RU2506506C1 - Grain drying device - Google Patents

Abstract

FIELD: heating, drying.

SUBSTANCE: invention refers to agricultural engineering, and namely to grain drying devices. The grain drying device includes a cylindrical casing, the outer surface of which is coated with a heat-insulating material layer, a loading bunker, an unloading opening, a transporting working element, heating elements, a fan and an air pipeline. The casing is made in the form of a horizontally located cylinder divided into two parts along a horizontal symmetry axis. Upper part of the casing is made from heat reflecting material and hinged above lower part of the casing with possibility of being fixed in the operating position. The transporting working element is made in the form of a screw with a hollow perforated shaft; screw perforation is made between the loading bunker and the unloading opening with the diameter of openings, which does not exceed minimum grain size. Screw turns have gaps. The casing lower part and the screw are made from heat-conducting material. Heating elements are located on outer surface of the casing lower part under the heat-insulating material layer. Along the casing symmetry axis, in the screw shaft cavity there installed is a fixed horizontal plate throughout the casing length. The air pipeline with a fan are connected to internal lower cavity of the screw shaft, which is restricted with a plate and inner surface of the screw shaft, and a heater is installed in the air pipeline.

EFFECT: reducing energy costs for moisture evaporation process and simplifying maintenance of the device.

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Description

The invention relates to agricultural machinery, in particular, to devices for drying grain.

A device for drying grain [Device for drying grain. Patent RU 2263862. Publ. November 10, 2005, Bull. No. 31], comprising a cylindrical casing, the outer surface of which is covered with a layer of heat-insulating material, a loading hopper, an unloading window, a perforated cup concentrically fixed in the casing from the side of the unloading window, located between the loading hopper and the unloading window, the perforation being gradually increasing from the loading hopper to the discharge window with the dimensions of the holes, coaxially mounted inside the casing with the possibility of rotation transporting the working body of the spring type, placed in the gap a gap between the casing and the glass, heating elements, a cooling device consisting of a fan and an air duct connected to the internal cavity of the glass behind the discharge window. The transporting working body is of rectangular cross section, heating elements are placed on the outer surface of the casing under a layer of heat-insulating material between the loading hopper and the discharge window along helical lines, the end surface of the casing from the side of the loading hopper is perforated.

The known device has disadvantages, which include high energy consumption for the process of evaporation of moisture, as well as the complexity of the maintenance of the device.

The purpose of the invention is to reduce energy consumption for the process of evaporation of moisture and simplify maintenance of the device.

This goal is achieved by the fact that the casing is made in the form of a horizontally located cylinder, divided into two parts along the horizontal axis of symmetry. The upper part of the casing is made of heat-reflecting material and mounted pivotally over the lower part of the casing with the possibility of fixing in the working position. The transporting working body is made in the form of a screw with a hollow perforated shaft, perforation of the screw is performed between the loading hopper and the discharge window with a hole diameter not exceeding the minimum grain size, the turns of the screw are made with gaps, the lower part of the casing and the screw are made of heat-conducting material. Heating elements are located on the outer surface of the lower part of the casing under a layer of heat-insulating material. Along the axis of symmetry of the casing, a fixed horizontal plate is installed in the cavity of the screw shaft along the length of the casing. An air duct with a fan is connected to the inner, lower cavity of the screw shaft, bounded by the plate and the inner surface of the screw shaft, and a heater is installed in the duct.

Figure 1 shows a General view of a device for drying grain, and figure 2 is the same, a section along aa.

The device for drying grain includes a horizontally arranged cylindrical casing, divided along the horizontal axis of symmetry into upper 1 and lower 2 parts, a loading hopper 3, an unloading window 4, a transporting working member 5, a fan 6, an air duct 7 and heating elements 8. The upper part 1 of the casing made of heat-reflecting material and mounted above the lower part 2 on the hinge 9. The transporting working body 5 is made in the form of a screw with a hollow perforated shaft, with a hole diameter of 10 not exceeding the minimum size grain. Perforation of the screw is made between the loading hopper 3 and the discharge window 4. The lower part 2 of the casing and the screw are made of heat-conducting material. The turns of the screw are made with gaps. Along the axis of symmetry of the casing, in the cavity of the shaft of the screw 5 along the length of the casing there is a fixed horizontal plate 11, and the width of the plate allows you to completely cover the maximum horizontal section of the conveying working body 5.

