DE102021201207A1 - Room air disinfection filter for the filtration and disinfection of room air and its use - Google Patents

Abstract

The present invention relates to a room air disinfection filter (1) for the filtration and disinfection of room air and its use, with a filter housing (5) defining a central housing axis (3) in its main direction of extension (2) and forming a housing interior (4), which is between the housing cover (6 ) and housing base (8) distributed in a circumferential direction (10) rotating about the central housing axis (3) over the circumference (11) of the filter housing (5) and each connected by two housing cover (6) to the housing base (8) connecting axial housing columns ( 12) radial filter mounts (17) separated in the circumferential direction (10) for accommodating filter elements (18) of the room air disinfection filter (1), an air inlet (25) open in the transverse direction (23) for room air and an air outlet (30) open in the longitudinal direction (24) for room air, with a radiator arrangement (36) for emitting electromagnetic waves, which is arranged in the housing interior (4), with several inserted filter elements (18) and with a fan (40) for sucking in room air. It is essential for the invention that an air path (42) for an air flow (43) of room air extends through the filter housing (5), this air flow (43) passing through each air inlet (25) and through the filter elements (18) in flows into the housing interior (4) and along the radiator arrangement (36) with its entire air volume flow.

Description

The invention relates to a room air disinfection filter for filtering and disinfecting room air according to the preamble of claim 1 and its use.

Room air disinfection filters of this type are, for example, in the documents GB 2 405 463 A and U.S. 2011/033346 A1 described. The disadvantage of these room air disinfection filters is that the sucked-in room air flows past a radiator arrangement intended for disinfecting the room air relatively quickly and not necessarily with its full air volume. As a result, the exposure time of the room air is comparatively short, so that it can be at least slightly contaminated with viruses and/or bacteria, although nowadays one would like room air free of viruses and bacteria.

The object of the invention is therefore to provide or specify an improved or at least another embodiment of a room air disinfection filter. In particular, an attempt should be made to specify a room air disinfection filter that is relatively compact but nevertheless eliminates the above disadvantage.

In the case of the present invention, this object is achieved in particular by the subject matter of the independent claims. Advantageous embodiments are the subject of the dependent claims and the description.

The basic idea of the invention is to design a housing interior of the room air disinfection filter through which the sucked-in room air flows in such a way that practically the entire air volume of the sucked-in room air flows along a radiator arrangement arranged in the housing interior.

For this purpose, a room air disinfection filter according to the invention for the filtration and disinfection of room air has a filter housing which, in its main extension direction, defines a central housing axis and forms or delimits a housing interior. The filter housing is a separate, independent structural unit which, in particular, can be manufactured in one piece. The filter housing has at least three separate radial filter mounts between its housing cover and its housing base. These are used to hold filter elements of the room air disinfection filter in a radial transverse direction with respect to the central axis of the housing. The radial filter receptacles are distributed over the full circumference of the filter housing in a circumferential direction rotating about the central housing axis and are also separated from one another in the circumferential direction by two housing axial columns connecting the housing cover to the housing base. Filter elements for filtration of the sucked-in room air are inserted in the radial filter mounts. This can be advantageous in particular when the filter housing is designed round and forms a round filter housing with a round housing cover and a round housing base. The filter housing also has at least one air inlet for room air that is open in the transverse direction, i.e. through which air can flow freely, and one air outlet for room air that is open in the longitudinal direction parallel to the central axis of the housing. The air inlet expediently passes through the filter housing so that room air can flow into the housing interior from the outside. The air outlet expediently passes through the filter housing so that room air can flow out of the interior of the housing. The room air disinfection filter also has a fan for sucking in room air, which is associated with the air outlet and is arranged in particular on the filter housing. The room air disinfection filter also has a separate radiator arrangement, which has at least one electrically operable radiation source, for emitting electromagnetic waves for disinfection.

So that the electromagnetic waves can illuminate the air sucked in by the fan but also the filter elements in order to disinfect them, the invention provides that the radiator arrangement is arranged centrally on the filter housing and completely inside the housing interior. An air path for an air flow from room air sucked in by the fan extends through the filter housing, which initially in the transverse direction through each air inlet and especially in the same transverse direction and especially with its full air volume or at least with its essentially full air volume through said filter elements flows through into the interior of the housing. Downstream, the air flow from room air reaches the radiator arrangement with its full air volume flow or at least 80% or at least 90% of its air volume flow, along which it flows. This makes it possible to conduct the full or at least a relatively large proportion of the air volume flow of the air flow of room air flowing through the room air disinfection filter through the filter elements and past the radiator arrangement. Since the air flow from the room air not only flows past the radiator arrangement, but flows along it, the exposure time of the room air is comparatively long. This has the advantage that the interior of the housing, especially the filter elements, and the airflow flowing through the room air disinfection filter are disinfected and filtered, so that a relatively good air quality is achieved or can be achieved, which is reflected in particular by a relatively greatly reduced number of Particles, viruses and / or bacteria distinguished. Further downstream, ie downstream of the radiator arrangement, the disinfected and filtered air flow from room air can flow out of the housing interior through the air outlet. A room air disinfection filter according to the invention is suitable, for example, for use in offices or living rooms.

The expression "in its main direction of extension" expediently describes that outer dimension of the filter housing which is largest compared to the remaining outer dimensions of the filter housing.

The expression “transverse direction” expediently describes a radial direction standing at right angles to the central axis of the housing of the filter housing. However, the "transverse direction" can also be at an angle to the housing center axis of the filter housing or can enclose an angle between itself and the housing center axis, in particular an angle from the range greater than 10° to less than 170°.

The expression “substantially” expediently describes a tolerance, for example a manufacturing or assembly tolerance. This can describe a deviation of up to +/- 5% or even up to +/- 10% from a predetermined or specifiable ideal. For example, the expression "regarding its air volume flow at least essentially completely [...] flow along” can be understood as a deviation from the total air volume flow (ideal, 100%) by up to +/- 5% or up to +/- 10%.

The term "room air" expediently describes the mixture of substances that is usually found in offices or living spaces. In addition to a gas mixture, in particular nitrogen 78.08% by volume, oxygen 20.95% by volume, argon 0.93% by volume, carbon dioxide 0.04% by volume and other gases, a solid can also be used - Have a liquid mixture of solid and/or liquid parts, especially dust particles, aerosols and other small components. Unfiltered and non-disinfected room air can be referred to as raw room air and filtered and/or disinfected room air as clean room air.

The room air disinfection filter can suck in raw room air from all around, ie from all sides of the room, through the at least one air inlet for room air that is open in the transverse direction, ie, on the peripheral side. As a result, the room air disinfection filter can, so to speak, realize a 360° extraction of raw room air (viewed in the circumferential direction around the central axis of the housing).

A radiation source can be realized by at least one illuminant emitting electromagnetic radiation, for example a lamp or an LED.

The filter housing can be round. As a result, the room air disinfection filter can be relatively compact. It goes without saying that the housing cover and the housing base can also be round, for example as a round housing cover and round housing base. Furthermore, the components between the housing cover and the housing base are also suitably adapted to the round shape of the filter housing.

The housing interior expediently describes or forms the shape of a prism. In particular, it can be a triangular prism. A prism within the meaning of the invention is a three-dimensional, geometric body which is expediently spanned by the parallel displacement of a predetermined or specifiable, two-dimensional prism base along a straight line that does not lie in this prism base. A prism base is formed, for example, by a regular polygon whose base edges are each the same length, or an irregular polygon whose base edges are of different lengths. Such regular or irregular polygons can be triangular, square or polygonal polygons. According to the understanding of the invention, a prism accordingly has two prism base surfaces which are connected to one another via a plurality of large prism surfaces which together form a prism lateral surface. Appropriately, every two large prism surfaces converge in a lateral edge. A preferred prism can be realized by a triangular prism. Its prism base is formed by a triangle, especially a regular or an irregular triangle. The parallel displacement of this triangular prism base can take place along a straight line that is orthogonal or at an angle to the triangle, so that said triangular prism forms either a right triangular prism or an oblique triangular prism. A relatively compact housing interior is thereby defined, which can be illuminated relatively well with the radiator arrangement. This has the advantage that the entire or at least almost the entire air volume flow of the air flow flowing through the interior of the housing and the filter elements are disinfected.

