RU101969U1 - AEROACTIVER OF CEMENT - Google Patents

Abstract

 Aeroactivator of cement, including a cylindrical container mounted on external bearings, a vertical shaft of rotation, on which horizontally mounted, sequentially from top to bottom, an aero screw, disks with triangular openings, vertical rods and two sickle-shaped scrapers, characterized in that the bearings are additionally equipped with cooling devices in the form of directional propellers actions mounted on the rotor shaft, the rods are located above the level of the aero screw, and the holes in adjacent disks are made radially counter awesome.

Description

The utility model relates to the field of production of building materials, namely, machines and equipment used to process and restore the physicochemical properties of cement lost as a result of long-term storage and exposure to moisture, both on mobile and stationary units, and can also be found application in other sectors of the economy.

A device is known, an activator of dry mixtures, comprising a cylindrical container with a vertical shaft of rotation mounted in it and a rigid screw, disks with triangular holes and vertical rods for mechanical grinding of dry mixtures (see, for example, RF patent No. 86527, publ. 13.10. 2009. Bulletin No. 10).

In this design, the reactivity of the particles is activated by hitting the rods, the edges of the holes in the disks and the air screw, which helps to increase the homogeneity of the prepared dry mixture. However, in spite of the fact that the rolling bearings are moved outside the working chamber, they overheat and prematurely fail, and the aero screw undergoes bending due to the impact of the flow of crushed material coming from the loading hole, which leads to additional vibration effects on the bearings and to change the parameters of the air flow created by him.

The utility model is based on the task of improving the reliability of cement activation equipment while improving the quality of its processing.

This object is achieved in that the cement aeroactivator containing a cylindrical container, a vertical shaft of rotation mounted on remote bearings, disks with triangular openings, vertical rods and two sickle-shaped scrapers located in the lower part of the working chamber. The cement aeroactivator is equipped with additional bearings for cooling bearings in the form of directional propellers mounted on the rotor shaft, the rods are located above the level of the aero screw, and the holes in adjacent disks are made radially opposite.

Since the cement aeration activator is equipped with additional bearings for cooling bearings in the form of directional propellers mounted on the rotor shaft, the rods are located above the level of the aero screw, and the holes in the adjacent disks are made radially opposite, improving the reliability of cement activation equipment while improving the quality of its processing.

In Fig.1 shows a General view of the aeroactivator of cement, Fig.2 is a top view of the aeroactivator of cement, Fig.3 is a section aa of Fig.2, Fig.4 is a section bB of Fig.3; 5 is a section BB of FIG. 3.

Aeroactivator of cement contains a stationary cylindrical tank 1 in which a rotating shaft 2 is mounted, mounted in bearings located outside the tank. On the shaft 2 are horizontally mounted, sequentially from top to bottom: an aero screw 3, disks 4 with holes 5 made in the opposite disks radially opposite, and vertical rods 6, the upper ends of which are at least 50 mm higher than the level of the aero screw. For cooling the upper bearings on top of the shaft, directional propellers 7 are installed, protected by an air intake casing 8, and for cooling the lower ones, inclined stiffening ribs 9 in the belt drive pulleys.

This device operates as follows.

Through the loading hole, a metered amount of cement enters the working capacity 1 of the cement aeroactivator and is immediately exposed to the rods 6 located above the level of the aero screw 3 and installed in the intermediate disks 4. When loading, a rarefaction zone is created created by the aero screw 3 mounted on the rotating shaft 2. Cement, passing four working areas of the cement aeroactivator, separated by disks 4, due to the air flow created by the blades of the airscrew, is subjected to the impact of the rods 6.

In addition, the presented set of means for the possible achievement of a technical result, in contrast to their implementation separately, significantly increases the reliability and quality of cement activation, as well as reduces the operational costs of the device, increasing its effectiveness. The proposed design provides high-quality activation of cement that has lost or partially lost its reactivity due to its age and adverse storage conditions. Due to mechanical action, the sintered pieces of cement are crushed, and the particle is heated, freed from incoherent moisture, thereby acquiring a small supply of internal energy. After passing through all four zones, the charged (enriched) material under the influence of air flow and scrapers is discharged directly into the mixing unit or in portioned containers. Cooling by the propellers of the bearings moved outside the capacity of the bearings allows to reduce the downtime for repairs and, accordingly, increase operational productivity.

Improving the performance and reliability of cement aeroactivator while improving the quality of stale cements is possible through the use of four working chambers located between the disks, the lid and the bottom of the tank, and directed along the involute curve, rectangular in the cross section of the rods. These structural elements, as well as the radially opposite arrangement of the holes in the adjacent disks and the vertically downward directed air flow created by the airscrew, intensify the process and improve the quality of cement activation.

Claims (1)

Aeroactivator of cement, including a cylindrical container mounted on external bearings, a vertical shaft of rotation, on which horizontally mounted, sequentially from top to bottom, an aero screw, disks with triangular openings, vertical rods and two sickle-shaped scrapers, characterized in that the bearings are additionally equipped with cooling devices in the form of directional propellers actions mounted on the rotor shaft, the rods are located above the level of the aero screw, and the holes in adjacent disks are made radially counter awesome.