RU11315U1 - CEMENT COOLER - Google Patents

Description

The utility model relates to the technique of cement cooling before being dispensed to consumers from cement plants.

Known cement cooler, adopted for the prototype, consisting of a housing with loading and unloading pipe; top and bottom

bearings, rotor, made in the form of a spiral gear, the bottom of the housing, the rotor drive, sprinkler and water collector, see A.S.№ 773408 ShSh R27V7 / 38, 1979.

The main disadvantage of the known cement cooler is a very high height, of the order of Hume, due to the placement of the drive under the cooler body. The drive height is more than 2 m. As a result of the large height of the cooler, this leads to increased production and capital costs for the construction of high buildings and their maintenance.

The purpose of the utility model is to reduce the overall height of the cement cooler and reduce production and capital costs.

This goal is achieved by the fact that the cement cooler rotor front-end is made in the form of a planetary pulley-reducer mounted on the rotor shaft and connected to the electric motor by means of V-belt transmission, while the rotor drive electric motor is installed outside the bottom of the cooler body, the upper and lower rotor bearings are made with the possibility horizontal movements by means of screw rods.

The implementation of the drive in the form of a planetary pulley-gear and the installation of the rotor drive motor outside the bottom of the cooler body allowed to reduce the overall height of the cooler by 20%. The implementation of the lower and upper bearings of the rotor with the ability to move in a horizontal plane allows you to get a minimum decisive clearance between the screw surface of the rotor and the cooler body,

MKI G27V

The essence of the utility model is illustrated by the description and drawings, where in Fig.1 shows a General view of the cooler; figure 2 is a view along arrow a in figure 1;

in Fig.Z - section bB in Fig.1.

The cement cooler comprises a housing I with loading 2 and unloading 3 pipes, a rotor 4 made in the form of a screw spiral 5, a lower 6A and an upper 7 of the rotor bearings 4, a bottom 8 of the cooler body I with a pipe 9 and a cover 10 with a repair hatch II and a plate 12, drive 13, rotor 4 with electric motor 14, made in the form of a planetary pulley-reducer 15 connected to the electric motor 14 by means of V-belt drive 16, sprinkler 17 and water collector 18, installation of fittings 19, screws 20, rods 21, 22 for centering rotor 4 during cooler assemblies, traction 23 for imparting This geometrical form of the rotor and adjust the gap between the screw rotor and the casing surface 4 I cooler.

Cement cooler works as follows:

Hot material (cement) enters through the loading pipe 2 into the housing I and is transported upward by a screw spiral 5

rotor 4 to the discharge pipe 3 along the walls of the housing I.

The rotor 4 rotates from the drive 13. At this time, the outer surface of the housing I is washed by water evenly flowing onto the surface of the housing I through the sprinkler 17. Flowing down, water is collected in the water collector 18 and then discharged from the cooler. Moving upward along the walls of the housing I, the hot material is cooled by heat transfer through the wall of the housing I, having reached the discharge pipe 3, it is discharged from the cooler and then transported to the place of consumption, for example, to a zatarochny machine or to a warehouse. Material settling on the bottom 8, due to dusting inside the housing I

material. Thus, the presence of scrapers prevents the accumulation of material on the bottom 8 of the housing I in a radius from the axis of the rotor 4 to the screw spiral 5 during rotation of the rotor 4, and also the scrapers serve to unload the material through the pipe 9 when the cooler stops suddenly. The pipe 9 also serves to unload foreign matter accumulated in the cooler.

Using a utility model helps to reduce production and capital costs.

The utility model is created in the order of the job.

Technical Assistant:

V.F.Didich

Claims (3)

1. Cement cooler, comprising a housing with a loading and unloading nozzle mounted on the bottom with a nozzle, a rotor mounted on a vertical shaft with lower and upper bearings, a water collector, a rotor drive, characterized in that the rotor drive is made in the form of a pulley-reducer, fixed on the rotor shaft and connected to the electric motor by means of a V-belt drive.  2. The cooler according to claim 1, characterized in that the rotor drive motor is installed outside the bottom of the cooler body. 3. The cooler according to claim 1, characterized in that the upper and lower bearings of the rotor are movable in a horizontal plane by means of screw rods.