DD255097A1 - DEVICE FOR SORTING PLANT SEEDS ACCORDING TO THEIR DENSITY - Google Patents

Abstract

The device for sorting plant seeds according to their density is used to determine the proportion of empty seeds in a particular lot size and thus the germination of a batch. The application should be made primarily on farms for quality control. Via a conveyor, the seeds arrive individually and successively first in the beam path of a photodetector, wherein the size is determined, and then in an X-ray beam, wherein the absorption is determined. A minicomputer calculates the average density from the measured values and records the total count. {Germinability, X-ray, mean density, small calculator}

Description

For this 1 page drawing

field of use

The invention relates to a device for determining the quality of seed on farms _t, in particular for determining the germination capacity.

Characteristic of known technical solutions

To check the germination ability of a seed sample, it is common practice to perform a laboratory germination test. In this case, a sample of the seed to be examined is placed on a substrate and after a certain number of days, the number of germinated seeds is determined (see Heinrich, 0., The agricultural seed, Berlin 1950) (see DD 235822, A 01 C / 00). This method is not suitable for quickly obtaining statements on seed quality. Another known method of seed evaluation is the x-ray of a sample. The seeds are placed on a photographic plate and exposed using X-rays. Subsequently, the photo plate is developed and evaluated by specially trained personnel (see Agafonow, N.S., Rentgenograficheskoe, Issledewanie Semjan, Sacharnaja Svetka, Moskva 1982). This method requires a high expenditure on equipment and trained personnel. The results are not immediately available. Thus, it is not possible to optimally adjust the machines for seed treatment.

Object of the invention

The aim of the invention is to obtain as quickly and easily as possible statements on the quality of the seeds in order to be able to intervene optimally in the production process.

Essence of the invention

The invention has for its object to determine the average density of individual seeds in order to sort them according to the criteria "full" - "empty".

According to the invention the object is achieved in that there is a first detector for determining the mechanical dimensions of the seed on a seed transport device. By a second detector with opposite source of a certain electromagnetic radiation, the absorption of this radiation by the seed is determined.

An evaluation and counting unit calculates the average density of the seed and represents the ratio of full and empty seeds

The measurement result can be used as a signal for the control of seed processing machines.

The transport device is varied according to the nature of the seed, in particular of the dimensions _t . This makes it possible to sort other bodies than plant seeds.

embodiment

The invention will be explained in more detail with reference to an embodiment shown in the drawing. The figure shows the schematic arrangement of the components of the device.

To a vibrating conveyor (1), in which the semen sample to be examined is located, the downpipe (2) follows. This is interrupted by two openings. At the first opening are located opposite a light source (3) and a silicon photodetector (5). The photodetector (5) is narrowed by a horizontal slit. The diameter of the slot is a fraction of the seed diameter. In the second opening are located opposite an X-ray detector (6) and an X-ray tube (4). In front of the detector is such a pinhole that a passing seed obscured in any case, the aperture. The axes of the detectors (5) and (6) are against each other

Offset 90 degrees. Below the downpipe (2) is the collection container (8). The detectors (5) and (6) are electrically connected to the microcomputer (7).

After switching on the plant, the seeds arrive individually and successively to the downpipe (2). There they first pass the beam path of the detector (5). According to their diameter, the slit is more or less covered. The reduction of the light output is registered by the detector (5). The microcomputer (7) stores the value of the largest occlusion for each seed. After that, the grains enter the beam path of the X-ray detector (6). The radiation axes offset by 90 degrees now determine the decrease of the X-ray intensity in the direction of the measured diameter. The microcomputer (7) in turn stores the value of the largest decrease and thus the Absorbtionswert. From both he calculates the average density. Based on a predetermined threshold of the microcomputer makes the decision "full" - "empty". In addition, the total number of seeds is counted. After a predetermined number, e.g. 100 or 1000 seeds, the measurement is automatically interrupted and the result is displayed. The obtained signals can be used for the archiving of measured values or for the direct control of seed processing machines.

The device is except for sorting the seeds for other parts that can be selected by means of electromagnetic radiation after their absorption.

Depending on the type of body to be examined, IR radiation, visible light, UV light or X-ray radiation can be used. For the respective purpose only the transport device is varied. Particularly in the case of microscopic parts, the transport of the parts within a liquid is possible.

Claims (2)

1. A device for sorting plant seeds according to their density, characterized in that at a transport device for seeds or other granular bulk materials, a erste.an known detector for determining the mechanical dimensions of the seed, a second ₍ known per se detector for determining the Absorbtion of a specific electromagnetic radiation through the seed with an opposite radiation source and an evaluation and counting unit are located. 2. Device according to claim 1, the evaluation result is used as an input signal for controlling machines for the treatment of seed to produce optimal seed lots.