The heating elements 8 are located on the outer surface of the lower part 2 of the casing under the layer of heat-insulating material 12. The duct 7 with the fan 6 is connected to the inner, lower cavity of the screw shaft 5, limited by the plate 11 and the inner surface of the screw shaft. A heater 13 is installed in the duct 7. Fixing in the working position of the upper part 1 of the casing can be carried out, for example, by latches 14.

The device operates as follows. Turn on the heating elements 8, fan 6 and heater 13. After reaching the required temperature of the lower part 2 of the casing, as well as the air supplied by the fan 6 to the inner lower cavity of the transporting working body 5, formed by the plate 11 and the inner surface of the screw shaft, the grain is fed into the loading hopper 3. From the loading hopper 3, the grain enters the transporting working body 5 and moves it to the discharge window 4. Contacting with the surface of the lower part of the casing 2 heated by the heating elements 8, with erhnostyu screw fed through a heated air duct 6 air fan 7, which is controlled by varying the heating temperature of the heater power of 13, as well as with the hot air discharged from the inner space of the conveying working member 5 through the openings 10, the grain is rapidly heated. The excess moisture removed from the grain in the form of steam is then pushed out through the feed hopper 3 and the discharge window 4. The dry grain is removed from the casing through the discharge window 4.

When using grain of another culture, the heating temperature of the lower part of the casing 2 is changed using heating elements 8, the temperature of the air supplied to the lower inner cavity of the shaft of the conveying working body 5 by means of the heater 13, and the speed of the working body 5 is also changed.

For maintenance of the device, the latches 14 are opened and the upper part 1 of the casing is tilted, turning it relative to the hinge 9.

The execution of the casing in the form of a horizontally located cylinder, divided into two parts along the horizontal axis of symmetry, with a hinged arrangement of the upper part of the casing allows to facilitate maintenance of the device.

The implementation of the transporting working body in the form of a screw from a heat-conducting material with a hollow perforated shaft, placement of perforations with a hole diameter not exceeding the minimum grain size between the loading hopper and the discharge window, placement along the axis of symmetry of the casing, in the cavity of the shaft of the screw along the length of the casing of a fixed horizontal plate as well as the connection of the duct with the inner, lower cavity of the screw shaft formed by the plate and the surface of the screw and the placement of the heater in the duct will allow to accelerate Programmable conveying working member and grains to improve the process of removal of moisture vapor the device for reducing the energy consumption for grain drying process.

Performing turns of the screw with breaks will increase the frequency of rotation of the screw, improve the turnover of the dried grain around its axis, increasing the uniformity of drying.

In addition, the separation of the casing into two parts along the horizontal axis of symmetry, the implementation of the upper part of the heat-reflecting material, and the bottom of the heat-conducting material and the placement of heating elements on the outer surface of the lower part of the casing under the layer of heat-insulating material, allows this device to be used at a higher energy level , since in the process of transporting grain with a screw, the maximum coefficient of its filling with grain does not exceed 0.5. At the same time, heat losses due to heating of parts of the device not in contact with grain are eliminated, and, as a result, energy costs are reduced.

Claims (1)

A device for drying grain containing a cylindrical casing, the outer surface of which is covered with a layer of heat-insulating material, a loading hopper, an unloading window, transporting a working body, heating elements, a fan and an air duct, characterized in that the casing is made in the form of a horizontally located cylinder divided into two parts along the horizontal axis of symmetry, with the upper part of the casing made of heat-reflecting material and mounted above the lower part of the casing pivotally fixed In the working position, the transporting working element is made in the form of a screw with a hollow perforated shaft, perforation of the screw is made between the loading hopper and the discharge window with a hole diameter not exceeding the minimum grain size, the turns of the screw are made with breaks, the lower part of the casing and the screw are made of heat-conducting material, heating elements are located on the outer surface of the lower part of the casing under the layer of heat insulating material, along the axis of symmetry of the casing, in the cavity of the screw shaft along the length of the casing A fixed horizontal plate is provided, the duct with a fan is connected to the inner lower cavity of the screw shaft, bounded by the plate and the internal surface of the screw shaft, and a heater is installed in the duct.

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