DE4313149C2 - Device for grinding and intensive mixing of bulk goods and / or liquids - Google Patents

Description

The invention relates to a device for grinding and Intensive mixing of bulk goods and / or Liquids.

In the production of solid mixtures, dispersions or also emulsions in pharmacy "cosmetics, chemicals, Plastics and food industries as well related areas "is always a homogeneous structure of the mix.

For this purpose, mixers are known which are made from an actual Mixing drum consist of a shaft in the center is arranged on the mixing elements are attached. This wave with the mixing elements is over a Drive system, usually consisting of an electric motor, V-belt drive and reduction gear, driven. Due to the special shape of the mixing elements and their Arranged on the shaft, the mix becomes intense whirls.

Now to improve the degree of homogenization, it is known in mixers of the type mentioned, across to arrange the axially running mixing elements, which the mixture components through the mixing elements be fed. There are so-called Knife mills or rotor / stator mills application. Rotor / stator mills are based on the operating principle the forced reduction in which the components are broken up, be defibrated and dispersed. The knife mills are based on the principle of impact crushing, the components being broken up, defibrated, dispersed and be compressed.  

The disadvantage of this method is that with a variety of drives must be worked, resulting in high costs leads, and that in continuously operated systems Residence time is not sufficient, so that not all particles the vortex zones of the built-in mills are sufficient flow through.

From DE 40 28 108 C1 a device for grinding and intensive mixing of Bulk goods and / or liquids are known, for the Purposes of achieving homogeneous mixed goods Mixing components within a container by means of Mixing tools and grinding elements are mixed and the Mixed components are subjected to forced pressing be by making this a grinder from at least two concentric, freely movable against each other Pass through grinding elements and at least one grinding element the product movement in the axial and radial direction caused while at least one additional grinding element can only flow axially. This mill will be with her Rotation axis approximately perpendicular to the drive shaft axis in the housing introduced protruding. The inner grinding element this mill then moves the mix in axial and radial direction, while the outer grinding element Mix material directs in the axial direction. Both work here Mill parts, the inner and the outer as rotor-stator Elements that mesh with each other, such that the mix one, between the rotor and Flows through the stator toothing formed. With a such, approximately at right angles to the drive axis of the Drive shaft rotor-stator mill were arranged excellent degrees of homogenization have already been achieved.  

DE 37 17 058 C2 discloses one Device for grinding and intensive mixing of bulk materials and / or liquids with a container that contains a product zone in a front area and an exit in a back tere area, with a rotor in the container, the one Drive shaft and at least one mixer attached to it Stuff has, and with a stator, which consists of a variety of Stator parts exist, which are ring-shaped on the inner wall of the container Ters are arranged, the mixing tool meshing with the Interlocking stator parts.

On rotating mixing tool according to the prior art is not designed as a mixing wing, which in the mix directs axial direction. The stator parts do not protrude inwards and do not mesh with the radially outer ends of the mixing blade.

The present invention is based on the object to create a device in which the Mixed components guaranteed by forced guidance must have sufficient shear zones to pass through Gaps formed between the rotor and stator elements in which high shear gradients are generated.

This object is achieved according to the invention by a device Claim 1 solved.

The present invention is based on this finding based on the fact that not all particles to be mixed / Stator mill, which is placed in the wall of the container is going through. There is therefore no uniform Digestion of all particles, except the dwell time would be increased to a not inconsiderable level. First if the entire mix is subjected to forced pressing is subjected to a temporary, predetermined mixing result.

According to the invention, the size of the container should now be added be exploited, the homogenization throughput without the Installation of a variety of individual grinders too ensure by the area of the inner wall of the container as Stator ring is formed so that from the peripheral surface seen the effect of a variety of individual mills is achieved, which would otherwise be very expensive.

This creates a homogeneous mix.

Of course, it is also within the meaning of the invention to provide the housing with rotor-stator segments and that To rotate the housing while the Mixing blades act as a stator.  

