DE839269C - Agitator - Google Patents

Description

(WlGBl. P. 175)

ISSUED MAY 19, 1952

ρ 37740 IXb 1421 D

Agitator

Various types of mechanical agitators for liquid, pulpy, doughy, dusty, granular, etc. media are known per se. So For example, stirring sticks, pistons, propeller-like blades, etc., which come with mechanically firmly connected via V-belt pulleys, gears and engine operating units are set in motion to mix up the media to be stirred. Are known also, for example, in laboratories mechanical agitators with rocking or pivoting Movement to shake liquids. There are also electromagnetic agitators in laboratories known where, for example, a glass ball filled with iron dust in measuring beakers or Erlemeier glass bulb in an electromagnetic produced by an electromagnet Field is moved back and forth or up and down with a certain frequency and thus a kind Shaking movement generated in the medium to be stirred.

All of these facilities are mainly in laboratory operations, where there is for example the analysis depends on clean work and accuracy, very big disadvantages. In most Cases result from the stirring movements caused by the being thrown out agitating medium, distortions and losses that affect the accuracy of the analysis. Farther cause the purely mechanically working agitators by the disintegration phenomena of the ones used Stirring instruments in acids and bases

Inaccuracies in the analysis because it is the composition the substance to be examined and the chemical agents! as well the purely mechanical stirring instruments can be attached to and in the very sensitive ones, mostly made of glass arrange existing laboratory equipment very poorly. With the electromagnetic stirring devices it is disadvantageous that you only have one that goes up and down or back and forth according to the frequency

ίο movement with the glass ball filled with iron dust can run in the stirred tank. In addition, it heats up due to the electrical frequency phenomena the electromagnet very quickly, which in many cases, especially medical ones Investigations, under no circumstances, is desired. In any case, you have it too l> If the electromagnetically acting device is not in hand, the process of stirring as required and desire to shape.

In contrast, the invention consists in that a ferromagnetic iron body in a Rühf tank or a permanent magnetic body is arranged, which from one outside of the container provided permanent magnet is set in the required movement. So is In particular for laboratories of all kinds an agitator was created which has the disadvantages of those described above purely mechanical stirring devices, but also the disadvantages' of the electromagnetically described no longer cling. Rather, the Invention in that it performs this task on a permanent magnet basis in a very simple way elegant shape solves, to a special degree, the requirements of laboratories place at such agitators.

Several exemplary embodiments of the invention are shown in the drawing.

In a beaker or Erlemeier flask, for example, a rod-shaped, cross-shaped or star-shaped hollow glass body filled with iron dust or magnetic steel powder is introduced (cf. FIGS. 1 to 3). The iron dust or the magnetic steel powder can also be granular or lumpy in nature. Likewise, instead of the magnetic steel powder, a compact, solid ferromagnetic iron or permanent magnetic body can be clad with glass or other chemically indifferent anti-magnetic material. The glass bodies filled with magnetic steel powder can be magnetized so that the rod-shaped glass body as magnetic dust with an N and 5 "-PoI, the cross-shaped glass body as a cross magnet with 2 N and S poles and the star-shaped glass body as a star magnet with 4 N each - and 5-pole works. Magnetic glass bodies of the type described can therefore be designed with any number of N and S poles. The glass bodies described, filled with iron or magnetic steel, can also be flat, angular, round, curved, ring-shaped, with Elevations, ridges, etc., as shown in FIG. 4, form.

If you fill the stirred tank with the media to be stirred and place it on the actual permanent magnet, i.e. equipped with a permanent magnet drive, as shown schematically in Fig. 5, the one in the upper part of the mixer frame, for example, is a bar magnet NS formed permanent magnet 1, the filled iron powder or magnetic steel dust glass rod 2 align in the stirred tank 3 in magnetic field direction NS and hold said filled Magnetstähl and magnetized acting as a bar magnet NS glass body 2 in stronger magnetic interaction with the bar magnet NS of Rührgestells occurs as a glass rod filled with iron. If the drive bar magnet 1 located in the stirring frame is now allowed to rotate, the glass body 2 filled with iron or magnetic steel in the stirring tank rotates in the same way through magnetic force field transmission. The drive bar magnet 1 in the agitator frame, like the glass bodies 2 filled with iron and magnetic steel in the agitator vessels, can have multiple poles.

If the agitator or the medium to be agitated needs to be heated, the agitator frame of the agitator, which operates with permanent magnets, can be provided with, for example, an electric heating plate, as shown schematically in FIG 2 with the poles TV 'and S' laterally in the manner shown on the glass rod 3 filled with iron or magnetized magnetic steel in the stirred tank 4 can act in a force field manner.

It is also possible to use several agitators in groups, as in FIG. 7, with or without a heating device or operate with a single common drive.

It is also possible to use a large heating plate or heating device with a stirred tank with rod-shaped, cross-shaped, star-shaped etc. glass stirrers with iron or magnetized magnetic steel filled in rows or other series arrangement and set up in the stirred tanks to give a back and forth movement to the glass bodies by means of permanent magnets for example to avoid delayed boiling in the laboratory. One such group arrangement is shown schematically in FIG. .

Furthermore, one can, for example, also place one with iron dust in a tubular stirred tank filled glass ball or a glass rod filled with iron or magnetized magnetic steel or other body an up and down movement by means of a permanent magnet moved outside of the stirring vessel To give. This arrangement is shown schematically in FIG.

Claims (7)

PATENT CLAIMS: I. Magnetically driven agitator for mixing, for example, liquid, pulpy, dusty and gaseous media, characterized in that within one A ferromagnetic iron body or a permanent magnetic body is arranged, which of an outside of the Container arranged permanent magnets moved back and forth or up and down or in rotary motion is moved. 2. Agitator according to claim i, characterized in that that the ferromagnetic iron body or the permanent magnetic body arranged within the stirred tank ίο and the one arranged outside of the stirring tank Permanent magnets are rod-shaped, cross-shaped, ring-shaped or star-shaped. 3. Agitator according to claim ι or 2, characterized in that the inside of the stirred tank arranged agitator body made of a glass envelope or some other envelope or casing consists of chemically indifferent, non-magnetic material, which is coated with iron dust or magnetized magnetic steel »0 dust or with a solid, compact iron or magnetized magnetic steel is filled. 4. Agitator according to claim 1, 2 or 3, characterized in that the agitator frame is provided with a heating device (see. Fig. 6). a ₅ 5. Agitator according to claim 1, 2, 3 or 4, characterized in that it is driven by worm, gear or friction gear will. 6. Agitator according to claim 1, 2, 3, 4 or 5, characterized in that it is in a group arrangement is driven together (cf. Fig 7) 7. Agitator according to one or more of claims 1 to 6, characterized in that several stirred tanks in rows on a common large-area heating device or groups are set up and that the Rührkorper in the stirred tanks of outside by means of a correspondingly arranged number of permanent magnets in motion be offset (see. Fig. 8). 1 sheet of drawings 5020 5.