DE9317978U1 - Air ionizer for the generation of ionized, cleaned and humidified air - Google Patents

Description

Air ionizer Jocham

Description

Device for generating negative ions and water-dust-rich, healthy air

The atmospheric air that we breathe always contains a certain amount of negative ions. This natural ionization of the air is caused by intense ultraviolet radiation, lightning, natural radiation or falling water (waterfall, rain) hitting a harder surface or object.

However, this natural ionization is not enough to supply our cells with enough oxygen. Measurements have shown that the air at a waterfall contains around 15,000, in the mountains around 10,000, and the air in closed rooms only around 400 to 1000 negative ions per cubic centimeter. Since the low number of negative ions has many negative consequences (headaches, migraines, dry mucous membranes, etc.), the industry has been supplying electrical ionizers for years, but these often have the following disadvantages:

In addition to the negative ions, byproducts such as ozone are created, which (if inhaled over a long period of time) causes serious damage.

The high voltages required also increase the so-called "electrosmog". Furthermore, electrically generated ions are dry ions that are difficult and slow to absorb by the lungs.

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The ions created by the waterfall effect, so-called "hydro-ions", on the other hand, are quickly absorbed by the lungs, meaning that more oxygen is utilized, which is expressed in the blood gas analysis as an increased free oxygen content in the blood.

The air ionizer is designed to produce negative hydro-ions and at the same time clean the air through a washing process. The air ionizer also has the task of regulating the water content of the ambient air.

Several options for accomplishing these tasks are presented here.

Fig. 1 A representation of an air ionizer with riser tube, accelerator tube and axial fan in front and top view.

Fig. 2 A representation of an air ionizer with rotating body and pump in front view and top view.

Fig. 3 A representation of an air ionizer with a rotationally asymmetrical rotating body with pump in front view.

Fig. 4 A representation of an air ionizer with a rotating body inside shaped as a cone in front view.

Fig. 1 shows an air ionizer which is a compact device. In this case, the cylinder 1 forms the housing for the drive motor 3 and the axial fan 2. The cylinder 1 is divided lengthwise by a partition wall 4, so that one side becomes the air inlet channel due to the axial fan 2 and the other side becomes the air outlet channel (chimney). The air outlet channel (chimney) here contains a water droplet separator unit or labyrinth 19. By means of several staggered

By arranging the plates, the air is diverted and thus larger water droplets are separated.

A cover plate 5 is attached to the upper front side of the cylinder 1 on the side of the air inlet channel up to the partition wall 4, in the openings of which the axial fan 2 and switch 6 are arranged.

On the lower front side of cylinder 1 there is the engine base plate 7, which is firmly connected to cylinder 1 and the partition wall.

A connecting bracket 8 is attached to the motor base plate 7, which supports the riser pipe 10 located between the drive motor 3 and the bearing 9.

Counterweight 12 and accelerator tube 13 are attached to the riser tube 10 by a connection 11. Nozzle 14 is attached to the accelerator tube 13 in a removable manner by a thread. Filter 15 serves as a connection between the connecting bracket 8 and bearing 9. The drive shaft of motor 3 rotates, so that the riser tube 10 and accelerator tube also rotate via the connection 11. Since the accelerator tube 13 generates rotational energy or centrifugal force due to the rotational movement around the axis of rotation of the riser tube 10, the air in the accelerator tube 13 is pushed outwards, which means that water from the water tank 17 is drawn into the accelerator tube 13 via the riser tube 10, and is in turn accelerated by the accelerator tube 13 and thrown at high speed against the water tank wall 17. The air in the tank 17 is negatively ionized, washed and humidified. Water level sensor 18 is attached to cylinder 1. A bracket 16 is also attached to cylinder 1. This allows cylinder 1 with the attached parts to be placed on water tank 17.

The ionized air created in the container is cleaned of impurities (aerosols) by the water dust. The axial fan 2 blows ambient air into the water container 17 from above and thus pushes the ionized, cleaned air mixed with water dust outwards through the water separator (labyrinth) 19.