The room air disinfection filter can be made relatively compact. It can, for example, have an external dimension of 487 mm in its main direction of extension. Crosswise he can e.g. have an outer diameter of 290 mm or an outer edge length of 290 mm.

Further expediently, the filter elements accommodated in the radial filter mounts can each be arranged on a single large prism surface of said prism, especially said triangular prism, or form these large prism surfaces. In addition or as an alternative, it can be provided that at least two separate filter elements that are adjacent in the circumferential direction form or delimit an intermediate region between their edge sections that face one another in the circumferential direction. The intermediate area can form or have a lateral edge of said prism, in particular of said triangular prism. A housing axial column can be arranged in each of these intermediate regions. In addition or as an alternative, it can be provided that two filter elements that are adjacent in the circumferential direction are supported in contact with their respective, facing edge sections on a housing axial column. In this design, the filter elements and the housing axial columns together form or delimit the prismatic lateral surface of said prismatic housing interior. As a result, a relatively compact design of the room air disinfection filter is realized, which, when the room air disinfection filter is divided transversely to the central axis of the housing, presents a cross section with filter elements arranged in a triangular shape. Advantageously, compact room air disinfection filters can be integrated relatively easily into existing office or living space situations.

Said housing axial columns of the filter housing are preferably arranged integrally on the housing cover and housing base. As a result, the filter housing can be realized in one piece, for example as an injection molded part, and can therefore be provided relatively inexpensively. Said housing axial pillars may have a triangular or a v-shaped pillar cross-section defined by two pillar walls which is constant over their respective pillar length. The housing axial columns can be hollow on the inside and/or open in a radial direction with respect to the central axis of the housing, radially outwards or radially inwards in order to serve as a cable duct. For example, a fan connection cable for the fan can be routed through at least one axial column of the housing. The housing axial columns and/or the housing base and/or housing cover can implement a guiding function for the cross-ribbed outer jacket of the outer housing.

The emitter arrangement can expediently be arranged centrally on the housing base of the filter housing and, starting from the housing base, protrude along the central housing axis into the housing interior. Additionally or alternatively, it can be provided that the radiator arrangement or a UV radiation source extends along the central housing axis over at least 10% or over at least 25% or at least 50% or over at least 70% or at least 80% of the length of a respective filter element in the longitudinal direction and / or the length of the filter housing in the longitudinal direction. Additionally or alternatively, it can be provided that the emitter arrangement or the UV radiation source extends along the central housing axis over a maximum of 80% or a maximum of 95% or over a maximum of 110% of the length of a filter element in the longitudinal direction and/or the length of the filter housing in the longitudinal direction. As a result, the room air flowing past the radiator arrangement or the UV radiation source is exposed to the emitted electromagnetic radiation for a relatively long time, so that a relatively good disinfection effect can be achieved. The emitter arrangement or the UV radiation source itself can be fixed to the housing floor via one (or more) connection sockets arranged in the housing floor and electrically contacted with a emitter connection cable. One can imagine that the emitter arrangement or the UV radiation source is arranged in the housing cover instead of in the housing base, with a emitter connection cable for the emitter arrangement or the UV radiation source being expediently routed through one of the axial columns of the housing, which then serve as a cable duct.

The radiator arrangement can have at least one UV radiation source. This can be realized by a UV light source, for example a UV lamp or a UV LED.

Further expediently, the emitter arrangement can have a single UV-C radiation source which is arranged coaxially or parallel with respect to the central axis of the housing. However, one can also imagine an angular deviation from the center axis of the housing within the scope of installation tolerances or a predetermined angular installation situation of the UV-C radiation sources. Furthermore, the emitter arrangement can also have several separate UV-C radiation sources instead of a single one. These are practically aligned parallel to the center axis of the housing and/or are distributed around it like a ring. The term “several” expediently means that two or more UV-C radiation sources are present. This describes an arrangement of the UV-C radiation sources that enables the interior of the housing to be practically completely illuminated. This has the advantage that the entire or at least almost the entire air volume flow of the air flow flowing through the interior of the housing is disinfected from room air.

For the purposes of the invention, the expression “UV radiation source” describes a radiation source which emits electromagnetic radiation in the ultraviolet wavelength range of approximately 380 nm to 100 nm that is not visible to humans. Electromagnetic radiation in this wavelength range has a disinfecting effect, which means that irradiated dead or living material can be converted into a non-infectious state. It is possible for the UV radiation source to emit electromagnetic radiation with wavelengths that deviate at least slightly above or below the said wavelength range.

It is also expedient if the filter elements have a cuboid filter body made of a pleated filter material through which room air can flow, in particular a fleece material. The filter elements can be equipped on their opposite edge sections with side strips serving to stiffen the filter. As a result, the room air disinfection filter is equipped with cost-effective and efficient filter elements.

Taken together, the filter elements of the room air disinfection filter can form or provide a total filter area of approximately 2 m ² .

As mentioned, the radial filter holders each have the purpose of accommodating a single filter element. The term “receiving” can be understood in the sense of “releasably holding” or “releasably fixing”, ie that a respective filter element is temporarily held in place by a respective radial filter mount. As a result, a respective filter element can also be removed and replaced. The exchange of a respective filter element itself can be realized by a plugging or pulling movement. Overall, this has the advantage that the maintenance of the room air disinfection filter is relatively easy, i.e. especially convenient and quick.

The radial filter mounts can each have a stop for contacting a filter element or be formed by such a stop. A respective filter element is positioned and fixed relative to or on the filter housing by touching abutment against a respective stop. In addition, the housing interior of the filter housing can also be sealed off from the environment due to the contacting system. This has the effect that the room air drawn in has to flow completely through the respective filter elements and cannot bypass them. One can imagine that the seal is implemented or supported by a sealing element arranged on the respective filter element and/or on the respective stop. A respective stop can expediently be realized by or formed by a peripheral projection arranged on or in the region of an inner inlet opening of an air inlet described below.

The room air disinfection filter can be designed in such a way that a respective air inlet extends at least in sections over the filter housing in the circumferential direction. It is also expedient if a respective air inlet spans an angle of at least 10° and at most 120° in the circumferential direction. In addition or as an alternative, provision can be made for a respective air inlet to be assigned precisely to a single filter element in terms of flow technology. This can mean that a respective air inlet only communicates fluidly with the filter element assigned to it. The respective air inlet and the associated filter element are expediently aligned in the transverse direction. It is also expedient if a respective air inlet is bent around the central axis of the housing. "Curved" can be equated with "curved" or "curved" or the like. The term "air intake" can be understood in the sense of a breakthrough. On an outside of the room air disinfection filter oriented radially outwards, it can have an outer inlet opening, an inner inlet opening oriented radially inwards toward the central axis of the housing, and an air inlet duct connecting the outer inlet opening to the inner inlet opening, as a result of which room air can flow from outside the room air disinfection filter through the air inlet into the room air disinfection filter . It can be useful, especially in order to achieve a harmonious interaction with the design of the room air disinfection filter and/or an optimized room air routing, for each or all of the air inlets to have a cylindrical longitudinal section shape, with the curved side of the cylinder longitudinal section being the inlet outer mouth, the cut side of the cylinder longitudinal section being the Inlet inner mouth and the other sides of the cylinder longitudinal section define the air intake channel. This allows a relatively good room air supply. Appropriately, it can also be provided that the outer inlet openings are each stretched between distal column outer areas of two housing axial columns, a distal cover edge of the housing cover and a distal bottom edge of the housing base, while the inlet inner opening is formed or limited by an inflow side of a filter element. The term "distal" is intended to describe those sections of a respective component which, based on the respective component, are at the greatest radial distance from the central axis of the housing.

