SU925375A1 - Mixer - Google Patents

Description

(54) MIXER

The invention relates to the field of dispersing and mixing devices and is intended mainly for use in construction in the construction of hydraulic structures, in cementing wells.

Known magnetic mixer containing a vertical body, a ferromagnetic element placed in the body and made in the form of a vibrating plate, an electromagnet located outside the body, and the output pin of the mixture 1.

Also known is a mixer containing a horizontal body made of a non-magnetic material with a working chamber made therein, ferromagnetic elements placed in the working chamber and made in the form of perforated plates with ends bent inwards into the working chamber, and electromagnets placed outside the case 2J.

However, the elasticity of the material of ferromagnetic elements in these mixers is designed for a limited range of viscosity and density of solutions. With a significant change in these characteristics of the solutions, their chemical resistance to the movement of ferromagnetic elements also changes. This leads to a mismatch of the natural vibration frequency of the ferromagnetic elements with the frequency of movement of the magnetic fields, in connection with which the dispersing and mixing effects of the mixer are reduced.

The aim of the invention is to intensify the processes of dispersion and mixing of substances with different viscosities and densities due to the activating effect on them of ferromagnetic elements.

The goal is achieved by the fact that in a mixer containing a horizontal body made of non-magnetic material with a working chamber made in it, ferromagnetic

15 elements placed in the working chamber and made in the form of perforated plates with ends bent inwards into the working chamber, electromagnets placed outside the housing, the working chamber is equipped with non-magnetic elements, and ferromagnetic elements are installed parallel to the axis of the housing with the possibility of rolling around its center located opposite

25 bent their ends.

In addition, nonmagnetic elements can be made in the form of rings with windows on the periphery, in which ferromagnetic elements are placed in their center of gravity.

Non-magnetic elements can be made in the form of plates, and the ferromagnetic elements are installed in the working chamber opposite each other, equipped with stiffening ribs and interconnected pivotally by means of non-magnetic plates.

In this case, the electromagnets are arranged in pairs from opposite sides of the body and are offset by half the length of the ferromagnetic elements.

FIG. Figure 1 shows the proposed mixer, general view, longitudinal section (first embodiment); in fig. 2 is the same (second embodiment).

The mixer includes a horizontal body 1 of non-magnetic material with a working chamber 2 made therein, ferromagnetic elements 3 placed in a working chamber and made in the form of perforated plates with 2 ends bent inwards into the working chamber and electromagnets 4 placed outside the case.

Ferromagnetic elements 3 are installed in the working chamber 2 parallel to the axis of the body with the possibility of rolling around its center of gravity, and the electromagnets 4 are located opposite their bent ends. In addition, the mixer is equipped with non-magnetic elements in the form of coils 5 with windows on the periphery of windows 6 in which ferromagnetic elements 3 are placed coaxially with their centers of gravity 3. The mixer is possible to have a non-magnetic elements made in the form of plates 7 Chamber 2 is opposite each other and provided with ribs 8. Stiffness, while nonmagnetic plates 7 pivotally connect ferromagnetic elements 3 to each other. In addition, the electromagnets 4 are arranged in pairs on opposite sides of the housing and are offset by half the length of the ferromagnetic elements 3.

The mixer according to the first embodiment operates as follows.

In the working chamber 2 serves the components to be processed solution. At the same time, an alternating electric current is supplied to the electromagnets 4, which, by means of power diodes 9, locking the current, moving in one direction, and transmitting the current, moving in another, are converted into pulsed currents of one direction. In this case, the electrical circuit of the electromagnets 4 is assembled in such a way that at the moment when one electromagnet is put into operation, the other is disconnected. It occurs during one half cycle of alternating current. The next time (during the other half period), the first electromagnet will be turned off, and the second one - turned on.

The automatically occurring alternating activation of electromagnets 4 leads to alternate attraction of one or the other arm of ferromagnetic elements 3 and, consequently, their oscillations around the center of gravity in window 6 of ring 5.

The mixer according to the second embodiment operates as follows.

In the working chamber 2 through one of the nozzles 10 or 11 serves the components to be processed solution. At the same time to the electromagnets 4 serves an alternating electric current. Moreover, electromagnets located on opposite sides are supplied with a voltage that is out of phase by 180 °, with the expectation that with one electromagnet 4 on, the other is disconnected and vice versa. After processing, the solution exits the working chamber through the pipe 11 or 10.

This switching circuit of electromagnets 4 together with the plates 7 provides the necessary forced oscillatory movements of the ferromagnetic elements 3 with the required frequency, independent of the physicomechanical properties of the solutions.

The application of the invention makes it possible to more effectively process various viscosity and density solutions, both Newtonian and non-Newtonian. Such a scheme of operation of the mixer allows more intensive processing of the solutions, since, as their properties change, no damping of the ferromagnetic bodies occurs.

Claims (4)

1. A mixer containing a horizontal body of a non-magnetic material with a working chamber made therein, ferromagnetic elements placed in the working chamber and made in the form of perforated plates with ends bent inward of the working chamber, and electromagnets placed outside the case, characterized in that In order to intensify the processes of dispersion and transfer of substances with different viscosities and densities due to the activating effect of ferromagnetic elements on them, the working chamber is equipped with non-magnetic E elements, and ferromagnetic elements are mounted parallel to the axis of the housing with the possibility of rolling about its center of gravity, wherein the electromagnets are disposed opposite bent ends thereof. 2. The mixer according to claim 1, of which there are non-magnetic elements made in the form of rings with windows on the periphery, in which ferromagnetic elements are placed coaxially with their centers of gravity. 3. A mixer according to claim 1, characterized in that the non-magnetic elements are made in the form of plates, and the ferromagnetic elements are installed in the working chamber opposite each other, equipped with stiffening ribs and interconnected by means of non-magnetic plates. 4. Mixer on the PP. 1 and 3, characterized in that the electromagnets are arranged in pairs on opposite sides of the housing and are offset by half the length of the ferromagnetic elements. Sources of information taken into account in the examination: 1. US patent number 4090263, class. 366-273, 1978. 2. USSR author's certificate number 670320, cl. On 01 F 13/08, 1977.