RU204626U1 - HOPPER FOR DYNAMIC ACTIVE VENTILATION OF GRAIN DURING STORAGE PERIOD - Google Patents

Abstract

The utility model relates to technological equipment, namely to devices for preserving the harvested agricultural crop without reducing quality indicators during storage. The technical problem of the utility model is aimed at preventing a decrease in grain quality indicators during storage by preventing caking and sticking of individual grains. is solved due to the fact that the hopper for dynamic active ventilation of grain during storage, containing a housing, a loading funnel, a hinged cover, characterized in that inside the housing to the inner side of its roof a cylinder with a helical blade is rigidly fixed, inside which a screw agitator is movably fixed and a fixed air duct made of composite coaxial perforated cylindrical racks, through which warm air is supplied to the process zone-2 by the recuperator under pressure, and the rotation of the auger agitator ensures the rise of the grain mass to the upper the chuck of the technological zone-2, and the holes in the neck of the cylinder with a helical blade ensure the movement of the grain mass to the lower point of the technological zone-1.

Description

The utility model relates to technological equipment, namely, devices for preserving the harvested agricultural crop without reducing quality indicators during the storage period.

Known bunker for active ventilation of agricultural products (Pat. 2406291 Russian Federation, IPC A01F 25/14, Bunker for active ventilation of agricultural products, [Text] Naumov MA, Demin VA, Lobanov VI, Makarychev S.V. ., Likhachev MV publ. 20.12.2010. Bull. 35) [1]. It consists of a body, a perforated cylinder with the formation of a drying chamber, a loading funnel, a hinged cover between them.

The prototype has a number of significant disadvantages, expressed in the fact that the protection of the grain mass from the adhesion of individual grains to each other is not provided in full.

The technical problem of the utility model is aimed at preventing a decrease in grain quality indicators during its storage by preventing caking and sticking of individual grains.

The technical problem is solved due to the fact that the bunker for dynamic active ventilation of grain during storage, containing a housing, a loading funnel, a hinged cover, characterized in that inside the housing, to the inner side of its roof, a cylinder with a helical blade is rigidly fixed, inside which is movable a screw agitator and a fixed air duct are fixed, made of composite coaxial perforated cylindrical racks, through which warm air is supplied to the technological zone-2 by the recuperator under pressure, as well as the rotation of the auger agitator ensures the rise of the grain mass to the upper point of the technological zone-2, and the holes in the neck cylinders with a helical blade ensure the movement of the grain mass to the lower point of the technological zone-1.

The positive effect of the proposed design is achieved due to the fact that during the rotation of the screw agitator, the perforations made in its wall and the air duct are periodically ensured, which ensures periodic release of warm air under pressure and forced rupture of stuck together grains due to the dynamic action. The movement of the grain mass inside the body is provided due to the multidirectional orientation of the auger turner, which lifts it in the technological zone-2 into the area of the neck of the cylinder with a helical blade and through the holes in it reloads it into the technological zone-1. Opposite cutting of the helical blade of the cylinder allows grain to move down the hopper.

The technical solution is illustrated in FIG. 1 and FIG. 2.

The structure of the hopper is shown in Fig. 1, where it is shown: pos. 1 - case; pos. 2 - a cylinder with a helical blade; pos. 3 - auger turner; pos. 4 - air duct; pos. 5 - perforation; pos. 6 - hole; pos. 7 - loading funnel; pos. 8 - hinged cover; pos. 9 - gap; pos. 10 - gate valve; pos. 11 - neck; pos. 12 - air flow; pos. 13 - grain mass; 14 - hatch; pos 15 - cover; pos 16 - technological zone-1; pos 17 - technological zone-1.

FIG. 2 shows a top view, where it is shown: pos 18 - pulley; pos 19 - engine; pos. 20 - recuperator.