The air outlet can be arranged on the housing cover of the filter housing and/or pass through the housing cover of the filter housing completely and centrally in the direction of the central housing axis and have a triangular, square or polygonal cross section. This gives an overall streamlined shape for an air outlet. Furthermore, it can be provided that the air outlet penetrates the housing cover of the filter housing completely and centrally in the direction of the central axis of the housing and describes or forms a prism-shaped opening. As a result, the room air sucked into the interior of the housing can be discharged relatively easily from the filter housing. The term "air outlet" can be understood in the sense of a breakthrough. The air outlet can be open on the axial side, which means that the opening forming the air outlet is open in a longitudinal direction parallel to the central axis of the housing. It can be useful, especially in order to achieve a harmonious interaction with the design of the room air disinfection filter and/or an optimized room air flow, that the air outlet has the shape of a triangular prism. Reference is made to the relevant definition, which can be used here. In any case, the triangular base of the triangular prism can define an outer outlet opening, the opposite, further triangular base of the triangular prism can define an inner outlet opening and the other sides of the triangular prism can define an air outlet channel.

It is also expedient if a multi-part clean room air housing construction for discharging room air is arranged on the housing cover of the filter housing on the air outlet side. The clean room air housing structure can have a round fan support for holding said fan, a chimney ring arranged on the round fan support and an annular cylinder completely enclosing the round fan support and the chimney ring all around. Like a chimney, the clean room air housing structure is used for discharging or discharging room air from the housing interior and also carries the fan and at least sections of its fan connection cable. Conveniently, the clean room air housing structure defines a central structure longitudinal axis about which a structure circumferential direction rotates. The round fan support, the chimney ring and the ring cylinder can be arranged coaxially with respect to the central longitudinal axis of the body and fixed in contact with one another. The round fan support is expediently a separate structural unit and has an overall V-shaped funnel body, which has a fan mounting surface for mounting the fan in the area of its open funnel tip. The chimney ring, also designed as a separate structural unit, is congruently placed and fixed on its open large side of the hopper, which is opposite the tip of the hopper, e.g. with fastening screws arranged circumferentially in the circumferential direction of the structure. The chimney ring serves to guide room air and, if necessary, to support a cross-ribbed outer cover, which will be described below. Both the round fan support and the chimney ring are enclosed in the circumferential direction of the structure by the mentioned, separate ring cylinder. The unit consisting of the round fan support and the chimney ring can be pressed into the ring cylinder, glued to it or fixed in some other way. Appropriately, at least one annular space can be defined between the round fan support and chimney ring on the one hand and the ring cylinder on the other hand, which annular space runs in the circumferential direction of the structure and serves as a resonance chamber to reduce or at least influence the operating volume of the fan. It is at least conceivable that the circular fan support and the chimney ring are manufactured in one piece, for example by injection molding. Furthermore, the clean room air housing structure expediently has a structure mounting interface arranged on the round fan support, especially in the area of its open funnel tip, and/or on the ring cylinder, which can cooperate with a complementarily designed filter housing head mounting interface of the filter housing in order to detachably fix the clean room air housing structure on the filter housing . A screw connection can be imagined here, for example, especially with self-tapping fastening screws. It must also be mentioned that when the room air disinfection filter is in the assembled state, the central longitudinal axis of the clean room air housing structure is aligned coaxially with the central axis of the housing.

Furthermore, it can be provided that the room air disinfection filter has a separate, cup-shaped, one-piece outer housing foot on the housing bottom of the filter housing. The outer housing base is expediently part of a removable outer housing. The outer housing foot can have an elastic storage foot for placing the room air disinfection filter on a surface, a central connection socket for plugging in a plug of a mains connection cable for supplying the fan and the radiator arrangement and a foot mounting interface for positioning and fixing the outer housing foot on the filter housing. The base mounting interface can suitably cooperate with a filter housing-base mounting interface arranged on the filter housing. The outer housing foot closes the room air disinfection filter at the bottom. It can be decorated with a smooth surface or a cross-ribbed design on its outer surface visible from the outside, which gives the indoor air disinfection filter an attractive aesthetic value. In addition, it is at least conceivable that the outer surface is decorated with other decorations, for example with a fabric cover.

The pot-shaped outer housing foot can have a flat housing floor, from which a curved housing foot peripheral wall protrudes, which completely surrounds the housing floor on the peripheral side. On the free edge of the peripheral wall of the housing foot, spaced apart from the bottom of the housing, there is a centering ring groove that runs around the circumference, especially completely. This can be formed, for example, on an annular end face of the edge of the housing foot peripheral wall or open out on this and in the assembled state of the room air disinfection filter can face the filter housing with its orifice groove opening. On the free edge of the peripheral wall of the housing foot, spaced apart from the bottom of the housing, a positioning lug interrupting the centering ring groove running around the circumference can also be arranged. Furthermore, several screw passages can be realized on the housing floor, through which, for example, fastening screws can penetrate. The centering ring groove, the positioning lug and the screw passages expediently form the foot mounting interface mentioned for positioning and fixing the outer housing foot. In the assembled state of the room air disinfection filter, the centering ring groove cooperates expediently with a complementary annular projection of the filter housing-foot assembly interface arranged on the filter housing, and the positioning lug expediently cooperates with a complementary lug receptacle of the filter housing-foot assembly interface arranged on the filter housing, in such a way that the annular projection and immerse the positioning nose into the centering ring groove or the nose receptacle in a longitudinal direction parallel to the central axis of the housing, whereby the outer housing foot is positioned, centered and secured against rotation with respect to the filter housing. In principle, it is also possible to provide a reverse solution in which the centering ring groove is not on the outer housing foot but on the filter housing and the ring projection is not on the filter housing but on the outer housing foot. For fixing, it is provided that, for example, fastening screws are inserted through the screw passages and screwed into screw domes of the filter housing-foot assembly interface arranged on the housing base of the filter housing. Alternatively, the screw domes can also be arranged on the outer housing foot and said screw passages can be arranged on the filter housing. This makes it possible to fix the outer housing foot to the filter housing with self-tapping fastening screws. The aforesaid support foot is expediently implemented by an inexpensive and vibration-damping rubber foot on the housing floor.

A power pack for supplying the radiator arrangement and the fan can be arranged in the lower section of the filter housing or in the outer housing foot of the room air disinfection filter. A mains connection cable is expediently also assigned there, via which either the mains unit or, if a mains unit is not required or is arranged outside of the room air disinfection filter, the radiator arrangement and the fan can be supplied with power. The power cord may be communicatively connected to or form the fan cord and radiator cord.

Furthermore, the room air disinfection filter on the housing cover of the filter housing can have a separate, one-piece cross-ribbed outer cover which is perforated at least in sections. The cross-ribbed outer cover expediently closes the room air disinfection filter at the top, in particular it connects to the clean room air housing structure in the longitudinal direction. The cross-ribbed outer cover can be curved on at least one side and provided with a perforation realized by an arrangement of crossed-rib cover openings, which gives the room air disinfection filter an attractive aesthetic value, but also the ability to carry room air through. The cross-rib cover openings pass through the cross-rib outer cover, especially from the outside inwards, with the cross-rib cover openings having an open cross-section that decreases especially from the outside inwards. The base area of a cross-rib cover opening can be triangular, square, especially rhombic, polygonal or have another geometric surface shape. Provision can be made for the cross-ribbed outer cover to be arranged in contact with the filter housing or the clean room air housing structure.

