SU1155897A1 - Device for automatic checking of physical-chemical properties of loose materials - Google Patents

Abstract

INSTALLATION FOR AUTOMATIC CONTROL OF PHYSICAL AND CHEMICAL PROPERTIES OF BULBS MATERIALS, containing a device for loading material, a device for forming a sample with sealing rollers, a device for feeding a sample into the measurement zone, sensors for physicochemical properties, measuring units and a device for removing a sample that is the fact that, in order to increase the accuracy of determining the content of elements by registering their characteristic radiation, the device for feeding the sample into the measurement zone is designed as a With an inclined axis of rotation having an annular groove on the upper surface for placing the sample, the installation is equipped with a working chamber with windows for connecting sensors for loading and removing the sample and channels for supplying and discharging light gases, the window for connecting the sensor for elemental analysis is located in the upper part chambers, and a razravnivatel and a skating rink, a ripper, are installed in front of the sealing rollers. SL

Description

The invention relates to the quantitative and qualitative analysis of various materials, in particular to the control of the mixing and can be used to control the properties of bulk materials.

A device for controlling the properties of a mixture of powders is known, comprising a rotating disk, a bulk device with a funnel, a leveling device, a scoop puller of spent material, and a sensor with a measuring unit 1.

A disadvantage of the known device is the impossibility of using light gases as a filler in the measuring chamber instead of air, which reduces the accuracy of the analysis for light elements when using X-ray or X-ray fluorescence analysis methods.

The closest to the technical essence and the achieved result to the proposed is an installation for automatic control of physical and mechanical properties of bulk materials, containing a device for loading material, a device for forming a sample with sealing rollers, a device for feeding a sample into the measurement zone, sensors of physicochemical properties, measuring blocks and specimen removal device 2.

A disadvantage of the known installation is the impossibility of analyzing the material in a light gas medium, which reduces the accuracy of the analysis for light elements.

The purpose of the invention is to increase the accuracy of determining the content of elements by registering their characteristic radiation.

This goal is achieved by the fact that in an installation for automatic control of the physicochemical properties of bulk materials, containing a device for loading materials, a device for forming a sample with sealing rollers, a device for feeding a sample into the measurement zone, sensors of physicochemical properties, measuring blocks and fixture to remove the sample, the device for feeding the sample into the measurement zone is made in the form of a disk with an inclined axis of rotation, having an annular groove on its upper surface The sample is equipped with a working chamber with windows for connecting sensors, loading and removing the sample and channels for supplying and discharging light gases, the window for connecting the sensor for elemental analysis is located in the upper part of the chamber, and an equalizer and a ripper are installed in front of the sealing rollers .

FIG. 1 shows an installation for the automatic control of the physico-chemical properties of bulk materials, a longitudinal section; in fig. 2 - the same, top view. The installation includes a base 1, on which a support 2 is installed, installed coaxially fixed mutually sealed disks 3 and 4, provided with internal recesses 5 and 6, forming a working chamber 7, in which a device for supplying the sample to the measurement zone is located, made in the form of a disk 8 with an inclined axis 9

 rotation mounted in the support 10 on the base 1 and equipped with a drive 11. The chamber 7 is provided with windows for connecting sensors to determine the physicochemical characteristics of the mixture (in this

5, the installation has a raw strength sensor 12 and a sensor 13 for analyzing the content of the initial components in the mixture), a loading device 14, a sample forming device with sealing rollers 15 and 16, a ripper roller 17 and

0 a suction port 18 of a device 19 for removing a sample. In the upper part of the inclined axis 9, the holder 20 is fixedly fixed, provided with a leveling device 21 and located on different

Level 5 rollers 15-17, made in the form of truncated cones, and forming each cone in the lowest position parallel to the upper edge of the annular groove 22 of the disk 8. The first roller 17 is equipped with loosening pins, the second

0 roller 15 is installed higher, and the last roller 16 is at the level of the upper edge of the annular groove 22. Sensors 12 and 13 are equipped with measuring blocks 23 and 24. The lower disk 4 is equipped with channels 25 and 26 with connections for supplying and discharging weakly absorbing gas, for example gels.

The installation works as follows.

The powder sample passes through the device 14 for loading into the annular proq point 22 of the disk 8 driven by the drive 11 and successively (it goes under the rollers 17-15, which loosen, compact and smooth its surface. The use of the roller-ripper promotes better distribution

The 5 degrees of compaction of the test material of the bore 22 in height and to the side of the profile of the loosening elements, as a result of which the uniformity and uniformity of compaction of the test material in the groove is increased. The compacted sample of the mixture is transferred under the material analysis sensor 13 for the content of the starting components, for example, X-ray spectral. The weak absorbing gas is supplied through the gas supply channel with the nozzle 25 located to the sensor 13 installation site, and is discharged through the gas exhaust channel with the nozzle 26 located after the sensor 13 installation site. Making the disc inclined prevents the weakly absorbing gas from entering the preparation zone and sampling, which improves working conditions and reduces gas leakage outside the analysis zone of sensor 13, which is located in the upper part of the chamber.

Next, the compacted sample of the mixture is moved by the disk 8 under the raw strength sensor 12. The magnitude of the raw strength is judged by the depth of penetration of the tip of the sensor 12, rolled along the sample. Installation

may be equipped with other sensors to determine the physicochemical characteristics of the mixture. Removal of the analyzed sample is made by the suction device through the suction

pipe 18.

Thus, the invention allows to increase the efficiency of the installation by ensuring the uniformity of the physicochemical properties of the sample.

and the accuracy of determining the content of light elements at low concentrations.

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Claims (1)

INSTALLATION FOR AUTOMATIC CONTROL OF PHYSICAL AND CHEMICAL PROPERTIES OF BULK MATERIALS, comprising a device for loading material, a device for forming a sample with sealing rollers, a device for feeding the sample into the measurement zone, sensors of physicochemical properties, measuring units and a device for removing the sample, characterized in that, in order to improve the accuracy of determining the content of elements by recording their characteristic radiation, the device for feeding the sample into the measurement zone is made in the form of a disk with the inclined axis of rotation, having an annular groove on the upper surface for placing the sample, the installation is equipped with a working chamber with windows for connecting sensors to load and remove the sample and channels for supplying and removing light gases, and a window for attaching a sensor for elemental analysis is located in the upper part of the chamber , and in front of the compacting rollers, a leveler and a roller - ripper are installed. <A / g / SL SL QO WITH m>