DE1032719B - Hollow stirrer for stirring in liquids - Google Patents

Description

Hollow stirrer for stirring liquids in the chemical industry it is used to achieve certain mechanical, physical or chemical effects it is often necessary to mix a gas as a disperse phase into a liquid. It is important to emphasize that the gas bubbles are the optimal size in most Cases is low.

For the stated purposes z. B. pneumatic mixing systems used with drilled pipe systems in which the gas is supplied under pressure will. In pneumatic systems of this type, depending on the requirements, the primarily so obtained larger bubbles with the help of motor-driven ordinary ones Stirrers z. B. crushed in the form of turbine stirrers. A disadvantage of such systems consists in that the gas is supplied under pressure with the help of special systems must and that the additionally required conventional agitator has a relatively large drive power required if bubbles are to be generated that meet the requirements, d. H. are small enough. The resulting strong fluid movement is in many cases undesirable or even harmful. When a strong movement of the If liquid is to be avoided, one must reduce the gas to the liquid proportionately supply high pressure through porous plates.

The supply pressure of the gas must be the static pressure of the liquid overcome in the container.

The invention relates to a hollow stirrer with a corresponding Speed driven under the influence of the negative pressure that occurs during rotation automatically sucks in a gas and / or a liquid, divides them into small bubbles or Particles split and at the same time, depending on the shape of the stirrer, a stronger one or weaker movement of the fluid.

The hollow stirrer according to the invention has the shape of a flat, polyhedral Prism, on its individual side faces close behind in the axial direction extending edges in the direction of rotation of the stirrer, the outlet openings of the supply channels or the inner chamber for the gas or liquid to be introduced are arranged.

When the stirrer rotates in the liquid, it arises from the stirrer Edges create a strong overpressure through which the air or the gas or the liquid is sucked in vigorously by the stirrer. As a result of the shear occurring occurs the gas from the stirrer in very small bubbles, the size of which is mainly from the shape of the outlet openings and the viscosity of the liquid depends. It was found that the size of the bubbles practically depends on the size of the stirrer or the cross section of the outlet openings is independent. For the effect of the Hollow stirrers are still the shape of the stirring rers, its speed, the shape of the mixing vessel and its possible built-in components. If necessary, can the overall effect by arranging several stirrers in one vessel in any desired way mutual position is greatly increased by the individual action of the various stirrers will.

In many cases it seems appropriate to use a double or multiple stirrer to use which has two or more separate stirring systems, z. B. for simultaneous separate introduction of two or more gases into one Liquid. Such a stirrer can also use a gas in the one stirring system and suck in a liquid in the other stirring system. The automatically sucked in and liquid thrown out forcefully can also cause increased movement the liquid itself and further scattering of the emerging small gas bubbles be exploited in the liquid. If the outlets for the gas and the liquid is arranged at right angles to the axis of the stirrer at the same height, At a certain point the stirrer alternates bubbles of the aspirated Gas and partial jets of the sucked liquid. Every jet of liquid detects gas bubbles, which it strongly dissipates. Achieved with such a double stirrer there is accordingly a much more extensive turbulence of the liquid. You can do this by arranging the stirring body for the liquid above or below of the agitator for the gas act accordingly, with the liquid above or can be sucked in below the two bodies or between them. However, you can also train the hollow stirrer according to the invention so that simultaneously a gas and a liquid are sucked in, provided the inlet and outlet openings of the hollow stirrer appropriately attached and / or designed and connected and for the gas as well as the liquid are dimensioned accordingly.

Some exemplary embodiments of the hollow stirrer are illustrated with the aid of the drawings described in more detail according to the invention.

Fig. 1 shows a flat prismatic stirrer with drilled channels in axonometric view; Fig. 2 shows the same stirrer in horizontal cross section; Fig. 3 shows, also in horizontal cross section, a similar stirrer non-radial channels and broken side surfaces; Fig. 4 shows a flat one prismatic chamber stirrer in horizontal section; Fig. 5 is a double stirrer with a single agitator in vertical section, Fig. 6 a double prismatic Stirrer with two stirrers arranged at an angle; Fig. 7 shows one Double chamber stirrer with the upper stirrer body for the liquid in a vertical section, 8 shows a stirrer with a stirring body common to the gas and the liquid in vertical section; in Fig. 9 is a hollow stirrer for introducing a liquid into another liquid in the mixing vessel and in FIG. 10 an upwardly tapering one Mixing vessel shown with two hollow stirrers.

