DE102021204246A1 - Room air cleaning device with housing filter unit - Google Patents

Abstract

The present invention relates to a room air cleaning device (1) with a blower unit (3), a housing (4) and a filter element (5), the housing (4) having an air inlet opening (7) and an air outlet opening (8). wherein the housing (4) contains a filter chamber (9) in which the filter element (5) is arranged and in which it separates an untreated air space (11) from a clean air space (12), the housing (4) containing a blower chamber (10), in which the blower unit (3) is arranged, with the housing (4) defining an air flow path (13) leading from the air inlet opening (7) to the air outlet opening (8) through the filter chamber (9), through the filter element (5 ) and through the blower chamber (10), wherein the housing (4) comprises a housing body (14) containing the filter chamber (9) and the blower chamber (10), an inlet flap (15) between which the air inlet opening (7) closing closed position and release the air inlet opening (7). nd open position, in which it defines an air inlet shaft (20), and has an outlet flap (16) which can be pivoted between a closed position closing the air outlet opening (8) and an open position releasing the air outlet opening (8), in which it has an air outlet shaft ( 21) defined.

Description

The present invention relates to a housing filter unit for a room air cleaning device. The invention also relates to a room air cleaning device that is equipped with such a housing-filter unit. The invention also relates to a blower unit for such a room air cleaning device or for such a housing filter unit.

A room air purification device is used in a room and cleans the room air during operation. For this purpose, the room air cleaning device sucks in room air from said room, cleans it and blows the cleaned room air back into the same room. Such a room air purification device thus works exclusively in what is known as recirculation mode and is already fundamentally different from an air conditioning system or ventilation system, which usually work in what is known as fresh air mode, in which the extracted room air is replaced by fresh air from the surroundings of a building containing the said room . Furthermore, in contrast to an air conditioning system or a ventilation system, such a room air cleaning device is not integrated into the walls or the ceiling of the respective room, but is equipped with its own housing that can be mounted on a wall of the room, for example.

From the DE 10 2004 053 324 A1 a ventilator is known which is provided for CPAP ventilation or for CPAP therapy, where CPAP stands for Continuous Positive Airway Pressure. Such a ventilator has a housing with an air inlet opening and an air outlet opening. A filter element and a blower unit are arranged in the housing. The air inlet opening and air outlet opening are sealed with removable foils for transport before the ventilator is used for the first time. The air outlet opening is designed for connecting a breathing tube, which leads from the air outlet opening to a breathing mask that the respective user of the breathing device wears, in particular for sleeping. The air inlet opening is designed for connecting a humidifier. Humidified ambient air or, if necessary, ambient air enriched with oxygen is fed in via the air inlet opening, for which purpose an oxygen bottle can also be connected.

The present invention deals with the problem of specifying an advantageous or at least another embodiment for a room air cleaning device or for a blower filter unit or for a blower unit, which is particularly characterized by being inexpensive to produce and/or easy to use excellent.

According to the invention, this problem is solved by the subject matter of the independent claims. Advantageous embodiments are the subject matter of the dependent claims.

A room air cleaning device according to the invention is equipped with a housing filter unit and a fan unit.

A housing filter unit according to the invention, which is suitable and provided for such a room air cleaning device, has the housing in question and a filter element which is arranged in the housing and through which an air flow can flow. The filter element performs the cleaning function as it flows through. For this purpose, the filter element can be configured in such a way that, in addition to the usual, larger contaminants such as dust, pollen and mites, it can also filter out other, smaller contaminants from the respective air flow, such as spores, viruses and bacteria.

The housing can be suitable and/or prepared for wall or ceiling mounting. For this purpose, the housing has a corresponding size; it can also be equipped with mounting openings and/or mounting lugs and/or mounting hooks. Furthermore, the housing filter unit, like the room air purification device, is expediently configured to be portable, ie it has a correspondingly low weight and corresponding dimensions.

