SU1711779A1 - Cereal product micronization apparatus - Google Patents

Abstract

The invention relates to agriculture, in particular to fodder production, intended for infrared heating of grain materials in order to increase their digestibility for young farm animals, and can be used in the food industry for the production of blasted grain. The aim of the invention is to increase efficiency by more fully utilizing the energy of the emitters. The plant for micronizing grain products consists of a working chamber 1 of a metering hopper 2 equipped with an exhaust fan 3 and mixers 4, a conveyor 8 assembled from hollow infrared-transparent rods in which infrared sources 9 are located. Inside the working chamber 1 are reflectors 11-13. The conveyor belt is mounted on the frame 15 with thermal insulation, which is connected with the drive 16. 1 and / i.

Description

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FIELD OF THE INVENTION The invention relates to feed production and the food industry, in particular to equipment for the thermal and radiation processing of grain materials.

The purpose of the invention is to increase the efficiency of the installation by more fully using the energy of infrared emitters.

The drawing shows schematically an installation for micronization of grain products, a general view.

The installation consists of the body of the working chamber 1, on which the source material hopper 2 is mounted, equipped with exhaust fan 3 and inside the activators-mixers 4. Inside the upper part of the hopper fits the charging auger 5. Part of the lower section of the bunker body is inside the housing 1, is a mesh window 6. In the lower part of the bunker there is a dispenser 7. Inside the housing 1 there is a conveyor 8, the input end of which is under the dispenser 7. The conveyor is made in the form of a web assembled from tubes copulating transparent for infrared rays material, placed inside each tube source 9 of infrared radiation. Above the conveyor belt is a partition 10, mounted vertically across the entire width of the working chamber. Inside the working chamber, near its walls, there are upper, side and lower reflectors 11-13, respectively. The conveyor ends with an unloading chute 14. The conveyor is mounted on the frame 15, equipped with thermal insulation, the frame is connected to the drive 16.

The installation works as follows.

Grain auger 5 is fed into the hopper 2, from where through the dispenser 7 enters the conveyor 8, the return-and-forward movement brought in by the drive 16, which is located on the frame with the heat insulator 15, transports the grain from the hopper 2 to the discharge tray 14. When driving on

the transporter grain enters the zone of action of the emitters 9 and is irradiated by infrared radiation, heated by it. The processed grain from the conveyor 8 through

tray 14 enters the bunker of the finished product (not shown), and from there to the consumer. To protect the structure from overheating and scattering the scattered radiation, there are screens 11–13 that direct the flow

radiant energy back to the grain, as well as heat protection on the frame 15. Hot air along with vaporized vapor from the working chamber is drawn off by the fan 3. At the same time, hot air flows around the partition 10, which directs the hottest air from the end part of the working the zones directly into the bunker 2 through the mesh window 6. The partition partially prevents the selection of hot air from the first

parts of the work area where its presence is necessary for technological considerations. Hot air with moisture vapor passes through the mesh window 6 and heats and partially moistens the raw material in the hopper 2. The material is mixed in the hopper to uniformly perform this operation by activators 4. The exhaust air is vented to the atmosphere through the system by a fan.

dust collection (not shown). The body 1 also prevents energy loss in space.

Claims (1)

Formula of the Invention and Installation for Micronization of Cereals products, a working chamber, a feed hopper, a conveyor made of rods that are transparent to infrared radiation, infrared radiation sources, By the fact that, in order to increase efficiency by reducing the energy losses of the emitters, the conveyor rods are hollow, and the radiation sources are located inside these rods, while The metering hopper is equipped with a mixer and exhaust fan to preheat the grain with vapor of evaporated moisture from the working chamber.