SU1392315A2 - Vibration fluidized-bed drier for dispersed materials - Google Patents

Abstract

The invention can be used in chemical and food industries. The purpose of the invention is an increase in productivity when using the vibrodrive in the form of a paired articulated lever-slide mechanism. For this, the vibrodrive is attached to the reticulum by means of spars with grooves 18 under the axis of the tubes 17 of the cassettes 16. The dampers are made in the form of rectangular prisms from metal rubber. The ripper has a perforation. The spars 12 communicate the oscillatory movement of the axes of the pipes 17 and the cassettes 16, which are assembled with the side plates of the gas distribution grid. Due to the possibility of free linear movement of the lattice relative to the axes of the pipes 17 of the cassettes 16 in the grooves 18 of the side members. The 12 temperature stresses in the longitudinal direction are reduced to zero. 7 il. i cl

Description

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The invention relates to a drying technique, in particular, to a fluidized bed dryer with vibro-drive, which are used in chemical, food industry and other sectors of the national economy.

The purpose of the invention is to increase productivity when using the vibrodrive in the form of a paired hinged-lever slide mechanism.

FIG. 1 is a schematic side view of the dryer; in fig. 2 - section aa of FIG. in fig. 3 is a section bB of FIG. 1; in fig. 4 - section bb of FIG. 2; in fig. 5 - section G-D figure 2; in fig. 6 is a view of D in FIG. Fig, 7 - diagram of the vibrodrive.

The vibrocalling bed dryer for dispersed materials includes a housing 1 with gas supplying 2 and gas exhausting 3 ducts, loading devices 4 and unloading 5, gas distribution grid 6 and a vibration drive containing an eccentric 7 with a flywheel, a connecting rod 8, sliders 9, a yoke 1.0, rods 11, spars 12 and pillars 13 with guides for rubber-metal shock absorbers 14.

The gas distribution grid 6 divides the working space of the dryer into two parts: sublattice, where with the help of gas supplying ducts 2 and the gates 15 the lateral distribution of the heat carrier over the length of the dryer is carried out; and the over grate, from which the spent coolant is directed to the gas cleaning system (not shown) through the gas exhaust ducts 3.

The gas distribution grid consists of a set of perforated cassettes 16. Each of the latter is articulated with grooves 18 of the side members 12 by means of two pipes 17 and is fixed from transverse displacement by spacers 19. To the cassettes 16 on both sides along the dryer two screws 21 are rigidly mounted, the grooves entering between the strips 22 and the walls of the dryer body 1. Corrugated sleeves 23, made of a gas-tight fire-resistant material, cover the axes of the pipes 17 and are pressed by rings with one end to the dryer body and the other to the side member 12.

Under the loading device 4, a bracket 24 with a flat spring 25 and a ripper 26 is attached to the strips 21. The ripper surface is perforated and inclined to the horizon as the material moves. A gas supply duct 2 is installed below the ripper. Dryers and vibrodrive racks 13 are mounted on the foundation 29. The dryer housing is thermally insulated, has inspection windows and hatches to service the working space during operation.

The vibro drier bed of dispersed materials works as follows.

Gates 15 distribute the coolant through the gas supply ducts 2, set the amplitude within 3-6 mm and the oscillation frequency of the gas distribution grid in the range of 10-20 Hz in accordance with the mode of drying of the material. Then they turn on the fans for blowing gas in the direction indicated by the arrows and the eccentric 7 with the flywheel, as a result of which it rotates through the connecting rod 8, the reciprocating movement of the slider 9 installed in rubber-metal shock absorbers 14. pillars 13 in the shock absorbers 14, and the side members 12 through the rocker arms 10 and the fingers 28. The side members 12 communicate the oscillatory movement of the axes of the pipes 17 and the cassettes 16, which are assembled with the side plates 21 its lattice. Simultaneously with the oscillations of the gas distribution grid 6, a flat spring 25 is deformed by the action of inertial forces, as a result of which the inclined perforated surface of the ripper 26 makes additional oscillations.

After this, the drive 4 is switched on, by means of which the dried material, for example milled peat, is continuously fed to the cultivator 26. Due to the pulverizer with an amplitude of 15-25 mm, which exceeds the amplitude of oscillation of the gas distribution grid 6 approximately 5 times, the peat is intensively loosened and at the same time purge gas coolant begins to dry. Wherein

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small particles of material are pulled out of the layer and in the mode of pneumatic transport are carried away to the unloading device 5 or to the gas cleaning system. The main mass of peat due to the simultaneous influence on it of the directed mechanical oscillations from the gas distribution grid 6 and the hydrodynamic forces of the flow of the gas heat carrier forms a fluidized vibrating pulp layer and, as it vibrates to the unloading device 5, dries to a predetermined humidity. The leakage of the gas coolant in addition to the vibro-billowing layer of material is prevented by corrugated sleeves 23 and the seal formed by the strip 21, the strip 22 and the wall of the casing of the dryer 1. The spent coolant is continuously removed from the dryer through the flue gas duct 3.

Placing the racks 13 of the vibrodrive on the foundation 29 independently of the case 1 excludes the vibration of the latter and creates favorable conditions for the operation of the dryer.

As exploitation gas distribution grid 6 is subjected to

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heating in a wide range of temperatures, for example, from an ambient temperature of 10–20 ° C to a gas coolant temperature of 500–700 ° C at the entrance to the dryer. Therefore, with a lattice length of 6 meters, its considerable temperature deformations take place. However, due to the possibility of free linear movement with respect to the opening 27 of the axes of the pipes 17 of the cassettes 16 in the grooves 18 of the side members 12, the thermal stresses in the longitudinal direction are reduced to zero.

Claims (1)

Invention Formula Vibro-drier dryer for disperse materials according to author. No. 1035370 characterized in that, in order to increase productivity when using a vibrodrive in the form of a paired hinged-lever slide mechanism, the vibrodrive is attached to the grille by means of spars with grooves under the tubular axes of the cassettes, The ripper has perforation.   ) 29 12 "G.2 A-A one fl za p 26 25-l L " 22 VidM 21 (Reiz. B / g / x / xx /// 12 18 / - & - ei1 29