RU217528U1 - MIXING DEVICE - Google Patents

Abstract

The utility model relates to devices for mixing heterogeneous systems of the "liquid-liquid" and "liquid-gas" types and can be used in chemical, petrochemical, microbiological, pharmaceutical, medical, mining, food and other industries, as well as in environmental cleaning processes sewage and harmful gas emissions. The technical result of the proposed design of the mixing device is to increase productivity. The stated technical result is achieved by the fact that the mixing device contains a cylindrical body with a bottom and a cover, branch pipes, a shaft with a propeller agitator installed in the lower part of the diffuser, and a rolling bearing is installed in the upper part of the diffuser, the outer ring of which is pressed into the wall of the diffuser, and the inner one - on the shaft.

Description

The utility model relates to devices for mixing heterogeneous systems of the "liquid-liquid" and "liquid-gas" types and can be used in chemical, petrochemical, microbiological, pharmaceutical, medical, mining, food and other industries, as well as in environmental cleaning processes sewage and harmful gas emissions.

A well-known design of the Waldhof cultivator with a guide tube, or diffuser, consisting of a housing, a cover, a shaft with a stirrer attached to the drive, baffles attached to the walls of the housing, and a tube for air supply. A feature of this design is the installation of a guide tube above the blades with a stirrer. When the mixer blades rotate, a pumping effect is created, under the influence of which the mixed liquid with air bubbles circulates from top to bottom inside the volume of the guide tube and from bottom to top in the annular space between the walls of the housing and the guide tube [Gapopov K.P. Processes and devices of microbiological productions. - M.: Light food industry, 1981, p. 70-71].

The reasons hindering the achievement of the desired technical result include mixing at the macro level with the formation of large air bubbles, which reduces the mass transfer rate and generally leads to a decrease in productivity.

A well-known design of a homogenizer containing a cylindrical body, a roller, a drive for its rotation and mounted on the roller sequentially one after another rolling bearings, characterized in that the roller is made stepped with the largest diameter in its upper part and the smallest in its lower part, at each stage of the roller inner cages of rolling bearings are fixed, and rings are fixed on the inner wall of the housing in areas associated with rolling bearings, the smaller inner diameter of which is equal to the outer diameter of the corresponding bearings [Patent No. 197814 of the Russian Federation, "Homogenizer", 2020].

The reasons hindering the achievement of the claimed technical result include the short residence time of the homogenized liquids in the rolling bearing separator between the rotating balls or rollers, which leads to a decrease in productivity.

The closest technical solution adopted for the prototype by the combination of features is an apparatus with a propeller agitator, consisting of a cylindrical body with a bottom, a lid, in which a shaft is fixed, connected to a rotation drive, at the lower end of which a propeller agitator is installed. In the rotation zone of the propeller agitator, a diffuser is installed - a short cylindrical or slightly conical glass. When the agitator blades rotate inside the diffuser, under the action of a pumping effect, the agitated liquid circulates from bottom to top or from top to bottom, forming macrovortices [Planovsky A.N., Ramm V.M., Kagan S.Z. Processes and apparatuses of chemical technology. Fifth edition, stereotypical. - M.: Chemistry, 1965, p. 358].

The reasons hindering the achievement of the desired technical result are the large size of the dispersed phase droplets formed during the rotation of the paddle mixer in the diffuser, which reduces the total mass transfer surface and its very speed. This leads to the need to increase the mixing time, which negatively affects productivity.

The technical result of the proposed design of the mixing device is to increase productivity.

The stated technical result is achieved by the fact that the mixing device contains a cylindrical body with a bottom and a cover, branch pipes, a shaft with a propeller agitator installed in the lower part of the diffuser, and a rolling bearing is installed in the upper part of the diffuser, the outer ring of which is pressed into the wall of the diffuser, and the inner one is pressed on the shaft.

The installation of a rolling bearing in the upper part of the diffuser so that its outer ring is pressed onto the diffuser wall, and the inner ring onto the shaft, allows, when the shaft with the agitator rotates, to create a pumping effect inside the diffuser, under the action of which the mixed liquids rise from the bottom up and pass through the gaps between rolling elements are involved in rotation between the rings of the rolling bearing, thereby breaking large drops of liquids into smaller ones, which leads to mixing at the micro level, with the formation of small drops in the dispersed phase. This increases the number of drops, their contact surface of the phases with the continuous phase and the mass transfer coefficient, which generally increases the rate of mass transfer processes and reduces the time required for mixing, and hence increases the performance of the device as a whole.

The figure shows a mixing device.

The mixing device consists of a vertical body 1, hermetically connected at the top with a cover 2, and at the bottom with a bottom 3. On the cover 2 there are nozzles 4 (separate for each liquid) for supplying the stirred liquids into the body 1, and in the cover 2 a shaft 5 is installed by means of a bearing connected to the drive at the top. At the lower end of the shaft 5, a propeller mixer 6 is installed, the blades of which are located in the lower part of the diffuser 7 (short cylindrical or conical glass), fixed on the cover 2 by means of rods 8. A rolling bearing 9 is installed in the upper part of the diffuser 7, while its outer ring is pressed in the wall of the diffuser 7, and internal - on the shaft 5.

On the bottom 3 there is a branch pipe for draining 10 mixed liquids from the housing 1.

The mixing device works as follows.

When the outlet pipe 10 is closed, it is poured into the housing 1 through the pipes 4, in a given ratio, the liquid intended for mixing, after filling, the supply of liquids is stopped. The drive is turned on, which drives the shaft 5 with the propeller agitator 6 at an angular velocity ω. The rotation of the shaft 5 drives the inner ring of the rolling bearing 9.

When the propeller mixer 6 rotates inside the diffuser 7, a pumping effect is created, under the influence of which the flows of mixed liquids inside the diffuser 7 rise from the bottom up, and outside, in the annular gap between the housing 1 and the diffuser 7 from top to bottom (the flow lines in the figure are shown by arrows), forming a mixture at the macrolevel with large droplets of the dispersed phase of one liquid in the continuous phase of another liquid. However, large drops of the dispersed phase, passing from bottom to top, fall into the gaps between the rolling elements of the rolling bearing 9 and are involved in rotation between the rings of the rolling bearing 9, which leads to additional crushing of large drops into smaller ones, thereby providing a micro level of mixing with a large number of small drops. , which means with a large side surface and an increased mass transfer rate. All this leads to an increase in the rate of phase contact, which means more intensive mixing of liquids and the production of finely dispersed emulsions with micron-level droplets. Upon completion of the mixing process, the finished emulsion is drained through the outlet pipe 10.

The mixing device can operate continuously. In this case, the liquids intended for mixing are poured into the body 1 through the pipes 4, the drive is turned on, which rotates the shaft 5 with the propeller agitator 6 and the rolling bearing 9, but the outlet pipe 10 is open, and the resulting emulsion is continuously discharged from the body 1 during the entire process mixing.

Thus, the use of a mixing device containing a cylindrical body with a bottom and a cover, branch pipes, a shaft with a propeller agitator installed in the lower part of the diffuser, and a rolling bearing is installed in the upper part of the diffuser, the outer ring of which is pressed into the wall of the diffuser, and the inner ring is pressed onto the shaft , allows you to increase the performance of the device.

Claims (1)

A mixing device comprising a cylindrical body with a bottom and a cover, nozzles, a shaft with a propeller agitator installed in the lower part of the diffuser, characterized in that a rolling bearing is installed in the upper part of the diffuser, the outer ring of which is pressed into the diffuser wall, and the inner ring is pressed onto the shaft.

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