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Fig. 2 also shows an air ionizer, which is a compact unit. In this case, the housing consists of an upper part 1 and a lower part 17. An axial fan 2 is mounted in the upper part 1. This sucks in air from the environment and directs it via the air inlet channels 20 past the motor 3 into the recess in the lower part. In addition to the fan 2, switch 6, motor 3 and inlet channels 20, a bracket 8 is also mounted on the underside of the upper part 1. A centrifugal pump 29 is attached to the bracket 8, which here also provides the bearing for the body 30. Body 30 is connected to the drive shaft of motor 3. At the same time, body 30 is also connected to centrifugal pump 29, so that body 30 and centrifugal pump 29 are set in rotation via motor 3. Hose 31 is connected directly to centrifugal pump 29 and thus, during operation, carries water from the recess in lower part 17 to body 30. The water applied to body 30 is accelerated outwards, where it is thrown onto the inner wall of the lower part. This creates water dust and high ionization, as explained in Fig. 1.

The air supplied by axial fan 2, now ionized and washed, is then released into the environment via labyrinth 19. Due to its design, labyrinth 19 ensures that larger water droplets are separated.

Fig. 3 also designates an air ionizer, which is in principle identical to the one in Fig. 2 .

Here too, axial fan 2 , motor 3 , centrifugal pump 29 , upper part 1 , lower part 17 , bracket 8 , labyrinth 19 , switch 6 , air inlet ducts 20 , hose 31 are present.

In contrast to the air ionizer from Fig. 1 or Fig. 2, here the ionization takes place directly on the body 32. As explained in Fig. 2, the motor 3 drives the body 32 and at the same time the centrifugal pump 29. The water in the recess of the lower part 17 is applied by the centrifugal pump 29 via hose 31 to the body 32, where the water is broken up due to the rough surface of the body 32.

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The air is negatively ionized directly on the body 32. The air is then discharged into the environment via labyrinth 19, as explained in Fig. 2.

Fig. 4 also shows an air ionizer that can be identical (except for the accelerator) to all other air ionizers shown so far.

The difference to the air ionizers shown so far lies in the rotating body.

In this case, the body 33 has an opening on the inside which has a tapered conical shape running from the water outlet towards the water inlet in the axis of rotation. As the water reaching into the conical shape is pressed by the rotation of the body 33 towards the water outlet, a pump or similar can be dispensed with in this case. At the same time, this arrangement offers the advantage that the escaping water has a relatively high rotational energy and is thus thrown outwards, where it now, as described in Fig. 1 and Fig. 2, generates air ionization and water dust at the point of impact 17. The air is then discharged into the environment via labyrinth 19, as explained in Fig. 1, Fig. 2 and Fig. 3.

Claims (37)

