DE518200C - Rapidly rotating kneading machine - Google Patents

Description

Rapidly rotating kneading machine The invention relates to a rapidly rotating kneading machine Kneading machine, which is a series of cells connected by narrow channels with stirring devices. The kneading machine is intended to produce emulsions immiscible liquids and other mixtures that are currently temporary cause chemical reaction, serve.

The invention aims, in a device of this type, in particular to achieve a powerful effect and primarily a vigorous mixing of the substances, by subjecting the fabrics to a vigorous impact.

To this end, the essential feature of the invention is that the cells have a shape which, by rotating a conic section, z. B. an elliptical or parabolic line, about the axis of the mixer is formed. The stirrers that are perpendicular to the axis work here through the middle of these cells.

Under these conditions, the fabrics, if the profile z. B. formed by a parabola, driven towards the periphery of the cell, then in a direction passing through or near the focal point of the parabola pushed back and finally by the stirrer again against another part of the cell surface. From here they become transversal Axis of the kneading machine perpendicular direction thrown back, so that the kinetic The energy of the treated fabrics is amplified as they pass through the cell half of entry to the cell half of the exit is ensured.

In the drawing is an example of execution form of the new Kneading machine shown. It shows Fig. I a central longitudinal section through a Kneading machine with six chambers, Fig. 2 a cross-section along the line TI-TI in Fig. I and Fig. 3 a cross section along line III-III in Fig. I.

In the drawing I means a base plate on which 2 the lower part 3 of the kneading machine is set up. The kneading machine is made up of two Parts 3 and 6 formed, the M of passing through the center line of an axis horizontal plane are separated. The axis 4 runs on bearings 5 on the base plate 1 are mounted.

The upper part 6 of the kneading machine can in a known manner by a Winch can be raised or like the lid of a box as shown in Fig. 2 Hinges 61 are put back. The two parts 3 and 6 form the kneading machine a number of chambers or cells 7, the cross-sectional line 8 of which is a conic section line, z. B. an ellipse or a parabola is. The intermediate walls 9 between two adjacent cells 7 are at different distances 11 from the axis of the Shaft 4 cut off to form cut surfaces 10. This wave 4 is in the side walls of the machine body formed by parts 3 and 6 by seals 12 sealed; it is with a pulley 13 or any other Drive device equipped. On shaft 4 are within the first two A series of vertical arms 14 are attached to cells 7. These arms can be any Cross-section, circular, elliptical, square or rectangular, possess.

In the following cells the shaft bears lenticular rings I5, which are massive in the last two chambers.

These discs can also be provided with radially arranged openings 16 (Fig. 3), the diameter of which according to. increases towards the periphery of the disc. The partitions 9, from which the cut surfaces 10 emerge, can be cut out smoothly or be provided with teeth I8 on its inner surface. These intermediate walls 9 can be equipped with holes 19, the diameter of which corresponds to their Distance from shaft 4 increases.

The machine body formed by parts 3 and 6 has a Coat 20 fitted. the two or more chambers 21 forms so that the Cell-forming body a cooling or warming liquid can be conducted. Some Chambers 7, and possibly also all chambers, can have one or more Tubes 22 be equipped, which radially cut through the jacket 20 and at 2'3 open into the chamber at different distances from the shaft 4, so that they both the supply of additives into the cell as well as the removal from within Allow the cells to develop reaction gases.

The side walls 24 of the machine body are provided with openings 25 and 26, of which the opening 25 is provided with a tube 27 for feeding the to be treated Liquids is connected, while the opening 26 is connected to a discharge pipe 2S stands.

To put the device into operation, the shaft 4, which contains the stirring devices 14 and 15 carries, with the help of the drive pulley 13 or any other Drive device set in rapid rotation.

The liquid to be treated flows from one due to its gravity Reservoir (not shown in the drawing) descends or is under pressure fed by means of a pump (not shown); it is through the pipe 27 introduced and flows through the tube 28 again, so that zrvischen the openings 25 and 26 the circulation within the various chambers 7 is going on. While The arms act in the passage of the liquid through the various chambers 14 and the discs 15 of the stirring device on them, which kneading the Liquid and an impact effect, so that the kinetic energy of the existing Substances is increased, with a momentary rolling between the sharp-edged Ends 29 of the disks 15 and the parabolically shaped guide surfaces 8 or others the same effect is caused by appropriately designed surfaces. This rolling is intensified by the passage of the liquid along the cut surfaces 10 on the projections of the partition walls 9, the distance between the cut surfaces from the center of the shaft 4 from one cell to another according to the viscosity the liquid is sized. The number of cells depends on the ones to be reached Results.

