SU1157450A1 - Method of graduating grain moisture meter - Google Patents

Abstract

THE METHOD OF GRADUATION OF MOISTURE WATER GRAINS, providing for the sampling of grain by varieties and soil-climatic growth zones, the preparation of samples for given humidity levels, alternate determination of the humidity of the sample by the exemplary installation and grain moisture meters, followed by a standard calibration parameter, which is the same as the aim of setting the calibration curve, which is the same as the aim of drawing the calibration characteristics for the grain, characterized by the standard installation and moisture meters for grain, followed by a standard calibration sample, which is the same as the aim of drawing the calibration characteristics for the grain, characterized by the installation and the calibration accuracy, before preparing samples for given humidity levels, an average sample is made by sampling followed by mixing samples of grain with a weight proportional to mass of each variety and soil-climatic zone of growth. (L with:: l -sJI 4 w o

Description

The invention relates to a measurement technique, in particular, to means for measuring the moisture content of hyperacine substances, and can be used in the calibration of grain moisture meters. The purpose of the invention is to increase accuracy. The drawing shows the average calibration characteristics of IVR grain moisture meters according to the known CO proposed 2} methods. The calibration of moisture meters is as follows. In order to obtain an average graded characteristic of moisture meters, samples of grain of the main varieties are taken within the culture and type grown in different soil-climatic zones of growth. The mass of the sample should be sufficient for measurement on a sample installation and on graduated moisture meters. From the initial samples of the grain, portions of the grain are taken with a mass mi proportional to the total grain mass of a given variety u Sho Sho, - where is the coefficient of proportionality; - varieties of grain in the total mass of the total grain produced. Selected portions of the grain are placed in a common container and mixed thoroughly to obtain a uniform composition throughout the volume. For calibration of moisture meters in the range of 8-35% humidity, the obtained average samples are prepared in six to eight humidity levels with a difference of 3-4%. On the day of this, the mixed mass of grain is divided into six to eight approximately equal parts, laid out in a thin layer and Suspend or moisten (with water vapor in a desiccator) at room temperature to a predetermined moisture level. After thoroughly mixing the prepared sample, it is poured into a hermetically sealed vessel, which is filled with 60% of the container, and placed in a thermostat at 10 ± 2 ke for less than 96 hours with periodical stirring. After evaporating, an average grain sample prepared at a predetermined moisture level is sampled to measure the moisture in the model plant and on moisture meters to be calibrated. Humidity on an exemplary installation is determined according to GOST 8.432-81 immediately after taking the samples. The output parameter in the dividing scale of the moisture meter is measured in accordance with the operating instructions. At least five measurements are consistently made on each moisture meter. For processing the measurement results, the graph-analytical method or the least squares method using electronic computers is used. The results of measuring the humidity (Wi) and the output parameter (N) of the calibrated moisture meter are plotted on the graph in the coordinates 1H and W). On the plotted points, an approximate calibration curve is constructed. IVZ moisture meters on millet grain. For grading, the main varieties of millet (Mironovskoye51, Saratovskoye-853 and Podolskoye21) were used, grown in Seva Ro-Caucasian (1), Central Chernozem (P) and Volga (W) soil-climatic zones. The initial samples were selected by weight, where w, the grain sample weight for measurement on the IVR moisture meter, m4, kg the mass of a grain sample to be measured on a sample installation, Tg 0.05 kg; y - the number of calibrated substances, P ;, 3; P2 - the number of repeated measurements.

31

n is the number of planned

humidity levels, n 6.

Goo 27.3 kg.

From the initial samples of each variety of millet, prrtsii of mass mj ShoR, proportional to the total mass of this type of millet grown in a given soil-climatic zone, were taken. The data cite; us in the table

Selected portions of grain were placed in a common container, thoroughly mixed. The resulting averaged sample divided into sixth approximately paBt & BC parts, which were used to obtain samples at given humidity levels,% 9-12; 17-20; 21-25; 26-30 {31-35. Subsequently, calibration was carried out. 1574504

sansm above way. Only for i calibration of moisture meters on the proposed method was consumed grain weighing m. Ni “kg. 5 For graduation by the known (the method was spent grain

weight (1

 P,

sh

where n is the number of varieties of millet grain used for calibration (clause 8, table) and 2185.4 kg. . From the curves shown in the drawing, the calibration characteristic obtained according to a known method has a systematic error (1.0–2.0% throughout the entire humidity range.

Mironovskoe-5I

Saratov-85 3

, Podol nskoe-21

0,277,37

0,030,82

0.123.2V

0.041.09

0,102,73

0,215,73

0.051.37

0.184.91

Claims (1)

METHOD FOR GRADING GRAIN HYDRAULES, which involves taking grain samples by variety and soil and climatic zones of growth, preparing samples according to given moisture levels, sequentially determining the moisture of a sample from an exemplary installation and grain moisture meters, followed by the construction of a calibration characteristic, characterized in that, in order to increase the accuracy , before preparing samples for given moisture levels, an averaged sample is made by sampling with subsequent mixing of grain samples with a mass proportional to the mass zhdogo.sorta and soil-climatic zone of growth.