The hopper for dynamic active ventilation of grain during storage consists of: housing 1 (optionally, made of metal 15 mm thick, round), inside of which a cylinder with a helical blade 2 is rigidly fixed to the inner side of the roof (by a welding seam) by a neck 11, the end of which ends at a distance of 15 cm from the floor of the housing 1. A hole 6 is made in the neck 11 (as an option, several). Auger turner 3 (as an option, perforation is made into the shaft walls, metal, diameter 2.6 meters) is movably fixed inside a cylinder with a helical blade 2, its circular rotation is provided by engine 19, rigidly fixed on the outside of the roof of the housing 1, transmitting torque through pulley 18. Air duct 4 (as an option, a metal pipe, in the wall of which perforation is made) is rigidly fixed to the floor of the housing 1 inside the auger agitator 3, and the other side is connected to the recuperator 20. Auger agitator 3 and air duct 4 are made of composite coaxial perforated cylindrical racks ... The space between the screw turner 3 and the inner wall of the cylinder with the helical blade 2 forms the technological zone-2.

The principle of operation of the bunker is as follows. The grain mass 13 is loaded through the hopper 7. The grain mass 13 is fed into the housing 1 onto a cylinder with a helical blade 2, along which it is poured down, filling the technological zone-1 16. Rotation of the auger turner 3 provides filling of the technological zone-2 17 and lifting the grain mass 13 to the holes 6 made in the neck 11 of the cylinder with a helical blade 2. After filling the technological zone-1 and the technological zone-2 17 with grain mass 13, the loading funnel 7 is closed with a hinged cover 8.

The supply of dry, warm air flow 12 under pressure into the air duct 4 is carried out through the gap 9 from the recuperator 20, for this purpose the valve 10 is opened. Simultaneously with the air supply, the rotation of the auger agitator 3 is ensured. In the process of rotation of the auger agitator 3, the perforations 5 in its housing are aligned with air duct 4. This provides a dynamic active release of the air flow 12 into the technological zone-2 17. Moving and being blown by the air flow 12 (which "blows away" the dry grain, providing the coolant with access to the wet layers), the grain mass 13 inside the housing 1 gives off excess heat and moisture. The unloading of the grain mass 13 is carried out through the hatch 14 after opening the cover 15 with the rotation of the auger turner 3.

The studies carried out made it possible to determine the main geometric characteristics of the auger turner using the principle of dynamic active ventilation. It has been established that at a grain moisture content of W = 12%, the speed of its movement increases with an increase in the diameter of the auger turner. More moist grain (W = 16%) is advisable to dry with a significant increase in the peak values of the head of the grain mass up to H = 3 kg / s⋅m ² , which can be realized by changing the frequency and diameter of perforations in the duct (pressurized air knocks down the growths of wet grains on the outside of the blades).

Thus, the hopper for dynamic active ventilation of grain during storage is novel and provides new useful characteristics, does not allow a decrease in grain quality indicators during storage by preventing caking and sticking of individual grains. The bunker can be used in areas with difficult natural and climatic conditions.

Bibliography:

1. Pat. 2406291 Russian Federation, IPC A01F 25/14, Bunker for active ventilation of agricultural product, [Text] MA Naumov, VA Demin, VI Lobanov, SV Makarychev, MV Likhachev publ. 20.12.2010. Bul. 35.

Claims (1)

A hopper for dynamic active ventilation of grain during its storage, containing a cylindrical body, a loading funnel, a hinged cover, an air duct and a drive, characterized in that it is equipped with a recuperator, a screw agitator and installed inside the body rigidly fixed to the inner side of its roof by means of a tapered neck with openings by a cylinder with a helical blade, placed with a gap between the floor and the cylinder and with the formation between the cylinders of the technological zone-1, the screw agitator is kinematically connected to the drive located on the roof and is movably fixed inside the cylinder with a helical blade with the formation of the technological zone-2 and with the possibility of providing during the circular rotation of its lifting of the grain mass to the upper point of the technological zone-2 and through the holes in the neck of the cylinder with a helical blade, the grain mass is moved to the lower point of the technological zone-1, the air duct is motionlessly placed inside the auger agitator and rigidly fixed It is connected to the floor of the casing, and the other side is connected to a recuperator located on the roof, and the auger turner and the air duct are made of composite coaxial perforated cylindrical racks with the possibility of supplying warm air from the recuperator under pressure through them to the technological zone-2.

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