NL2004535C2 - AIR TREATMENT DEVICE, HOLDER AND BUILDING EQUIPPED WITH AN AIR TREATMENT DEVICE. - Google Patents

Description

Air treatment device, container and building provided with an air treatment device

The present invention relates to air treatment device for treating a surrounding atmosphere and to a building comprising at least one facade and a roof of which at least one of the facade and the roof is provided with the air treatment device on an available surface.

Buildings come in many designs and dimensions. An exterior of all those buildings 10 forms a very large available surface. More and more new applications are being devised to be able to use this usually unused available surface of buildings, in particular the roof and facades, for favorable purposes. In view of global environmental issues, an important application is the provision of an air treatment system on the available surface to treat a surrounding atmosphere. A well-known example of this is so-called green roofs or green facades, wherein the air treatment system consists of plants, mosses and the like that are applied to the roof or facade to filter environmentally harmful substances such as nitrogen oxides and carbon oxides from the atmosphere.

Although it has been found that a green roof or green façade on a building treats air from a surrounding atmosphere, such a type of roof or façade does require a lot of maintenance, with associated noticeable maintenance costs.

The present invention has for its object, inter alia, to provide an air treatment device which is at least equally or better able to treat air from a surrounding atmosphere without the need for, or at least noteworthy, maintenance thereof.

To this end, the present invention provides an air treatment device comprising at least one holder with a product space bounded by a wall part for holding an active bulk material for treating a surrounding atmosphere, the at least one holder being open on at least one side for free contact of air from the surrounding atmosphere with a reaction surface of the active bulk material in the product space. Such an air treatment device with bulk material offers an excellent air treatment and, after being placed on an available surface, requires at least virtually no maintenance. Moreover, the use of a holder makes it easy to move the air treatment device, so that any inspections and / or work on the underlying surface can be carried out quickly at any given moment.

According to the invention, any suitable material with air-treating properties can be used as active bulk material, but according to the present invention, a natural mineral with air-treating properties, and in particular olivine, is preferably used. This is because a natural mineral can be extracted with a minimal emission of environmentally harmful substances, in contrast to many chemical and artificial substances and materials where many relatively environmentally harmful substances are emitted during production, such as carbon dioxide and nitrogen oxides. In particular, olivine ((Mg, Fe) 2 SiO 4) is particularly suitable as bulk material in the air treatment apparatus according to the present invention. Olivine reacts with carbon dioxide (CO 2) gas from the atmosphere and is thereby converted, for example, into the harmless end products serpentine and magnesite, whereby the carbon dioxide gas is extracted from the environment. This desired reaction proceeds faster in the presence of moisture and at a higher temperature. It is precisely these circumstances that often apply to a roof or a facade of a building, where a relatively high temperature often prevails due to sunlight and heat radiation from the building, and moisture is often present in the form of rainwater.

The present invention thus also relates to a building comprising at least one facade and a roof of which at least one of the facade and the roof is provided with an air treatment device according to the present invention on an available surface. The air treatment device filled with olivine is particularly effective when applied to such a facade or roof in filtering carbon dioxide from the surrounding atmosphere.

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A preferred embodiment of the air treatment device according to the present invention is characterized in that the wall part forms at least one other side of the holder and is provided with at least one opening at which the product space is further open for free contact of air from the surrounding atmosphere with a reaction surface on a side of the bulk material facing the wall part. Thus, a reaction surface of an active bulk material arranged in the at least one container will be in free contact with air from the surrounding atmosphere on both the at least one open side and on the at least one other side formed by the wall part. Due to the relatively large contact surface area between active bulk material and air, a relatively fast purification of the air from the surrounding atmosphere takes place.

In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the wall part is profiled. By starting from the profiled wall part instead of a substantially flat wall part, the at least one holder is adapted to receive an active bulk material at least partially unevenly in the product space, wherein at least one layer thickness of the bulk material varies locally. Such a variation in at least the layer thickness of the bulk material increases a total contact surface area between the active bulk material and the air, whereby an air purification proceeds extremely efficiently. In a special embodiment thereof, the air treatment device according to the present invention is characterized in that the wall part is wavy in at least one direction, wherein the bulk material is arranged in a valley between tops of two consecutive waves and that at least one opening is provided in a flank which extends between a top and the valley. The wall part can thus be formed by, for example, a corrugated sheet on which the active bulk material is arranged between successive corrugated tops in the corrugated valleys. Below the wave tops between successive wave valleys, the wall portion leaves a free space to the ground. Through this free space, air can flow from the surrounding atmosphere to come into contact with the bulk material arranged in the valleys via the openings 20 provided in the flanks.

