RU2018074C1 - Aerodynamic grain drier - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: drier has a heat-insulated case with load and unload branch pipes, heaters, a vibration exciter and an aspiration system. The case is made stationary and has a platform mounted inside the case for vibration, the platform has inclined shelves for positioning the grain which are located in cascade. Heaters with reflectors are mounted above and under the shelves. The shelves are mounted in a spaced relation to each other and have C-shaped agitators in the joint zone. EFFECT: improved structure. 3 cl, 1 dwg

Description

 The invention relates to installations for drying and cleaning grain in agriculture, but can also be used in construction, metallurgy, as well as in other sectors of the economy.

 A known machine for cleaning seeds (class B 07 V 13/00, auth. St. N 465230), containing a vibrating mill, and the installation with a vibrating plate (US patent N 2102307, class B 07 B 7/04), a device for drying, containing a drum with an nozzle, a loading hopper and an aspiration system (EPO patent N 0048520, CL 07 07/06, 1961) and others.

 The disadvantages of these installations are: low quality drying, low productivity and high energy intensity.

 The closest technical solution known (prototype) is a device for aerodynamic drying and cleaning of grain (ed. St. USSR N 1704857, class B 07 B 4/06), containing a housing, inclined shelves and a stepped glass lid.

 The disadvantages of the prototype are: insufficient drying quality, low productivity, high material consumption.

 The aim of the invention is to improve the quality and drying efficiency.

 The goal is achieved by the fact that the casing is fixed and equipped with a platform mounted inside the casing with the possibility of vibration, and having inclined cascading shelves for moving grain, above and below which heaters with reflectors are installed, while the inclined shelves are installed with gaps relative to each other, and in the junction zone they are equipped with C-shaped agitators, the casing having a suction pipe with a heater, and the suction system has an air duct with suction pipes installed under the inclined shelves.

 New in the proposed aerodynamic grain dryer is the previously unknown aggregate, which allows to improve the quality and efficiency of grain drying.

Significant differences of the proposed aerodynamic grain dryer are:
the execution of the housing from a unified module block;
the implementation of inclined shelves installed in cascade with variable tilt angles;
the creation of optimal drying of grain by creating a combination of rarefaction, microwave exposure, vibration activation, thermal exposure to rays, active vibration absorption.

 The drawing schematically shows an aerodynamic grain dryer in the form of a block module.

The aerodynamic grain dryer consists of a thermally insulated block module containing a fixed frame 1, on which a removable loading pipe 2 with a balanced shutter 3, a dust fan 4 with a multi-sectional shutter 5, a balanced discharge pipe 6 and a suction pipe 7 with heaters 8 are mounted on the outside, and mounted inside reflectors 9 with electric heaters (TEN) 10, ultraviolet 11 and infrared emitters 12, an air duct 13 with suction devices 14 containing gates 15, and an oscillating housing 16 equipped with a vibration zbuditelem 17, inclined flanges 18 with variable angles, for example from 3 to 10 ^{of the} C-shaped fork agitator 19 and trimmable unloading pipe 20, the grain dryer is controlled with the remote control 21, and multiple-module unit may be fixed to each other in staggered vertically or horizontally in 1,2,3, etc. tiers. Aerodynamic grain dryer operates as follows.

Grain under its own weight from the feed nozzle 2 through the trimmable gate 3 goes to the module housing block 1, where grains fall on the sloping shelves 18 and under the action of vibrations from the vibration generator 17 are moved at angles, e.g., ^about 3-10 vibrated in a layer at a predetermined speed , for example, with an oscillation amplitude of 3-4 mm and a frequency of 500-800 vib./min with simultaneous tedding from agitators 19 and exposure to a field of radiant energy; the creation of microwaves, in which the liquid molecules are brought into oscillatory motion by an electromagnetic wave and molecular friction is converted into heat: the formation of a vacuum, which reduces the vapor pressure of the components in the liquid in the grain, from the action of electromagnetic emitters 10 with reflectors 9, a dust fan 4 with an air duct 13 and suction 14, while the output of the grain is subjected to disinfection by irradiation with ultraviolet and infrared rays, respectively, from the emitters 11, 12, after which the grains through balanced th unloading pipe 20 is supplied either horizontally to the consumer, or vertically to a lower mounted unit for subsequent drying and processing. The control of the drying process is carried out with the remote 21.

 In comparison with serial domestic installations, for example, SMD-121, SESH-16R, M-819, SESB-8 (USSR), as well as foreign, for example, firms: "Cinbria" (Denmark), the company "GT, Inc" ( USA), ANTTI (Finland), Werner, Heraens (Germany), the proposed grain dryer provides simplicity and reliability, has high productivity and material cost savings.

The technical and economic efficiency of the claimed aerodynamic installation compared to the base object (prototype) is as follows:
- increasing the efficiency of drying and cleaning bulk materials by saving heat energy, reducing material consumption, increasing productivity by 2-3 times;
- simplification of the design of the grain dryer due to block modularity;
- improving the quality of drying and processing of bulk materials is achieved due to the combination of intensive radiant heating, electromagnetic vibration and aerodynamic effects on grains in a vibro-boiling layer, ultrasonic and infrared fields.

 In addition, an expansion of functionality is achieved through widespread use for drying and cleaning various materials: grains, aggregates, granules and various powders in various fields of the national economy.

Claims (3)

 1. AERODYNAMIC GRAIN DRYER containing a thermally insulated casing with loading and unloading nozzles, heaters, a vibration exciter and an aspiration system, characterized in that, in order to improve the quality and efficiency of the drying process, the casing is fixed and equipped with a platform mounted in the casing with the possibility of vibration and having inclined, cascading shelves for moving grain, above and below which heaters with reflectors are installed, while inclined shelves are installed with gaps of one relative Tel'nykh another, and in the joint area provided with C-shaped agitator.  2. Grain dryer according to claim 1, characterized in that the housing has a suction pipe with a heater.  3. Grain dryer according to claim 1, characterized in that the suction system has an air duct with suction installed above the inclined shelves.

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