RU2047547C1 - Carousel conveyor - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: conveyor has closed ring made of magnetic material and hollow shaft coupled with rotary drive through hollow brackets. Upper and lower planes of ring in cross section are made curvilinear with sloping from axis of section towards its edges with riffled surface and are coated with cermet permeable to air. Space formed between riffled surface and coating is sealed over ring circumference and is placed in communication with source of heated compressed air. EFFECT: enlarged operating capabilities. 2 dwg

Description

 The invention relates to the metallurgical and other industries, for dehydration and drying of finely divided ferromagnetic materials.

Known rotary conveyor, comprising a working body in the form of a rotating disk [1]
The closest in technical essence to the proposed invention is a carousel conveyor for continuous delivery of materials, including a working body in the form of a closed ring connected to a rotation drive [2] The disadvantage of this conveyor is the lack of fixation of ferromagnetic particles on its working surface and their purge system for dehydration .

 The purpose of the invention is the dehydration and transportation of finely divided ferromagnetic material, while reducing energy consumption, reducing losses of the drained material with emissions into the environment.

 This is achieved by the fact that the conveyor has magnets and a source of heated compressed air, while the conveyor working member has a closed ring made of magnetic material with a hollow shaft connected to the rotational drive by means of hollow consoles, and the upper and lower planes of the ring in cross section are curved with a slope from the axis of the section to its edges with a corrugated surface and a coating of breathable cermet material, and the cavity formed between the corrugated surface and the coating is sealed with other than the circumference of the ring and communicated with the source of heated compressed air, and in the place of unloading of the material above and below the ring there are magnets that create a field opposite to the field of the ring direction.

 In FIG. 1 shows a carousel conveyor, a top view, and FIG. 2 is a sectional view of 1-1.

 The conveyor consists of a magnetic ring 1, mounted on hollow consoles 2, rigidly connected to a hollow shaft 3, driven by a drive 4. The upper plane 5 of ring 1 is made of a curved convex corrugated and coated on top with a ceramic-metal permeable material 6. The gap between the plane 5 and the coating 6 is sealed around the perimeter by the gaskets 7. The lower plane 8 of the ring 1 is made curved concave corrugated and is also covered by the coating 6, and the gaps along the perimeter between the coating 6 and the plane 8 are sealed 7. Cavities 9 and 10 enclosed between planes 5 and 8 and coverings 6 are communicated by channels 11 and 12, hollow consoles 2, hollow shaft 3, holes 13 in shaft 3, a holder 14 sitting on shaft 3, and a pipe 15 with a source heated compressed air (not shown). Trays 16 and 17, located above and below the ring 1, are used to feed the pulp containing suspended ferromagnetic material into the magnetic field of the ring 1. In the unloading point of the dehydrated material above and below the ring 1 are magnets 18 and 19, creating an opposite magnetic field in relation to the field of the ring 1 direction. Tray 20 is stationary and is designed to collect dehydrated (dried) material and its shipment.

Carousel conveyor operates as follows. The pulp is poured through trays 16 and 17 into the zone of action of the magnetic field of the ring 1, which forms floccules, conical rods of ferromagnetic material on the outer surfaces of the coatings 6. The ring 1 is rotated by the actuator 4. Heated compressed air through the pipe 15, the cage 14, the holes 13, the hollow shaft 3, the hollow consoles 2, the channels 11 and 12 enters the cavities 9 and 10, spreads through corrugations throughout the cavity, and through the pores in the coatings 6 passes to the base of the flocs standing on the coatings 6. The number of pores of the permeable coating, made, for example, from materials PNS-10. PNS-2, can reach 10 ² .10 ⁶ per 1 cm ^{2 of} its surface. Accordingly, the air micro-jets penetrate the floccula over the entire area of its base. Thereby, purging of the drained material over the entire area of its contact with the coating 6 is achieved, an increase in the convective surface of the heat and mass transfer process, the thermal efficiency of the process increases, due to which the duration of the dehydration cycle is reduced, which leads to an increase in the productivity of the installation. Moving through the floccula, the air is saturated with moisture, which also intensifies the dehydration process. The liquid that collects on the coating surface drains under the action of gravity from the convex (top) and concave (bottom) surfaces of the ring coatings, which reduces the moisture between the flocs and prevents their secondary wetting.

 As the rotation of the ring 1, the moisture content of the material decreases and at the unloading point it reaches a predetermined limit. Magnets 18 and 19 create a field in the opposite direction, as a result of which the flocs are demagnetized under the influence of air leaving the pores of the coatings 6, and the gravity of the material is poured from the convex (upper) and concave (lower) surfaces of the coatings 6 onto the discharge tray 20.

Claims (1)

 KAROUSELNY CONVEYOR, including a working body in the form of a closed ring connected to a rotation drive, characterized in that it is equipped with magnets and a source of heated compressed air, while the closed ring is made of magnetic material with a hollow shaft connected to the rotation drive through hollow consoles, and the upper and lower planes of the ring in the cross section are made curved with a slope from the axis of the section to its edges with a corrugated surface and a coating of breathable cermet material, and polo be formed between the fluted surface and the coating is sealed over the length and circumference of the ring in communication with a source of heated compressed air, and discharging the material in place above and below the ring magnets are arranged that create the opposite field relative to the field direction of the ring.

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