DE102005060841A1 - Nozzle for generating turbulence, comprises funnel and perforated plate containing slanting holes - Google Patents

Abstract

The nozzle comprises a funnel (4) and a perforated plate (6-21) containing at least three holes or hole formations slanting at the same angle and evenly distributed across the plate. A cone or hyperbolic-shaped funnel is screwed onto a head piece (1) so that the perforated plate is held in a central position between the funnel and head piece. The holes slant at an angle of 85 degrees or less.

Description

In the invention is a mixed u./o. Swirling device ( 5 u. method for mixing and / or. Swirling liquids u./o. Liquid-solid mixtures u./o. Steaming and / or. Gases, characterized by a ( 2 ) or more Durchströmplatten, each provided with at least three obliquely arranged and evenly distributed holes, and additionally characterized by mixing u./o. Turbulator, eg funnel-like shapes ( 4 ) u./o. cylindrical shapes and / or. spherical shapes u./o. bell-shaped forms u./o. Shapes with corners and / or. have different geometric mixing shapes and are matched to the respective Durchströmplatten so that desired mixing u./o. Verwirbelungsabläufe, effects and results are achieved.

In Water research and water literature have been around for a long time especially due to the studies and experiments of water u. naturalist Viktor Schauberger, terms like "living water", "energetic Water, "animated Water "or" vital Water "more and more by. What is meant is that good water in addition to chemical and biological qualities especially physically should have a good quality. Nature observations show that water and exercise are very often inseparable. If When one observes water in the open air, it usually moves on one way or another. Form even in stagnant waters constantly Water movements from between different water layers through changing Temperatures and water densities. The water turbulence is one particularly intense water movement. Water turbulence and the these processes are increasingly becoming efficient Nature's method, the self-cleaning powers of the Stimulate or release water and the water in its energetic To improve condition. One speaks in this context of an improvement the energies, vibrations and information in the water. It will assumed that the internal structure of the water changes, the so-called Cluster structure. By this one understands accumulations physically to each other adherent water molecules. water molecules possess this particular peculiarity that they are easy in one place positive and slightly negatively charged elsewhere. hereby the water molecules are pulling each other. In so-called. Less lively water one goes away off that is larger clusters or "molecular clusters" have formed. In intense water movements such as the vortex take some researchers that larger clusters divide or dissolve into ever smaller clusters. After these explanations, the water would get thereby a so-called. finely divided state and could possibly of biological organisms such as plants, animals and humans easier be recorded or recycled. Further, some researchers go assume that the water in the natural vortex in free Nature in a balanced relationship can enrich with air u. Light components and new subtle Energies due to torsional forces in the turbulence and the peculiarity of the dipolar water molecule structures, which in particular Way to react to water movements. These theories become controversial discussed. It leaves However, observe that nature in a comprehensive way, in huge Dimensions and in countless Variations water u. Air turbulence and a wide range of turbulences of other liquid, Forms steam and gas mixtures. Whatever individual theories It may seem that there are good reasons for nature behave this way. By close-to-nature turbulence, e.g. Taste and Improve appearance of water. The water can be natural be enriched with oxygen. It can be observed that cool swirled water for a long time stays cool even if the air temperature surrounding the water is much higher, much like one can do this from nature e.g. from mountain stream water or mountain lakes in midsummer knows. An extension the natural one Shelf life of the water shines through turbulence as well possible to be. The invention presented here may vary depending on the application using differently designed flow plates with matched Mixed and Verwirbelungsunterstützern each be constructed so that those occurring in nature Mixed and / or. Verwirbelungsabläufe u. processes as possible close to nature, but still in very efficient intensities and manifestations, can be imitated. This makes it possible, processes, effects and results that take much longer in nature Take, in shorter operations effectively imitate.

Different mixing and / or. Vortexing devices and methods are already trying to make swirling processes usable. The presented invention makes use of several functional mechanisms at the same time in order to maximize the effectiveness of the liquid u./o. Air and / or. Steam and / or. Improve gas qualities. The Japanese water researcher Masaru Emoto reports in his books on water that water is an extremely sensitive and sensitive medium that can even respond to human emotions and sounds in an amazing way. The invention described herein seeks to take such phenomena and observations into account. Since the mixing u./o. Verwirbelungsvorrich in intensive contact with vapors and / or. Gases and / or. Liquid-solid mixtures u./o. Liquids such as water comes, it is assumed that the invention presented here itself to a transmitter of vibrations and information to be mixed u./o. swirling medium becomes. The invention is therefore energetically purified by different processes, methods and methods and stimulated for vapors u./o. Gases and / or. Liquid-solid mixtures u./o. Liquids such as water to build up and attract useful energies and vibrations as possible to the liquids u./o. Liquid-solid mixtures u./o. Steaming and / or. Gases to provide the most beneficial and natural environment.

