RU2628788C1 - Grain drying device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: grain drying device comprises a vertical casing made in the form of a cylinder, the outer surface of which is covered with a layer of heat-insulating material, a loading hopper, a discharge window, a conveying working member coaxially mounted within the casing with the possibility of rotation, and a cooling device consisting of a fan and an air duct. The transporting working member is made in the form of a flat perforated spring. The height of the flat perforated spring is equal to the maximum size of the grain to be dried. The loading hopper is installed above the flat perforated spring at its outer edge. The width of the discharge window of the loading hopper is equal to the distance between the adjacent coils of the multi-threaded flat perforated spring. A plate of the circular shape is installed on the multi-threaded flat perforated spring, rigidly connected thereto and equipped with a drive. The plate radius does not exceed the distance from the center of the multi-threaded flat perforated spring to the discharge window of the loading hopper. The heating element is placed under the transporting working member and is made in the form of a flat ring, the outer diameter of which is equal to the inner casing diameter, and the inner diameter of the flat ring is equal to the inner coil diameter of the multi-threaded flat perforated spring. The discharge window is made circular-shaped and is installed coaxially to the casing under the heating element. The discharge window diameter is equal to the inner diameter of the flat ring. The air duct of the cooling device is connected to the inner casing cavity from opposite lateral sides.

EFFECT: use of the invention will allow to improve the quality of grain drying and to reduce energy costs.

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Description

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

A device for drying grain [Device for drying grain. - Patent RU 2323580. Publ. 05/10/2008, Bull. No. 13], comprising a cylindrical casing, a loading hopper, an unloading window, transporting a working body coaxially mounted inside the casing with the possibility of rotation, as well as heating elements. The outer surface of the casing is covered with a layer of heat-insulating material. The transporting working body is made in the form of a screw with perforated turns, the diameter of the perforation does not exceed the minimum grain size. The casing is made integral, and its components are divided among themselves by rings made of heat-insulating material. 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 with the possibility of individually controlling the heating temperature of each of the sections of the casing. Each component of the casing is equipped with an individual heating element, and the end surface of the casing from the side of the loading hopper is perforated. In addition, the device comprises a cooling device, which consists of a fan and an air duct connected to the inner cavity of the casing behind the discharge window.

The known device has the disadvantages of uneven grain drying and high energy costs for drying.

The technical result achieved by using the invention is to increase the quality of grain drying and reduce energy costs for drying.

The specified technical result is achieved by the fact that the casing is positioned vertically. The transporting working body is made in the form of a multi-start flat perforated spring. The height of the multi-start flat perforated spring is taken equal to the maximum size of the dried grain. A loading hopper is mounted above a multiple-entry flat perforated spring at its outer edge. The width of the outlet window of the loading hopper is taken equal to the distance between adjacent turns of a multi-start flat perforated spring. A round-shaped plate rigidly connected to it and provided with a drive is mounted on a multi-start flat perforated spring, and the radius of the plate does not exceed the distance from the center of the multi-start flat perforated spring to the outlet window of the loading hopper. The heating element is placed under the transporting working body and is made in the form of a flat ring, the outer diameter of which is equal to the inner diameter of the casing. The inner diameter of the flat ring is taken equal to the diameter of the inner coil of a multi-start flat perforated spring. The discharge window is circular in shape and is mounted coaxially to the casing under the heating element. The diameter of the discharge window is taken equal to the inner diameter of the flat ring. The air duct of the cooling device is connected to the inner cavity of the casing from opposite sides.

In FIG. 1 shows a general view of the device, and in FIG. 2 is the same, a section along AA, in FIG. 3 same top view.

The device for drying grain includes a vertically mounted casing 1, made in the form of a cylinder, the outer surface of which is covered with a layer of heat-insulating material 2, a loading hopper 3, an unloading window 4, coaxially mounted inside the casing with the possibility of rotation transporting the working body 5, as well as a cooling device, consisting from the fan 6 and the air duct 7. The transporting working body 5 is made in the form of a multi-start flat perforated spring. The height of the multi-start flat perforated spring is equal to the maximum size of the dried grain. The loading hopper 3 is mounted above a multiple-entry flat perforated spring at its outer edge. The width of the outlet window of the loading hopper 3 is equal to the distance between adjacent turns of a multi-start flat perforated spring. On a multi-start flat perforated spring, a round plate 8 is rigidly connected to it and equipped with a drive. The radius of the plate 8 does not exceed the distance from the center of the multi-start flat perforated spring 5 to the outlet window of the loading hopper 3. Under the transporting working body 5 there is a heating element 9 made in the form of a flat ring, the outer diameter of which is equal to the inner diameter of the casing 1, and the inner diameter of the flat ring equal to the diameter of the inner coil of a multi-start flat perforated spring. The discharge window 4 is made round and coaxially mounted to the casing 1 under the heating element 9. The diameter of the discharge window 4 is equal to the inner diameter of the flat ring. The air duct 7 of the cooling device is connected to the casing 1 from opposite sides.

