SU1046664A1 - Thermogravimetric moisture meter - Google Patents

Abstract

A THERMOGRAVIMETRIC WATER, containing an integral chamber with a load-bearing platform located therein, which is rigidly connected to a coil of a magnetic compensator suspended on an elastic arm in a permanent magnet field, characterized in that a displacement sensor is additionally inserted in it to increase the accuracy of the measurement. pads connected to the inputs of the integrator and the threshold device with a symmetric static characteristic, the outputs of which through the adder and power amplifier are connected to the coil netic compensator meter and a recording unit connected to the output of the integrator. 4 9 Ct a

Description

The invention relates to a measuring technique, namely to devices for determining the concentration of a substance in the materials under study. A device for measuring the potential of materials is known, in which the drying chamber is combined with the weight meter and the drying is performed by infra red irradiators 1.. The drawback of the device is low measurement accuracy due to the fact that the sample of the material still lying on the bottom of the load cell of the weight gauge is unevenly heated in depth, which leads to overheating of the upper layer of the material when the lower layers have not dried yet. It is known that overheating of a whole range of substances leads to the occurrence of irreversible decomposition reactions, accompanied by a decrease in the weight of dry matter, and, consequently, to an increase in measurement error. The closest technical solution is a device for determining humidity, which contains a drying chamber with a load receiving platform located therein, which is rigidly connected to a coil of a magnetic compressor suspended on an elastic console in a permanent magnet field. . With the help of positive feedback, self-oscillations are excited in this mechanical system, during which the load-receiving platform with the dried material located on it performs reciprocating movements in the vertical plane, which promotes the mixing of the material. The mass of a material sample under investigation is judged by the resonant frequency of the system, which is recorded during measurements. Thus, by fixing the resonant frequency of the system, which is a function of the entire mass moved during the oscillation process, it is possible to calculate the mass of a sample of the material during its drying by nonlinear transformations. The disadvantage of the device is, firstly, the low measurement accuracy due to the fact that when the load-receiving platform vibrates, individual particles of a sample of a material that have a different shape, the mass, and therefore the speed of winding, do not simultaneously fly up and down onto the load receptor. This reduces the system quality, and hence the frequency measurement accuracy. Secondly, the mass of the sample, which is only part of the total mass of the mobile system, provides a non-linear dependence of the frequency on the measured mass. This necessitates the use of a functional converter that significantly complicates the system and introduces additional errors in moisture measurement. The purpose of the invention is to increase the points. measurement. The goal is achieved by the fact that a device for determining humidity, containing a drying chamber with a load receiving platform located in it, which is rigidly connected to a coil of a magnetic compressor suspended on an elastic console in a constant magnet field, additionally introduces a displacement sensor of a load receiving platform connected to the inputs of the integrator and the threshold device with a symmetric static characteristic, the outputs of which through the adder and power amplifier are connected to the coil of the magnetic compensator, and p gistrirukvdy flow meter connected to the output of the integrator. FIG. 1 shows a block diagram of the device; in fig. 2 - time diagrams of his work. The device contains a drying chamber 1, a load receptor platform 2, a coil 3 of a magnetic compensator, an elastic arm 4, a permanent magnet 5, a displacement sensor b of the load receptor, a threshold device 7, an integrator 8, an adder 9, a power amplifier 10, the unit 11 is registered, the device works following way. In the equilibrium state, when there is no hinge on the load receptor platform 2, the force of gravity of the moving part of the system, including the load receptor / platform 2 connected to the compensation coil 3, is compensated by the resisting force of the elastic console 4. In the steady state device, there are auto-oscillations that arise due to the presence of nonlinearity, represented in the form of a threshold device 7. The displacement of the moving part of the mechanical system relative to the equilibrium position. is detected by the displacement sensor 6 and converted into an electrical signal, bringing the threshold device into a state in which the magnetic force of the compensation coil 3 and the permanent magnet 5, formed by the current of the power amplifier 10, tends to return the moving part of the system to its original state. At the same time, the signal of the displacement sensor 6 produces a voltage at the output of the integrator 8, the polarity of which contributes to an increase in the current in the compensation coil 3. As a result of the inertia, the system returns to the neutral position at a finite time interval At, however, by inertia

Claims (1)

A THERMOGRAVIMETRIC HYDRAULIC METER containing a drying chamber with a ^Λ load receiving pad, which is rigidly connected to a coil of a magnetic compensator suspended on an elastic console in a permanent magnet field, characterized in that, in order to increase the measurement accuracy, a load pad moving sensor is additionally introduced into it connected to the inputs of the integrator and the threshold device with a symmetrical static characteristic, the outputs of which are connected through the adder and power amplifier to the magnetically the first compensator and a recording unit meter connected to the output of the integrator. $