RU2736069C1 - Solar dryer for grain drying - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to drying equipment and is intended for grain drying. Grain dryer for grain drying contains loading and receiving bins, drying chamber with translucent housing, in which a belt conveyor with an electric motor is installed, under the upper part of the belt conveyor along its entire length a tubular type heating element is located, also between the loading hopper and the belt conveyor there is a grain distributor. Additionally, the solar dryer comprises an accumulating reservoir with water, an electric fan, a supply pipe, an air solar panel, an adjusting screw, wherein tubular type heating element is made in form of coil which is connected to accumulating reservoir with water, tape of belt conveyor is made of separate grate grids, having a flexible connection between each other, grain distributor is made in the form of a knife connected to the adjusting screw, and width equal to the width of the belt conveyor, the electric fan inlet is connected to the supply pipe, and the output is connected in series with the air solar panel and the drying chamber with the translucent housing, in the upper part of which there is a ventilation hole.

EFFECT: easy maintenance of the grain distributor, prolongation of the drying process of the grain after the light day for 1_5-2 hours.

1 cl, 1 dwg

Description

The invention relates to drying equipment and is intended for drying grain.

Known solar dryer containing a series installed solar collector with a gravel accumulator, a drying chamber with a perforated drying drum placed in it, a chimney with a deflector, a backup system for ventilation and heating of the drying agent, between a transparent glass cover and a gravel accumulator, a water heat accumulator is installed in the form hollow metal pipes filled with water, inside which there is an electric heater and a temperature control sensor, while the water heat accumulator has a filler neck and a control hole (Utility model No. 148171 publ. 11/27/2014. Bull. No. 33).

The disadvantage of the known technical solution is the low storage capacity of gravel, the presence of electric heaters that consume a significant amount of electricity, the difficulty in loading and unloading a perforated drying drum.

For the prototype, a heliodryer was chosen, including a loading hopper, a drying chamber with a translucent body, in which a belt conveyor connected to an electric motor is installed, a tubular heating element is located under the upper branch of the conveyor along its entire length, an electric motor and a heating element are connected to solar batteries, between the loading a bunker and a belt conveyor installed a distributor in the form of a box, the lower part of which has a rectangular shape and is made with holes arranged in a checkerboard pattern, the dimensions of the holes correspond to the dimensions of the material to be dried, while the length of the lower part of the box is equal to the width of the belt conveyor. (Utility model No. 154049 publ. 08/10/2015. Bull. No. 22).

The disadvantages of the known technical solution that impede the achievement of the claimed technical result are:

- inconvenience in servicing the grain distributor, the inability to extend the grain drying process after daylight hours.

The task is to simplify the design and ensure ease of maintenance of the grain distributor, as well as extend the drying time of grain after daylight hours.

The technical result is the convenience in servicing the grain distributor, the possibility of extending the grain drying process after daylight hours by 1.5-2 hours.

The technical result is achieved by a solar dryer for drying grain, containing a loading and receiving hoppers, a drying chamber with a translucent housing, in which a belt conveyor with an electric motor is installed under the upper part of the belt conveyor along its entire length, a tubular-type heating element is located, also between the loading hopper and the belt conveyor grain distributor, while additionally contains a storage tank with water, an electric fan, an inlet pipe, an air solar panel, an adjusting screw, while a tubular heating element is made in the form of a coil that is connected to a storage tank with water, the belt of the belt conveyor is made of separate grates having a flexible connection to each other, the grain distributor is made in the form of a knife connected to the adjusting screw, and the width is equal to the width of the belt conveyor, the inlet of the electric fan is connected to the supply a pipe, and the outlet is connected in series with an air solar panel and a drying chamber with a translucent casing, in the upper part of which there is a ventilation hole.

The essential features that affect the claimed technical result are:

- additionally installed: a storage tank with water, an electric fan, a supply pipe, an air solar panel, an adjusting screw;

- execution of a tubular-type heating element in the form of a coil;

- connection of a tubular-type heating element to a storage tank with water;

- execution of the belt of the belt conveyor from separate grates having a flexible connection between them;

- execution of the grain distributor in the form of a knife with a width equal to the width of the belt conveyor;

- connection of the electric fan inlet with the supply pipe;

- connection of the output of the electric fan in series with the air solar panel and the drying chamber with a translucent body;

- location in the upper part of the transparent body of the drying chamber of the ventilation hole.

