NL2002242C2 - DEVICE FOR AIR TREATMENT. - Google Patents

Description

Device for air treatment

The present invention relates to a device for air treatment in a space comprising a housing with an air inlet and an air outlet between which an air treatment chamber extends, in which air treatment means are provided, and comprising air displacing means for moving air from the inlet through the air treatment chamber to the outlet.

A known device of the type mentioned in the preamble is known from EP 10 0800832A1. The device described therein is often used to treat air in a room. To this end, the known device comprises a handy housing for being placed in the space. Inside the housing is an air treatment chamber in which an aromatic source is provided to release a fragrance of air into the air treatment chamber. Air displacement means 15 are provided in the housing for displacing untreated air received at an inlet of the housing along the aromatic source to an outlet of the housing. Air treated with an odorant is released into the room at the outlet. Thus, the aromatic properties of the air in the room are influenced by the known device.

20

Although air can be treated with the known device, in particular with regard to its aromatic properties, the disadvantage of this is that it does not actually purify the air. Impurities in the air, such as, for example, unpleasant odorants, are only camouflaged by the addition of a more pleasant odorant to the air. However, the impurities are not broken down.

The present invention has for its object to provide a device of the type mentioned in the preamble which at least meets the above-mentioned drawback.

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In order to achieve the intended object, a device of the type mentioned in the preamble according to the present invention is characterized in that the air treatment means comprise a radiation source for emitting LA08.1396NL1 .np.wpd -2-ionizing radiation which is capable of promote the production of ozone from oxygen. Ozone is a very strong oxidizer that reacts with many impurities in the air. The impure substance with which the ozone reacts is broken down by an oxidation reaction. The ozone itself is often converted into harmless oxygen. Ozone 5 is therefore an excellent means to remove impurities from the air.

Because the radiation source of the device promotes the production of ozone, an air treatment is thus provided in which unwanted contaminants such as unpleasant odorants, but also microbiological organisms, chemicals, etc. are removed from the air, so that a pure, freshly scented air is released into the room. released.

A preferred embodiment of the present invention is characterized in that the radiation source comprises a UV lamp for emission of radiation with a wavelength shorter than 240 nm, in particular a wavelength of at least approximately 185 nm. Such radiation converts oxygen molecules present in the air into ozone, wherein radiation with a wavelength of at least nearly 185 nm provides an optimum conversion with a high ozone yield.

Although ozone has a purifying effect, ozone itself is also a toxic substance that, above a certain maximum concentration limit, is harmful to human and animal health. Particularly in spaces where people or animals are exposed to the air, it must be prevented that a concentration of ozone in the air can rise above a certain maximum concentration limit. The present invention is thus characterized in a further preferred embodiment in that ozone-degrading means are provided in the housing for degrading ozone. In a special embodiment thereof, the present invention is characterized in that the ozone-depleting means comprise a UV lamp which emits at least radiation with a wavelength of at least approximately 254 nm. Radiation with a wavelength of at least nearly 254 nm promotes the degradation of ozone. Moreover, the radiation of 254 nm has an additional purifying effect on the air because radiation of this wavelength kills microbiological organisms such as bacteria and fungi. Such a radiation source is thus extremely suitable for use in the air treatment device.

A further special embodiment of the present invention is characterized in that the radiation source is capable and arranged to have radiation with a wavelength shorter than 240 nm, in particular at least approximately 185 nm, and radiation with a wavelength of at least approximately 254 nm at least substantially simultaneously. to broadcast. Thus, only one radiation source can be assumed for both air purification and ozone degradation.

A further preferred embodiment of the present invention is characterized in that the housing is provided with coupling means for coupling near or against an air supply system in the room, in particular an air circulation system. By coupling the device near or against an air supply system in the space, at least substantially all supplied air is treated and purified by the device before the air is released to the space.