In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the at least one holder comprises several product spaces which are separated from each other by at least one intermediate wall and that each product space is bounded by at least one wall part and via at least one opening in the at least one wall part is in open communication with air from a surrounding atmosphere. In a further particular embodiment, the air treatment device according to the present invention is characterized in that the at least one partition wall is limited to a space that is open on a side remote from the product spaces for air from the surrounding atmosphere and that the at least one partition wall has at least one opening comprises in each intermediate wall part that a product space is at least partially limited.

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A further preferred embodiment of the air treatment device according to the present invention is characterized in that the at least one holder is provided with at least one spacer body for storing a free space on a side of the wall part remote from the product space. The at least one spacer body allows air from the surrounding atmosphere to enter the free space to come into contact with the active bulk material in the product space via an opening arranged in the wall part. In a special embodiment thereof, the air treatment device according to the present invention is characterized in that the at least one spacer body comprises a foot which is integral with a side of the wall part remote from the product space. The holder can thus be manufactured as a whole and can quickly be placed on a suitable surface by the foot.

In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the at least one spacer body comprises a plate-shaped body provided with support elements on which the at least one holder with a side of the wall part remote from the product space rests.

A further special embodiment of the air treatment device according to the present invention is characterized in that a liquid-permeable membrane is provided between the at least one holder and the plate-shaped body. The membrane thereby lets the liquid through for the required drainage, but prevents that bulk material held in the product space can escape from the container at the bottom.

In a special embodiment, the air treatment device according to the present invention is characterized in that the at least one holder is plate-shaped.

In a further special embodiment, the air treatment device according to the present invention is characterized in that the wall part comprises a relatively open structure. In yet a further special embodiment, the air treatment device according to the present invention has the feature that the wall part forms a flexible mat or net.

Thus, the wall part can be produced on a roll to subsequently roll it over the available surface of the roof or facade relatively easily. The active bulk material can then be deposited on the mat or the net.

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In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the at least one holder comprises a manually detachable cover, in particular a cover. The cover prevents an active bulk material kept in the product space from undesirably escaping from the holder. By starting from a manually detachable cover, in particular a lid, it can easily be detached from the holder to free up the product space, so that an active bulk material can be arranged therein or can just be removed therefrom.

A special embodiment of the air treatment device according to the present invention is characterized in that the at least one holder is made of plastic. A plastic holder is easy to produce at relatively low costs. Moreover, such a holder is easy to clean.

In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the air treatment device comprises a set of holders and that the holders from the set can be mutually coupled. Thus, for example, a modular system can be assumed with which an available surface of a facade and / or roof of a building can be covered at least almost completely with the set of holders so that the available surface is fully utilized. In a special embodiment thereof, the air treatment device according to the present invention is characterized in that the holders can be stacked with each other. By stacking the holders, an air treatment device is provided which is height-adjustable as desired and thus offers a greater air treatment capacity on a given available surface.

In a further preferred embodiment, the air treatment device according to the present invention is characterized in that the bulk material is granular, in particular coarse-grained. A granular bulk material, and in particular a coarse-grain bulk material, has a relatively large reaction surface so that air purification is thereby optimized.

A special embodiment of the air treatment device according to the present invention is characterized in that the bulk material comprises a primary bulk material fraction with a first grain size and a secondary bulk material fraction with a grain size larger than the first grain size, the primary fraction between the wall part and -6 - the secondary bulk fraction is provided. The smaller the grain size of the bulk material, the greater the relative contact surface thereof, whereby the reaction rate to filter the atmosphere is higher. In a further particular embodiment thereof, the air treatment device according to the present invention is characterized in that the primary bulk material fraction has a grain size of at least substantially 5 mm or smaller in diameter, and that the secondary bulk material fraction has a grain size of at least substantially 1 mm or larger in diameter. A primary bulk material fraction with a grain diameter of less than or equal to 5 mm is thus used in the container. However, such a grain size is so light in weight that it can evaporate under the influence of the wind. To counteract this, a secondary bulk material fraction with heavier grain is used, which forms a burden for the primary fraction below. When placing the device in an environment where there is no wind or a relatively weak wind, for example, a powdered primary fraction with a grain size of less than 250 micrometres can be used for a highly efficient air filtration and a secondary fraction with a grain size of 1 mm as ballast, while when the device is placed in an environment where a relatively strong wind prevails, the secondary fraction in particular can comprise a grain size of 5 to 8 mm or even greater.

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

1A-1B show respectively a perspective view and a side view of a first exemplary embodiment of an air treatment device according to the invention.

Figures 2A-2B show a side view and a perspective view, respectively, of a second exemplary embodiment of an air treatment device according to the invention.

Figure 3 is a side view of a third exemplary embodiment of an air treatment device according to the invention.

Figure 4 is a perspective view of a first exemplary embodiment of a holder suitable for use in an air treatment device according to the invention.

Figure 5 is a perspective view of a second exemplary embodiment of a holder suitable for use in an air treatment device according to the invention.

