AT524145B1 - Device for generating negative ions - Google Patents

Abstract

According to the invention, a device for generating negative ions is provided, comprising a first grid element (1) and a second grid element (2) arranged below the first grid element (1), the first grid element (1) and the second grid element (2) being arranged in a vertical direction are spaced apart, and a water outlet (5) which is designed to discharge water onto the first lattice element (1), wherein at least one of the lattice elements (1,2,3,4) has a fabric fineness of 20-400 mesh.

Description

description

The invention relates to a device for generating negative ions, comprising a first lattice element and a second lattice element arranged below the first lattice element, the first lattice element and the second lattice element being spaced apart from one another in the vertical direction, and a water outlet which is designed to apply water to the first grid element.

The invention further relates to a method for generating negative ions, wherein water is applied to a first lattice element and the water penetrates through the first lattice element and impinges on a second lattice element arranged below the first lattice element.

[0003] There are many positive and negative ions in our atmosphere. Ions are molecules that are missing an electron or have one in excess. Negative ions are always present in smaller numbers than positive ions because the conditions under which negative ions are generated are severely restricted by human activities.

According to scientific researches, negative ions have a beneficial effect on humans, animals, plants and living organisms in general. When the amount of negative ions in the air increases, the air in our living rooms and lounges becomes cleaner and therefore healthier. The inhalation of bacteria, fungi and viruses with the breath is reduced, the body's resistance to many types of diseases is naturally increased and a stronger immune system is built up. Furthermore, mental states such as anxiety and depression can be reduced.

On the other hand, positive ions in the atmosphere can cause various health problems in humans. Various causes such as computer monitors, gas molecules or smoke from combustion, heat and humidity, seasonal winds, etc. increase the number of positive ions in the air.

In nature, high concentrations of negative ions are measured, for example, in the vicinity of waterfalls, after thunderstorms, at high altitudes in the mountains or in areas of the sea. Here, between 5,000-100,000 negative ions per cm® are measured, while in office buildings usually only 0 to 250 negative ions per cm? and in the outdoor air in industrial cities there are usually 250 to 750 negative ions per cm®. In order to achieve ideal living conditions, the concentration should be at least 2,000 to 4,000 negative ions per cm? be.

[0007] Various devices in the field of the production of negative ions for air purification are known from the prior art. In this case, the molecules are usually charged with the aid of current-carrying electrodes.

The disadvantages of such devices for generating negative ions are the complex structure, the susceptibility to errors and the manufacturing costs. Furthermore, in known devices, ozone is often generated as a by-product, which can possibly be harmful to humans.

The document WO 2015096069 A1 describes an air cleaner comprising a water tank, a housing, a spray head, a water pump and a suction fan arranged in an air outlet and an air inlet provided with a filter.

The document CN 1714912 A describes an air cleaning device with screen plates equipped with air cleaning filters.

The document DE 8908613 U1 describes a tower-like fountain Saline device consisting of a wooden frame with glass tubes and glass blocks or alternatively made of metal parts. It is a fountain device that has a liquid circuit, the return of which is slower than other fountains due to the tower-like shape, causing emanation of the salt pans. Air flowing through the sides distributes the emma

nations in the area.

[0012] The document EP 0203520 A2 describes a healing air conditioner in which an air flow traverses a mist of medicinal substances and thereby leads into the environment.

Furthermore, various indoor fountains are known from the prior art.

Such indoor fountains have little or no effect on the number of negative ions in the air, but serve other purposes.

It is therefore an object of the invention to provide a device for generating negative ions in which the above-mentioned disadvantages of the prior art are at least partially eliminated. In particular, a device is to be created that enables a simple, inexpensive and environmentally friendly application to generate negative ions and bring them into the ambient air. Furthermore, the generation of harmful by-products should be avoided.

