RU2356614C1 - Mixing device - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: present invention relates to devices for mixing different liquids and solid materials and can be used in chemical, mining, food, pharmaceutical and other industries. The device comprises a working chamber with a spherical side wall and ferromagnetic particles inside the chamber. Around the chamber there is a polyphase winding, connected to an alternating current source. Inside the chamber there is a ring with a triangular diametric section with curvilinear or rectilinear edges.

EFFECT: more efficient mixture of material.

1 dwg

Description

The invention relates to devices for mixing various liquid and solid materials. It can be used in chemical, mining, food, pharmaceutical and other industries.

A device for mixing according to the patent for utility model No. 60395, IPC B01F 7/16, publ. 2007, containing a housing, a drive, a shaft with a sleeve placed on it with blades that are suspended on elastic flat elements mounted on the sleeve, with the ratio of the width (a) and thickness (b) of the elastic element a / b = 5.

The disadvantage of this device is that it is suitable for mixing only liquid media (non-solid materials).

Closest to the proposed invention in technical essence and the achieved result is a device for mixing according to copyright certificate No. 1398895, IPC B01F 7/16, publ. 1985, adopted as a prototype.

The prototype contains a chamber with ferromagnetic particles, a pipe for loading and unloading materials, and a multiphase winding placed concentrically around the chamber. This device operates as follows.

The material is loaded into the chamber through the pipe, after which the multiphase winding is connected to a power source. As a result, a rotating electromagnetic field is created, which, interacting with ferromagnetic particles, sets them in motion. Moving ferromagnetic particles carry the materials being mixed into motion, which results in mixing.

The disadvantages of the prototype include the fact that in the process, the ferromagnetic particles are concentrated in the central part of the spherical side wall, which reduces the efficiency of mixing materials in the upper and lower parts of the chamber.

The technical result of the invention is to eliminate the noted drawback of the prototype, namely, increasing the efficiency of mixing materials.

The technical result is achieved in that the mixing device containing a working chamber filled with ferromagnetic particles with a spherical side surface and a nozzle for loading and unloading the processed material and a multiphase winding placed around the chamber, creating a rotating electromagnetic field around the chamber, according to the invention, is equipped with a ferromagnetic deflector in the working chamber particles located inside the chamber in its central part, made in the form of a triangular ring in diametric with chenii shape with rectilinear or curvilinear generatrix.

The diverter is made in the form of a triangular ring in the diametric section of the form with rectilinear or curvilinear generators.

The proposed device is shown in the drawing, where figure 1 shows: 1 - a camera with spherical walls; 2 - ferromagnetic particles; 3 - pipe loading and unloading of the processed material; 4 - multiphase winding; 5 - diverter triangular in the diametric section of the form; figure 2 - with rectilinear generators, figure 3 - with curved generators.

The device operates as follows. The processed material is loaded into the chamber 1 through the pipe 3 and the multiphase winding 4 is connected to a power source (not shown), as a result of which a rotating electromagnetic field is created, which interacts with the ferromagnetic particles 2. In this case, the ferromagnetic particles 2 move in radial and circumferential directions in the plane multiphase winding 4, which provides mixing of the processed material. When this ferromagnetic particles moving in the radial direction near the generatrix of the ring 5, collide with them and receive as a result of this contact acceleration in the axial (up or down) direction (Fig.2, 3).

This ensures the dispersion of ferromagnetic particles along the height of the chamber and their active interaction with the processed material in a larger volume than in the prototype device, which significantly increases the mixing efficiency.

Claims (1)

A device for mixing, containing a working chamber filled with ferromagnetic particles with a spherical side surface and a nozzle for loading and unloading the processed material and a multiphase winding placed around the chamber, creating a rotating electromagnetic field around the chamber, characterized in that the working chamber is equipped with a ferromagnetic particle deflector located inside the chamber in its central part, made in the form of a ring triangular in the diametric section of the form with rectilinear or curvilinear bubbled generators.

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