A further preferred embodiment of the present invention is characterized in that the housing is provided with an oxidation-resistant inner lining at least in the air chamber. The inner liner thereby counteracts the relatively strong oxidizing effect of ozone on the housing to a certain extent, thereby increasing the durability of the device.

A further preferred embodiment of the present invention is characterized in that the air displacement means comprise a fan.

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A further preferred embodiment of the present invention is characterized in that control means are provided which are capable and adapted to control a radiation emission from the radiation source. By adjusting the radiation emission from the radiation source, a production and degradation of ozone in the air can be controlled. Thus, an ozone concentration in the air can be precisely controlled with the device. In a special embodiment thereof, the present invention is characterized in that a detection probe is provided for detecting an ozone concentration in the air at least near the outlet and that feedback means are provided which are capable and adapted to return a detection signal from the detection probe. link to the control means. Thus, the production and degradation of ozone in the device can be adapted to a detected ozone concentration in the air. The device is thus capable and adapted to automatically maintain an at least substantially optimum ozone concentration in the air over time.

A further preferred embodiment of the present invention is characterized in that an electrical supply source is provided which is capable and adapted to provide at least one of the air treatment means, air displacement means, control means processing means and ozone detection means with an electrical supply. The electrical power source, for example a battery, provides the electrical means with sufficient power for an operation thereof. As a result, the device does not have to be connected to a voltage network intended for this purpose. Thus, for example, a wireless device can be assumed.

The invention will now be further elucidated on the basis of an exemplary embodiment and an associated drawing. In the drawing:

Figure 1 shows an embodiment of a device according to the invention in a schematic representation;

Figure 2 shows the exemplary embodiment of Figure 1 in a perspective view

The figures are purely schematic and not drawn to scale. In particular, for the sake of clarity, some dimensions may be exaggerated to a greater or lesser extent. Corresponding parts are designated as far as possible in the figures with the same reference numeral.

30 -5-

As shown in a schematic representation in figure 1, the device 1 comprises a substantially completely closed housing 2 which can be easily placed in a space for treatment of the air. In the housing 2, an air treatment chamber 3 extends between an air inlet 4 and an air outlet 5. Untreated air can enter the air treatment chamber 3 via the air inlet 4 and then be released to the air in the room via the air outlet 5. Because air displacement means 6, in this example a fan, are provided at least near the inlet, a displacement of the air from the inlet 4 to the outlet 5 is promoted. The air is thereby passed along a radiation source 7 into the air treatment chamber 3 for treatment. The radiation source 7 in this exemplary embodiment is a UV lamp which simultaneously emits both radiation of approximately 185 nm and radiation of approximately 254 nm. The radiation of 185 nm promotes the production of ozone from oxygen molecules present in the air. The ozone then purifies the air by reacting with impurities present in the air, such as microorganisms, fragrances and chemicals. The radiation of approximately 254 nm supports the purifying effect by directly attacking, in particular killing, the microorganisms, and by forming hydroxyl radicals from the ozone. The hydroxyl radicals formed are in turn capable of reacting with all kinds of undesired radicals in the air, so that the device provides an additional thorough purification of the air. The treated air that is released to the space 20 at the outlet 5 is thus very pure and free of microorganisms. As a result, the device is suitable for use in, for example, storage rooms for perishable food products in order to provide sterile air, thereby reducing spoilage and rot of the food products. Moreover, because at least a part of the created ozone is converted by the 254 nm radiation, an ozone concentration in the air remains somewhat balanced. This prevents the ozone concentration in the air from exceeding a concentration harmful to humans and animals.