According to the invention, a device for generating negative ions of the type mentioned is provided, wherein at least one of the grid elements has a fabric fineness of 20400 mesh. During operation, water is applied to the first lattice element through the water outlet, which water flows through the first lattice element and then at least partially impinges on the second lattice element. Negative ions are formed as a result of the impact on the second lattice element and possibly the first lattice element. The invention makes use of the waterfall effect or Lenard effect, according to which water droplets have negative charges on the surface and positive charges on the inside. Upon impact of the water droplet on a solid object such as part of a grid element, the surface of the water droplet is ruptured and atomized as negatively charged small droplets which are released into the surrounding air, thereby increasing the negative ion concentration in the air. The positively charged part of the water droplet, on the other hand, melts.

It has now been found that a particularly good atomization of water droplets and thus a particularly good generation of negative ions is possible if the water is guided through a first grid element and then through a second grid element arranged vertically below the first grid element. During operation, most of the water droplets first fall onto the surface of the grid, where they are atomized and then the remaining part of the water droplet is passed on through the grid openings.

The resulting negative ions reduce the number of bacteria, fungi and viruses in the air and thereby clean and improve it. During test measurements, approx. 500 negative ions per cm®* were measured in a room. By using a device according to the invention, the ion concentration could be increased to more than 19,000 ions per cm. increase.

[0019] Water (H2O) in particular can be used in the device in question, which on the one hand is completely harmless to humans and on the other hand is easily available in many countries. Furthermore, no undesired by-products arise when using the device in question. This enables safe and at the same time simple use of the device according to the invention.

It is preferably provided that a third and preferably further grid elements are arranged below the second grid element. The third lattice element is thus arranged below the second lattice element and a fourth lattice element below the third lattice element. A total of eight to twelve, particularly preferably ten grid elements are preferably provided, which are arranged in such a way that the water is guided by gravity from the first grid element to the last, lowest grid element. The formation of negative ions is improved by the plurality of lattice elements, since further negative ions are generated upon impact with each lattice element.

[0021] Furthermore, it is preferably provided that the grid elements are arranged essentially parallel to one another. The distance between the grid elements is preferably in each case

essentially the same size. The distance between the individual lattice elements can be, for example, five to fifteen centimeters, in particular approximately ten centimeters. This enables a sufficient fall height to generate as many negative ions as possible.

Furthermore, it is preferably provided that the lattice elements are constructed essentially the same. The lattice elements are preferably each round in plan view and have, for example, a diameter of approx. 28 cm. Such an arrangement enables more efficient use of the available space.

In a preferred embodiment it is provided that at least one of the grid elements has a fabric fineness of 80-200 mesh. This provides an advantageous relationship between the openings and the surface area.

The lattice elements are preferably formed from wires with a rounded cross-section, in particular a round cross-section. This improves the flow of water through a grid element. Wires with a cross-sectional diameter of approx. 0.1 to 3 mm are preferably provided for this purpose in order to form the lattice element. A single grid layer is preferably provided for each grid element. Furthermore, the lattice elements are preferably flat, with the extension in depth being significantly less than the extension in width and length.

In order to achieve greater stability of a lattice element, a frame element forming the boundary of the lattice element in plan view is preferably provided, which preferably has a greater thickness in cross-section than the wires forming the lattice. The frame element has, for example, a cross-sectional diameter of approximately 3 to 10 mm.

The grid elements are preferably made of a metal, for example. (Stainless) steel or aluminum. Alternatively, the lattice elements can also consist of a plastic, for example. All grid elements are preferably made of the same material. Alternatively, the grid elements can also be made from different materials.

[0027] For example, commercially available injection screen grids can be used as grid elements.

In order to collect the water flowing through the lattice elements, a trough is preferably provided below the lattice elements. The trough is at least partially open towards the grid elements, so that water can flow from the grid elements into the trough by gravity.

Furthermore, it is preferably provided that the water outlet is connected to a pump. The pump can be designed, for example, to convey water from a trough arranged below the grid elements to the water outlet, which essentially creates a closed water circuit, since water that has flowed through the grid elements can be transported again to the water outlet. In this case, the pump is preferably connected to the water outlet via a water riser, through which the water can be conveyed from the tub to the water outlet.

