SU1693465A1 - Method of determining particle size of flowing loose material - Google Patents

Abstract

The invention relates to a measurement technique, in particular, controlling the size of bulk dielectric materials, and can be used in the feed industry to determine the size of particles of crushed grain. The purpose of the invention is to improve the accuracy of determining the size of the particles. The microwave radiation generator irradiates the flow of bulk material through an antenna. The energy reflected from the particles through the antenna enters an amplifier and a calculator that determines the radiation attenuation and calculates the average particle diameter from the established relationship between the radiation wavelength, radiation attenuation and average particle diameter. To determine particle diameters in the range of 1-5 mm, the radiation wavelength varies using the control unit. 2 yl

Description

The invention relates to a measurement technique, in particular, controlling the size of bulk dielectric materials, and can be used in the feed industry to determine the size of particles of crushed grain.

The aim of the invention is to improve the accuracy of particle size determination.

FIG. 1 is a flow chart illustrating the method; in fig. 2 - graphs of the particle size D as a function of the wavelength I for various attenuation values N.

The method of determining particle sizes is carried out as follows.

In the generator 1, microwave oscillations are generated, which enter the transmitting antenna 2, which radiates energy to the particle flow 3.

The reflected energy of the microwaves from the particles, characterizing their size, is fed to the receiving antenna 4, amplifier 5, and then to the calculator 6, which calculates particle sizes from a predetermined relationship between the average particle diameter, microwave oscillation wavelength and the attenuation value D f (A , N) is similar to the graphs in FIG. 2

Since at a fixed wavelength it is impossible to determine the sizes of particles in the entire possible range of sizes, the wavelength is increased if necessary. For this, the control unit 7 acts on the microwave generator 1, changes the wavelength of the oscillations generated and sets the source data for the calculator 6.

Example: Set a wavelength of 30 mm and determine the attenuation value, which is 50 dB, therefore, the average particle size is 1 mm. If there is a change in particle size and grinding becomes larger, then the attenuation value will change (decrease), for example, to 10 dB, then the average particle diameter of 4.8 mm.

Claims (1)

The invention The method of determining the size of particles of the bulk material in the stream, including the movement of the studied particles, their irradiation, the registration of scattered radiation 0 and determination by measured values, characterized in that, in order to increase the accuracy of determining particle sizes, their flow is irradiated with microwave radiation with a wavelength not less than 10 mm, the reflected signal is recorded, the attenuation of the radiation is determined, and the particle sizes are determined by a predetermined the dependence of the average particle diameter on the attenuation value at fixed wavelengths of radiation, while in the case of an increase in the size of the measured particles, the radiation wavelength is increased. four . Ai 10dB SODB 50ab D, mm O10 I. Shmakova 30 FIG. 2 Compiled by M. Rogachev Tehred M. Morgenthal 00 B ° o ° oo ° oo oo oo p ° ° ° about wow about o °: o zoo W50A, Proofreader O. Tsiple