For an extra certain prevention that an amount of ozone in the air exceeds a maximum permissible concentration, control means 8 are provided with which a radiation emission from the radiation source 7 can be adjusted. In this connection, it is possible to start from electronic means that directly control the emission properties of the radiation source 7, but it is also possible, for example, to start from a relatively simple sleeve or other cover that can be moved over the radiation source in order to obtain an intensity of radiation in the radiation source. air treatment chamber 3 to a greater or lesser extent. Feedback means 9 are provided to feed back a signal from a detection probe 10, which is capable and adapted to register an ozone concentration in the air, to the control means 8 to adjust a radiation intensity of the radiation source 7 thereto. Thus, an ozone concentration in the air can automatically be kept at least substantially constant, thereby preventing a certain maximum ozone concentration in the air from being exceeded. The device is therefore also extremely suitable for use in public spaces such as, for example, catering establishments or workspaces in which people and / or animals are exposed to the air. The device finds application, for example, to remove unwanted odors from the air.

As is shown in figure 2 in a perspective view of the device according to the present invention, the device 1 comprises a handy, relatively compact housing 2 which can easily be placed in a space to treat the local air. The housing 2 is provided on an upper side with an engaging element 12 on which the device can be quickly engaged and carried manually. To prevent corrosion due to the highly corrosive action of ozone, the housing in the air treatment chamber is provided with a corrosion-resistant inner lining (not shown). For additional protection against corrosion, the housing is moreover made from a durable metal, in particular from stainless steel. In an opening of air inlet 4, through which air is introduced into the air treatment chamber, a grid or mesh is provided to prevent any dirt from entering the air in the air treatment chamber. Coupling means 13 in the form of a jacket extending from the housing 2 are provided around the air inlet 4. The jacket 13 can be coupled in a simple manner to, for example, an air pipe of an air supply system, in particular an air circulation system, so that the device 1 can treat supplied air before the air is released to the space. A battery (see Figure 1, battery 11) is placed as a power source in the housing to supply the electronic means of the device 1 with electrical power, so that the device can be designed wirelessly.

Although the invention has been further elucidated on the basis of an exemplary embodiment, it will be apparent that the invention is by no means limited thereto. On the contrary, many variations and manifestations are still possible for the average person skilled in the art within the scope of the invention.

Claims (11)

A device for air treatment in a space comprising a housing with an air inlet and an air outlet between which an air treatment chamber extends, wherein air treatment means are provided, and comprising air displacing means for moving air from the inlet through the air treatment chamber to the outlet, characterized in that the air treatment means comprise a radiation source for emitting ionizing radiation which is capable of promoting the production of ozone from oxygen. 10 Device as claimed in claim 1, characterized in that the radiation source comprises a UV lamp for emission of radiation with a wavelength shorter than 240 nm, in particular a wavelength of at least approximately 185 nm. Device as claimed in claim 1 or 2, characterized in that ozone-degrading means are provided in the housing for degrading ozone. 4. Device as claimed in claim 3, characterized in that the ozone degradation means comprise a UV lamp which emits at least radiation with a wavelength of at least approximately 254 nm. 5. Device as claimed in one or more of the foregoing claims, characterized in that the radiation source is capable and adapted to at least substantially simultaneously radiation with a wavelength shorter than 240 nm, in particular at least approximately 185 nm, and radiation with a wavelength of at least approximately 254 nm. Device as claimed in one or more of the foregoing claims, characterized in that the housing is provided with coupling means for coupling near or against an air supply system in the room, in particular an air circulation system. 30-9 7. Device as claimed in one or more of the foregoing claims, characterized in that the housing is provided with an oxidation-resistant inner lining at least in the air chamber. Device as claimed in one or more of the foregoing claims, characterized in that the air displacing means comprise a fan. 9. Device as claimed in one or more of the foregoing claims, characterized in that control means are provided which are capable and adapted to control a radiation emission from the radiation source. 10. Device as claimed in claim 9, characterized in that a detection probe is provided for detecting an ozone concentration in the air at least near the outlet and that feedback means are provided which are capable and adapted to feed back a detection signal of the detection probe to the control means. 11. Device as claimed in one or more of the foregoing claims, characterized in that an electrical supply source is provided which is capable and adapted to provide at least one of the air treatment means, air displacement means, control means processing means and ozone detection means with an electrical supply.