Are there chemical reactions in which several successive Reagents must be added, or in which the liquids gradually in which one or more reagents have to be enriched, then can these through the tubes 22 corresponding to the openings 23 into one or more chambers to be introduced. Likewise, gases that develop during the reactions can also be discharged through the openings 23. In addition, during the work process the temperature in each cell or group of cells using the chambers 21, into which one introduces a heating or cooling liquid bzxv. passes through, regulated will.

There is already a large number of devices that poor or discs have existing, rapidly rotating agitators, have become known.

In one of these devices, the output shaft runs eccentrically to the main chamber of the device, so that the treated liquids are constantly in the area of action of the stirrer can be returned. With other devices the stirrer is formed by an axle with a disc attached to it, whose Circumference forms a cylindrical surface or a truncated cone, which in a very small distances compared to a concentric surface runs through the longer or less long passage of liquid between these two, very close Concentric surfaces attached to one another to produce a rolling effect. It has also already been proposed to use the working surfaces of the stirring device To equip grooves that have different outlines to enhance the kneading effect.

In none of these known devices, however, is an increase the mixing a special formation of the interacting with the stirrers Side walls used, d. H. such a design of the side walls that the liquid first leads towards the periphery of the cell and then leads towards the center strives, causing eddies or countercurrents as a result of use a conic section line, e.g. B. an elliptical or parabolic cross-sectional line, is the case with the present device.

The device described can be used for numerous industrial purposes be used, e.g. B. in the production of caustic soda, in hydrolysis of neutral fats through a lipase, when saturating with ammonia gas and the Carbonation of the brine in the ammonia soda process as well as in numerous other manufacturing processes that require mixtures or reactions.

For the production of caustic soda one leads into the device a very thick milk of lime that is used in the first cell to maintain the Homogeneity is worked through. The feed openings are then filled 23 a sodium carbonate solution in one or more of the following cells, see above that one obtains complete dissolution with the milk of lime.

For the hydrolysis of neutral fats, one leads into the device in the required percentage ratios a neutral fat, dilute sulfuric acid and the lipase.

At the outflow opening of the device, the emulsion of the mass, in which the lipase is evenly distributed, collected in a special container, where under the known conditions the hydrolysis takes place.

To carry out the ammonia soda process, one leads into the device a concentrated or even oversaturated brine. Working through in the first cell prevents any crystallization by crushing about in Formation of realized crystals. Ammonia is introduced into the second cell; the The reaction begins and progresses in the following cells, so that one is possible complete saturation of the brine Staffindet. The fourth cell is from Carbon dioxide from lime kilns is supplied to the first carbonation. In the following Cell is then the solution by adding fresh sodium chloride solution or optionally powdered sodium chloride to avoid dilution, enriched. the Carbonization is then carried out in the following cell by adding pure hydrofluoric acid, derived from the calcination of bicarbonate. When leaving the device gives a liquid rich in ammonium chloride and keeps the sodium bicarbonate formed in suspensions. The liquid will then passed to filtration.

It goes without saying that these design options are only given as examples specified to the working procedures for which the device described is used can be set out. However, the device is not restricted in any way on the use of a certain number of cells, rather the number of cells as well as the arrangement of the stirring devices can depending on the case at hand be changed.

Claims (7)

PATENT CLAIMS: I. Rapidly rotating kneading machine that has a number of of cells connected by narrow channels with stirring devices, characterized in that the cells have a shape which is obtained by rotation a conic section line, e.g. 13. an elliptical or parabolic line to the axis of the mixer is formed, and those perpendicular to the axis Place stirrers through the center of these cells. 2. Kneading machine according to claim I, characterized in that the cells are connected to one another through-openings exerted by a rolling effect on the fabrics to be treated are connected by different diameters. 3. kneading machine according to claim I and 2, characterized in that the stirrers rotating in each cell (7) either from arms (I4) or from lenticular Discs (I5) are formed. 4. kneading machine according to claim I to 3, characterized in that the partitions separating the cells from one another are cut off so that they smooth or toothed rolling surfaces (10) form, which are at different distances from the The middle of the cells (7) lie, and that the intermediate walls, if necessary, through openings (19) are perforated, the diameter of which corresponds to their distance from the Axis (+) increases. 5. kneading machine according to claim I to, characterized in that the lenticular disks that circulate in the cells with openings (I6) are provided, the diameter of which increases depending on their distance from the center of the shaft. 6. kneading machine according to claim I to 5, characterized in that single cells or all cells with openings (22) fitted are that the delivery of additives to the treated in the cells concerned Allow liquids or the discharge of the gases formed during the reaction. 7. kneading machine according to claim I to 6, characterized in that it is provided with a jacket (20) which provides heating for all or for individual cells or cooling chambers (21) forms.