RU182465U1 - Rotary mixer with electromechanical vibration exciter - Google Patents

Abstract

The utility model relates to batch mixers, can be used in the production of multicomponent mixtures and is aimed at expanding the scope of the rotary mixer due to the improved controlled temperature characteristics of the obtained multicomponent mixture. A rotary mixer with an electromechanical vibration exciter contains a mixing chamber 1, in which loading windows 2 and unloading 3 of the mixed materials are made. In the center of mixing chamber 1, a mixer rotor 4 is installed, made with blades 5 and combined with a hollow rotor of an asynchronous three-phase motor 6 by a common shaft 7. In the center of mixing chamber 1 is a vibrator 8, made in the form of a welded bellows 9 with folding corrugations of a periodic profile . Inside the bellows 9, a linear induction motor 10 is installed, the runner 11 of which is connected to the disk 12 of the bellows 9. An electromagnetic momentum pulse generating device 13 is coupled to the shaft 7 to create rotational vibrations of the mixer rotor 4 relative to its rotation axis. A heating element 14 is integrated in each blade 5 of the mixer rotor 4. Inside the mixing chamber 1, at the bottom of its lower part, there is a lower temperature sensor 15, and in the upper part of its side surface, next to the loading window 2, there is an upper temperature sensor 16. C on the outside of the mixing chamber 1 is a visualization device 17 of the readings of the lower 15 and upper 16 temperature sensors. 2 ill.

Description

The utility model relates to batch mixers and can be used in agriculture, in the chemical industry, building materials industry and other areas of the production of multicomponent mixtures.

The closest in technical essence to the proposed utility model is a rotary mixer with an electromechanical vibration exciter (Patent RU for utility model No. 155375, publ. 10.10.2015, IPC B01F 11/00), comprising a mixing chamber, a rotor rotation of the mixer rotor, a mixer rotor, made with blades, a vibrator mounted in the middle of the mixing chamber, made in the form of a bellows with folding corrugations of a periodic profile, fastened to a disk, axially driven by a cylindrical linear asynchronous m engine. The rotor drive of the mixer is made in the form of an asynchronous three-phase electric motor with a hollow rotor, on the axis of which there is a device designed to create rotational oscillations of the rotor.

The disadvantage of this technical solution is the narrow scope due to the mixing process at a fixed and uneven volume temperature of the mixture, which does not allow its use in industries where good uniform mixing is required at a certain temperature, which varies according to a given law.

The technical task of the proposed utility model is to provide an adjustable process for mixing a multicomponent mixture with the ability to control and change the temperature of the mixture.

The technical result consists in expanding the scope of the rotary mixer due to improved adjustable temperature characteristics of the resulting multicomponent mixture.

This is achieved by the fact that the known rotary mixer with an electromechanical vibration exciter, containing a mixing chamber, in which the loading and unloading of the mixed materials are made, while inside the mixing chamber, in the center, a mixer rotor is made, made with blades, and combined with a hollow rotor of an asynchronous three-phase engine with a common shaft, in the center of the mixing chamber a vibrator is installed, made in the form of a welded bellows with folding corrugations of a periodic profile, is it installed inside the bellows A linear induction motor, the runner of which is connected to the bellows disk, a device for generating electromagnetic momentum pulses is coupled to the shaft to generate rotational vibrations of the mixer rotor relative to its rotation axis, is equipped with heating elements built into the mixer rotor blades, lower and upper temperature sensors, located respectively at the bottom of the lower part and in the upper part of the side surface of the mixing chamber, and the device for visualizing the readings of the lower and upper temperature sensors, located on the outside of the mixing chamber.

The essence of the proposed utility model is illustrated by drawings, where in FIG. 1 shows a rotary mixer with an electromechanical vibration exciter; FIG. 2 shows a heating element integrated in the surface of a rotor blade of a mixer.

A rotary mixer with an electromechanical vibration exciter contains a mixing chamber 1, in which loading windows 2 and unloading 3 of the mixed materials are made. Inside the mixing chamber 1, in the center, is installed the rotor of the mixer 4, made with blades 5, and combined with the hollow rotor of the asynchronous three-phase motor 6 with a common shaft 7.

In the center of the mixing chamber 1, a vibrator 8 is installed, made in the form of a welded bellows 9 with folding corrugations of a periodic profile. Inside the bellows 9, a linear asynchronous motor 10 is installed, the runner And which is connected to the disk 12 of the bellows 9. An electromagnetic momentum pulse generating device 13 is coupled to the shaft 7 to create rotational vibrations of the mixer rotor 4 relative to its rotation axis.

A heating element 14 is integrated in each blade 5 of the mixer rotor 4. Inside the mixing chamber 1, at the bottom of its lower part, there is a lower temperature sensor 15, and in the upper part of its side surface, next to the loading window 2, there is an upper temperature sensor 16. C on the outside of the mixing chamber 1 is a visualization device 17 of the readings of the lower 15 and upper 16 temperature sensors.

A rotary mixer with an electromechanical vibration exciter operates as follows.

The hollow rotor of the asynchronous three-phase motor 6 rotates the rotor of the mixer 4 and the blades 5, which mix the multicomponent mixture.

The linear induction motor 10 oscillates the runner 11. The runner 11, by connecting to the disk 12 of the bellows 9, vibrates the shell of the bellows 9. Under the action of the shell of the bellows 9, the particles of the mixture are excited in the radial and axial directions. Due to the rotational vibrations of the rotor of the mixer 4, created by the device for generating pulses of electromagnetic moment 13 relative to the axis of its rotation, oscillations of the mixture are created in the tangential direction. The blades 5 are heated by heating elements 14, transferring the heat of a multicomponent mixture. The lower 15 and upper 16 temperature sensors measure the temperature of the mixture in real time. Their readings are displayed on the visualization device 17, on the basis of which, by switching on or off the heating elements 14, the temperature of the mixture is regulated (by the installation operator) in accordance with a predetermined temperature regime.

As a result, the characteristics of the mixture formation process are improved and the temperature process of mixture formation is controlled. In the proposed design, due to the use of heating elements and temperature sensors, the effects of complete mixing and increasing the uniformity of the mixture, improved flow of chemical reactions are achieved, and the energy consumption for mixing the multicomponent mixture is reduced due to the possibility of maintaining the optimal temperature regime.

Using the proposed utility model allows you to expand the scope of the rotary mixer due to the improved adjustable temperature characteristics of the resulting multicomponent mixture.

Claims (1)

A rotary mixer with an electromechanical vibration exciter, comprising a mixing chamber, in which loading and unloading of the mixed materials are made, while inside the mixing chamber, in the center, there is a mixer rotor made with blades and combined with a hollow rotor of an asynchronous three-phase motor with a common shaft, in the center a mixing chamber is equipped with a vibrator made in the form of a welded bellows with folding corrugations of a periodic profile, a linear asynchronous motor is installed inside the bellows, I run which is connected to the bellows disk, a device for generating electromagnetic momentum pulses is coupled to the shaft to create rotational vibrations of the mixer rotor relative to its rotation axis, characterized in that it is equipped with heating elements built into the mixer rotor blades, lower and upper temperature sensors, located respectively at the bottom of the lower part and in the upper part of the side surface of the mixing chamber, and the device for visualizing the readings of the lower and upper temperature sensors, located m on the outer side of the mixing chamber.

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