• – Auf einer Durchströmplatte sind alle dort aufgebrachten Löcher u./o. Lochformationen in der gleichen Lochdrehrichtung, im Uhrzeigersinn rechtsdrehend oder gegen den Uhrzeigersinn linksdrehend, angeordnet.
• – Die in gleicher Lochdrehrichtung angeordneten Löcher u./o. Lochformationen sind entweder alle in gleichen Winkelgrößen auf einer Durchströmplatte aufgebracht oder die Löcher liegen in bestimmten Anordnungen in unterschiedlichen Winkeln so auf einer Durchströmplatte, dass es zu zusätzlichen lokalen Vermischungen u./o. Verwirbelungen an diesen Stellen kommt innerhalb der Gesamtvermischung u./o. Gesamtverwirbelung.
• – Die Löcher u./o. Lochformationen sind symmetrisch u./o. gleichmäßig auf einer Durchströmplatte verteilt. Dies ist notwendig, damit geordnete u./o. naturnahe u./o. intensive Wirbel erzeugt werden können.

After liquids u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases in the mixing u./o. Swirling device encountered, they meet a flow plate, which was provided in a special way with holes. It can be through the possible use of different Durchströmplatten the mixed u./o. Whirling processes vary to achieve very different effects and results. Although the different Durchströmplatten differ from each other, the construction of the embossed holes u./o. Hole formations on these flow plates following features:

• - On a Durchströmplatte are all there applied holes u./o. Hole formations in the same direction of hole rotation, clockwise clockwise or counterclockwise anti-clockwise arranged.
• - The arranged in the same direction of rotation holes u./o. Hole formations are either all applied at equal angular sizes on a flow plate or the holes are in certain arrangements at different angles on a Durchströmplatte that it u./o to additional local mixing. Turbulence at these points comes within the total mix u./o. Gesamtverwirbelung.
• - The holes u./o. Hole formations are symmetrical and / or. evenly distributed on a flow plate. This is necessary for orderly u./o. natural and u./o. intense vortices can be generated.

After this liquids u./o. Liquid-solid mixtures u./o. fumes u./o. Gases from a flow plate flow out, meet a mixed and / or. Turbulence supporter, one another control element of the mixing u./o. Turbulence. mixing u./o. Verwirbelungsunterstützer can e.g. be conical or hyperbolic funnels. For example, using such funnels, form liquids like water through flow plates prepared intense vortex. A liquid like water leaves Funnel then spiral in itself streaming or whirling and forming outside the mixing and / or. Swirling device in a spirally flowing or swirling liquid bell. The size and vortex intensity (intense right-swirling or intensely left-swirling) play this emerging bell experience shows a role for emerging quality improvements generated liquids. With e.g. a big and intensely swirling water bell on an ordinary household water connection With normal Wasserausflussmenge can arise, the funnel with the best possible respective flow plates correspond. There are also mixed u./o. Can be used for swirl assistants which are functional within closed management system infrastructures. There are different mixed u./o. Verwirbelungsunterstützersysteme u. method is functional, depending on the flow plates used and depending on the fluids u./o. Liquid-solid mixtures u./o. dampen u./o. Gases and depending on the desired Effects and results. The exact construction and customization the respective flow plates to specific fluids u./o. Liquid-solid mixtures u./o. fumes u./o. Gases and to the respective mixing u. Swirl assistants required Experience and knowledge of the origin of the respective mixing and / or. Verwirbelungsabläufe and structures. This requires analyzes and often many tests. The mixing u./o. Turbulence processes are very sensitive on small changes the different individual factors. A corresponding overall effect or overall result, e.g. noticeable and significant quality improvements of liquids u./o. Liquid-solid mixtures u./o. dampen u./o. Gases can only with appropriate adjustment of the individual factors and a successful interaction of all factors (synergy effects) expected or achieved. There are many applications of the invention to the liquid u./o. Liquid-solid-Medley u./o. Steam and / or. Gas improvement possible and imaginable. The Water treatment was addressed. An improvement of wines, Beers and juices, above all, tasteful, seems obvious. It could be prove that even a quality improvement of blood can be possible could through such a procedure, because it is believed that too Blood in the body of many kinds Turbulence training. With vapors you could think of an application in saunas, taking water vapor in Saunas could suck and then through the mixing u./o. Guiding swirl device would, to then release them in strong swirling movements again. It is possible, This improves the sauna experience and the sauna effects left. Similar options open for Air and other gas mixtures, e.g. in conjunction with air conditioners and other ventilation systems.

