SU1728768A1 - Capacitive primary converter - Google Patents

Abstract

Use: for measuring moisture of hard-flowing materials. SUMMARY OF THE INVENTION: The device comprises a cylindrical body with an additional elastic bottom, made in the form of a shell filled with gas or liquid and connected to a pressure gauge, as well as a sealing rod with electrodes of a capacitive sensor placed on it. 1 il.

Description

The invention relates to a measurement technique and can be used to measure the moisture content of difficult-to-flow finely divided materials.

A device for measuring the moisture content of a material in stationary conditions is known, equipped with a probe-receiving chamber with a bottom sealing rod, with electrodes of a diffused field located in its end part and an indicator of the degree of compression.

The drawback of the device is the uneven compression of the material in the sample chamber, which leads to a decrease in the accuracy of the measurement.

The closest to the present invention is a capacitive sensor, in which, in order to increase the measurement accuracy by reducing the random component of the error due to uneven distribution of the sample of the monitored material in the working area, the sample chamber is provided with an additional bottom, made as separate sections other by

direction of the applied force of the sealing rod by means of elastic elements. A spring is used as an elastic element, with one end attached to the bottom of the chamber and the other end to a separate section of the additional bottom. The disadvantages of the known devices include high accuracy, complexity and unreliability of the design. The complexity of the design lies in the presence of a large number of mechanical parts that require a perfect fit during assembly and springs. The design is difficult to manufacture, the possibility of jamming of the rubbing parts is not excluded.

In the second embodiment of the structure of this device, the additional bottom is made of an elastic material, for example rubber, by cutting it in height along 80-90% of the total height. This option is easier to manufacture, but it is more difficult to find the necessary degree of elasticity of the material. Moreover, when working inevitably hit the material in the proXJ

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cutting that requires the subsequent cleaning of the device.

Thus, it is not possible to create a uniform bulk density of the material in the sample chamber, because all the elastic elements exert the same pressure on the material column above each of them, only with the same degree of compression, otherwise the elastic element that is compressed in greater degree, will create more pressure, and, conversely, an elastic element with a lower degree of compression will create less pressure in the column of material above it.

The purpose of the invention is to simplify the design and increase the reliability of measurements.

The goal is achieved by the fact that a capacitive primary transducer for slow-flowing finely dispersed materials, comprising a cylindrical body with an additional elastic bottom, a sealing rod with electrodes placed on the surface in contact with the material, and an additional elastic bottom made in the form of a shell gas or liquid and connected to a pressure gauge.

The drawing shows the Converter, General view.

. The primary transducer includes a capacitive transducer, the electrodes 1 of which are embedded in the front part of the sealing rod 2, the cylindrical body 3, the base of which has an additional elastic bottom 4 with an integrated fitting 5 connected by a flexible hose 6 to a pressure gauge 7.

The Converter operates as follows.

A sample of the test material 8 is placed in a cylindrical body 3, filling it no less than 3/4 of its volume. Then, using an actuator (not shown), the sealing rod 2 is moved downward until a certain pressure is established, which is recorded by a pressure gauge 7, which is connected by a flexible hose b through fitting 5

with an additional bottom 4, perceiving the pressure in the cylindrical housing 3. In the process of compression in the cylindrical housing 3 under the influence of the force transmitted through the sealing rod 2, the density of the material 8 is equalized, and the total vector of elementary pressures generated by normal to elementary surfaces

additional elastic bottom 4 provided that the final pressure acting on the sealing rod 2 is the same, regardless of the uniform distribution of the bulk density of the material 8. Only in case of uneven distribution of the material in density, for example, due to the presence of air sinks additional elastic bottom 4 will begin to deform, in

as a result, the total vector will be decomposed into a set of vectors whose gradients will be directed to the areas of the lowest pressures (cavities) located above the convex surfaces

additional elastic bottom 4.

In the simplest case, to implement the proposed capacitive primary converter, an additional elastic bottom can be formed by the lower part of a cylindrical body separated from its working cavity by means of an elastic membrane, also filled with gas or liquid and connected to a pressure gauge. The present invention allows

increase the measurement accuracy by creating a uniform material density of a given value and simplify the design of the device.

Claims (1)

Invention Formula Capacitive primary transducer for slow-flowing fine materials containing a cylindrical body with an additional elastic bottom, a sealing rod with placed on contacting with the surface material electrodes, characterized in that, in order to simplify the design and increase the reliability of measurements, it contains a pressure meter, and an additional the elastic bottom is made in the form of a shell filled with gas or liquid and connected to a pressure gauge.