The room air disinfection filter expediently has a separate, one-piece, cross-ribbed outer jacket that runs completely around the filter housing in the circumferential direction and is perforated all around or at least in sections. The cross-ribbed outer casing expediently closes off the room air disinfection filter in the transverse direction radially outwards. It can be supported in the transverse direction and radially inwardly touching the filter housing and/or the clean room air housing structure. It can expediently be provided that the said housing axial columns of the filter housing form or bring about a type of longitudinal sliding guide and centering in the transverse direction. The outer shell of the cross-ribs can have the shape of a circular ring cylinder. The perforation mentioned can be realized by cross-rib jacket breakthroughs, whereby the room air disinfection filter appeals to you gives the aesthetic value but also the ability to pass room air through. The cross-rib shell openings pass through the cross-rib outer shell, especially from radially outside to radially inside, viewed in the transverse direction, with the cross-rib shell openings having an open cross-section that decreases, especially from radially outside to radially inside. The base area of a cross-rib jacket opening can be triangular, square, especially rhombic, polygonal or have another geometric surface shape. It is at least conceivable that the cross-ribbed outer jacket can be provided in one piece as a structural unit either with the outer housing foot or with the cross-ribbed outer cover.

It can further expediently be provided that said filter housing is made of a metal or a plastic or a composite material in an injection molding or an additive process. Of course, the other components of the room air disinfection filter can also be made of metal or plastic or a composite material in an injection molding or an additive process. As a result, the room air disinfection filter can be manufactured relatively inexpensively overall.

The room air disinfection filter can have a controller that implements wireless communication with user terminals and/or contactless operation of the room air disinfection filter. This allows the room air disinfection filter to be connected to the existing IT infrastructure in offices or living spaces and operated contactlessly. User terminals can be formed here in particular by smartphones, tablets, laptops or other mobile terminals. In addition, the room air disinfection filter can also be connected to an existing W-LAN network using the controller, for example to communicate with the local intranet or the global Internet. The controller can also implement contactless operation of the room air disinfection filter, for example for switching the room air disinfection filter on and off. One can imagine that this function is realized by means of acoustically sensitive sensors, visually sensitive sensors or vibration-sensitive sensors.

According to a further basic idea of the invention, the room air disinfection filter according to the above description can be used in a room, especially an office or a living room, for filtration and disinfection and for circulating room air in an air circuit. In the said air circuit, clean room air is blown out upwards, starting from the room air disinfection filter, in a direction that is essentially vertical with respect to a surface on which the room air disinfection filter is placed, away from the room air disinfection filter and flows down from above onto room areas, in particular office work surfaces or living areas. Furthermore, in said air circuit, raw room air is sucked in from these room areas, in particular these office work surfaces or these living space areas, in a substantially direct direction to the room air disinfection filter with respect to a surface on which the room air disinfection filter is placed. By using a room air disinfection filter, office work areas or living areas can be supplied with room air of high air quality relatively easily.

The room air disinfection filter can preferably be used for living rooms or offices with room sizes between about 90 m ³ and 100 m ³ . It is preferred if the room air disinfection filter circulates a room air volume of 300 m ³ /h or 400 m ³ /h to 600 m ³ /h, this corresponds to a 4-fold to 6-fold total volume exchange per hour. The room air disinfection filter is therefore suitable, for example, for the filtration and disinfection of room air for 2 to 4 people.

The room air disinfection filter preferably works with a "bottom-up room air circulation" described above, a circulation process in which, as mentioned, room air is sucked into the room air disinfection filter transversely to the central axis of the housing, filtered and disinfected and then axially upwards out of the room air disinfection filter is blown out. It is also conceivable that the room air disinfection filter can also implement a "top-down room air circulation" instead of this circulation method or by switching, i.e. another circulation method in which room air is expediently sucked into the room air disinfection filter axially to the central axis of the housing, filtered and disinfected and then blown out of the room air disinfection filter transversely to the central axis of the housing to the sides and outwards.

The fan mentioned at the outset can preferably be designed or dimensioned in such a way that during its operation it generates a volume in the range from 30 dB to 40 dB and/or does not exceed a maximum volume of 50 dB. It is conceivable that the fan works either in the suction mode or in the pressure mode. This means that it either sucks raw room air out of the room air disinfection filter (suction operation) or presses raw room air into the room air disinfection filter (pressure operation). The fan thus promotes the air flow from room air along the specified air path through the room air disinfection filter.

The room air disinfection filter can be equipped with one or more air sensors. You can determine the air quality of the sucked raw room air, but also that of the filtered and disinfected clean room air. A respective air sensor is expediently implemented by or with a CO ₂ sensor.

The term "perforation" can be understood as an arrangement of through-holes arranged at regular or irregular distances from one another.

In summary, the following can be stated: The present invention preferably relates to a room air disinfection filter for the filtration and disinfection of room air and its use, with a filter housing defining a central housing axis in its main direction of extension and forming a housing interior, which extends between the housing cover and the housing base in a circumferential direction rotating about the central housing axis over the circumference of the filter housing and which are each separated in the circumferential direction by two housing axial columns connecting the housing cover to the housing base for receiving filter elements of the room air disinfection filter, an air inlet for room air open in the transverse direction and an air outlet for room air open in the longitudinal direction, with a radiator arrangement for emitting electromagnetic Waves, which is arranged in the interior of the housing, with several filter elements used and with a fan to Ans eyes of room air. What is essential for the invention is that an air path for an air flow of room air extends through the filter housing, with this air flow entering the housing interior through each air inlet and through the filter elements and flowing along the radiator arrangement with its entire air volume flow.

Further important features and advantages of the invention result from the dependent claims, from the drawings and from the associated description of the figures with reference to the drawings.

It goes without saying that the features mentioned above and those still to be explained below can be used not only in the combination specified in each case, but also in other combinations or on their own, without departing from the scope of the present invention.

Preferred exemplary embodiments of the invention are illustrated in the drawings and are explained in more detail in the following description, with the same reference symbols referring to identical or similar or functionally identical components.

• 1 eine perspektivische Ansicht eines bevorzugten Ausführungsbeispiels eines erfindungsgemäßen Raumluftdesinfektionsfilters,
• 2 den Raumluftdesinfektionsfilter aus 1 in einem Längsschnitt gemäß einer in 1 mit gestrichelter Linie angedeuteten Ebene mit Blick in Richtung eines dort eingetragenen Pfeils II,
• 3 den Raumluftdesinfektionsfilter aus 1 in einem Querschnitt,
• 4 den Raumluftdesinfektionsfilter aus 1 in einer Explosionsansicht, wobei dessen Kreuzrippenaußenmantel in Längsrichtung nach oben hin vom Filtergehäuse des Raumluftdesinfektionsfilters abgehoben und ein einzelnes Filterelement aus einer Radialfilteraufnahme des Filtergehäuses in Querrichtung herausbewegt ist,
• 5 eine perspektivische Einzelansicht des Filtergehäuses des Raumluftdesinfektionsfilters aus 1,
• 6 den Raumluftdesinfektionsfilter aus 5 in einem Längsschnitt,
• 7 einen vergrößerten Ausschnitt aus 2, wobei insb. ein Reinraumluftgehäuseaufbau des Raumluftdesinfektionsfilters zum Abführen von Raumluft mit einem Lüfterrundträger, einem Kaminring und einem Ringzylinder sowie einem Kreuzrippenaußendeckel des Raumluftdesinfektionsfilters zu erkennen sind,
• 8 einen vergrößerten Ausschnitt aus 1, nämlich den unteren Bereich des Raumluftdesinfektionsfilters, wobei dessen Außengehäusefuß in Längsrichtung nach unten hin vom Filtergehäuse abgenommen und der Kreuzrippenaußenmantel nach oben hin abgehoben ist, ferner
• 9 eine perspektivische Ansicht eines bevorzugten, weiteren Ausführungsbeispiels eines erfindungsgemäßen Raumluftdesinfektionsfilters,
• 10 den Raumluftdesinfektionsfilter aus 9 in einem Längsschnitt gemäß einer in 9 mit gestrichelter Linie angedeuteten Ebene mit Blick in Richtung eines dort eingetragenen Pfeils X,
• 11 den Raumluftdesinfektionsfilter aus 9 in einem Querschnitt,
• 12 den Raumluftdesinfektionsfilter aus 9 in einer Explosionsansicht, wobei dessen Kreuzrippenaußenmantel in Längsrichtung nach oben hin vom Filtergehäuse des Raumluftdesinfektionsfilters abgehoben und ein einzelnes Filterelement aus einer Radialfilteraufnahme des Filtergehäuses in Querrichtung herausbewegt ist und zuletzt,
• 13 eine perspektivische Einzelansicht des Filtergehäuses des Raumluftdesinfektionsfilters aus 9.