The hollow stirrer according to FIG. 1 has a vertical suction tube 1 with the inlet opening 2 for the gas.

At the bottom of this suction pipe is the stirring body 3 in the form of a flat one hexagonal prism arranged.

Immediately next to the edges 4 of the prism are on the side surfaces 5 in the direction of rotation 6 of the stirrer, the outlet openings 7 of the indicated radial Channels 8 arranged, which are in communication with the interior of the suction pipe 1.

According to Fig. 2, there is between the direction of rotation and the plane of in the side surfaces 5 arranged outlet openings 7 an angle a, which in this Trap is 300. Such a stirrer sucks in the gas strongly, its side surfaces cause a strong movement of the liquid.

The stirrer can also be designed according to FIG. 3 such that the Stirring body broken side surfaces 9, 10 received. Here is between the Side surface 9 lying plane of the outlet opening 7 and the direction of rotation 6 of the Stirrer a larger angle a is present, which is expedient in general between 15 to 600 is chosen. The outlet channels 11 do not have to be directed radially. In such a case, you are through a larger central opening 12 of the stirrer tied together. Instead of broken side surfaces, curved ones can also be used be used.

In a similar manner, as shown in FIG. 4, those shown in cross section hollow chamber stirrer. Such stirrers are a stirrer according to Fig. 1 and 2 similar with the difference that the plate 13 instead of the drilled channels has an inner cavity 14 with outlet openings 15 which are at an angle are cut from 300. The outlet openings can be circular or arbitrarily elongated, e.g. B. have an oval or rectangular cross-section. They can be radial or slightly oblique to the radial direction of the stirrer be executed.

5 shows a prismatic double stirrer in cross section represents, in which two channel systems for the supply of a gas in a stirring body and a liquid are combined. The stirring body 16 has, for. B. three under one Angle of 1200 offset channels 17, which are in connection with the vertical gas supply pipe 1 and three channels 18, each offset at an angle of 1200, which are connected to the lower inlet opening 19 for the liquid in communication and around 600 relative to the gas channels 17 are offset. Here, the cross-section of the gas and liquid channels can be the same or different. The outlet openings 7 of the Gas channels 17 and the outlet openings 20 of the liquid channels 18 can under beveled at different angles and also of different sizes.

A similarly designed stirrer is shown in FIG. 6.

This has two hexagonal prismatic agitators. The upper stirring body 21 is used to supply the liquid, the lower stirring body 22 to supply the Gas. The two prismatic stirring bodies are with their surfaces 23 against each other z. B. placed at an angle of 600. They have outlet openings placed accordingly 7 for the gas and outlet openings 20 for the liquid.

The upper stirring body 21 for the liquid sucks in this case the liquid at the top through the concentric opening 24.

In many cases it seems advisable to add the liquid to the top To feed agitator from below. Fig. 7 shows such a double stirrer in the vertical Cut. The vertical supply pipe 1 for the gas is in communication with the lower stirring body 22 in the form of a hexahedral flat hollow prism, e.g. B. over three offset flow channels or compartments 25, while the upper Stirring body 21 also has three flow channels 26 in connection with the lower one Inlet funnel 27 stands for the liquid. Between the two agitators 21 and 22, a plate 28 with a larger diameter can be arranged. Such a guide plate amplifies the movement of the liquid and guides it scattered gas bubbles or

Liquid particles outward into the liquid.

There are also various combinations of all of the basic types mentioned of stirrers possible. Here, both agitator bodies or agitation systems of one agitator body horizontally or diagonally directed outlet openings in one or two different ones Have levels or heights. The inclination and size of the outlets for the Gas or the liquid acts on the scattering of the introduced small gas bubbles a. It is also possible to design triple or even multiple stirrers.

In addition, stirrers can be implemented which are a mixture of a liquid and simultaneously suck in a gas through the same inlet opening. A Such a hollow chamber stirrer with a single, lower central inlet opening shows e.g. B.

Fig. 8. On the shaft 29 is the hollow prismatic chamber stirrer 30 with obliquely cut outlet openings 7 and a bottom z. B. in the form of a The funnel-shaped inlet opening 31. The fixedly arranged extends into this Gas supply pipe 32, which in the inlet funnel 31 is possibly conically tapered and is provided with an outlet opening 33 for the gas. If the stirrer is in Direction of the arrow 6 is rotated, it sucks in liquid and partially flings it by the resulting negative pressure and partly by the effect of centrifugal force in radial direction of the outlet openings 7 from the stirrer. As a result of the injection effect at the same time it sucks in gas which enters the stirrer together with the liquid. When the mixture of liquid and gas emerges from the stirrer, the Gas also split into small bubbles.

