SU1280287A1 - Vibrating apparatus for heat treating of loose material - Google Patents

Abstract

The invention relates to the heat treatment of bulk material, preferably cooling and drying, and can be used in the production of granular feed. The invention makes it possible to reduce metal consumption and increase operational reliability. In mine 1 of the apparatus, inclined net vibrolocks (VL) 3 are placed in the riverbed. The material being cooled, arriving at the last of the loading device 2, moves from top to bottom. Air is supplied through an aperture of 5 s (L

Description

in the wall of the shaft 1 and removed through the confuser 6. The required direction of air flow through the product layer is provided by installing the plugs 7 and B. To prevent the caking of the cooled pellets of the line 3, they can move back and forth up and down. This is achieved by connecting the VL 3 in the lower part to tam 11, suspended from the rotating eccentrics 16 and 17. The latter are provided with diametrically opposite grooves under the key. This makes it possible to fix them on the shaft 14, which has a groove on one side, in a position that ensures the minimum energy consumption of the drive or the required sequence of movement of the overhead line. To simplify installation and servicing, the VL 3 connection with 11 t is shifted from the middle of the VL along their width by an amount equal to half the distance between the eccentrics 16 and 17. To reduce the cost of assembly, each attachment point 11 to the shaft 14 is caged . 3 3.p. f-ly, - 5 ill.

Claims (4)

The invention relates to the heat treatment of bulk material, preferably cooling and drying, and can be used in the production of granulated feed. The purpose of the invention is to reduce the metal content of the vibroapparatus and increase its operational reliability. FIG. 1 shows schematically the proposed vibroapparatus operating as a cooler; in fig. 2 A-Ana FIG. one; in fig. 3 mesh vibratotok; in fig. 4 - tying the vibrating chute with a pull; in fig. 5 - the same, side view. The cooler contains a shaft 1 rectangular in cross section, in the upper part of which a charging device 2 is located for supplying cooled material. From the loading device 2, the cooled material is fed to the inclined net vibrating trough 3. A discharge device 4 is located in the lower part of the cooler. The vibrating troughs 3 are located along the river bed. Air is supplied through the opening 5 in the shaft wall, and is removed through the confuser 6. The required direction of air movement through the product layer is provided by installing plugs 7 and 8. Vibrating trays 3 in the upper part are fixed on the axles 9 installed on the support angles 10. In the lower part vibratory trays 3 are connected through one with the corresponding pull 11, for example with a cable. Vibrating trough 3 is fixed on t 11 with the help of clamp 12, the upper part of which serves as a free support for the rigid lower edge of vibrating trough 3. When moving t 11 11 up and down, they can rotate some vibrating troughs in the place of suspension of their lower part-like hinge, which eliminates their bend at the points of attachment to tam and thereby increases the reliability of the design. In order to carry out reciprocating (oscillatory) movement of g 11 up and down on shaft 1, shaft 14 is mounted on top of bearings 13, rotating when drive 15 is in operation and transmitting rotary motion to eccentrics 16 and 17, on which slide bearings 18 and clamps 19 are mounted on top. the hooks 11 suspended from them. The eccentrics 16 and 17 are made with diametrically opposite grooves 20 and 21 under the key 22. This allows them to be fixed on the shaft 14, which has a notch on one side only, in a position that ensures minimum energy consumption by the drive 1 5 or the desired sequence of movement of the vibrating rods 3. - To simplify installation and maintenance, the eccentrics 16 and 17 are set at some distance from one another. At the same time, the hinge joint of the tg and reticulated vibrating troughs 3 is displaced from their midpoint by an amount equal to half the distance between the two eccentrics 16 and 17. This also makes it possible to ensure the unification of the vibrometers, i.e. they are all the same. In order to reduce the cost of assembling the attachment unit t 11 on the shaft 14 and to prevent displacement of the eccentrics 16 and 17, bearings 18 and clamps 19 relative to each other, they are installed in the cage 23. I The vibrating apparatus works as follows. In operation, the cooled material flows from the loading device 2 to the vibratory net 3, and after cooling it is removed through the discharge device 4. Air enters the cooler through the opening 5, passes through the layer of material in the vibrating channels 3 and after heating through the confuser 6 is sucked into the system aspiration. Vibro trays perform vertical oscillations. Claim 1. Vibroapparatus for heat treatment of bulk material, predominantly 17 IS and a utecTBeHHo cooler containing a shaft and reticulated vibratory trays continuously installed in it, connected through one with a corresponding pull attached to the shaft and performing vertical oscillations, characterized in that, in order to reduce metal intensity and improve operational reliability, the vibrolocks connect to pull it is hinged by its lower part, and the attachment point for each cable pull to the shaft is made in the form of a yoke, spanning, with the possibility of slippage, an extraceutric mounted on the shaft. 2. The vibroapparatus according to claim 1, which is based on the fact that the eccentric is made with two diametrically opposite grooves under the key for fastening it on a shaft having only one groove. 3. The vibration apparatus according to claim 1, wherein the connection is that the connection of the vibrating trays with the rods is offset from the middle of the vibrating trays along their width by an amount equal to half the distance between the eccentrics. 4. The vibroapparatus as claimed in claim 1, which is tactile in that each attachment point of the tie rod to the shaft is enclosed in a holder.