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Figure 6 shows a front view of a third exemplary embodiment of a holder suitable for use in an air treatment device according to the invention.

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.

As shown in figure 1A and figure 1B in a first exemplary embodiment of an air treatment device according to the invention, the device 1 comprises a plastic holder 2 with a number of wall parts 3 which delimit a number of product spaces separated by intermediate walls 9. An active bulk material 4 is held in the product spaces for treating a surrounding atmosphere. The product spaces can in principle have almost any conceivable shape, but in this exemplary embodiment it is assumed that a holder is provided in which the intermediate walls enclose hexagonal product spaces with a diameter of approximately 4 cm. Such a plastic container is sufficiently strong to be able to walk over it, so that the air treatment device can be applied to available surfaces over which walkways lead, such as for example in gardens, fields or roof terraces. The container 2 is open at a top for free contact of air from the surrounding atmosphere with a reaction surface of the active bulk material 4 in the product space. The holder 2 rests with a bottom side on a substrate 10, for example an available surface of a roof or facade of a building. A liquid-permeable membrane 6, such as for instance a felt cloth or a perforated foil such as a geotextile, is provided between the substrate 10 and the holder 2, which boundary limits the product spaces on the underside to prevent the active bulk material from escaping from this. The holder 2 is easy to place on an available surface of a substrate and, unlike green facades or roofs, requires virtually no maintenance after installation.

As is shown in figure 2A and figure 2B in a second exemplary embodiment of an air treatment device according to the invention, the device 1 comprises a holder 2 with transparent wall parts that delimit a number of product spaces. The product spaces are filled with an amount of active bulk 4.5. The active bulk material comprises a layer of a primary bulk fraction 4 of the natural mineral olivine with an average grain size of at least substantially 0.5 mm, and a further layer of a secondary bulk fraction 5 of olivine with an average grain size of at least substantially 1 mm. The relatively fine-grained primary fraction 4 is confined under the relatively coarse-grained secondary bulk material fraction 5 in the container to prevent this fraction from escaping from the container, for example under the influence of the wind. The coarser grains from the secondary fraction are sufficiently heavy to not be susceptible to displacement by the wind, and thus form a suitable ballast. On the other hand, the primary fraction with fine grains has a relatively larger contact surface, so that such a fraction offers a higher reaction rate and thus allows a faster carbon dioxide gas uptake than the secondary fraction with coarse grain. Over time the fractions will be weathered by the reaction with the atmosphere at least to a large extent, the primary fraction being at least almost completely consumed and the secondary fraction in grain size having decreased to a grain size substantially corresponding to the original primary fraction . Through the transparent wall parts, a content of the holder 2 can easily be inspected to determine when the bulk material in the product spaces needs to be refilled. By providing the container 2 with a new layer of bulk material fraction, the air-handling property of the device is continued. The holder 2 rests on a substrate 10 with the intervention of a spacer body 7. In this exemplary embodiment, the spacer body 7 comprises a profiled plastic plate provided with protruding studs 8. The container 2 rests with the underside on the studs 8 through a fluid-permeable web. 6. The membrane prevents the relatively fine primary fraction 4 from being able to escape through the opening on the underside of the container 2. The film does, however, allow moisture through, for example rainwater that flows into the container at an open top. This moisture will flow away from the plastic plate 7 via the spaces between the studs 8, so that the air treatment device 1 provides for adequate drainage. The free spaces between the studs 8 of the plate 7 moreover provide for a good flow of air through the holder 2, so that the air treatment device 1 forms a very efficient air filter.

Figure 3 shows a third exemplary embodiment of an air treatment device according to the present invention, wherein the device comprises a holder with a plate-shaped wall part 3. The wall part 3 is provided on a circumferential side with an upstanding edge which delimits a bulk material 4 held on the wall part 3 laterally. . Green, such as natural and / or synthetic grasses, plants, mosses, flowers, etc., are provided between the bulk material, for example an air-treating natural mineral, to give the air-conditioning device a more natural appearance. In addition, the greenery retains the bulk material, so that any bulk of the bulk material is prevented. Below the wall part 3, a drainage mat 7 is provided for discharging any liquid, such as, for example, rain water, fed to the device. The air treatment device can thus be placed on an available surface of a roof or facade of a building, but is also well suited for placement on an available surface in a natural environment such as a garden, field, or other suitable location. The use of a holder makes it easy to move the device 10 to, for example, quickly inspect a substrate 10.