The housing has an air inlet opening and an air outlet opening, each of which is open or can be opened to the space in which the housing is located. This enables the above-mentioned air recirculation mode. In other words, the housing has an air inlet opening and an air outlet opening for air recirculation operation, which can be opened to an area surrounding the housing or are open.

The housing also has a filter chamber and a blower chamber inside. The filter element mentioned above is arranged in the filter chamber in such a way that it separates a raw air space from a clean air space in the filter chamber. The blower chamber, on the other hand, serves to exchangeably accommodate a blower unit that generates an air flow during operation. Furthermore, the housing defines an air flow path leading from the air inlet opening to the air outlet opening through the filter chamber, through the filter element and through the blower chamber. If a fan unit is inserted into the fan chamber, this can generate an air flow during operation, which follows the air flow path. Accordingly, air is sucked in from the environment of the housing at the air inlet opening, so that this uncleaned room air enters the housing or the air flow path through the air inlet opening. In the air flow path, this air flow then flows to the filter chamber, there through the raw air space, through the filter element and through the clean air space. Furthermore, the airflow flows through the blower chamber by the airflow flowing through the blower unit. The air flow reaches the air outlet opening via the air flow path, from where the air flow, ie the cleaned room air, flows back into the environment of the housing, ie back into the same room.

The housing is now particularly advantageously equipped with a housing body which contains the filter chamber and the blower chamber. The housing also has an inlet flap which is pivotably arranged on the housing body between a closed position and an open position. In the closed position, the inlet flap closes the air inlet opening. In the open position, on the other hand, the inlet flap releases the air inlet opening so that it is open to the surroundings of the housing or to the respective room. Furthermore, in its open position, the inlet flap defines an air inlet shaft leading from the area surrounding the housing to the air inlet opening. The air inlet duct forms an inflow area converging from the surroundings to the air inlet opening with regard to the cross section through which air can flow. Such an air intake duct produces an intake cross section towards the environment that is significantly larger than the cross section of the air intake opening. This promotes air intake from the environment or from the respective room.

In addition or as an alternative to the inlet flap, the housing can also have an outlet flap, which is arranged on the housing body such that it can pivot between a closed position and an open position. In its closed position, the outlet flap closes the air outlet opening. In its open position, the outlet flap releases the air outlet opening so that it is open to the environment or to the respective room. Furthermore, in its open position, the outlet flap defines an air outlet shaft that leads from the air outlet opening to the environment. The air outlet duct forms an outflow area that diverges from the air outlet opening to the environment with regard to the cross section that can be flowed through. Towards the surroundings, the air outlet shaft has an outlet cross section that is significantly larger than a cross section of the air outlet opening. In this respect, the air outlet shaft acts like a diffuser and thus promotes air recirculation.

The air inlet duct and the air outlet duct favor the use of the room air purification device in the respective room, since due to the comparatively large flow cross sections of the respective duct towards the environment, the flow velocities at the inlet cross section of the inlet duct and at the outlet cross section of the outlet duct are correspondingly small, so that there is essentially no draft effect in the room . Accordingly, the room air cleaning device presented here can also be used in particular in comparatively small rooms.

According to an advantageous embodiment, the inlet flap can be formed integrally on the housing body and can be connected to the housing body via an inlet flap fold. This inlet flap fold defines an inlet flap pivot axis about which the inlet flap is pivotably arranged on the housing body. Additionally or alternatively, the outlet flap can be formed integrally on the housing body and can be connected to the housing body via an outlet flap fold. This outlet flap fold defines an outlet flap pivot axis about which the outlet flap is pivotably arranged on the housing body. This integral design simplifies the manufacture of the housing.