Special developments of the invention are in the Subclaims marked.

Using the attached drawings, the particular show preferred embodiments of the invention these are now described in more detail.

Show:

Fig. 1 shows an open mixer.

Fig. 2 shows a cross section through the mixer along the section line AA indicated in Fig. 1.

Fig. 3 shows a cross section through the mixer along the line BB indicated in Fig. 1.

Fig. 4 shows a cross section through the mixer along the line CC indicated in Fig. 1.

Fig. 5 is an enlargement of the part indicated in Fig. 1 Details D.

Fig. 1 shows a drawing broken mixer 14. A drive shaft 1 is introduced within a container 9 and is set in motion by drive units (not shown here).

In the front product feed zone 13 , a feed device in the form of a screw 12 or a propeller is provided, which directs all product flow in the axial direction.

In this exemplary embodiment, the drive shaft 1 carries a rotor arrangement which cooperates with corresponding stator segments arranged on the inner wall 5 of the housing. The outer ring is thus designed as a stator 3 , while the inner mixing tools are in the form of rotors 4 . The mixing blades 2 (rotors 4 ) arranged on the drive shaft 1 thus work together with the stator 3 , the stator parts being arranged radially on the housing inner wall 5 and meshing with the mixing blades 2 of the rotor (s) 4 and one through which the mixture can flow Forming grinding gap 6 , intermesh.

At the end of the drive shaft, an ejection blade 19 is provided, which works the mix to the mix outlet 20 .

The aforementioned gap 6 is formed by the rotor toothing 8 and the stator toothing 7 , which mesh with one another and the mixture flows through the gap 6 formed between the rotor 4 and the stator 3 .

FIG. 2 shows a section along the section line AA indicated in FIG. 1. A recess 21 of the stator 3 , which is arranged in the product application zone 13 , can be clearly seen here. Furthermore, the rotor 4 is indicated, which in this embodiment consists of four mixing blades 2 . In this front area of the product feed nozzle 18 , in the so-called product feed zone 13, there is still no meshing engagement between the rotor 4 and the stator 3 . This takes place only in the area which is shown in FIG. 3. The stator toothing 7 can also be seen here. FIG. 4 shows the sector in the area of Mischgutaustrittsstutzens 20th Here, the drive shaft 1 carries corresponding ejection blades 19 , a cutout 22 again being provided in the lower drum region 11 .

FIG. 5 shows the detail marked D in FIG. 1 in an enlargement. The ends 10 of the mixing blades 2 in turn bear the so-called rotor toothing 8 , which undercuts the stator toothing 7 so that the shear gap 6 is formed.

It is now a peculiarity of the present invention that the stator in interaction with the rotor the unimpeded axial flow through the mix nullifies. Of the Stator practically takes on a labyrinth function. At a Embodiment of the stator with toothed shear elements care must be taken that the ratio of the Inner diameter on the tooth base opposite the tooth head of the stator is greater than 1.1.

With the present invention a Device created by means of which the grinding and  Intensive mixing of bulk goods and / or liquids is made possible in which the mixing components in one Container through mixing and transport tools the rotor are supplied, which in cooperation with a Stator with ring-shaped shear elements Mixed material is subjected to forced pressing and thereby the mix, arranged radially on the inside wall of the container, supplies annular stator shear elements and one Undergoes forced pressing by the on the Drive shaft arranged mixing blades as a rotor are formed and form a gap with the stator, through which the mix is directed axially to the drive shaft is such that a homogeneous mixing of the Individual components takes place and at the same time a shredding according to the gap design effect occurs.