Show it, each schematically

• 1 a perspective view of a preferred embodiment of a room air disinfection filter according to the invention,
• 2 the room air disinfection filter 1 in a longitudinal section according to an in 1 plane indicated by a dashed line looking in the direction of an arrow II entered there,
• 3 the room air disinfection filter 1 in a cross section,
• 4 the room air disinfection filter 1 in an exploded view, with its cross-ribbed outer jacket being lifted upwards from the filter housing of the room air disinfection filter in the longitudinal direction and a single filter element being moved out of a radial filter receptacle of the filter housing in the transverse direction,
• 5 a perspective detail view of the filter housing of the room air disinfection filter 1 ,
• 6 the room air disinfection filter 5 in a longitudinal section,
• 7 an enlarged section 2 , whereby in particular a clean room air housing structure of the room air disinfection filter for discharging room air with a round fan support, a chimney ring and a ring cylinder as well as a cross-ribbed outer cover of the room air disinfection filter can be seen,
• 8th an enlarged section 1 , namely the lower area of the room air disinfection filter, wherein the outer housing foot is removed from the filter housing in the longitudinal direction downwards and the cross-ribbed outer jacket is lifted upwards, furthermore
• 9 a perspective view of a preferred, further embodiment of a room air disinfection filter according to the invention,
• 10 the room air disinfection filter 9 in a longitudinal section according to an in 9 plane indicated by a dashed line looking in the direction of an arrow X entered there,
• 11 the room air disinfection filter 9 in a cross section,
• 12 the room air disinfection filter 9 in an exploded view, with its cross-ribbed outer jacket lifted in the longitudinal direction upwards from the filter housing of the room air disinfection filter and a single nes filter element is moved out of a radial filter mount of the filter housing in the transverse direction and lastly,
• 13 a perspective detail view of the filter housing of the room air disinfection filter 9 .

the 1 until 13 show exemplary embodiments of a room air disinfection filter according to the invention, designated overall by the reference number 1, which is used for the filtration and disinfection of room air and can be used, for example, in offices or living rooms.

In the 1 1 is a perspective view of a preferred exemplary embodiment of a room air disinfection filter 1 according to the invention, whereby it can be seen that it has an overall barrel-shaped or circular-cylindrical basic shape. be in 1 The multi-part outer housing 95 shown is formed by a cross-ribbed outer shell 92, a crossed-ribbed outer cover 90 placed on top of this, and an outer housing foot 72 that closes the cross-ribbed outer shell 92 at the bottom. The cross-rib outer casing 92 and the cross-rib outer cover 90 are designed in a cross-rib design 98, which is characterized by two groups of ribs 99 running in opposite directions and extending helically over the respective components. At least the cross-rib outer jacket 92 and the cross-rib outer cover 90 have a perforation 96 implemented through cross-rib jacket openings 93 or cross-rib cover openings 91 arranged between the ribs 99, which are explained below. These allow room air from outside the room air disinfection filter 1 can flow into the same, or vice versa.

The cross-ribbed outer shell 92 is circular-cylindrical in shape. It forms a separate and one-piece structural unit and is made, for example, from a metal, a plastic or a composite material. It completely encloses components of the room air disinfection filter 1 that will be explained below. The mentioned perforation 96 is realized in the cross-ribbed outer jacket 92 through the mentioned cross-ribbed jacket openings 93 . They pass through the cross-rib outer shell 92, for example, with respect to its cross-rib outer shell center axis 97, completely from radially outside to radially inside, with the cross-rib shell openings 93 each having an open cross-section that decreases in the same direction, i.e. from radially outside to radially inside. This gives each cross-rib shell opening 93 a truncated pyramid shape. The base areas of the cross-rib jacket openings 93 are, for example, square, although one can also imagine triangular or diamond-shaped or polygonal base areas. The cross-ribbed shell apertures 93 render the cross-ribbed outer shell 92 room air permeable so that room air can flow therethrough either toward or away from the cased components.

The outer housing base 72 has a pot-shaped round shape. It forms a separate and one-piece structural unit and is made of metal, plastic or a composite material, for example, and closes the room air disinfection filter 1 or the cross-rib outer casing 92 in the direction of the cross-rib outer casing center axis 97 at the bottom. It can be supported in contact with the cross-ribbed outer shell 92 . In 8th the outer housing foot 72 is enlarged and removed from a filter housing 5 of the room air disinfection filter 1, described below, whereby it can be seen that the outer housing foot 72 has a flat housing floor 81, from which a curved housing foot peripheral wall 82 protrudes, which completely surrounds the housing floor 81 on the circumference . An annular face 84 oriented away from the housing floor 81 is formed on the free edge 83 of the circumferential wall 82 of the housing foot, spaced apart from the housing floor 81 . On the free edge 83 of the peripheral wall 82 of the housing base there is also a circumferential centering ring groove 85 which opens into the ring end face 84 and which is interrupted on the peripheral side at one point by a positioning lug 86 arranged on the free edge 83 . Furthermore, a plurality of screw passages 79 are arranged on the housing floor 81, through which, for example, fastening means such as fastening screws can pass. The centering ring groove 85, the positioning lug 86 and the screw passages 79 together form a foot assembly interface 78 for positioning and fixing the outer housing foot 72 on a filter housing 5, which will be described below, or on the cross-ribbed outer jacket 92 Rubber foot 74 with which the room air disinfection filter 1 can be placed on a base 75, a central connection socket 76 for plugging in a plug of a mains connection cable 77, which is used to supply a fan 40, described below, and a radiator arrangement 36, cf. 2 .

It is still the esp. in 1 to explain the illustrated cross-ribbed outer cover 90, which is of a dome-shaped round shape. It forms a separate and one-piece structural unit and is made, for example, from a metal, a plastic or a composite material and closes the room air disinfection filter 1 or the cross-rib outer jacket 92 in the direction of the cross-ribs ßenmantel central axis 97 upwards. In addition, it can be supported in contact with the cross-ribbed outer shell 92 . The mentioned perforation 96 is realized in the cross-ribbed outer cover 90 through the mentioned cross-ribbed cover openings 91 which are essentially identical to the crossed-ribbed openings 93 in the casing. The cross-rib cover openings 91 pass through the cross-rib outer cover 90, each having an open cross-section that decreases from the outside to the inside. As a result, the cross-rib cover openings 91 each have the shape of a truncated pyramid. The base areas of the cross-rib cover openings 91 are, for example, square, although one can also imagine triangular or diamond-shaped or polygonal base areas. The cross-rib cover openings 91 make the cross-rib outer cover 90 permeable to room air, so that room air can flow through it either towards or away from the components enclosed by the cross-rib outer jacket 92 .

the 2 shows the room air disinfection filter 1 1 in a longitudinal section according to an in 1 The plane indicated by a dashed line looking in the direction of an arrow II entered there. The components of the outer housing 95 already explained can be seen there, but also the components enclosed by the cross-ribbed outer casing 92, which comprise at least a filter housing 5, a radiator arrangement 36, a fan 40, a clean room air housing assembly 55 and a controller 94 .

