SU974269A1 - Method of measuring stresses in loose materials - Google Patents

Description

The invention relates to mechanical processing of bulk materialovIzvesten annular shear device for determining stresses in bulk materials, comprising an upper and a lower annular cage for ⁵ sypuche- of material, the top of which is a commercial, the elastic members. The stress value is determined by measuring the deformation of the elastic element [11 ·

A disadvantage of the device is the inability to determine the stresses in conditions close to the conditions processi _{~) 5} ki bulk material.

Closest to the proposed is a device for measuring stresses inside a layer of granular medium containing a housing, elastic elements _{20 of the} sensors and measuring devices [2].

However, the device does not allow the measurement of stresses in processing conditions on the enclosing surface of a layer of bulk material.

The purpose of the invention is improving the accuracy of determination.

The goal is achieved in that the device for measuring stresses containing the housing, the elastic elements of the sensors and measuring devices, is equipped with a hollow cylindrical disk with a rod and a cargo area, the housing is sealed, and one of its walls is transparent, while the disk with a rod placed in the housing, and the elastic elements of the sensors on the inner cylindrical surface of the disk.

In FIG. 1 shows a device, a General view; in FIG. 2 is a section AA in FIG. 1.

The device contains a sealed housing 1 * one of the walls 2 of which is transparent, a hollow cylindrical disk · 3 placed in the housing with a rod 4 and a cargo area 5 "

974269 4 elastic elements of the b sensors placed on the cylindrical surface of the disk, measuring devices 7 <connected by means of supports 8 with sensors 6, nozzles for loading and unloading of bulk material. (Not shown). ''

The device operates as follows.

The housing is rotated, at 10 this material is subjected to intensive circulation movement for at least 60 s with a frequency of 410 rpm, while its physical and mechanical properties become similar properties that determine its behavior under processing conditions, then the housing is stopped, oriented rod 4 and cargo area 5 are strictly vertical. 20

A force of P = 10 kg per rod is applied and the magnitude of the voltage is measured. At the time of measurement, the elastic elements of the sensors should be placed under a layer of material.

Based on the measured voltages, the coefficient is calculated using the formula ⁶ f ⁼ 2Jip * ^C ° ^{S for} where p, s / · are the polar coordinates of the array point;

d - distribution coefficient;

n is the load on the array;

<3p - voltage at a point with coordinates p, cL,

The application of the invention will allow quickly and with greater accuracy to determine the stress and calculate the distribution coefficient of bulk material, which makes it possible to find the optimal design (shape and size) of devices with a moving layer of granular material.

Claims (2)

397 elastic elements of the fo sensors placed on the cylindrical surface of the disk, measuring devices 7 connected by means of supports 8 with sensors 6, branch pipes for loading and unloading bulk material (not shown). The device works as follows. The body is rotated, while the material is subjected to intensive circulation movement for at least 60 s with a frequency of 410 rpm, while its physicomechanical properties become similar to the properties that determine its behavior under processing conditions, then The hull stops, orients the rod C and the cargo area 5 strictly upright. Apply a force of kg and measure the value of voltage. At the time of measurement, the elastic elements of the sensors should be placed under the layer of material. Using the measured voltages, the coefficient is calculated by the formula of the coordinate of the point of the polar array; coefficient of distribution abilityJ value of the load on the array; voltage at a point with coordinates p,. The application of the invention makes it possible to quickly and with greater accuracy determine stresses and calculate the distribution coefficient of the bulk material, which makes it possible to find the optimal design (shape and size) of devices with a moving layer of granular material. Claims A device for measuring stresses in bulk materials, comprising jkopnyc, elastic sensor elements and measuring devices, characterized in that, in order to improve the accuracy of determination, the device is equipped with a hollow cylindrical disk with a rod and a load platform, the body is sealed, and one of its walls are transparent, with the disc with the stem placed in the housing, and the elastic elements of the sensors on the inner cylindrical surface of the disc. Sources of information taken into account in the examination 1. The author's certificate of the USSR 01 N 3 / 2it, 197. Number 418759, cl. G 2. USSR author's certificate number 256322, cl. G 01. N 33/2, 19b7 (prototype). lk IT .2 .four f  B Fm.g