Claims (22)

1. Device for grinding and intensive mixing of bulk materials and / or liquids with a container having a product zone in a front region and an outlet in a rear region, with a rotor in the container having a drive shaft and at least one on it attached mixer work, and with a stator consisting of a plurality of stator parts, which are arranged in a ring on the inner wall of the container, the mixing tool meshing with the stator parts, characterized in that the mixing tool ( 2 , 4 ) as Mixing vane is formed, which directs the material to be mixed in the axial direction and that the stator parts ( 3 ) protrude radially inwards and mesh with the radially outer end of the mixing vane to form grinding gaps ( 6 ). 2. Apparatus according to claim 1, characterized in that the mixture is steered by the mixing tool in the axial and radial direction and that in operation a rotor and a stator toothing ( 7 , 8 ) intermesh and the mixture, between the rotor ( 4th ) and stator ( 3 ) formed gap ( 6 ), flows through. 3. Device according to at least one of the preceding claims, characterized in that a container ( 9 ) is provided which is provided with a drive shaft ( 1 ) which is preferably arranged concentrically in the container ( 9 ), from the radial mixing tools ( 2 , 4 ) protrude, which are designed so that they impose an axial and radial movement component on the material to be mixed and are toothed at the ends ( 10 ) so that they mesh in a stator ( 3 ), which is also toothed, and that between the rotor teeth ( 8 ) and the stator toothing ( 7 ) a gap ( 6 ) through which the mixture can flow is formed. 4. The device according to at least one of the preceding claims, characterized in that the teeth ( 7 , 8 ) have a trapezoidal shape. 5. The device according to at least one of the preceding claims, characterized in that the stator ( 3 ) consists of segments which are detachably attached to the container ( 9 ). 6. The device according to at least one of the preceding claims, characterized in that the stator consists of segments which are non-detachably arranged on the container ( 9 ). 7. The device according to at least one of the preceding claims, characterized in that the stator segments in the lower container region ( 11 ) are interrupted. 8. Device according to at least one of the preceding Expectations, characterized, that a device opens or closes conically is trained. 9. Device according to at least one of the preceding Expectations, characterized, that the device is horizontal or vertical is arranged. 10. Device according to at least one of the preceding Expectations, characterized, that the device is arranged inclined.   11. The device according to at least one of the preceding claims, characterized in that the mixing tools ( 2 ) are arranged at least in pairs 180 ° opposite. 12. The device according to at least one of the preceding claims, characterized in that the drive shaft ( 1 ) is mounted on one or both sides. 13. The device according to at least one of the preceding claims, characterized in that a screw ( 12 ) is arranged in a product application zone ( 13 ) on the drive shaft ( 1 ) instead of toothed mixing elements. 14. The apparatus according to claim 13, characterized in that no teeth or shear elements are arranged in the product application zone ( 13 ). 15. The device according to at least one of the preceding claims, characterized in that a product feed port ( 18 ) opens tangentially into the mixing container, such that the inlet direction of the mixed material points in the direction of rotation of the drive shaft ( 1 ). 16. The device according to at least one of the preceding claims, characterized in that a mixture outlet port ( 20 ) is arranged opposite the product feed port ( 18 ) in the axial direction. 17. The device according to at least one of the preceding claims, characterized in that the material outlet stub ( 20 ) opens tangentially into the mixing container and that the outlet direction of the material to be mixed points in the direction of rotation of the drive shaft ( 1 ). 18. The device according to at least one of the preceding claims, characterized in that when the mixer ( 14 ) is arranged vertically, the product is supplied via the nozzle ( 18 ) or also exclusively via an axial nozzle. 19. The device according to at least one of the preceding claims, characterized in that a screen ( 23 ) is arranged in front of the product outlet connection ( 20 ) transversely to the conveying direction or to the mixer shaft. 20. Device according to at least one of the preceding Expectations, characterized, that several rotor / stator elements in a row can be arranged. 21. The device according to at least one of the preceding claims, characterized in that the axial grinding gap ( 6 ) is arranged in each case between the end faces ( 15/16 ) of the rotor / stator teeth ( 8/7 ). 22. Device according to at least one of the preceding Expectations, characterized, that in the pull-out zone and in the feed zone all around there is no interlocking.