In the 2 , 5 and 6 one can see the filter housing 5, which forms a separate, independent structural unit and, in particular, can be manufactured in one piece. It is embodied in the form of a round cylinder, which makes the room air disinfection filter 1 relatively compact. The filter housing 5 defines a central housing axis 3 in its main direction of extension 2 and forms or delimits an internal housing interior 4. It also has a housing cover 6, in this case a round housing cover, and a housing base 8, in this case a round housing base, which are spaced apart from one another in the direction of the central housing axis 3. At least three separate radial filter mounts 17 of the filter housing 5 are arranged in the direction of the central housing axis 3 between the housing cover 6 and the housing base 8, each of which serves to accommodate a filter element 18 of the room air disinfection filter 1 in a radial transverse direction 23 with respect to the central housing axis 3. The filter elements 18 can be inserted into the radial filter receptacles 17 in an insertion or withdrawal movement 53 parallel to the transverse direction 23 and placed against a stop 54 of a respective radial filter receptacle 17 or removed, as a result of which the filter elements 18 can be changed easily and quickly, cf .esp. 4 . The filter elements 18 themselves each have a cuboid filter body 19 made of a pleated filter material 20 through which room air can flow, in particular a fleece material. The filter elements 18 can be equipped on their opposite edge sections 51 with side strips serving to stiffen the filter. Said radial filter mounts 17 are distributed evenly to one another in a circumferential direction 10 rotating about the central housing axis 3 over the full circumference 11 of the filter housing 5 and are also separated from one another in the circumferential direction 10 by two housing axial columns 12 that integrally connect the housing cover 6 to the housing base 8. Said housing axial columns 12 have, for example, a triangular column cross-section 13 that is constant over their respective column length 14 and are hollow on the inside in order to form a cable duct 15 . For example, a fan connection cable 41 for the fan 40 can be routed through a housing axial column 12 . The filter housing 5 also has three air inlets 25 for room air that are open in the transverse direction 23 , ie through which air can flow freely, and a single air outlet 30 for room air that is open in the longitudinal direction 24 parallel to the housing center axis 3 . The air inlets 25 expediently pass through the filter housing 5 in such a way that ambient air can flow into the housing interior 4 from the outside in the transverse direction 23 . The air outlet 30 expediently passes through the filter housing 5 in such a way that room air can flow out of the housing interior 4 .

especially in 4 and 5 it can be seen that the air inlets 25 on an outside of the room air disinfection filter 1 oriented radially outwards each form an outer inlet opening 26, an inner inlet opening 27 oriented radially inwards towards the central axis 3 of the housing and an air inlet channel 28 connecting the outer inlet opening 26 to the inner inlet opening 27, so that room air can flow from outside the room air disinfection filter 1 through the air inlet 25 through the filter elements 18 into the housing interior 4 . A respective air inlet 25 has a cylinder longitudinal section shape 29, with the curved side of the cylinder longitudinal section 29 defining the outer inlet opening 26, the cut side of the cylinder longitudinal section 29 defining the inner inlet opening 27 and the other sides of the cylinder longitudinal section 29 defining the air inlet channel 28. As a result, a relatively good room air supply to the housing interior 4 is possible. By way of example, it is provided that the inlet outer openings 26 are each between the distal column outer regions 16 of two adjacent housing axial columns 12, a distal cover edge 7 of the housing cover 6 and a distal bottom edge 9 of the housing bo dens 8 is spanned, while the inner inlet openings 27 are each formed by a filter element 18 and/or the stop 54 for the contacting application of a filter element 18 .

As a further example, the air outlet 30 is arranged on the housing cover 6, passing through it completely in the longitudinal direction 24 and centrally. The air outlet 30 has a triangular cross-section, which indicates an overall streamlined shape, cf. 5 .

The room air disinfection filter 1 also has the aforementioned electrically operable fan 40 which is associated with the air outlet 30 and is arranged on the housing cover 6 of the filter housing 5 . The fan 40 works either in the suction mode or in the pressure mode. This means that it either sucks room air out of the room air disinfection filter 1 (suction operation) or pushes room air into the room air disinfection filter (pressure operation).

The room air disinfection filter 1 also has a separate emitter arrangement 36, which has at least one electrically operable UV radiation source 37, for emitting electromagnetic waves for the disinfection of room air, cf. 2 . So that the electromagnetic waves can illuminate the room air sucked in by the fan 40 and the filter elements 18 in order to disinfect them, it is provided that the emitter arrangement 36 is arranged centrally on the filter housing 5 and inside the housing interior 4, namely centrally on an in or on Housing bottom 8 arranged connection base 38 on the housing floor 8. At the connection base 38, a radiator connection cable 39 is arranged and electrically contacted with the radiator assembly 36. Starting from there, the radiator arrangement 36 extends along the central housing axis 3 into the housing interior 4, in this case over at least 80% of the length of a respective filter element 18 in the longitudinal direction 24 and the length of the filter housing 5 in the same direction. As a result, the room air flowing past the radiator arrangement 36 is exposed to the electromagnetic radiation for a relatively long time, so that a relatively good disinfection effect is achieved. The UV radiation source 37 is formed, for example, by a single UV-C radiation source which is coaxial to the central housing axis 3 and emits electromagnetic radiation in the ultraviolet wavelength range of approximately 380 nm to 100 nm that is not visible to humans.

A power pack for supplying the radiator arrangement 36 and the fan 40 can be arranged in the lower section of the filter housing 5 or in the outer housing foot 72 . The mains connection cable 77 is also expediently provided there, via which the radiator arrangement 36 and the fan 40 can be supplied with power. The power cord 77 may be communicatively connected to or form the fan cord 41 and the radiator cord 39 .

Especially in the 2 and 7 it can be seen that on the air outlet side on the housing cover 6 of the filter housing 5 there is a multi-part clean room air housing structure 55 for discharging room air. In 7 is shown enlarged and is therefore easier to see that the clean room air housing structure 55 has a round fan support 58 for holding said fan 40, a chimney ring 63 arranged on the round fan support 58 and an annular cylinder 64 completely enclosing the round fan support 58 and the chimney ring 63 all around. The clean room air housing structure 55 is used to remove or divert room air from the housing interior 4 and also carries the fan 40 and at least sections of its fan connection cable 41. The clean room air housing structure 55 expediently defines a central longitudinal axis 56 around which a circumferential direction 57 rotates. in 2 In the assembled state of the room air disinfection filter 1 shown, the central housing axis 3 and the central longitudinal axis 56 of the structure are aligned coaxially with one another. The round fan support 58, the chimney ring 63 and the ring cylinder 64 are arranged coaxially with respect to the central longitudinal axis 56 of the structure and are fixed in contact with one another. The circular fan support 58 is expediently a separate structural unit and has an overall V-shaped funnel body 59 which has a fan fitting surface 61 for fitting with the fan 40 in the area of its open funnel tip 60 . The chimney ring 63 , which is also designed as a separate structural unit, is placed congruently on its open large side 62 of the funnel, opposite the funnel tip 60 , and fixed, for example with fastening screws arranged circumferentially in the circumferential direction 57 of the structure. The chimney ring 63 is used to guide room air and, if necessary, to support the cross-ribbed outer cover 90. Both the circular fan support 58 and the chimney ring 63 are surrounded by the annular cylinder 64 in the circumferential direction of construction 57, with the circular fan support 58 and chimney ring 63 on the one hand and the Annular cylinder 64 is defined by an annular space 66 running around in the circumferential direction 57 of the structure. This serves as a resonance chamber to reduce or at least influence the operating volume of the fan 40. The clean room air housing structure 55 also has a structure mounting interface 67 arranged on the round fan support 58, which cooperates with a complementarily designed filter housing head mounting interface 68 of the filter housing 5 to form the clean room air housing structure 55 to be detachably fixed to the filter housing 5 and positioned. Here, for example, you can imagine a screw connection, especially with self-tapping fastening screws.