Optionally, the inlet flap can have an inlet flap edge at its end remote from the inlet flap rebate, which abuts the housing body in the closed position and is distant therefrom in the open position. The inlet flap can optionally have two sidecars, which are each arranged on a side edge of the inlet flap and face one another there. The respective side bolster extends from the edge of the intake flap to the intake flap fold and closes a lateral opening of the intake shaft when the intake flap is open. For this purpose, the respective side panel can be dimensioned in such a way that it protrudes into the interior of the housing body. A corresponding configuration is also or alternatively conceivable for the outlet flap. Accordingly, the outlet flap also has an outlet flap edge and can be equipped with two side walls, which lie opposite one another on the side edges of the outlet flap, extend from the outlet flap edge to the outlet flap fold and from the respective side edge of the outlet flap to the housing body, in order to close the outlet shaft laterally when the outlet flap is open close. Also on the exhaust flap these side walls can protrude into the housing body.

With the help of these side panels, a defined inflow or outflow of room air to the housing or away from the housing is made possible, which promotes efficient air recirculation. In particular, it can be avoided that the cleaned room air emerging from the outlet shaft is immediately sucked in again at the inlet shaft.

According to another advantageous embodiment, the housing can be designed as a folding box that is folded from a single piece of material. At least the housing body is formed in one piece with the aid of this connected piece of material. This means that sections are defined on the piece of material which form the housing body when the piece of material is folded. Furthermore, it can expediently be provided that the piece of material also has sections which form the inlet flap and the outlet flap when folded, possibly including the aforementioned side panels. The production is thereby simplified and inexpensive.

According to another embodiment, the filter element and the housing can be made of the same material or can be made of mutually recyclable materials. This design has the advantage that the housing with the filter element built into it can be disposed of and, in particular, recycled. For example, both the filter element and the housing can be made of a cellulose-based material. The uniform disposal of the housing and filter element also has the advantage that the housing and filter element do not have to be separated from one another for disposal, which significantly reduces the cost of disposal. Furthermore, with this design, the housing-filter unit can also be handled by people who suffer from mysophobia and are therefore particularly unable to touch a soiled filter element.

In another advantageous embodiment, the housing can be designed as a flat cuboid, which has a particularly flat upper side, a particularly flat underside opposite the upper side, two opposite, particularly flat longitudinal sides and two opposite, particularly flat front sides. The upper side, the lower side and the two longitudinal sides form the housing body, while the inlet flap and the outlet flap form the two front sides in their closed position. On the one hand, this flat, cuboid design of the housing simplifies logistics, since the housing-filter unit can be stacked in large numbers in this way. On the other hand, this flat, cuboid design enables simple wall or ceiling mounting, which only stands out slightly from the flat surface of the respective wall or ceiling. In particular, this enables wall mounting that is acceptable to the user without disturbing the visual appearance of the respective wall.

If the housing is made from a single piece of material, this piece of material has sections which, when folded, form the top, the bottom, the two longitudinal sides and the two end faces, i.e. the inlet flap and the outlet flap, optionally including the aforementioned side panels.

The flat and cuboid housing has a height that is defined by the distance between the top and bottom, a width that is defined by the distance between the two long sides, and a length that is defined by the distance between the two end faces. For the flat case, the width and length of the case are greater than the height of the case. In particular, the width and length are at least twice the height. It is also expedient that the length of the housing is greater than the width of the housing. In this case, the air flows through the housing from the air inlet opening to the air outlet opening, so to speak, in its longitudinal direction.

According to an advantageous embodiment, the housing can have an intermediate floor, which is particularly flat and separates the filter chamber from the blower chamber. Furthermore, this intermediate floor can extend parallel to the upper side and to the lower side. In addition, this intermediate floor can extend from one long side to the other long side and from one end face to the other end face. With the help of this intermediate floor, the filter chamber and the blower chamber are physically defined inside the housing. So that the air flow path can lead from the filter chamber to the blower chamber, it must pass through this intermediate floor. The intermediate floor is therefore equipped with exactly one or at least one passage opening through which the filter chamber and the blower chamber are fluidically connected to one another and through which the air flow path leads. If the housing consists of a single piece of material, this piece of material can have a section which forms the intermediate base when folded.

