RU2010624C1 - Aerodynamic device for drying and cleaning loose materials - Google Patents

Abstract

FIELD: drying and cleaning loose materials. SUBSTANCE: aerodynamic device has housing with internal reflecting surface covered, for example, with foil and external black surface. Housing is provided with suction branch pipe with dust fan, discharge, recirculation and loading branch pipes, cyclone mounted on external surface of housing, heaters and vibratory body placed inside housing and fitted with inclined shelves arranged in zigzag and staggered order. Cyclone is connected with dust fan and recirculation branch pipe by means of air duct. Device is controlled from control panel. Loose material fed into housing moves in vibrating layer along vibrating shelves. Heaters and reflecting surface of housing heated by sun rays create radiant energy field responsible for drying moving material, which is blown through and cleaned by high speed air flow produced by fan. EFFECT: improved efficiency and high quality of material drying and cleaning. 2 cl, 1 dwg

Description

 The invention relates to installations for drying and cleaning bulk materials in agriculture, construction, as well as in other sectors of the economy.

 A known machine for cleaning seeds containing an oscillating mill [1].

 The disadvantages of this machine are the low quality of drying, low productivity and high energy intensity.

 The closest technical solution known (prototype) is a device for aerodynamic drying and cleaning of grain [2].

 The disadvantages of the prototype are: complexity in the manufacture and operation of the installation; low productivity and high energy costs; high material consumption; limited application.

 The purpose of the invention is to increase the efficiency of drying and cleaning bulk materials.

 The drawing shows the proposed installation, General view.

 The aerodynamic installation for drying and cleaning bulk materials consists of a housing 1 with an internal reflective surface 2, for example, foil, and an external black 3, containing a suction nozzle 4 with a dust fan 5, discharge nozzles 6, recirculation 7 and charge 8, on which it is outside a cyclone 9 is installed, and inside there are heaters 10 and a vibrocasing 11 with inclined shelves 12 installed in cascade and zigzag fashion, the cyclone being connected to a dust fan and a recirculation duct, and the installation is controlled with Ulta management.

 Aerodynamic installation for drying and cleaning bulk materials works as follows.

 Bulk material (grain, potatoes, fillers, etc.) under its own weight through the loading pipe 8 enters the housing 1, where the grains of the bulk material cascade and zigzag in the vibro-boiling layer along the inclined shelves 12 of the vibratory housing 11, which oscillate, for example, with an amplitude of 2-3 mm and a frequency of 800-900 vibrations / min, while a field of radiant energy (thermal, ultraviolet, etc.) is created from the heaters 10 and the reflective surface of the body heated by sunlight (the “hot box” effect), and high-speed air stream 5 from the fan blows the grain material, wherein a vacuum is created inside the housing and the recirculation of air through the cyclone 9 and then dried and peeled grain material through the unloading pipe 6 comes to the consumer, the technological process of drying and purifying automated. If drying and cleaning are necessary, the speed is regulated or repeated. (56) 1. USSR author's certificate N 465230, cl. B 07 B 13/00, 1970.

 2. Copyright certificate of the USSR N 1704857, cl. B 07 B 4/06, 1989.

Claims (2)

 1. AERODYNAMIC INSTALLATION FOR DRYING AND CLEANING OF BULK MATERIALS, including a housing with loading and unloading nozzles, inclined shelves, heaters and a dust fan connected to the housing, which are capable of vibrating, characterized in that, in order to increase the efficiency of drying and cleaning processes, it is equipped with a cyclone, and the body is cylindrical, the heaters are installed on its inner surface, the inclined shelves are installed in cascade and zigzag fashion, while the suction nozzles and discharge dust fan are arranged on the housing and opposing ducts connected to the cyclone.  2. Installation according to claim 1, characterized in that the outer surfaces of the housing and the cyclone are made in black, and the inner ones with reflective properties.

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