It is also provided that through the room air disinfection filter 1 or the filter housing 5 an in 2 Air path 42 illustrated with several arrows extends for an air flow 43 from room air sucked in by the fan 40, this air flow 43 entering in the transverse direction 23 through each air inlet 28 and in the same transverse direction 23 with a full air volume flow through the said filter elements 18 into the housing interior 4 and flows along the radiator arrangement 36 with its full air volume flow. Subsequently, the air flow 43 from room air that has been disinfected and filtered there can flow out of the housing interior 4 downstream of the radiator arrangement 36 through the air outlet 30 and the clean room air housing structure 55 . This makes it possible to route all or at least a relatively large proportion of the air volume flow of the air flow 43 flowing through the room air disinfection filter 1 through the filter elements 18 and past the radiator arrangement 36 . This has the advantage that the interior of the housing 4, the filter elements 18 and the air flow 43 from room air flowing through the room air disinfection filter 1 are disinfected and filtered.

The room air disinfection filter 1 also has an in 2 control 94 indicated by a small box, which implements wireless communication with user terminals and/or contactless operation of the room air disinfection filter 1 . As a result, the room air disinfection filter 1 can be connected to the existing IT infrastructure in offices or living spaces and operated without contact. The controller 94 can also implement contactless operation of the room air disinfection filter 1, e.g. for switching the room air disinfection filter 1 on and off. In particular, it can be provided that the controller 94 is equipped with one or more air sensors which determine the air quality of the room air drawn in.

In esp 1 , 2 , 7 and 8th In the assembled state of the room air disinfection filter 1 shown, the foot mounting interface 78 of the outer housing foot 72 cooperates with a filter housing foot mounting interface 69 of the filter housing 5, which is designed to complement the foot mounting interface 78 and consists of an annular projection 87 arranged on the filter housing 5, a nose receptacle 88 and several screw domes 70 is formed. Specifically, the centering ring groove 85 interacts with the annular projection 87 and the positioning lug 86 with the nose receptacle 88 in such a way that the annular projection 87 and the positioning lug 86 dip into the centering ring groove 85 and the nose receptacle 88, whereby the outer housing foot 72 relative to the filter housing 5 or the cross-ribbed outer casing 92 is positioned, centered and secured against rotation. For fixing, it is provided that, for example, fastening screws, which are not shown here, are inserted through the screw passages 79 and screwed into the screw bosses 70 of the filter housing foot assembly interface 69 arranged on the filter housing 5 . As a result, the outer housing foot 72 can be fixed to the filter housing 5 with self-tapping fastening screws, for example.

It is now essential what is 1 until 5 can see that the housing interior 4 describes or forms the shape of a triangular prism 45, which has two opposite triangular prism base surfaces 46, 47, which are connected to one another via three large prism surfaces 48, which together form a prism lateral surface 49, with two these large prism surfaces 48 converge in a common lateral edge 50 . By way of example, it is provided that the filter elements 18 accommodated in the radial filter mounts 17 with their large filter surfaces oriented toward the housing interior 4 each form a single large prism surface 48 of these three large prism surfaces 48 . especially in 3 It can be seen that two filter elements 18 that are adjacent in the circumferential direction 10 form or delimit an intermediate region 52 between their edge sections 51 that face one another in the circumferential direction 10 . A lateral edge 50 of the triangular prism 45 is arranged in each of these intermediate regions 52 . Furthermore, in each of these intermediate areas 52 one of said housing axial columns 12 is arranged. A relatively compact housing interior 4 is thereby defined, which can be illuminated relatively well with the radiator arrangement 36 . This has the advantage that the entire or at least almost the entire air volume flow of the air flow 43 flowing through the housing interior 4 is disinfected from room air.

the 9 until 13 illustrate a room air disinfection filter 1 according to a preferred further embodiment. For the sake of simplicity, functionally identical or functionally similar components are provided with the same reference symbols in the exemplary embodiments. A renewed description of functionally identical or functionally similar components is not made below in order to avoid repetition. Instead, the focus is on those features that distinguish the exemplary embodiments.

the 9 shows said room air disinfection filter 1 in a perspective view. It differs from the previous embodiment, first of all, in that the cross rib pen outer cover 90 has a modified shape, namely instead of the in 1 illustrated dome-shaped round shape, a round shape with flat or at least approximately flat large areas. Furthermore, the cross-ribbed lid perforations 91 are now only arranged in a ring 105 spaced apart from the center of the crossed-ribbed outer lid 90 and from the lid edge of the crossed-ribbed outer lid 90, so that the present cross-ribbed outer lid 90 is only partially perforated, i.e. crossed-ribbed lid openings 91 pass through it . The cover areas 106, 107 of the cross-ribbed outer cover 90 adjoining this perforated ring 105 are kept free of perforations.

the 10 shows the room air disinfection filter 1 9 in a longitudinal section according to a plane indicated there by a dashed line, looking in the direction of an arrow X entered there. This view allows further differences to be seen from the previous exemplary embodiment, first of all that the separate radiator arrangement 36 arranged in the room air disinfection filter 1 for emitting electromagnetic waves not only has a single electrically operable UV radiation source 37, but three separate ones. These each extend starting from the connection base 38 along the central housing axis 3 over approximately 25% of the length of the filter elements 18 in the longitudinal direction 24 or over approximately 25% of the length of the filter housing 5 in the same direction. Said connection base 38 is presently arranged on an electronics circuit board 100 which is fixed to the outer housing foot 72 from the inside and makes electrical contact with the radiator connection cable 39 , the fan connection cable 41 and the mains connection cable 77 . The electronics circuit board 100 can include a power pack for supplying the radiator arrangement 36 and the fan 40 and a control/regulating device for controlling and/or regulating the fan 40 and the radiator arrangement 36, in particular the controller 94 as well. Furthermore, the elastic rubber parking foot 74 arranged on the housing floor 81 of the outer housing foot 72 is realized by a rubber ring 108 which is accommodated and held in a rubber ring receiving groove formed in the outer housing foot 72 . The rubber ring 108 protrudes beyond the housing floor 81 of the outer housing foot 72 in such a way that the rubber ring 108 only has contact with the floor 75 via the rubber ring 108 when the room air disinfection filter 1 is placed on a floor 75 .

the 11 shows the room air disinfection filter 1 9 in a cross section. It can be seen that in contrast to the in 3 In the cross-section shown, the said housing axial columns 12 now have a v-shaped column cross-section defined by two column walls 101, 102 instead of a triangular column cross-section, with the v-openings pointing radially outwards in a radial direction with respect to the central housing axis 3, in particular the transverse direction 23 . That is, the housing axial columns 12 are now designed to be open to the outside.

Furthermore, the 12 the room air disinfection filter 1 9 in an exploded view, with its cross-ribbed outer casing 92 being lifted upwards from the filter housing 5 in the longitudinal direction 24 and a single filter element 18 of the total of three filter elements 18 being moved out of a radial filter receptacle 17 of the filter housing 5 in the transverse direction 23 . In this view you can see relatively well that the multi-part clean room air housing structure 55 for discharging room air now does without ring cylinder 64, so that only the components round fan support 58 for holding said fan 40 and chimney ring 63 remain, with round fan support 58 now being integral with the Filter housing 5 is performed.

