RU2617217C1 - Dryer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: dryer comprises the supply systems of air flow and a drying agent, the housing, the inner cavity of which is made cylindrical. It additionally comprises the fan, the grinding blades of which are placed in the tapered housing placed at the lower part of the dryer housing inner cavity, and the cylindrical cup mounted concentrically with the dryer wall in its inner cavity, forming a cavity between the dryer housing and the cylindrical cap with the possibility of air passage from the upper fan part to its lower part; the upper edge of the tapered housing is made serrated. Hot air is supplied into the space between the tapered housing and the cylindrical cap housing, and the drying agent is supplied above the fan. The method of shock-vibration drying is used, when moisture is knocked out of the raw material particles. Increasing the drying material area and the vibration reduce the drying time, preserve vitamins and enzymes. The dried particles rise up and get into the cyclone.

EFFECT: increased productivity with the simultaneous improving of the drying quality.

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Description

The invention relates to agricultural machinery and can be used for drying grass, straw, manure, vegetables, sawdust, a mixture of sawdust and litter, a mixture of animal materials with plant materials, any other plant products and their combinations with a technological size of up to 50 millimeters and humidity up to 90%.

A known dryer containing a chamber with horizontal trays placed in it having perforated bottoms adjacent to the duct, a fan, inlet and outlet nozzles for a drying agent, the volumes above the trays are interconnected (see L. Zakharov, A. Application of heat in agriculture M.: Agroprom, 1986, p. 215).

The disadvantage of this dryer is its low productivity.

A known dryer containing a chamber with horizontal trays placed in it, having perforated bottoms adjacent to the duct, a fan, inlet and outlet nozzles for a drying agent, the volumes above the trays are interconnected, the chamber being made in the form of a single-row horizontal frame with cells for tight installation of trays, on which a box is fixed under the trays, and above each tray - a hinged glazed lid, while the hinged nozzle is placed on one end of the chamber above the trays and is connected to the atmosphere, and one - on the opposite end of the chamber in the duct zone and is in communication with the suction pipe of the fan, the discharge pipe of which is connected to the atmosphere, and the perforation in the bottoms of the trays is made in the form of arched slots directed convex upward and open towards the inlet pipe (see RU Patent No. 2059172, CL F26B 9/06, 1996).

The disadvantage of this dryer is its low productivity.

A known dryer containing a hopper for loading material, a cantilever system for supplying a drying agent, guiding grids located inside the chamber, an unloading funnel (see Grishin M.N., Atanazevich V.I. and Semenov Yu.G. Installation for drying food products. Handbook, Moscow: Agropromizdat, 1989, p. 48-51).

The disadvantage of this dryer is its low productivity.

The closest in technical essence to the proposed one is a dryer containing a hopper for loading material, a cantilever system for supplying a drying agent, guiding grids located inside the chamber, an unloading funnel, two groups of plate grids with an adjustable angle to the horizon, one side in the first group of plate grids each lattice is pivotally connected to the walls of the camera body, and the other is fixed on the body in the range of angles of repose of the material, the second group of plate sieves k is located on the central axis of the chamber, one side of each lattice of this group is pivotally mounted on the line of the central axis of the chamber, and the other side of the lattice is fixed in the range of angles of repose of the material, the supply system of the drying agent consists of a central channel and two side channels, with a longitudinal section of the side the channels is triangular (see Patent 2038555, CL F26B 9/06, 1995).

The disadvantage of this dryer is low productivity, design complexity.

The technical result of the invention is to increase productivity while improving the quality of drying.

The technical result is achieved in that the dryer containing the air flow supply system, the drying agent supply system and the housing, the inner cavity of which is cylindrical, further comprises a fan, the chopper blades of which are located in a cone-shaped housing located in the lower part of the internal cavity of the dryer housing, and a cylindrical cup mounted concentrically to the wall of the dryer in its inner cavity, forming a cavity between the dryer body and the cylindrical cup with POSSIBILITY passage of air from the fan to the top of its lower part, the upper edge of the cone-shaped body is configured sawtooth, the hot air is supplied into the space between the conical body and cylindrical glass body, and the drying agent is supplied above the fan.

The proposed dryer is schematically shown in the drawing, where position 1 shows a casing with a cylindrical inner surface, position 2 is a drying agent supply system, position 3 is a hot air supply system, position 4 is a fan consisting of an electric motor 5 and grinder blades 6 (rigid system mounting the fan 4 to the housing 1 is not shown). The shredding blades 6 of the fan 4 are placed in a cone-shaped case 7 located in the lower part of the internal cavity of the dryer body 1 (the system of rigid fastening of the cone-shaped case 7 to the case 1 is not shown). Inside the casing 1, a cylindrical cup 8 is installed concentrically on its inner surface, forming a cavity between the dryer casing 1 and the cylindrical cup 8 with the possibility of returning air with a drying agent to the cone-shaped casing (the system of rigid fastening of the cylindrical glass 8 to the casing 1 is not shown in the drawing). The upper edge of the conical body 7 is made sawtooth (sawtooth end of the conical body 7 is shown by the number 9). Hot air is supplied into the space between the conical body 7 and the body of the cylindrical bowl 8. The drying agent is supplied above the fan 4. The outlet of the dryer is connected to a cyclone, which ensures separation of the dried agent from the air.

The proposed dryer operates as follows.

The drying agent introduced into the dryer combines with hot air (its temperature is up to + 150 ° С). Hot air is supplied from a heat generator (not shown in the drawing) running either on gas, or on wood, or fuel oil, or coal, or on electricity, etc. Hot particles of raw materials are picked up by air and rotate in the dryer until they dry up to a predetermined humidity, for example 10%.

A raw particle of material cannot rise up and out of the dryer, because the dryer above expands sharply and the air velocity drops, at this moment the moist particles rush down, so a pseudo-boiling layer forms in the dryer. When the dried particle enters the middle zone of the pseudo-boiling layer, it is sucked in by the fan, which is built in from below inside the dryer, and is again thrown into the middle zone of the dryer until the particle dries. The fan is designed so that the fan blades at their ends have knives for grinding material. Further, the material is crushed by impact on the blades and on each other. When two air flows converge at the end of the cone-shaped body (hot air and air flow from the fan), the drying agent is crushed. In this case, the sawtooth teeth prevent the descent of the drying agent in the form of large conglomerates. This increases the drying area of the particles of the material 10-20 times. Here, the method of shock-vibration drying is used, when moisture is literally knocked out from the particles of raw materials. Increasing the drying area of the material and vibration reduces the drying time, preserves vitamins and enzymes.

The dried particles rise up and with a stream of air fall into a cyclone, where there is a separation of semi-dried vegetable flour and air. Next, the finished dry flour can be sent to the packaging.

High productivity while improving the quality of drying is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (1)

A dryer containing an air flow supply system, a drying agent supply system and a housing, the inner cavity of which is cylindrical, characterized in that it further comprises a fan, the chopper blades of which are located in a cone-shaped housing located in the lower part of the internal cavity of the dryer housing, and a cylindrical glass mounted concentrically to the wall of the dryer in its internal cavity, forming a cavity between the dryer body and the cylindrical glass with the possibility of air passage from the top henna part of the fan to its lower part, the upper edge of the conical body is sawtooth, while hot air is supplied into the space between the conical body and the body of the cylindrical glass, and the drying agent is supplied above the fan.

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