It is preferably provided that the water outlet has a water nozzle and/or a spray jet head. The water can be sprayed over the first grid element by a spray jet head and distributed over a large area and evenly, so that negative ions are generated as soon as it hits the first grid element. The water then runs through gravity onto the lattice elements arranged underneath, with no further conveying device being required. It is preferably provided that the water outlet is at a distance from the first grid element and, for example, the distance between the first grid element and the water outlet is approx. 5-15 cm, preferably approx. 10 cm.

In order to connect the individual lattice elements to one another and to keep them at the desired distance, uprights are preferably provided which are detachably or non-detachably connected to the lattice elements. The uprights can be tubular, for example, and welded to the individual lattice elements, for example. Furthermore, a water riser can also be connected to the uprights, creating a compact device. Alternatively or additionally, other forms of framework can be arranged to the lattice elements and / or

to support a water riser. The uprights are preferably made of a metal, for example (stainless) steel.

According to the invention, a method for generating negative ions of the type mentioned is also provided, wherein at least one of the grid elements has a fabric fineness of 20-400 mesh.

[0033] This method can be carried out in particular with a device provided according to the invention.

The invention is explained in more detail below with reference to an embodiment shown schematically in the drawing. In this shows

1 shows a side view of an embodiment of a device according to the invention, and [0036] FIG. 2 shows a top view of the device according to FIG.

In Fig. 1 a device according to the invention is shown in a side view. The device comprises a first lattice element 1, a second lattice element 2 arranged below the first lattice element 1, a third lattice element 3 arranged below the second lattice element 2, and further lattice elements 4, which are each arranged one below the other. The lattice elements 1,2,3,4 are of essentially the same design and are arranged essentially at the same distance from one another and essentially parallel to one another. In order to apply water to the first lattice element 1 , a water outlet 5 designed as a spray jet head is provided, which is connected via a water riser 6 to a trough 7 arranged below the lattice elements 1 , 2 , 3 , 4 . With the aid of a pump 8, water can be conveyed from the trough 7 via the water riser 6 to the water outlet 5 and then discharged over the grid element 1. The lattice elements 1,2,3,4 are connected to one another by means of a plurality of uprights 9 designed as tubes.

In Fig. 2, the device according to FIG. 1 is shown in a top view, for the sake of clarity, only the grid element 1 and the uprights 9 are shown.

In operation, water is transported from the tub 7 using the pump 8 via the water riser 6 to the water outlet 5 and applied to the first lattice element 1 . The water hits the lattice elements 1,2,3,4 in sequence and then flows through the respective lattice element 1,2,3,4 until it has reached the tub 7 again. The water is then fed back from the trough 7 to the water outlet 5 so that an essentially closed circuit is formed. On impact with the grid elements 1,2,3,4 negative ions are generated.

Claims (9)

patent claims A device for generating negative ions, comprising a first grid element (1) and a second grid element (2) arranged below the first grid element (1), the first grid element (1) and the second grid element (2) being spaced apart from one another in the vertical direction and a water outlet (5) designed to discharge water onto the first grid element (1), characterized in that at least one of the grid elements (1,2,3,4) has a fabric fineness of 20-400 mesh. 2, Device according to claim 1, characterized in that below the second grid element (2) a third grid element (3) and preferably further grid elements (4) are arranged. 3. Device according to claim 1 or 2, characterized in that the grid elements (1,2,3,4) are arranged substantially parallel to one another. 4. Apparatus according to claim 2 or 3, characterized in that the distance between the grid elements (1,2,3,4) is essentially the same in each case. 5. Device according to one of claims 1 to 4, characterized in that the grid elements (1,2,3,4) are constructed essentially the same. 6. Device according to one of claims 1 to 5, characterized in that at least one of the grid elements (1,2,3,4) has a fabric fineness of 80-200 mesh. 7. Device according to one of claims 1 to 6, characterized in that a trough (6) is provided below the grid elements (1,2,3,4). 8. Device according to one of claims 1 to 7, characterized in that the water outlet (5) is connected to a pump (7). 9. A method for generating negative ions, wherein water is applied to a first lattice element (1) and the water penetrates through the first lattice element (1) and impinges on a second lattice element (2) arranged below the first lattice element (1), characterized in that that at least one of the grid elements (1,2,3,4) has a fabric fineness of 20-400 mesh. 1 sheet of drawings