Stirring gases and / or liquids into a liquid using the stirrer described is extremely effective. In addition, it is not necessary to introduce the gas under pressure. The power required to drive the stirrer is proportionate small. Also for stirring one liquid into another, specifically lighter or heavier liquid in the same container can be a hollow stirrer according to the present Invention find use, the inlet opening for the sucked liquid is arranged at a corresponding height above or below the stirring body. if z. B. according to Fig. 9 in the mixing vessel 34 below a liquid 35 and above the to be stirred specifically lighter liquid 36 is present, the stirrer is arranged in such a way that that its stirring body 3 is in the liquid 35 and its inlet opening 37 in the specifically lighter liquid 36 is located. As a result of the resulting negative pressure such a hollow stirrer is significantly more effective than the previously known hollow stirrer, whose mode of action is based only on the centrifugal effect.

In many cases it appears expedient to have two or more stirrers to be used according to the present invention in the same mixing vessel. So shows z. B.

Fig. 10 shows a mixing vessel 34 in which two independent, separate arranged hollow stirrers 3, 3 'are arranged at different heights. Both stirrers can be arranged with their shaft at any angle relative to the vessel axis will. In many cases it is advisable to use a vessel that tapers towards the top to use, e.g. B. to increase the movement of the liquid. For the purpose of reduction Any known means can be used to prevent swirling of the fluid in the vessel be e.g. B. damping walls, breakers or fixtures at the bottom of the vessel, etc.

If there is a particularly directed vortex or current in the vessel, z. B. a weaker vortex of the liquid in a part of the vessel or a stronger in another part of the vessel e.g. B. above the ground for the purpose of whirling up of sediments, can be a special one with success in a familiar way Cylinders are firmly arranged concentrically around the supply pipe.

The small gas bubbles generated combine with a larger one Surface tension of the liquid soon results in larger bubbles. This can be known to Art can be prevented by reducing surface tension, e.g. B. in the case of water or aqueous solutions by adding alcohol, acetone or the like.

PATENT CLAIM: 1. Hollow stirrer for stirring in gases and / or Liquids into a liquid, thereby characterized in that the outlet openings (7, 20) of the supply channels (8) or the inner chamber (14) for the to be introduced Gas or the liquid to be stirred in close behind in the direction of rotation of the stirrer the axially extending edges (4) of the side surfaces (5) of a arranged as a multi-faceted flat prism agitator body (3).

Claims (1)

2. Hollow stirrer according to claim 1, characterized in that the side surfaces of the stirring body are broken or bent into two surfaces (9, 10), the angle (A) between the plane of the outlet opening and the direction of rotation, expediently 10 to 600 is. 3. Hollow stirrer according to claim 1 or 2, characterized by two or several agitator bodies (21, 22) arranged one above the other, which together form a mixing system are connected or form two or more mixed systems. 4. Hollow stirrer according to claim 3, characterized in that the stirring body (21, 22) are angularly offset from one another. 5. hollow stirrer according to claim 1 or 2, characterized in that the stirring body (3) two or more separate mixing systems with separate Supply channels (17, 18) or chambers (25, 26) for the gas or the liquid owns. 6. Hollow stirrer according to one of claims 3 to 5, characterized in that that the outlet openings (7, 20) of two separate mixing systems in the same or are arranged at different axial heights of the stirrer and that the axial Directions of the outlet openings are rectified or inclined to one another. 7. hollow stirrer according to one of claims 3 to 6, characterized in that that the stirring body (21) for the liquid above or below the stirring body (22) for the gas is arranged, with connections between the feed lines (2, 27) for the gas or the liquid to the channels or chambers of the stirring body for the gas or for the liquid, if necessary by axially displaced axles Passages (25, 26) are provided. 8. Hollow stirrer according to one of claims 3 to 7, characterized in that that the outlet openings (20) for the liquid are set and / or directed in such a way are that the liquid jet emerging from them that from the gas outlet openings (7) escaping gas bubbles detected. 9. hollow stirrer according to one of claims 3 to 8, characterized in that that between the two agitators (21, 22) a reaching over the agitator, appropriately circular plate (28) is arranged. Considered publications: German Patent Specifications No. 211100, 343401, 488525; French Patent No. 838,461; U.S. Patents No. 2 609 189, 2 020 450.