RU2372150C1 - Analyser of quality of grain and seeds cleaning - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to field of grain and seeds sorting and can be used for analysis of quality of grain and seeds cleaning. Analyser of quality of grain and seeds cleaning consists of body in which placed are slanting sieve with hole size equal to hole size of estimating sieve, electric drive with crankgear, primary and secondary receivers of descent, passage receiver, guide with inclined walls and tensosensors. Tensosensors are installed under slanting sieve, primary receiver of descent and passage receiver and are connected by means of cables with computer. Beams of cranckgear drive are fastened hingedly to the middle of slanting sieve on its side stiffening ribs.

EFFECT: invention allows to mechanise and automatise process of evaluating quality of grain and seeds cleaning.

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Description

The invention relates to determining the quality of cleaning grain and seeds and can be used to improve the method of evaluating the quality of cleaning.

The author does not know either the method or the analyzer of the quality of cleaning grain and seeds. Until now, the assessment of the quality of cleaning is carried out manually, which is a significant drawback of manual determination of the quality of cleaning.

The objective of the invention is the mechanization and automation of the process of assessing the quality of cleaning grain and seeds.

The problem is solved due to the fact that the analyzer of the quality of grain and seed cleaning consists of a housing in which an inclined sieve is placed with a hole size equal to the size of the holes of the evaluating sieve, an electric drive with a crank mechanism, primary and secondary vanishing receivers, passage receiver, guide with inclined walls and load cells, and the load cells are installed under the inclined sieve, the primary vanishing receiver and the passage receiver and are connected via cables to the computer, while a drive rod of a crank mechanism is pivotally attached to the middle of an inclined sieve on its lateral stiffeners.

New significant features of the analyzer:

- it consists of a rectangular case, in which are located: an inclined sieve with hole sizes and a possible operating mode equal to the estimated one, an electric drive with a crank mechanism, a primary exit receiver, a guide with inclined walls, a passage receiver and a secondary exit receiver, strain gauges for registration the pressure set under the inclined sieve, the primary receiver vanishing and receiver passage,

- the drive rod of the crank mechanism is pivotally attached to the middle of the inclined sieve along its lateral stiffeners,

- the computer is installed autonomously, and cables for receiving an electric signal from strain gauges are connected to it.

New significant features of the method:

- first make a quality analyzer,

- then take a sample (100 g) from the exit from the evaluated sieve and pour it onto the surface of the inclined sieve of the analyzer,

- turn on the crank mechanism, and within 3-5 minutes process the sample (sample) from the vanishing,

- then strain gauge data is processed on a computer and the result of processing is obtained in the form of quality indicators: sorting coefficient - Ks. = (Forward + Ext.) / (Forward + Ext. + Sun), where Forward. - weight of the passage fraction, Ext. - the weight of the face value (stuck seeds in the holes of the sieve), Sun. - weight of the passing fraction,

- then take a sample (100 g) from the passage from the test sieve and process it on the analyzer in the same way as the gathering.

The technical result is achieved due to the fact that:

- the method for determining the quality of cleaning grain and seeds uses the analyzer as a means of mechanization and automation of operations of the method,

- take a sample (100 g) from the gathering and pour it onto the surface of the inclined sieve of the analyzer, turn on the crank mechanism and process the sample (weighed) from the gathering for 3-5 minutes, and then strain measurement data are processed on a computer and a sorting coefficient of Ks is obtained. ,

- then take a sample from the passage from the test sieve and process it on the analyzer in the same way as the gathering.

Figure 1 shows a longitudinal section of the analyzer; figure 2 is a section aa in figure 1, showing the internal relationships of the analyzer mechanisms.

Consider the analyzer device. It consists of a rectangular housing in which there is: an inclined sieve 2 with hole sizes and a possible operating mode equal to that estimated, an electric drive 3 with a crank mechanism 4, a primary exit receiver 5, a guide with inclined walls 6 and 7, a passage receiver 8 and the secondary receiver 9 descent, strain gauges 10 for recording pressure, installed under the inclined sieve 2, the primary receiver 5 descent and receiver 8 pass. The actuator rods 11 of the crank mechanism 4 are pivotally attached to the middle of the inclined sieve 2 along its lateral stiffeners 12, and the computer 13 is installed independently, and the electric signal cables 14 from the load cells 10 are connected to it.

The workflow is an example of the method for determining the quality of cleaning grain and seeds and consists in filling a sample (100 g) from the outlet from the sieve to the surface of the inclined sieve 2 of the analyzer, turning on the crank mechanism 3 and processing it for 3-5 minutes a sample (sample) from the gathering, then strain gauge data is processed on a computer and the result of processing is obtained in the form of quality indicators: sorting coefficient - Ks. = (Forward + Ext.) / (Forward + Ext. + Sun), where Forward. - weight of the passage fraction, Ext. - weight of the denomination (stuck seeds in the holes of the sieve); Sun - the weight of the exit fraction, then a sample (100 g) is taken from the passage from the test sieve and processed on the analyzer in the same way as the exit.

Claims (1)

An analyzer of the quality of cleaning grain and seeds, consisting of a housing in which an inclined sieve is placed with a hole size equal to the size of the holes of the evaluating sieve, an electric drive with a crank mechanism, a primary and secondary descent receivers, a passage receiver, a guide with inclined walls and load cells, moreover strain gauges are installed under the inclined sieve, the primary exit receiver and the passage receiver and are connected via cables to the computer, while the drive rods of the crank mechanism are attached us pivotally to the middle of the sieve on its oblique side stiffeners.

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