RU2008983C1 - Aerodynamic plant for the bulk materials enrichment - Google Patents

Abstract

FIELD: bulk materials enrichment. SUBSTANCE: aerodynamic plant has a charge bin supported on vibration drying and dedusting module 2 which is supported on a supercharge module provided with air heater 5. Module 2 has heaters 3, shelves, injector 6 for liquids and gases being sprayed and connected to aerodynamic tube 7 module provided with adjustable shelves 8 and electrical winding 9. Aerodynamic tube module is connected to dynamic disconnection chamber 10 provided with shelves 11, perforated suction means 12, baffled vibropanel 13 and dust ventilator 14. Dust ventilator 14 is associated with vibration drying and dedusting modules by airlines 15 with inclination 16, the controlling being operated from the control disk 17. The bulk material is fed to vibration drying and dedusting module 2 and is being dried and dedusted there while pouring over shelves 4 in the heat treatment zone of heaters 3. The grains further enter tube 7 wherein it is conveyed in an eddy flow. If necessary a liquid or a gas is injected into the flow. The grains are cleaned up from shelves 8 and electrical winding 9. The grains further fly in into chamber 9, repeatedly impinge baffle 13 in an ultrasonic field and fare falling down while pouring over the shelves. EFFECT: improved quality of enrichment. 3 cl, 1 dwg

Description

 The invention relates to a device for the enrichment of bulk materials and can be widely used in construction, metallurgy, chemical and mining industries and other sectors of the economy.

 Known plants for the enrichment of materials containing a frame, loading and unloading pipes, conveyors, a booster pipe with heaters, a pneumatic supercharger with a heater, a dust fan and an aspiration system [1]; technological complex for air-dry enrichment of materials, containing a vibrating dryer, a dynamic chamber with a dust fan [2].

 The disadvantages of these installations are limited application, high material consumption, low productivity; insufficient quality of cleaning.

 The closest in technical essence of the known is the installation for the enrichment of bulk materials, including a loading hopper and a bioconical chamber with a breaker shield, a booster pipe and an aspiration system [3].

 The disadvantages of this installation are the low quality of enrichment and limited application.

 The aim of the invention is to improve the quality and expansion of functionality.

 This goal is achieved by the fact that the installation is equipped with a device for injecting liquids into the wind tunnel, an electric winding located on the outer surface of the wind tunnel, a cyclone and a dust fan connected by suction ducts with a vibratory dryer, a dynamic separation chamber and a discharge duct with a cyclone, while the wind tunnel is made with inclined adjustable shelves, and part of it, located in the dynamic chamber, is perforated, as well as shelves of the vibration dryer made of two plates connected with an adjustable angle pointing upward, with the heaters under them, the plates being staggered and the heaters fixed, and it is equipped with additional shelves located at the bottom of the dynamic chamber of two plates connected at an angle, and an additional perforated duct communicating the upper part of the dynamic separation chamber with the duct connected to the dust fan.

 The novelty of the claimed device lies in the above set of features, the implementation of which can improve the quality and expand the boundaries of application.

A significant difference between the claimed technical solution from the known (see the description of analogues and prototype) is as follows:
implementation of the installation design from the optimal modules connected in a new technological sequence, which allows to obtain dry and bulk materials;
equipping a wind tunnel with a device for injecting liquids, for example superplasticizers;
supplying the wind tunnel with an electric winding, which allows heating it, creating a magnetic field of a given tension and ensuring its operation as a magnetostrictive transducer;
equipment of both a vibration dryer and a dynamic separation chamber with shelves with a variable opening angle;
the execution of the suction pipe perforated.

 The drawing schematically shows a General view of an aerodynamic installation.

 It consists of a loading hopper 1 mounted on a vibration dryer and dedusting module 2, containing heaters 3 and shelves 4 and which is mounted on a device for injecting liquids and gas 6 containing a pneumatic blower with a heater 5, connected to a wind tunnel module 7, containing adjustable shelves 8 and electrical winding 9, which is connected to a dynamic separation chamber 10, containing shelves 11, a perforated suction 12, a breaker vibration shield 13 and a dust fan 14 connected by air ducts 15 to the modules of the vibration dryer and about espylivaniya, and dynamic camera module with a slope 16, wherein the remote control is 17.

 Aerodynamic installation for the enrichment of bulk materials works as follows.

 Bulk material under the weight of its own weight from the feed hopper 1 enters the vibration drying and dedusting module 2, where, sprinkling from vibration on the shelves 4 in the heat rays and the magnetic field from heaters 3, for example thermoelectric heaters, is dried and cleaned of dusty particles, after which the material grains fall into the wind tunnel 7, where they are picked up by a warm high-speed air stream from a pneumatic blower with a heater 5 and move along the pipe in a turbulent process, while, if necessary, into the injection flow liquid or gas is bonded, for example, a superplasticizer, grains are cleaned by shock and electromagnetic effects from adjustable shelves 8 and electric winding 9, which improves the cleaning of grain surfaces, after which the grains fly into a dynamic separation chamber 10, where they repeatedly hit a breaker vibration shield 13 in an ultrasonic field, created by a wind tunnel, which works as a magnetostrictive transducer, and is fed down, where they are poured on shelves 11 and through a balanced dried and cleaned loose The first material is supplied to the consumer, and the dusty particles through the perforated nozzle 13 are removed by the dust fan 14 through the air ducts 15 to the cyclone 16. The process control is automated and is carried out from the remote control 17.

 Known serial domestic and foreign devices for drying and cleaning. In particular, the drying unit D-588, which is designed for drying and heating bulk materials. This unit has low productivity, high consumption and high material consumption.

 In addition, the inertial inclined bunk screen SMD-121 (GIS-52) and the Werner installation (Germany) and others, which provide only partial enrichment, are widely known.

 The technical and economic efficiency of the application of the proposed device for the enrichment of bulk materials in comparison with the prototype (base object), analogues and serial devices is ensured by the following: improving the quality of enrichment due to intense aerodynamic effects under the influence of vibration, thermal and magnetic fields, ultrasound, which ensures highly pure and chemically active bulk materials.

 In addition, the expansion of application boundaries is achieved due to the adjustable dust collectors, collapsible elements, the use of various liquids for injection into enriched bulk mixtures. (56) Copyright certificate of the USSR N 1212628, cl. B 07 B 11/04, 1982.

 USSR author's certificate N 1752451, cl. B 7/00, 1986.

 USSR author's certificate N 1639778, cl. B 07 B 4/08, 1989.

Claims (3)

 1. Aerodynamic installation for the enrichment of bulk materials, including a loading hopper installed in series, a vibration dryer with shelves, a horizontal wind tunnel, one end of which is in communication with a pneumatic blower, the other with a dynamic separation chamber having a baffle plate and communicated with an aspiration system, characterized in that In order to improve the quality of enrichment and expand functional capabilities, it is equipped with a device for injecting liquids into a wind tunnel, electric a winding located on the outer surface of the wind tunnel, a cyclone and a dust fan connected by suction ducts to a vibratory dryer, a dynamic separation chamber and a discharge duct with a cyclone, while the wind tunnel is made with inclined adjustable shelves, and part of it located in the dynamic separation chamber is perforated .  2. Installation according to claim 1, characterized in that the shelves of the vibration dryer are made of two plates connected with an adjustable angle directed upwards, with heaters under them, the plates being staggered and the heaters fixed.  3. Installation according to claim 1, characterized in that it is equipped with additional shelves from two angled plates located in the lower part of the dynamic separation chamber and an additional perforated air duct communicating the upper part of the dynamic separation chamber with an air duct connected to the dust fan.