The device operates as follows. Turn on the heating element 9, the fan 6 and the drive (not shown), which starts to rotate the round plate 8, and with it the transporting working member 5. After the surface of the heating element 9 reaches the required temperature, the grain is fed into the loading hopper 3 . Grain poured from the loading hopper 3 is captured by an external turn of the transporting working member 5 and then moves along its turns to the discharge window 4. Contacting the surface of the heating element 9, the grain also heats up, Grows excess moisture. The air flow created by the fan 6 passes through the duct 7, then through the perforation of the transporting working body 5 and, leaving the device through the feed hopper 3 and the discharge window 4, removes moisture evaporated from the grain.

By selecting the rotational speed of the transporting working body 5, the residence time of the grain in the device is established. Dry grain is removed from the device through the discharge window 4.

When using grain of another culture, the temperature of the heating element 9 is changed, and the frequency of rotation of the working body 5 is also changed.

The vertical arrangement of the casing of the installation, the execution of the transporting working body in the form of a multi-start flat perforated spring with a height equal to the maximum size of the dried grain, placement of the loading hopper above the flat perforated spring at its outer edge and the execution of the outlet window of the loading hopper with a width equal to the distance between adjacent turns of the flat perforated spring - all this ensures uniform loading of the device with grain and its distribution over the turns of the conveyor Static preparation unit body layer, which improves the grain contact with the heating element surface and provides a more uniform heating of the grains. In addition, the implementation of the transporting working body in the form of a multi-start flat perforated spring makes it possible to provide each grain with its strictly defined residence time in the grain, which improves the quality of drying, eliminating the possibility of overheating of the grains.

Placing a round-shaped plate on a multi-start flat perforated spring allows stiffness of the conveying working body, prevents the displacement of the turns of the flat perforated spring in the horizontal plane, as well as the change in the inter-turn space, and therefore the stability and quality of the drying process.

The implementation of a multi-start flat spring perforated and the connection of the air duct of the cooling device with the inner cavity of the casing from the opposite sides provides a high-quality removal of moisture evaporated during the drying process from the grain from the device.

The supply of the plate with a drive and its radius not exceeding the distance from the center of the multiple start flat perforated spring to the outlet window of the loading hopper allows the transporting working body to be rotated with the required frequency.

The location of the heating element under the transporting working body and its implementation in the form of a flat ring, the outer diameter of which is equal to the inner diameter of the casing, and the inner diameter of the flat ring is equal to the diameter of the inner coil of a multi-start flat perforated spring, allows to reduce the energy consumption for drying, since all the heat from the heating element directly transferred to the grain without the cost of overcoming additional thermal resistance.

Also, the high quality of drying is ensured by easy unloading of dry grain due to the placement of the round discharge window coaxially to the casing under the heating element and its diameter equal to the inner diameter of the flat ring.

The device can be used both independently and as part of technological lines for drying, roasting or sterilizing grain.

Claims (1)

A device for drying grain containing a casing made in the form of a cylinder, the outer surface of which is covered with a layer of heat insulating material, a loading hopper, an unloading window, transporting a working body, coaxially mounted inside the casing with the possibility of rotation, a heating element, and also a cooling device consisting of a fan and air duct, characterized in that the casing is located vertically, the transporting working body is made in the form of a multi-start flat perforated spring, the height being multi The initial flat perforated spring is equal to the maximum grain size to be dried, the loading hopper is mounted above the multi-starting flat perforated spring at its outer edge, and the width of the outlet window of the loading hopper is equal to the distance between adjacent coils of the multi-starting flat perforated spring, and the rigidly connected perforated spring is rigidly connected to it and the plate is equipped with a drive of a circular shape, and the radius of the plate does not exceed the distance from the center of the multi-start plate perforated spring to the outlet window of the loading hopper, the heating element is located under the conveying working body and is made in the form of a flat ring, the outer diameter of which is equal to the inner diameter of the casing, and the inner diameter of the flat ring is equal to the diameter of the inner coil of a multi-start flat perforated spring, the discharge window is made round and installed coaxially to the casing under the heating element, the diameter of the discharge window being equal to the inner diameter of the flat ring, and the air water cooling device is connected to the inner cavity of the casing from opposite sides.

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