According to an advantageous development, the top and the bottom can define a housing cross-section with respect to a height direction of the housing, the filter chamber and the fan chamber are arranged one above the other with respect to the height direction and each fill the housing cross section. Said housing cross section is the largest cross section of the housing in the case of the flat, cuboid housing. The design presented here thus provides a filter element with maximum size within the housing, which means that a high filtration effect and a long service life can be achieved with low flow resistance.

Another development proposes that the filter element in the filter chamber fills the housing cross section and/or that the blower unit inserted in the blower chamber fills the housing cross section and/or the blower chamber in the blower chamber. As a result, the space provided is optimally utilized.

In another embodiment, in which the housing also has an intermediate floor that separates the filter chamber from the blower chamber, the filter element can have a filter body made of a filter material that can be folded or pleated, in particular, and a band that runs around the filter body in a closed manner . The band seals the possibly folded filter material on the side and front. Furthermore, it can be provided that the filter element is supported on the intermediate floor via the belt. For this purpose, the band expediently protrudes beyond the filter body in such a way that an intermediate space, bordered by the band and forming the clean air space, is formed between the intermediate floor and the filter body. In this respect, the band also forms a seal between the raw air space and the clean air space. For permanent attachment of the filter element in the housing, it can be provided in particular that the band is attached to the intermediate floor, for example by gluing. The belt and the filter material are expediently made of the same material or of materials that can be recycled together, in particular based on cellulose.

According to another advantageous embodiment, in which the housing again has an intermediate floor which separates the filter chamber from the blower chamber, it can be provided that the intermediate floor has an, in particular central, passage opening through which the air flow path leads from the filter chamber into the blower chamber. A defined outflow from the clean air space is achieved through this single, in particular central, passage opening. In addition, the connection to the blower unit is favored when this is inserted into the blower chamber.

According to an advantageous embodiment, the blower chamber can be accessible for inserting and removing the blower unit when the inlet flap is pivoted beyond its open position into a replacement position and/or when the outlet flap is pivoted beyond its open position into a replacement position. In other words, the blower unit can be inserted into or removed from the housing chamber at the respective end face of the housing when the inlet flap or outlet flap is pivoted into the replacement position. Replacing the blower unit is necessary when the filter element is used up and the entire housing-filter unit needs to be replaced. Since the blower unit has a significantly higher service life and value than the respective filter element, it is advantageous from an economic and ecological point of view to only replace or renew the used components of the room air cleaning device. For this purpose, the comparatively expensive blower unit can be easily removed from the blower chamber. The used housing filter unit can be disposed of and replaced with a new housing filter unit into which the old blower unit can simply be inserted. Thus, the indoor air cleaning device can be replaced inexpensively.

An embodiment is advantageous in which the blower unit has a blower outlet which fills the air outlet opening when the blower unit is inserted into the blower chamber. When the blower unit is inserted into the housing, the blower outlet is thus located directly in the air outlet opening of the housing and can be opened and closed through the outlet flap. During operation, the air flow then flows through the blower outlet and at the same time through the air outlet opening and from there through the outlet shaft into the surroundings of the housing or into the respective room.

A room air cleaning device according to the invention for generating a recirculation mode is equipped with a housing-filter unit of the type described above and also has a blower unit which is interchangeably inserted into the blower chamber of the housing of the housing-filter unit. This design has the particular advantage that at the end of the service life of the filter element, the used housing-filter unit can be exchanged for a new housing-filter unit, while the same fan unit can be reused. As explained, the blower unit can be easily removed from the blower chamber of the used, old housing-filter unit and inserted into the blower chamber of the new housing-filter unit.

A fan unit according to the invention is designed to be used in a room air cleaning device of the type described above can be applied, so can be used in the blower chamber of the housing-filter unit described above. To this end, the fan unit has a fan housing which has a fan inlet and a fan outlet and which is dimensioned and shaped for insertion into the fan chamber. Furthermore, the blower unit has an electromotive blower arranged in the blower housing for generating an air flow that leads from the blower inlet to the blower outlet in the blower housing. When installed, the air flow during operation in the housing of the housing-filter unit flows in the air flow path from the air inlet opening to the air outlet opening, thus enabling air recirculation.