The Mixed and / or. Verwirbelungsvorrichtung u. method is also suitable for intensive and cost-efficient mixing of different Substances. For this purpose, one passes into the individual holes of the flow plates the substances to be mixed, again liquids u./o. Liquid-solid mixtures u./o. fumes u./o. Gases. One can by the choice of the hole sizes and the quantity of the introduced Substance the flow rates Taxes. The exit points from a Durchströmplatte can also be set exactly. If you want to mix two substances together, is e.g. the substance A is passed into a flow-through hole A and the substance B in a flow hole B. One would then the exit points of flow-through hole A and through-hole B close to each other, so that there is a local mixing u./o. Swirling comes. If you want to mix only two substances, repeated the same principle many times on a flow plate and thus achieves many local mixtures u./o. turbulence the two substances as well as a mixing u./o. turbulence the many individual local mixes u./o. Turbulence among each other and in one another in a big one Total mixture u./o. Gesamtverwirbelung. One has thereby the Both substances in an intensive and cost-effective manner mixed together u./o. swirled. Another advantage of such a blending u./o. Verwirbelungsverfahrens is that very complex mixing u./o. Verwirbelungsabläufe to carry out with numerous substances, whereby both the Dosages and the exit points of individual substances exactly can be controlled. If you want to first mix two gases together u./o. swirl and two liquids in parallel mix together and / or. to swirl, then to the gas mixture and the liquid mixture In turn, mixing with one another can be achieved through an efficient Arrangement of the substances to be introduced in a Durchströmplatte and the determination of the corresponding exit points of the respective Substances, and by fixing the respective quantities and hole sizes as well the appropriate mixing u./o. Turbulence supporter Mixing and / or. Accurately control the swirling process. In this example you would put the exit points of the gases together and would also the exit points of the liquids put together. This would come it then first to local mixes u./o. Turbulence of gases among each other as well as the liquids among themselves. In the total mixture u./o. Gesamtverwirbelung would become then the gas mixture with the liquid mixture mix again and / or. swirl. You reach in one process an intense overall mix, what you get with other devices u. Process several steps, more energy and more Require space would. It is also possible, the substances do not flow out of a flow plate, but the individual Durchströmlöcher already within a flow plate to merge into each other let, so it already to local mixing u./o. turbulence comes before the substances leave the flow plate. It offer numerous variations on how to control such processes can. The exact construction of a particular application needs precise planning, analyzes and experiments. There are numerous applications of this Method possible e.g. in technical and scientific processes, in chemistry, Biology, pharmaceutics, medicine or in the beverage u. Food industry.

1

Headpiece side view

2

Durchströmplatte sideview

3

angular position a hole

4

conical Funnel side view

5

Bolted together Mixed and / or. The interlacing

6

12 lochige Durchströmplatte

7

24 lochige Durchströmplatte

8th

32-lochige Durchströmplatte

9

40-lochige Durchströmplatte

10

48-lochige Durchströmplatte

11

60-lochige Durchströmplatte

12

6-gliederiges Wheel as a 409-hole throughflow plate

13

3-membered Spiral as a 196-hole flow plate

14

3-membered Formation as a 28-hole flow-through plate

15

3-membered Formation as a 40-hole flow-through plate

16

8-membered Formation as a 24-hole flow-through plate

17

16-lochige Durchströmplatte

18

8th Dreilochformationen as a 24-hole Durchströmplatte

19

8th Four-hole formations as a 32-hole flow plate

20

8th Five-hole formations as a 40-hole flow-through plate

21

12 Dreilochformationen, arranged in pairs as a 36-hole Durchströmplatte

22

cross-section Durchströmplatte with special hole sizes and Hole angle positions

23

smaller hole angle

24

medium-sized hole angle

25

larger hole angle

26

cross-section Durchströmplatte with special hole sizes and Hole angle positions

27

smaller hole angle

28

medium-sized hole angle

29

larger hole angle

30

cross-section Durchströmplatte with special hole sizes and Hole angle positions

31

smaller hole angle

32

larger hole angle

33

cross-section Durchströmplatte with special hole sizes and Hole angle positions

34

smaller hole angle

35

medium-sized hole angle

36

larger hole angle

37

cross-section Durchströmplatte with special hole sizes and Hole angle positions

38

smaller hole angle

39

medium-sized hole angle

40

larger hole angle

41

cross-section Durchströmplatte with special hole sizes and Hole angle positions

42

smaller angle

43

larger angle

Claims (38)