Air Ionizer Jocham Claims 1. Air ionizer for generating negative ions with the following features: - An accelerator tube (13) is provided, which is set in rotation. , - The accelerator tube (13) is arranged non-parallel to the axis of rotation. - Water is supplied to the opening of the accelerator tube (13) facing the axis of rotation. - Opposite the other opening there is a hard object (17) onto which the escaping water can hit. - The air to be ionized is passed past the water impact point. - The ionized air is separated from larger water droplets (or splashes). 2. Air ionizer according to claim 1, wherein the water is supplied via a riser pipe (10) whose longitudinal axis lies in the axis of rotation. 3. Air ionizer according to claim 2, wherein the water is supplied via several riser pipes (10). 4. Air ionizer according to claim 2 or 3, wherein the riser pipe (10) is supported at least once by bearings (9). 5. Air ionizer according to claim 2 or 3, wherein the riser tube (10) is rotated radially about the longitudinal axis. 6. Air ionizer according to claim 2, 3 or 5, wherein a filter device (15) is located on the riser pipe (10). 7. Air ionizer according to claim 2, wherein the riser tube (10) is connected to the accelerator tube (13) by connection (11). 8. Air ionizer according to claim 7, wherein said connection (11) is an outwardly sealing connection, but which has a flow opening from the riser pipe (10) to the accelerator pipe (13). 9. Air ionizer according to claim 1, wherein a plurality of accelerator tubes (13) are present. 10. Air ionizer according to claim 7, wherein said connection (11) firmly connects the riser pipe (10) and the accelerator pipe (13) to one another. 11. Air ionizer according to claim 7, wherein said connection (11) is designed such that the accelerator tube (13) can rotate around the riser tube (10), whereby the riser tube (10) can remain stationary. 12. Air ionizer according to claim 1 and 2, wherein the accelerator tube (13) is driven by a motor (3) via the riser tube (10). 13. Air ionizer according to claim 1, wherein the accelerator tube (13) can be replaced by any body with a flow opening. 14. Air ionizer according to claim 2 or 3, wherein water is present at the water inlet opening of the riser pipe (10). 15. Air ionizer for generating negative ions with the following features: - A body (30) is present which is set in rotation. - Water is applied to the body (30). - A hard object (17) is arranged around or opposite the body (30) onto which the escaping water can hit. - The air to be ionized is passed past the water impact point. - The ionized air is separated from large water drops (or splashes). 16. Air ionizer according to claim 15, wherein the water is applied to the body (30) by a pump (29). 17. Air ionizer according to claim 15 or 16, wherein the motor (3) drives not only the body (30) but also the pump (29). 18. Air ionizer according to claim 16 or 17, wherein the pump (29) is designed as a centrifugal pump. 19. Air ionizer according to claim 16, 17 or 18, wherein the pump (29) is preferably located under the body (30) in the water. 20. Air ionizer according to claim 16, 17, 18 or 19, wherein the water is supplied from the pump (29) through a hose (31) or the like to the body (30). 21. Air ionizer for generating negative ions with the following features: - A body (32) is present which is set in rotation. - Water is applied to the body (32). - The air to be ionized is passed past the body (32). - The ionized air is surrounded by larger water droplets (or Sprj-fezeijn}; 22. Air ionizer according to claim 21, wherein the body (32) has a rotational asymmetry. 23. Air ionizer according to claim 21, wherein the body (32) is irregularly shaped so that impinging water is broken up by the irregularities. 24. Air ionizer according to claim 21, wherein the body (32) has a rotational out-of-roundness, so that e.g. corners and edges in connection with the rotation break up the water. 25. Air ionizer for generating negative ions with the following features: - A body (33) which has a conical opening is rotated radially to the conicity axis. - Water is supplied at the narrower opening of the cone. - A hard object (17) is arranged around or opposite the body (33), where the water emerging from the wide opening of the cone (33) can impact. - The air to be ionized is directed past the point of impact. - The ionized air is separated from large water drops (or splashes). 26. Air ionizer according to claim 25, wherein the body (33) is insidely formed as a cone. 27. Air ionizer according to claim 25, wherein the body (33) is formed internally as a truncated pyramid. 28. Air ionizer according to claim 25, wherein the body (33) is provided internally with an opening having a conicity. 29. Air ionizer according to claim 25, 26, 27 and 28, wherein the body (33) can have both a plurality of inlet and a plurality of outlet openings. 30. An air ionizer according to claim 15, 21 and 25, wherein a filter (15) is attached to the water inlet opening. 31. Air ionizer according to claim 15, 21 and 25, wherein the body is supported by bearings (9) at least once 32. Air ionizer according to claim 4 or 31, wherein the bearing (9) is connected directly or indirectly to the motor (3). 33. Air ionizer according to claim 21 ' 25, wherein body (32), (33) is supplied with water through a conduit at the water inlet opening. 34. Air ionizer according to claim 1, 15 and 25, wherein the hard object (17) consists e.g. of metal, glass, ceramic, stone, etc. 35. Air ionizer according to claim 1, 15, 21 and 25, wherein the air to be ionized is guided past the water impact point by axial fans (2) or radial fans. 36. Air ionizer according to claim 1, 15, 21 and 25, wherein the air to be ionized is guided past the water impact point by structural measures (e.g. partition walls (4), air pressure difference, rotors, air inlet or air outlet openings). 37. Air ionizer according to claim 1, 15, 21 and 25, wherein the larger water droplets in the ionized air are separated by a labyrinth system (19).