The fan housing can expediently have an electrical interface via which the fan can be coupled to an external electrical energy supply, e.g. by means of a corresponding cable. The housing of the housing-filter unit can expediently have a coupling opening which is located in the area of the interface when the fan unit is inserted into the fan chamber. The fan can thus be coupled to the external energy supply through the coupling opening. The blower can be configured in such a way that it can be connected directly to a power supply system of a building in which the room equipped with the indoor air purification device is located. It is also conceivable to configure the blower in such a way that it can be connected to an electrical power supply with a lower voltage level and lower current level. For example, the housing can be operated via a cable with a plug according to the USB standard.

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 yet 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 invention defined in the claims. Components of a higher-level unit, such as a device, a device or an arrangement that are mentioned above and are to be mentioned below, which are designated separately, can form separate parts or components of this unit or be integral areas or sections of this unit, even if this shown differently in the drawings.

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 isometrische Ansicht einer Raumluftreinigungsvorrichtung mit geschlossenen Klappen,
• 2 eine isometrische Ansicht der Raumluftreinigungsvorrichtung bei geöffneten Klappen und bei angeschlossener Gebläse-Einheit,
• 3 eine isometrische Ansicht wie in 1, jedoch bei in ihre Austauschstellung verschwenkten Klappen,
• 4 eine Ansicht wie in 3, beim Tauschen einer Gebläse-Einheit,
• 5 eine isometrische Ansicht auf einen Längsschnitt der Raumluftreinigungsvorrichtung,
• 6 eine Draufsicht auf ein Materialstück im ungefalteten Zustand,
• 7 eine isometrische Ansicht eines Filterelements,
• 8 einen Längsschnitt des Filterelements,
• 9 eine isometrische Ansicht der Gebläse-Einheit.

They show, each schematically,

• 1 an isometric view of a room air cleaning device with closed flaps,
• 2 an isometric view of the room air purification device with the flaps open and the fan unit connected,
• 3 an isometric view as in 1 , but with the flaps pivoted into their replacement position,
• 4 a view as in 3 , when replacing a blower unit,
• 5 an isometric view of a longitudinal section of the room air purification device,
• 6 a plan view of a piece of material in the unfolded state,
• 7 an isometric view of a filter element,
• 8th a longitudinal section of the filter element,
• 9 an isometric view of the blower unit.

According to the 1 until 5 includes a room air cleaning device 1, a housing filter unit 2 and a fan unit 3, which is arranged interchangeably within the housing filter unit 2.

The housing filter unit 2 has a housing 4 and an in 5 recognizable filter element 5. The filter element 5 is arranged in the housing 4 and, when the fan unit 3 is in operation, an air flow 6 can flow through it, which in 5 is indicated by arrows. The housing 4 has an air inlet opening 7 and an air outlet opening 8 . According to 5 the housing 4 contains a filter chamber 9 and a blower chamber 10 . The filter element 5 is arranged in the filter chamber 9 in such a way that it separates a raw air space 11 from a clean air space 12 in the filter chamber 9 . The raw air space 11 is located on the inflow side of the filter element 5 , while the clean air space 12 is located on the outflow side of the filter element 5 . The fan unit 3 is arranged in the fan chamber 10 in an exchangeable manner. The housing 4 also defines an air flow path 13 leading from the air inlet opening 7 to the air outlet opening 8 5 is indicated with a broken line. The air flow path 13 leads through the filter chamber 9 and thus through the filter element 5 and through the blower chamber 10 and thus through the blower unit 3 inserted therein.