Mixed and / or. Swirling device ( 5 u. method for mixing and / or. Swirling liquids u./o. Liquid-solid mixtures u./o. Steaming and / or. Gases, characterized by a ( 2 ) or more Durchströmplatten, each provided with at least three obliquely arranged and evenly distributed holes, and additionally characterized by mixing u./o. Turbulator, eg funnel-like shapes ( 4 ) u./o. cylindrical shapes and / or. spherical shapes u./o. bell-shaped forms u./o. Shapes with corners and / or. have different geometric mixing shapes and are matched to the respective Durchströmplatten so that desired mixing u./o. Verwirbelungsabläufe, effects and results are achieved. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that the mixing u./o. Verwirbelungsvorrichtung consists of three individual pieces: head piece ( 1 ), Flow plate ( 2 ), Funnels ( 4 ). The funnel ( 4 ) is on the head piece ( 1 ) screwed. The flow plate ( 2 ) lies after the screwing in the middle between head piece ( 1 ) and funnels ( 4 ) stably embedded. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a mixing u./o. Verwirbelungsvorrichtung purified by different processes, methods and methods feinergetisch and is stimulated, for vapors u./o. Gases and / or. Liquid-solid mixtures u./o. Build up and attract liquids such as water-promoting energy and vibrations to the liquids, liquid-solid mixtures, vapors u. Gases to provide a fine environment as possible quality-enhancing environment. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a mixing u./o. Swirl Supporter a funnel ( 4 ), which has a conical shape. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a mixing u./o. Swirl Supporter a funnel ( 4 ) which has a hyperbolic shape. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that the holes u./o. Hole formations on a flow plate ( 2 ) at least three identical (same size, same geometric proportions, uniform geometric positional arrangement and distribution on a Durchströmplatte, same angular size ( 3 ), same hole turning directions - clockwise clockwise or anti-clockwise counterclockwise) holes u./o. Have hole formations. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that the holes u./o. Hole formations in a flow-through plate ( 2 ) in an angular size ( 3 ) of 85 ° or less degrees. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 6 ) with 6 identical pairs of holes, circular and evenly arranged, with a total hole formation of 12 holes, is provided. Mixed and / or. Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 7 ) with 12 identical pairs of holes, circular and evenly arranged, with a total hole formation of 24 holes, is provided. Mixed and / or. Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 8th ) with 16 identical pairs of holes, circular and evenly arranged, with a total hole formation of 32 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 9 ) with 20 identical pairs of holes, circular and symmetrically arranged, with a total hole formation of 40 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 10 ) with 24 identical pairs of holes, circular and evenly spaced, with a total hole formation of 48 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 11 ) with 30 identical pairs of holes, circular and evenly arranged, with a total hole formation of 60 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 12 ) with 6 identical hole formations, each consisting of 68 holes, and a single center hole, with a total hole formation of 409 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 13 ) with 3 identical hole formations, each consisting of 65 holes, as well as a single center hole, with a total hole formation from 196 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 14 ) with 3 identical hole formations, each consisting of 9 holes, and a single, larger center hole, with a total hole formation of 28 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 15 ) with 3 identical hole formations, each consisting of 13 holes, and a single, larger center hole, with a total hole formation of 40 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 16 ) with 8 identical hole formations, each consisting of 3 holes, circular and evenly arranged, with a total hole formation of 24 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 17 ) with 8 identical pairs of holes, circular and evenly arranged, with a total hole formation of 16 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 18 ) with 8 identical hole formations, each consisting of 3 holes, circular and evenly arranged, with a total hole formation of 24 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 19 ) with 8 identical hole formations, each consisting of 4 holes, circular and evenly arranged, with a total hole formation of 32 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 20 ) with 8 identical hole formations, each consisting of 5 holes, circular and evenly arranged, with a total hole formation of 40 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that a flow-through plate ( 21 ) with 12 paired hole formations, each consisting of 3 holes, circular and evenly arranged, with a total hole formation of 36 holes, is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1 and claim 6, characterized in that Durchströmplatten ( 2 ), also for local mixing u./o. Verwirbelung, with several, identical, two-, three-, four-, five- or higher number of perforations, for example, the same or similar type and principle as in the Durchströmplatten ( 16 ) 17 ) 18 ) 19 ) 20 ) 21 ) are provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 21 ) is provided with 12 pairs of three-hole formations. The three hole formations consist of smaller holes with smaller angles ( 23 ) inside the flow plate ( 21 ) 22 ) into the medium-sized holes. The medium-sized holes with medium angles ( 24 ) go in turn also within the flow plate ( 21 ) 22 ) into the larger holes. The larger holes have the largest angles ( 25 ) on. At the respective estuaries so local mixtures u./o. Turbulence already within the flow plate ( 21 ) 22 ) form. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 16 ) is provided with 8 pairs of three-hole formations. The three hole formations consist of larger holes with smaller angles ( 27 ), which are within the flow plate ( 16 ) 26 ) into the medium-sized holes. The medium-sized holes with medium angles ( 28 ) go in turn also within the flow plate ( 16 ) 26 ) into the smaller holes. The smaller holes have the largest angles ( 29 ) on. At the respective estuaries so local mixtures u./o. Turbulence already within the flow plate ( 16 ) 26 ) form. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 19 ) with 16 paired pairs of holes, the local mixing u./o. Turbulence are interconnected ( 30 ) is provided. The pairs of holes consist of two equal-sized holes. The closer to the center of the flow plate ( 19 ) lying at smaller angles ( 31 ) open inside the flow plate ( 19 ) 30 ) in the closer to the edge of Durchströmplatte ( 19 ) 30 ) with larger angles ( 32 ). At the respective estuaries so local mixtures u./o. Turbulence already within the flow plate ( 19 ) 30 ) form. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the Dreilochverbindungsart the flow plate ( 22 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) interconnected hole number formations within a flow plate ( 22 ) is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the Dreilochverbindungsart the flow plate ( 26 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) interconnected hole number formations within a flow plate ( 26 ) is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the Zweilochverbindungsart the flow plate ( 30 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) interconnected hole number formations within a flow plate ( 30 ) is provided. Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 21 ) is provided with 12 pairs of three-hole formations. The three hole formations consist of smaller holes with smaller angles ( 34 ), medium-sized holes with medium angles ( 35 ) and larger holes with larger angles ( 36 ). The flowing fluids u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases from these three holes meet outside of a flow plate ( 21 ) 33 ) to each other. As a result, local mixtures u./o. Turbulence outside of a flow-through plate ( 21 ) 33 ). Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 16 ) is provided with 8 three-hole formations. The three hole formations consist of larger holes with smaller angles ( 38 ), medium-sized holes with medium angles ( 39 ) and smaller holes with larger angles ( 40 ). The flowing fluids u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases from these three holes meet outside of a flow plate ( 16 ) 37 ) to each other. As a result, local mixtures u./o. Turbulence outside of a flow-through plate ( 16 ) 37 ). Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 19 ) is provided with 16 paired pairs of holes. The pairs of holes consist of two equal-sized holes. The closer to the center of the flow plate ( 19 ) 41 ) have smaller angles ( 42 ) than the closer to the edge of Durchströmplatte ( 19 ) 41 ) with larger angles ( 43 ). The flowing fluids u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases from these two holes meet outside of a flow plate ( 19 ) 41 ) to each other. As a result, local mixtures u./o. Turbulence outside of a flow-through plate ( 19 ) 41 ). Mixed and / or Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the three-hole arrangement of the flow-through plate ( 33 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) outside a flow-through plate ( 33 ) is provided with matching hole number formations. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the three-hole arrangement of the flow-through plate ( 37 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) outside a flow-through plate ( 37 ) meeting each other Lochzahlformationen, is provided. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) with hole connections according to the two-hole arrangement of the flow-through plate ( 41 ) or similar principle with higher numbers of holes (four-hole, five-hole and / or higher hole) outside a flow-through plate ( 41 ) meeting each other Lochzahlformationen, is provided. Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that a flow-through plate ( 2 ) local mixes u./o. Allows turbulence by, for example, three-hole formations as in the Durchströmplatte ( 18 ) u./o. Four-hole formations as in the flow plate ( 19 ) u./o. Five-hole formations as in the Durchströmplatte ( 20 ) u./o. higher hole number formations similar principle, circular and evenly arranged, are constructed so that the fluids flowing through u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases outside of a flow plate ( 2 ) meet directly. As a result, local mixtures u./o. Turbulence outside of a flow-through plate ( 2 ). Mixed and / or. Swirling device ( 5 u. Method according to claim 1, characterized in that individual or all holes of a flow-through plate, depending on the mixing u./o. Verwirbelungskombinationen, for introducing different substances to be mixed such as liquids u./o. Liquid-solid mixtures u./o. Vapors and / or. Gases are used to specifically mixing and / or. Verwirbelungsabläufe u. control and effect results.