SU734563A1 - Device for determining grain quality - Google Patents

Description

The invention relates to electron-optical devices for analyzing the structure of various light-scattering objects and can be used to determine glassiness, damage by pests, such as a bug, turtles, and the fracturing of wheat and rice in grain storage and processing enterprises, as well as entymological examination, in mineralogy, forensics and for research purposes. A known device for determining grains damaged by a bug bug, containing an illuminator consisting of an incandescent lamp, a reflector and an infrared filter, a movable grain cartridge located in the light flux path, an optical system including a lens, and an electron-optical converter are installed in the housing. with a high-voltage power supply unit and an eyepiece 1 ts as healthy, vitreous. The analysis hinders the light glare during the passage of light in the intergranular space, the illuminated grains are not sufficiently contrasted against the background of the cassette, and the damaged and healthy (yellow-to-powder and mealy) grains do not clearly differentiate. The closest technical solution to the invention is a device for determining the quality of grain, mainly wheat and rice, containing a source, light, a cassette made in the form of a tube and arranged to move in a light path along the path of the light beam, a roller and an optical system. including a lens, an electro-optical converter with a high-voltage power supply unit and an eyepiece p 2. Using only transmitted light in an aforementioned device, making it possible to reveal the limits of changes in the structure of Novki (mealy stain injury lesions, etc.) does not allow to control its surface - wrinkle indentations, punctures against pest damage on the hearth, which is very important for the identification of an electron-optical imaging characteristics and grain quality. The optical system of this device causes a large vertical clearance, which makes it difficult for the operator to deal with it even in a sitting position. A constant circular cross-section of the guide baffle (the analysis of grains of large transverse dimensions. In addition, the accuracy of determining the fracture of rice grains is limited by the fact that the illuminator axis is inconsistent with the main axis of the optical system in the cross-sectional plane of the grains. accuracy of grain quality control. This goal is achieved by the fact that the device is equipped with an additional light source, control unit and prism installed in front of the ocular, the roller is made of a spring The guide is a gutter that has a through window, with the light sources located on both sides of the tube at an angle to one another.The guide chute can have a V-shaped cross-section. The variable resistors associated with the control unit are installed.The drawing shows the optoelectronic circuit of the proposed device.The device for determining the quality of the grain, mainly wheat and rice, contains a source of transmitted light 1, is made th of a transparent material cylindrical cassette 2 for 3 grains; located in the V-shaped cross section 4 having a through window 5, a roller 6 pressed by a spring 7 to the cassette 2 and defining a translational-rotary movement to it, an additional source 8 of reflected light and an optical system consisting of an objective 9 , an electron-optical converter 10, an eyepiece 11 and a prism 12. The misalignment angle between the longitudinal axes of the roller 6 and the cassette 2, as well as the ratios of their diameters, are chosen such that each grain moves in the field of view of the optical system o at least one turn. To change the magnitude of the light fluxes of sources 1 and 8 in their power supply circuits, variable resistors 13 and 14 connected to control unit 15 are installed, through which selectively connect one of the sources (or both) to the low-voltage power supply 16. The latter also loads the high-voltage power supply unit 17 of the electronic-optical converter 10. 7 4 The device operates as follows. The cylindrical cassette 2 is filled with grains 3 so that they are placed one after the other along the longitudinal axis, after which, rotating the roller 6, set it in the guide 4 and enter into the field of view of the optical system. Thereafter, the analysis of the grains is carried out both in transmitted and reflected light, or combined. In the first case, the control unit 15 supplies the supply voltage to the source 1, which through the window 5 illuminates the grains 3 in the cassette 2. Part of the infrared radiation is scattered in the grains 3, the contrast image of which is projected onto the photocathode of the optical-optical converter 10 on the screen which image is viewed through the eyepiece p 11 and the prism 12. The light passed by the grains 3 or the light passing through the intergranular space passes by the lens 9. Rotate the roller 6, set the cassette 2 translational-rotational motion, The grains are scanned from all sides and, by the nature of their image in transmitted infrared light, their quality is judged. The vitreous grains in this case are greenish — the luminescent colors of the phosphor of the screen of the electron-optical converter 10, which is rather thick and damaged by the bug, are respectively gray and black. The cracks in the grains mainly have a transverse spacing, therefore, due to the misalignment of the axes of the light source 1 and the main axis of the optical system in the longitudinal plane of the grains, a clear image of the trash shadows is achieved. Similarly, by supplying power only to the light source 8, the surface of the grains is analyzed in reflected infrared light. In this case, an inverse relationship is observed between the intensity of the luminescence of the phosphor of the screen of the electron-optical converter and the nature of the consistency: the foci of damage are seen the brightest, the powdery areas are darker, the vitreous are the darkest. In the case of sharing of transmitted and reflected light through the control unit 15 from the low-voltage unit 16, the power supply simultaneously to both sources 1 and 8 and, changing their light fluxes using variable resistors 13 and 14, achieve an optimal visual analysis effect. The use of reflected infrared light, sharing it with the passing, as well as the mismatch of the axes of the ist (1

Claims (3)

Claim 1. A device for determining the quality of grain, mainly wheat and rice, containing a light source, a cassette made in the form of a tube and arranged to move into. directing the light flux on the path 20, a roller and an optical system including a lens, an electron-optical converter with a high-voltage power supply and an eyepiece, characterized in that, in order to increase the accuracy of control, it is equipped with an additional light source, a control unit, and a prism mounted in front of eyepiece, the roller is spring-loaded, and the guide is a groove having a through window, while the light sources are located on both sides of the tube at an angle to one another. 2. The device, by π. 1, characterized in that the guide chute has a V-shaped cross section. 3. The device according to π. 1, due to the fact that, in order to change the light fluxes, variable resistors connected to the control unit are installed in the power supply circuits of the sources.