RU97279U1 - GRAIN DRYING DEVICE - Google Patents

Abstract

 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, coaxially mounted inside the casing with the possibility of rotation transporting the working body, made in the form of a screw, heating elements and a fan, while the casing is made integral, its components are separated by rings made of heat-insulating material, and the heating elements are placed on the outer surface of the casing under a layer of heat insulating material between the loading hopper and the unloading window, characterized in that the unloading window is made in the form of a perforated box of rectangular cross section, the diameter of the perforation of the box does not exceed the minimum grain size, a hole is made in the side of the box, on the outside of which there are guides, the box is inclined mesh with a hole size that does not exceed the minimum grain size, the mesh width being equal to the width of the inside of the box, the lower edge of the mesh is located on level of the bottom edge of the hole, and the fan is installed at the bottom of the duct.

Description

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

A device for drying grain [1], containing a loading hopper, a cylindrical casing with a discharge window. A transporting working element made in the form of a screw is coaxially mounted inside the casing with the possibility of rotation. On the outer surface of the casing between the loading hopper and the discharge window under the layer of heat-insulating material, heating elements are placed along helical lines. The screw turns are perforated, with a perforation diameter not exceeding the minimum grain size. The casing is made integral. The constituent parts of the casing are divided among themselves by rings made of heat-insulating material. Each component of the casing is equipped with an individual heating element with the ability to individually control the heating temperature of each of the sections of the casing. The end surface of the casing from the side of the hopper has perforation.

The known device has disadvantages, which include the inefficiency of the cooling device and overheating of the dried grain.

The purpose of creating a utility model is to improve the quality of grain processing.

This goal is achieved by the fact that the discharge window is made in the form of a perforated box of rectangular cross section with an opening in its side, and the diameter of the perforation of the box does not exceed the minimum grain size. On the outside of the box set guides. Inside the box, at the level of the lower edge of the hole, a mesh with an opening size that does not exceed the minimum grain size is inclined. A fan is installed in the lower part of the duct. The mesh is made with a width equal to the width of the inner part of the box.

Figure 1 shows a General view of the device.

The device for drying grain consists of a cylindrical casing 1, covered with a layer of heat insulating material 2, a loading hopper 3, an unloading window, coaxially mounted inside the casing 1 with the possibility of rotation of the transporting working body 4, made in the form of a screw. The casing 1 is made integral, and its components are divided among themselves by rings 5 made of heat-insulating material. Each component of the casing 1 is equipped with an individual heating element 6. The discharge window is made in the form of a perforated box 7 of rectangular cross section. The diameter of the perforation of the box 7 does not exceed the minimum grain size. A hole 8 is made in the lateral part of the box 7, on the outside of which the guides 9 are installed. Inside the box 7, at the level of the lower edge of the hole 8, a mesh 10 is set obliquely with a hole size that does not exceed the minimum grain size. The width of the grid 10 is equal to the width of the inner part of the duct 7. A fan 11 is installed in the lower part of the duct. The transporting working member 4 receives a drive from the electric motor 12 via transmission 13.

The device operates as follows. Turn on the heating elements 6. After reaching the required temperature of the casing, the grain is fed into the loading hopper 3, from where it enters the working area of the transporting working body 4 and moves it to the discharge window. At the same time, the fan 11 is installed, which is installed in the lower part of the perforated box 7. In contact with the heated surface of the casing 1, the grain also heats up and loses excess moisture, which is blown out as steam through the feed hopper 3 and the perforated box 7.

Dry grain, getting into the discharge window, is blown with air, pumped by a fan 11 through an inclined mesh 10, is cooled and removed from the device through the side window 8 of the box 7 along the guides 9.

The implementation of the discharge window in the form of a perforated box of rectangular cross section, the perforation diameter of which does not exceed the minimum grain size, allows for more intensive air exchange process - and to remove saturated water vapor from the device, which helps to improve the quality of grain processing by improving the conditions of evaporation of moisture and more quick cooling when unloading from the device. This is also facilitated by the installation in the lower part of the perforated fan duct.

The presence in the perforated box of an inclined mesh, as well as providing the side window with guides, contributes to a more efficient removal of dried and cooled grain from the device.

The source of information

1. Device for drying grain. - Patent RU No. 2323580. - Publ. 05/10/2008, Bull. No. 13.

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, coaxially mounted inside the casing with the possibility of rotation transporting the working body, made in the form of a screw, heating elements and a fan, while the casing is made integral, its components are separated by rings made of heat-insulating material, and the heating elements are placed on the outer surface of the casing under a layer of heat insulating material between the loading hopper and the unloading window, characterized in that the unloading window is made in the form of a perforated box of rectangular cross section, the diameter of the perforation of the box does not exceed the minimum grain size, a hole is made in the side of the box, on the outside of which there are guides, the box is inclined mesh with a hole size that does not exceed the minimum grain size, the mesh width being equal to the width of the inside of the box, the lower edge of the mesh is located on level of the bottom edge of the hole, and the fan is installed at the bottom of the duct.