RU183980U1 - GRAIN DRYER - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to devices for drying grain. The grain dryer contains a chamber 1 with drying and cooling zones, a conveyor located in it with two branches tilted down in the direction of movement of the first 2 and second 3, a loader 4 and an unloader 5 of grain, the first heat generator 6 with hot air fans, an inclined partition 7 between branches 2 and 3 conveyors for directing hot air from the first heat generator 6 to the first branch 2 of the conveyor, a transverse partition 8 installed under the second branch 3 of the conveyor and dividing the space under it into the heating zone 9 and cooling 1 0, while in the heating zone 9, under the second branch 3 of the conveyor, a second heat generator 11 is installed with a fan with hot air outlet to the heating zone 9, as well as a fan 12 for supplying cold air with access to the cooling zone 10. The technical result of the utility model is to accelerate the process drying without loss of grain drying quality by installing an additional heat generator and fan under the lower branch of the conveyor and eliminating external bypass channels from the grain dryer. 1 ill.

Description

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

The well-known "Installation for drying agricultural products" (description of the USSR author's certificate of the Russian Federation No. 765613; IPC: F26B 17/04; publication date: 09/23/1980) containing a chamber with drying and cooling zones, a conveyor with two branches, a gas distribution system inclined boxes installed under the branches of the conveyor, gas distribution inclined boxes placed opposite, loader located above the upper end of the upper branch of the conveyor, unloader located under the lower end of the lower branch of the conveyor, inclined between the branches of the conveyor, a heat generator with a first fan of hot air, a second fan, a bypass channel located on the outside of the chamber.

The well-known "Zernosushilka" (useful description was divided by the patent of the Russian Federation No. 171645; IPC: F26B 17/04; publication date: 06/08/2017), containing a chamber with drying and cooling zones, a conveyor with two branches, a gas distribution inclined box installed in it under the branches of the conveyor, inclined gas distribution boxes are placed in the opposite direction, a loader located above the upper end of the upper branch of the conveyor, an unloader located under the lower end of the lower branch of the conveyor, an inclined partition between the branches of the conveyor, heat generator a torus with a first hot air fan, a second fan, a bypass channel located on the outside of the chamber, while a heat generator with a first hot air fan is located between the upper part of the upper branch of the conveyor and the lower part of the lower branch of the conveyor, the length of the inclined partition is at least half the length of any from the branches of the conveyor, and the outlet of the heat generator with the first fan is located above the inclined partition.

The disadvantages of the known designs are the increased dimensions of the device due to the removal of the ducts of the bypass channels outside the chamber, as well as the low drying efficiency of the grain on the lower branch of the conveyor due to the loss of thermal energy by the air as it passes through the bypass channels.

The technical task of the proposed utility model is to eliminate the above disadvantages and accelerate the drying process of grain.

To solve this problem, in a grain dryer containing a chamber with drying and cooling zones, a conveyor placed in it with two first and second branches inclined downward in the direction of movement, a grain loader and unloader, a first heat generator with hot air fans, an inclined partition between the conveyor branches for direction hot air from the first heat generator to the first branch of the conveyor, a transverse partition installed under the second branch of the conveyor and dividing the space under it into heat zones va and cooling in the heating zone below the second branch conveyor fitted with the second heat source fan with exit of hot air in the heating zone, as well as a fan for supplying cold air from the cooling zone outlet.

The technical result of the proposed utility model is to accelerate the drying process by 55-65%, without loss of grain drying quality by installing additional heat generator and fan under the lower branch of the conveyor and eliminating external bypass channels from the grain dryer design.

In FIG. 1 schematically shows a grain dryer in two projections.

The grain dryer contains a chamber 1 with drying and cooling zones, a conveyor located in it with two branches tilted down in the direction of movement of the first 2 and second 3, a loader 4 and a grain unloader 5, a first heat generator 6 with hot air fans, an inclined partition 7 between branches 2 and 3 conveyors for directing hot air from the first heat generator 6 to the first branch 2 of the conveyor, a transverse partition 8 installed under the second branch 3 of the conveyor and dividing the space under it into the heating zone 9 and cooling 1 0, while in the heating zone 9, under the second branch 3 of the conveyor, a second heat generator 11 is installed with a fan with the outlet of hot air to the heating zone 9, as well as a fan 12 for supplying cold air with access to the cooling zone 10.

Grain drying is as follows. From the loader 4, the grain to be dried is fed into the drying chamber 1 to the conveyor located in it and passes sequentially along its two branches 2 and 3 to the unloader 5 located at the end of the second branch 3. Hot air for drying is supplied to the conveyor branches from below. Between the beginning of the first 2 and the end of the second 3 branches there is a first heat generator 6 with fans of hot air, which enters the space between the inclined partition 7 and the lower part of the first branch 2 of the conveyor. To complete the drying process and subsequent cooling, the grain from the first branch 2 of the conveyor enters the second branch 3, passes through the additional heating zone 9 to the transverse partition 8 and then through the cooling zone 10 to the unloader 5.

Using the proposed utility model provides an increase in equipment productivity due to an increase in the speed of passing grain through the conveyor up to 1.5 times while maintaining the required drying parameters.

Claims (1)

A grain dryer containing a chamber with drying and cooling zones, a conveyor placed in it with two first and second branches inclined downward in the direction of movement, a grain loader and unloader, a first heat generator with hot air fans, an inclined partition between the conveyor branches to direct hot air from the first heat generator to the first branch of the conveyor, a transverse partition installed under the second branch of the conveyor and dividing the space under it into heating and cooling zones, characterized it, that in the heated zone under the second branch conveyor fitted with the second heat source fan with exit of hot air in the heating zone, as well as a fan for supplying cold air from the cooling zone outlet.

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