interacts

magnetic rods 6 and creates a balancing electromagnetic force that keeps the rod 6 with the breakdown in suspension. In this case, the initial current weight of the sample of the test material can be determined from the magnitude of the current of the solenoid calculated on the indicator 11.

After reading the weight of the sample on the scale of the indicator 11, the relay 17 opens contact 16 and turns on the heating source for the drying chamber (not shown). This turns off the signal amplifier 13 with respect to the derivative. The overall gain factor of the tcoregulator 8 increases dramatically, and the damping properties of the system weaken. As a result, the levitating system of the rod 6 — the load-receiving platform 2 with the sample 3 enters a state of auto-oscillation in the vertical direction, causing the sample to shake, which facilitates its movement during the drying process.

After a predetermined drying time of the sample, the relay 17 closes the contact 16o. This again switches on the amplifier 3 "The overall gain of the current regulator decreases and the damping properties of the system are enhanced. As a result, the system switches from a rotary mode to levitation mode. The duration of this transition is several seconds. At the end of this time, a report is generated on the solenoid current indicator 11 proportional to the weight of the dried sample.

According to the values of the solenoid currents before and after drying, the humidity of the test material can be calculated

The application of the invention provides an increase in the accuracy of measuring the moisture content of bulk materials as a result of the absence of an error introduced by the electrons maintaining the mode of shaking the sample.

Formula of the invention

Thermogravimetric moisture meter containing a drying chamber with a load-receiving platform placed in it, rigidly connected with a mechanical vibration excitation unit in a magnetic field of a coil, and a load-receiving displacement sensor connected through an adder and an amplifier with a mechanical oscillator coil, indicator, about and due to the fact that, in order to increase the accuracy of measuring the moisture content, it additionally contains a relay contact, a signal amplifier moving the load area, a signal amplifier producing displacement signal, the displacement amplifier is connected to the output of the displacement sensor and the first input of the adder, and the derivative signal amplifier is connected via a switch to the output of the displacement sensor and the second input of the adder, and the indicator is connected to the winding of the excitation unit.

Claims (1)

Claim A thermogravimetric moisture meter containing a drying chamber with a load receiving pad located therein, rigidly connected to a mechanical vibration excitation unit in the coil’s magnetic field, and a load receiving pad motion sensor connected through an adder and amplifier to a mechanical vibration excitation unit coil, indicator, and>. characterized in that, in order to increase the accuracy of measuring wetness, it further comprises a relay contact, an amplifier for the load platform movement signal, a signal amplifier for the derivative of the movement signal, the movement amplifier connected to the output of the movement sensor and the first input of the adder, and the signal amplifier the derivative through a key connected to the output of the displacement sensor and the second input of the adder, and the indicator is connected to the winding of the excitation block. Compiled by V. Nemtsev