RU2010625C1 - Aerodynamic unit for enrichment of bulk materials - Google Patents

Abstract

FIELD: enrichment of bulk materials. SUBSTANCE: unit has pipes, through which basic material is conveyed via feeders into aerodynamic tube, and magnetic drums for removal of magnetic inclusions. Particles of material are accelerated in aerodynamic tube and fed into separating chamber. Where dust is separated by means of dedusting apparatus and discharged into aspiration system. Impact-inertia part of separating chamber is provided with screen, against which particles of material collide and as a result dust adhered to them is removed. Cleaned material is discharged downward through pipes. EFFECT: increased capacity and enhanced reliability in operation. 2 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, glass 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, an air heater with a heater, a dust fan and an aspiration system; technological complex for air-dry enrichment of materials, containing a vibrating dryer, a dynamic chamber with a dust fan, and others.

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

 The closest technical solution 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.

 The disadvantage of this installation is the low quality of enrichment and limited application.

 This goal is achieved by the fact that the installation is equipped with additional loading nozzles installed parallel to the main one, installed with magnetic drums in the loading nozzles and inclined shelves located in the wind tunnel, and a blade mounted for rotation, while the separation chamber is made of dust-free and shock-inertial parts with louvered partition between them.

 The drawing shows the proposed installation, General view.

 The aerodynamic installation consists of loading nozzles 1 with airlock feeders 2, suction 3 and magnetic drums 4, which are mounted on a wind tunnel 5 with a rotating blade 6 and a pneumatic blower 7, which is equipped with inclined shelves 8 and a perforated end 9 introduced into the dedusting part 10 of the dynamic chamber separated by a louvered partition 11 from the impact part 12 containing a spherical baffle plate 13 with cones 14, both chambers below equipped with discharge pipes 15, and at the top of the dynamic section The diesel chamber 16 is equipped with a dust fan, which is connected by air ducts 17 to the suction of the loading nozzles, a dynamic chamber and an aspiration system.

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

 Bulk material under its own weight moves along the loading nozzles 1 through the gate feeders 2, where it is dedusted through the suction 3 and the removal of metal-containing inclusions using magnetic drums 4, after which the grains of material fall into the wind tunnel 5, where they are picked up by a high-speed turbulent air stream from the pneumatic blower 7 and the rotating blade 6 and move along the pipe also in a turbulent mode from the action of the shelves 8. After this, the grains fly into the dynamic separation chamber, where of its first part 10 through the perforated end 9, the air flow together with the dust particles through the dust fan 16 is removed into the suction system, and the grains of material by inertia fly into the second part 13, where they collide with the baffle plate 13 and fall down, while the dust particles removed into the suction system, as a vacuum is created in the chamber, and the cleaned grains through the discharge nozzles 15 go to the consumer. Installation control is carried out from the control panel.

 The technical and economic efficiency of the proposed installation is ensured by the following: an increase in the quality of enrichment is achieved due to intensive aerodynamic impacts under the conditions of a turbulent process of moving material grains, dust removal at all stages of the technological process, and removal of metal-containing inclusions. (56) Copyright certificate of the USSR N 1720754, cl. B 07 B 4/08, 1990.

Claims (2)

 1. Aerodynamic installation for the enrichment of bulk materials, including loading and unloading nozzles, a pneumatic blower, a wind tunnel with a perforated end located in the separation chamber, a breaker shield and an aspiration system installed in a separate chamber, characterized in that it is equipped with an aim to improve the quality of enrichment installed parallel to the main additional loading nozzles installed in the loading nozzles with magnetic drums and located in the aerodynamics cal pipe sloping shelves and a blade rotatably mounted, wherein the separation chamber is made of a dedusting and inertial shock parts with louvered partition therebetween.  2. Installation according to claim 1, characterized in that the baffle plate in the shock-inertial part of the separation chamber is made spherical with cones staggered.

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