RU104480U1 - AERODYNAMIC MIXER - Google Patents

Abstract

An aerodynamic mixer comprising a conical body, a cover with air outlet boxes, a chamber mounted above the cover with several tangential inlets for joint supply of air and bulk material, a centrifugal fan wheel with blades installed under the cover, a hollow cone with a hole at the top, fixed under with a centrifugal fan wheel bottom up, and a particle outlet pipe, characterized in that the side surfaces of the cover are made in the form of a hollow truncated sphere with parallel bases of different diameters, the cover is mounted on a conical housing with a larger diameter corresponding to the larger diameter of the housing.

Description

The aerodynamic mixer is used in agriculture, relates to mixture preparation, and specifically to machines for mixing bulk materials, in particular feed, and can be used in animal feed, chemical, food, construction and other industries.

Known aerodynamic "Turbocyclone" (A. S. No. 956033; B04C 9/00, 1982), containing a conical body, a cover with an inlet for gas and an outlet of purified gas, a particle outlet and a centrifugal fan wheel mounted under the cover, the turbocyclone is equipped with a hollow cone with a hole at the top, mounted under the centrifugal fan wheel with the bottom up, cylindrical shells mounted concentrically in the cone, the inner shell with the lower edge is fixed in the cone hole, and the outer one is fixed with the upper edge on the base In the cone, the conclusions of the purified gas are made in the form of triangular holes, evenly spaced along the periphery of the lid with a vertex towards the gas flow and connected by boxes of a triangular section with holes of a similar shape made in the bottom of the cone. In principle, a turbocyclone can be used to mix bulk materials through a centrifugal wheel.

The disadvantages of the known device are the presence of one suction tangential nozzle, which does not allow to mix several components of the mixture, the lack of their metered absorption in the working chamber, the low efficiency of mixing the components of the mixture on a centrifugal wheel.

Closest to the invention and selected as a prototype aerodynamic device according to the patent of the Russian Federation No. 2294795. (IPC ⁷ B01F 3/18, 13/02, published in BI No. 7, 2007 “A method for mixing bulk materials and an aerodynamic device for its implementation”), containing a conical body; a cover with boxes for air outlet; a chamber mounted above the lid with tangential inlet nozzles for air supply provided with metering dampers, the nozzles having different diameters and are arranged sequentially increasing from a smaller diameter to a larger one on one horizontal plane; centrifugal fan wheel with vanes mounted under the cover; a hollow cone with a hole in the apex, mounted under the centrifugal fan wheel with the bottom up, and a particle outlet pipe.

A disadvantage of the known device is the presence of a cylindrical part at the lid, which contributes to: reducing the vacuum generated by the fan wheel due to large local losses upon impact on a vertical wall, during which undesirable grinding of the mixture components occurs; poor separation of the particles of the mixture from air.

The purpose of the utility model is to increase the efficiency of the process of mixing bulk materials, in particular feed, and increase the productivity of the mixer by reducing local vacuum losses in the working chamber and improving the aerodynamic separation conditions.

To achieve the goal, the aerodynamic mixer of bulk feed contains a conical body, a cover with air outlet ducts, a chamber mounted above the cover with several tangential air inlets, a centrifugal fan wheel with vanes mounted under the cover, a hollow cone with a hole in the apex, fixed under the centrifugal fan wheel with the bottom up and the particle outlet, unlike the prototype, the side surfaces of the cover are made in the form of a hollow truncated sphere with parallel bases of different diameter, the lid is mounted on the conical housing a large diameter corresponding to the larger diameter of the cone.

The execution of the side surfaces of the cover in the form of a hollow truncated sphere with parallel bases of different diameters, and the installation of the cover on a conical body with a large diameter corresponding to a larger diameter of the body, will reduce local vacuum losses in the working chamber, improve the aerodynamic conditions of separation due to the creation of the effect of vortex movement of the feed-air mixture at the exit of the fan wheel and its directed movement towards separation, eliminate unwanted grinding of the mixture components.

When using a cover in the form of a hollow truncated sphere with parallel bases of different diameters, the movement of the air-feed mixture is carried out along a curved path, thereby increasing the area and time of contact of the mixture with the inner surface of the cover, a directed swirling flow of the air-feed mixture is formed, local losses of vacuum in the working chamber of the mixer are reduced, which helps to improve the conditions of separation of the mixture and stabilization of the vacuum.

The essence of the proposed solution is illustrated by the drawing, where figure 1 shows the aerodynamic mixer - General view; figure 2 is a top view.

The aerodynamic mixer (Fig. 1) contains a conical body 1, a cover 2 with air outlet boxes 3, the side surfaces of the cover 2 being made in the form of a hollow truncated sphere with parallel bases of different diameters, and the cover 2 is mounted on the conical body 1 with a large diameter corresponding to a larger diameter of the housing, a working chamber 4 mounted above the cover with tangential inlet nozzles 5 (Fig. 2) for supplying air together with the components of the mixture, an electric motor 6 (Fig. 1), on the shaft of which a centrifugal valve is fixed yatornoe wheel 7 with vanes 8 mounted under the lid 2, a hollow cone with a hole 9 at the apex fixed under centrifugal fan wheel 7 bottom up nozzle 10 and release particles.

The aerodynamic mixer operates as follows. The air flows with individual components of the mixture suspended in it are simultaneously sucked up due to the creation of rarefaction by the blades 8 of the centrifugal fan wheel 7 through the inlet tangential nozzles 5 installed on the side surface of the working chamber 4. In the working chamber 4, the air flows with the components of the mixture suspended in it acquire a rotational movement , which leads to mixing the components of the mixture. The helical flow of the granular mixture due to rarefaction and gravity enters the rotating blades 8 of the centrifugal wheel 7. Here there is an additional mixing of the components of the mixture, which together with the air are discarded to the inner surface of the cover 2 and then to the conical body 1.

In the conical body 1 of the device, under the action of the vortex flow formed by the shape of the cover 2, centrifugal forces, friction and gravity, there is an effective separation of the granular mixture and air. The bulk mixture fills the conical housing 1 to a certain level, which is below the cone 9, and is discharged from the conical housing 1 through the nozzle 10. Air enters the cone 9 and is removed through the outlet boxes 3.

The execution of the lid of the working chamber in the form of a hollow truncated sphere with parallel bases of different diameters provides the effect of swirling the air-feed mixture at the exit of the fan wheel, which reduces the loss of created vacuum in the mixing chamber and contributes to the directional movement of the feed air mixture for separation, and also eliminates unwanted grinding of the mixture components .

The technical and economic effect is achieved by increasing the efficiency of the process of mixing bulk feed and increasing the productivity of the mixer due to the reduction of local losses of vacuum in the working chamber and improving the aerodynamic conditions of separation.

Claims (1)

An aerodynamic mixer comprising a conical body, a cover with air outlet ducts, a chamber mounted above the cover with several inlet tangential nozzles for joint supply of air and bulk material, a centrifugal fan wheel with vanes mounted under the cover, a hollow cone with a hole in the apex, fixed under a centrifugal fan wheel with the bottom up, and a particle outlet pipe, characterized in that the side surfaces of the lid are made in the form of a hollow truncated sphere with parallel main by different diameters, the cover is mounted on a conical body with a large diameter corresponding to a larger diameter of the body.