Figures 4, 5 and 6 respectively show a first, second and third exemplary embodiment of a holder that can be used in an air treatment device according to the present invention. As shown in figure 4, the holder 2 in a first exemplary embodiment 15 comprises a tile-shaped drawer with a wall part 3 which delimits a product space. An active bulk material can be received in the product room. The container 2 is open at a top for free contact between surrounding air and the active bulk material in the container 2. The wall part 3 is provided with air openings to further promote aeration of the active bulk material in the container. As shown in Fig. 5, in a second exemplary embodiment, the holder 2 comprises a similar tiled drawer, a bottom wall of which is perforated to promote aeration of the active bulk material in the bottom of the holder. The holder is furthermore provided with spacer bodies 7, in the form of feet, which leave a space between the bottom wall of the holder and the substrate, so that a liquid, such as rain water, for instance rain water, can be sufficiently discharged and air from the surrounding atmosphere can flow freely under the holder 2 to come into contact via apertures with a contact surface of the bulk material in the holder. The feet 7 are integral with a remaining part of the holder 2, so that the holder can be manufactured as a whole and be placed on an available surface. As shown in figure 6, the holder 2 in a third exemplary embodiment comprises a profiled plate 3 which is wavy in at least one direction. An active bulk material 4 is received in the valleys between two consecutive wave crests. Air can freely come into contact with the bulk material from above. In addition, air openings are provided in the plate in the flanks of the waves extending between a top and valley. Via these air openings, a possibly received liquid can be discharged and air flowing underneath the plate 3 also come into contact with the active bulk material along this. This promotes the air filtration of the device.

Although the invention has been further elucidated with reference to only a few exemplary embodiments, 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 (21)

An air treatment device comprising at least one holder with a product space bounded by a wall part for holding an active bulk material for treating a surrounding atmosphere, wherein the at least one holder is open on at least one side for free contact of air from the surrounding atmosphere with a reaction surface of the active bulk material in the product space. 2. Air treatment device as claimed in claim 1, characterized in that the wall part 10 forms at least one other side of the holder and is provided with at least one opening at which the product space is further open for a free contact of air from the surrounding atmosphere with a reaction surface on a side of the bulk material directed towards the wall part. 3. Air treatment device as claimed in claim 1 or 2, characterized in that the wall part is profiled. 4. Air treatment device as claimed in claim 3, characterized in that the wall part is wavy in at least one direction, wherein the bulk material is arranged in a valley between successive tops and that at least one opening is provided in a flank extending between a top and the valley. 5. Air treatment device as claimed in one or more of the foregoing claims, characterized in that the at least one holder comprises several product spaces which are separated from each other by at least one intermediate wall and that each product space is bounded by at least one wall part and via at least one opening in the at least one wall part is in open communication with air from a surrounding atmosphere. 6. Air treatment device as claimed in claim 5, characterized in that the at least one intermediate wall delimits a space that is open on a side remote from the product spaces for air from the surrounding atmosphere and that the at least one intermediate wall comprises at least one opening in each intermediate wall part that at least partially limits a product space. -12- 7. Air treatment device as claimed in one or more of the foregoing claims, characterized in that the at least one holder is provided with at least one spacer body for storing a free space on a side of the wall part remote from the product space. 5 8. Air treatment device as claimed in claim 7, characterized in that the at least one spacer body comprises a foot which is integral with a side of the wall part remote from the product space. Air treatment device as claimed in claim 7, characterized in that the at least one spacer body comprises a plate-shaped body provided with support elements on which the at least one holder with a side of the wall part remote from the product space rests. 10. Air treatment device as claimed in claim 9, characterized in that a liquid-permeable membrane is provided between the at least one holder and the plate-shaped body. 11. Air treatment device according to one or more of the preceding claims, characterized in that the at least one holder is plate-shaped. 12. Air treatment device according to one or more of the preceding claims, characterized in that the at least one holder comprises a manually detachable cover, in particular a cover. 25 Air treatment device according to one or more of the preceding claims, characterized in that the at least one holder is made of plastic. 14. Air treatment device according to one or more of the preceding claims, characterized in that the air treatment device comprises a set of holders and that the holders from the set can be mutually coupled. -13- Air treatment device according to claim 14, characterized in that the holders can be stacked with each other. 16. Air treatment device according to one or more of the preceding claims, characterized in that the bulk material comprises a natural mineral, in particular olivine. 17. Air treatment device according to one or more of the preceding claims, characterized in that the bulk material is granular, in particular coarse-grained. Air treatment device according to claim 17, characterized in that the bulk material comprises a primary bulk material fraction with a first grain size and a secondary bulk material fraction with a grain size larger than the first grain size, wherein the primary fraction is provided between the wall part and the secondary bulk material fraction . 15 19. Air treatment device according to claim 18, characterized in that the primary bulk material fraction has a grain size of at least substantially 5 mm or smaller in diameter, and that the secondary bulk material fraction has a grain size of at least substantially 1 mm or larger in diameter. 20 Container as used in the air treatment device according to one or more of the preceding claims. 21. Building comprising at least one facade and a roof of which at least one of the facade and the roof is provided on an available surface with an air treatment device according to one or more of claims 1 to 19.