Last is in 13 a perspective view of the filter housing 5 of the room air disinfection filter 1 9 shown, wherein it can be seen in particular that the housing cover 6 and the housing base 8 have a design that differs from the previous exemplary embodiment. The present housing cover 6 is an integral, connected rib structure 109, especially for holding said fan 40, which has emerged from the housing cover 6 according to the previous exemplary embodiment and the round fan support 58 according to the previous exemplary embodiment. The additionally inserted stiffening ribs 110 can make the filter housing 5 more resistant to external mechanical loads, at least in its head area. The housing base 8 is provided with assembly openings 103, which enable the detachable fixing and precise positioning of the outer housing foot 72, which is not illustrated here, on the filter housing 5. Finally, the housing base 8 was supplemented by a centering mount 104, which is formed by a centering step 111 rotating around the central housing axis 3 and which, when the room air disinfection filter 1 is in the assembled state, centers the cross-ribbed outer jacket 92 placed over the filter housing 5 in the longitudinal direction 24 in relation to the filter housing 5.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• GB 2405463A [0002]
• US2011033346A1 [0002]

Claims (15)

Room air disinfection filter (1) for the filtration and disinfection of room air, - with a separate filter housing (5) defining a central housing axis (3) in its main direction of extension (2) and forming or delimiting a housing interior (4), characterized in that between its housing cover (6) and its housing bottom (8) - at least three separate ones, distributed in a circumferential direction (10) rotating about the central housing axis (3) over the full circumference (11) of the filter housing (5) and each connected by two to the housing cover (6) housing axial columns (12) connecting to the housing base (8) in the circumferential direction (10) separated from one another radial filter receptacles (17) for receiving filter elements (18) of the room air disinfection filter (1) in a radial transverse direction (23) with respect to the housing center axis (3), - at least an air inlet (25) open in the transverse direction (23) for room air and - a longitudinal direction parallel to the central axis (3) of the housing (24) has an open air outlet (30) for room air, - with a separate emitter arrangement (36) having at least one radiation source (37) for emitting electromagnetic waves for disinfecting room air, the emitter arrangement (36) being located centrally on the filter housing (5) and is arranged inside the housing interior (4), - with at least three separate filter elements (18), each inserted in one of the radial filter mounts (17), for the filtration of room air, - with a fan (40) assigned to the air outlet (30) for suction of room air, - an air path (42) for an air flow (43) of room air extending through the filter housing (5), this air flow (43) passing through each air inlet (25) and through the filter elements (18) into the The housing interior (4) flows in and along the radiator arrangement (36). Room air disinfection filter (1) after claim 1 , characterized in that the housing interior (4) describes or forms the shape of a prism, esp. The shape of a triangular prism (45). Room air disinfection filter (1) after claim 2 , characterized in that - the filter elements (18) accommodated in the radial filter mounts (17) are each arranged on a single large prism surface (48) of the triangular prism (45) or form this large prism surface (48), and/or - at least two filter elements (18) adjacent in the circumferential direction (10) form or delimit an intermediate region (52) between their edge sections (51) facing one another in the circumferential direction (10), which intermediate region (52) forms or has a lateral edge (50) of the triangular prism (45), wherein in a housing axial column (12) is arranged in each of these intermediate areas (52), and/or - two filter elements (18) adjacent in the circumferential direction (10) are supported with their mutually facing edge sections (51) touching each other on the same housing axial column (12). Room air disinfection filter (1) according to one of the preceding claims, characterized in that the radiator arrangement (36) is arranged centrally on the housing base (8) of the filter housing (5) and, starting from the housing base (8) along the central housing axis (3), into the housing interior (4 ) protrudes. Room air disinfection filter (1) according to one of the preceding claims, characterized in that - the radiator arrangement (36) has at least one UV radiation source (37), or - the radiator arrangement (36) has a single UV-C radiation source (37) which with respect to is arranged coaxially or parallel to the central axis (3) of the housing, or - the emitter arrangement (36) has several UV-C radiation sources (37) which are distributed around the central axis (3) of the housing in parallel and/or in a ring-like manner, and/or - the UV-C radiation source(s) (37) extends along the central axis (3) of the housing over at least 50% of the length of a filter element (18), and/or - the UV-C radiation source(s) (37) extends along the central axis of the housing (3) extends over a maximum of 80% or a maximum of 95% or a maximum of 110% of the length of a filter element (18). Room air disinfection filter (1) according to one of the preceding claims, characterized in that - the filter elements (18) have a cuboid filter body (19) made of a pleated filter material (20) through which room air can flow, especially a fleece material, and/or - the Filter elements (18) are equipped on their opposite edge sections (51) with side strips serving to stiffen the filter. Room air disinfection filter (1) according to one of the preceding claims, characterized in that - a respective air inlet (25) is arranged in the longitudinal direction (24) between the housing cover (6) and the housing base (8) and in the circumferential direction (10) between two adjacent housing axial columns (12). or is formed, and/or - a respective air inlet (25) extends in sections over the filter housing (5) in the circumferential direction (10) and spans an opening angle of at least 10° and a maximum of 120°, and/or - a respective air inlet (25) fluidically corresponds to exactly a single filter element ( 18) is assigned, and/or - a respective air inlet (25) is curved around the central housing axis (3). Room air disinfection filter (1) according to one of the preceding claims, characterized in that - the air outlet (30) is arranged on the housing cover (6) of the filter housing (5), and/or - the air outlet (30) the housing cover (6) of the filter housing ( 5) completely and centrally in the direction of the central housing axis (3) and has a triangular, quadrangular or polygonal cross-section, and/or - the air outlet (30) completely penetrates the housing cover (6) of the filter housing (5) and in the direction of the central housing axis (3 ) penetrates centrally and describes or forms a prismatic opening. Room air disinfection filter (1) according to one of the preceding claims, characterized by a multi-part clean room air housing structure (55) arranged on the housing cover (6) facing away from the housing interior (4) for discharging room air, which has a round fan support (58) for holding the fan (40), a chimney ring (63) arranged on the round fan support (58) and an annular cylinder (64) surrounding the round fan support (58) and the chimney ring (63) all around. Room air disinfection filter (1) according to one of the preceding claims, characterized in that the room air disinfection filter (1) has a separate, pot-shaped, one-piece outer housing foot (72) on the housing base (8) of the filter housing (5), which has an elastic parking foot (74) for setting it down of the room air disinfection filter (1) on a base (75), a central connection socket (76) for plugging in a mains connection cable (77) to supply the fan (40) and the radiator arrangement (36) and one with one arranged on the filter housing (5). Filter housing foot mounting interface (69) having cooperating foot mounting interface (78) for positioning and fixing the outer housing foot (72) on the filter housing (5). Room air disinfection filter (1) according to one of the preceding claims, characterized in that the room air disinfection filter (1) on the housing cover (6) of the filter housing (5) has a separate, one-piece cross-ribbed outer cover (90) which is perforated at least in sections. Room air disinfection filter (1) according to one of the preceding claims, characterized in that the room air disinfection filter (1) has a separate, one-piece cross-ribbed outer casing (92) which runs around the filter housing (5) in the circumferential direction (10) and is perforated at least in sections. Room air disinfection filter (1) according to one of the preceding claims, characterized in that the filter housing (5) is made of a metal or a plastic or a composite material in an injection molding or an additive process. Room air disinfection filter (1) according to one of the preceding claims, characterized in that the room air disinfection filter (1) has a controller (94) which: - implements wireless communication with user terminals and - contactless operation of the room air disinfection filter (1). Use of a room air disinfection filter (1) according to one of Claims 1 until 14 in a room, esp. is parked, is blown upwards in a substantially vertical direction away from the room air disinfection filter (1) and flows down from above onto room areas, in particular office work surfaces or living areas, and in which untreated room air flows from these room areas, in particular these office work areas or these living areas, in a relation to the Subsoil (75), on which the room air disinfection filter (1) is parked, is sucked in essentially in the direct direction of the room air disinfection filter (1).

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