The additionally installed storage tank with water ensures the extension of the grain drying process by 1.5-2 hours after daylight hours, due to the accumulated solar energy during the daylight hours.

An additionally installed electric fan supplies thermal air to the drying chamber with a translucent housing.

The additionally installed supply pipe allows for the intake of clean air.

An optional solar air panel provides heating of the drying air.

The additional content of the adjusting screw allows you to change the gap between the grain distributor and the belt of the conveyor belt.

The implementation of the tubular-type heating element in the form of a coil allows to increase the heat transfer surface area and evenly distribute the thermal energy under the upper part of the belt conveyor.

The connection of the tubular type heating element to the water storage tank ensures circulation of water in the heating element.

Execution of the belt of the belt conveyor from separate grates, having a flexible connection between themselves, which allows the belt to bend around the shafts of the belt conveyor, and the presence of the grates ensures the passage of heated air into the inter-grate space.

Implementation of the grain spreader in the form of a knife with a width equal to the width of the conveyor belt makes it possible to distribute grain over the entire width of the belt conveyor belt.

The connection of the inlet of the electric fan with the supply pipe allows for the intake of clean air at a certain distance from the solar dryer.

Connecting the outlet of the electric fan in series with the air solar panel and the drying chamber with a translucent housing provides heating of the air as it passes through the air solar panel and supplying it to the drying chamber.

The location in the upper part of the translucent casing of the drying chamber of the ventilation hole allows you to remove moisture-laden air from the drying chamber.

A solar dryer for drying grain is illustrated by a drawing.

The figure shows a general view of a helium dryer for drying grain.

A solar dryer for drying grain contains: a loading hopper 1, a receiving hopper 2, a drying chamber with a translucent body 3, a belt conveyor 4, an electric motor 5, a tubular heating element 6, an air solar panel 7, a grain distributor 8, a storage tank with water 9, a grate grill 10, electric fan 11, supply pipe 12, adjusting screw 13, ventilation hole 14.

An example of a specific implementation

Example

Helio dryer for drying grain works as follows. The adjusting screw 13 sets the required gap between the distributor 8 and the belt of the conveyor belt 4, which is driven by an electric motor 5. Wet grain is fed from the loading hopper 1, which, passing through the set gap, is evenly distributed over the width of the belt of the conveyor belt 4. The electric fan 11 takes a fence clean air through the supply pipe 12 and pumps it sequentially through the air solar panel 7, where it is heated, and the drying chamber with a translucent body 3, in which the air, passing upward through the grate 10, heats the grain and exits through the ventilation hole 14. Additionally grain heating is carried out by solar energy passing through the translucent casing of the drying chamber 3. The dried grain is poured from the belt of the conveyor belt 4 into the receiving hopper 2. At the end of the daylight hours, the grain drying process continues for another 1.5-2 hours due to the accumulated energy, I accumulate a container with water 9, which is supplied by means of a tube-type heating element 6, located under the upper part of the conveyor belt 4.

Thus, the declared helio-dryer for drying grain provides convenience in servicing the grain distributor, the possibility of extending the drying process of grain after daylight hours by 1.5-2 hours.

Claims (1)

A solar dryer for drying grain, containing a loading and receiving hoppers, a drying chamber with a translucent casing, in which a belt conveyor with an electric motor is installed, a tubular heating element is located under the upper part of the belt conveyor along its entire length, and a grain distributor is also installed between the loading hopper and the belt conveyor , characterized in that it additionally contains a storage tank with water, an electric fan, a supply pipe, an air solar panel, an adjusting screw, while a tubular-type heating element is made in the form of a coil that is connected to a storage tank with water, the belt of the belt conveyor is made of separate grates having a flexible connection to each other, the grain distributor is made in the form of a knife connected to an adjusting screw, and the width is equal to the width of the belt conveyor, the input of the electric fan is connected to the supply pipe, and the output is connected inen in series with an air solar panel and a drying chamber with a translucent casing, in the upper part of which there is a ventilation hole.

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