The housing 4 has a housing body 14 containing the filter chamber 9 and the fan chamber 10 . The housing 4 also has an inlet flap 15 and an outlet flap 16 . The inlet flap 15 is on the housing body 14 about an inlet flap pivot axis 17 between an in 1 shown closed position and one in the 2 and 5 shown open position pivotally arranged. Likewise, the outlet flap 16 on the housing body 14 about an outlet flap pivot axis 18 between an in 1 shown closed position and one in the 2 and 5 shown open position pivotable. In its closed position, the inlet flap 15 closes the air inlet opening 7, while the outlet flap 16 closes the air outlet opening 8 in its closed position. In its open position, the inlet flap 15 releases the air inlet opening 7 and defines a converging air inlet duct 20 leading from an area 19 of the housing to the air inlet opening 7. In its open position, the outlet flap 16 releases the air outlet opening 8 and defines a leading from the air outlet opening 8 to the area 19 diverging air outlet shaft 21. During operation of the room air cleaning device 1, the air sucked in from the environment 19, ie from the room in which the room air cleaning device 1 is arranged, converges towards the air inlet opening 7. In the air outlet shaft 20, on the other hand, the air exiting into the environment 19 diverges. Thus, low flow speeds are realized within the environment 19 or within the room for the air recirculation mode, which avoids the creation of a draft effect for people in the respective room.

The housing 4 can expediently be designed as a folding box 22 . This folding box 22 is folded from a single piece of material 23, which 6 is shown in the unfolded state. The inlet flap 15 is expediently formed integrally on the housing body 14 and is connected to the housing body 14 via an inlet flap fold 24 , the inlet flap fold 24 defining the inlet flap pivot axis 17 . The outlet flap 16 is expediently formed integrally on the housing body 14 and is connected thereto via an outlet flap fold 25 which defines the outlet flap pivot axis 18 . According to 6 the piece of material 23 has correspondingly designated sections which form the inlet flap 15 and the outlet flap 16 when folded. As can be seen here, the inlet flap 15 and the outlet flap 16 are equipped with cheeks 26 on the side, which are each arranged on a side edge of the respective flap 15, 16 and in the folded housing 4, i.e. in the folding box 22, dip into the housing body 14 and thus the air inlet shaft 20 or delimit the air outlet shaft 21 laterally. These cheeks 26 are in accordance with 6 formed on the piece of material 23 by correspondingly designated sections.

How himself in particular 1 can be seen, the housing 4 is designed as a flat cuboid having an upper side 27 and a lower side 28 opposite the upper side 27 with respect to a height direction Z. Furthermore, the cuboid or the housing has two opposite longitudinal sides 29 in a width direction Y and two opposite end sides 30 with respect to a longitudinal direction X. The height direction Z, the width direction Y and the length direction X are in 1 indicated by double arrows. According to 6 has the piece of material 23 correspondingly designated sections, which form the top 27, the bottom 28, the two longitudinal sides 29 and the two end faces 30 in the folded state.

In the folded state, the top 27, the bottom 28 and the two longitudinal sides 29 form the housing body 14. The two end faces 30, on the other hand, form the inlet flap 15 and the outlet flap 16. According to FIG 1 If the flaps 15, 16 are closed, the housing 4 has a height H defined by the distance between the top 27 and bottom 28, a width B defined by the distance between the longitudinal sides 29 and a length L defined by the distance between the two end faces 30. For the flat case 4, the width B and the length L are greater, preferably at least twice or at least three times or at least four times greater than the height H. In the case of a rectangular cross-section, the length L is equal to the width B. In the case of a rectangular cross-section on the other hand, it is preferred that the length L is greater than the width B.

According to 5 For example, the housing 4 can have an intermediate floor 31 which separates the filter chamber 9 from the blower chamber 10 in the housing 4 . In the cuboid housing 4, the intermediate floor 31 runs parallel to the upper side 27 and parallel to the lower side 28. Furthermore, the intermediate floor 31 extends over the entire housing cross-section running transversely to the height direction Z and thus extends from one longitudinal side 29 to the other longitudinal side 29 and from the one end face 30 to the other end face 30. According to 6 a correspondingly designated section is formed on the piece of material 23, which forms the intermediate floor 31 when folded.

According to 5 the filter chamber 9 and the blower chamber 10 are arranged one above the other in the housing 4 with respect to the height direction Z and also dimensioned in such a way that they essentially fill the housing cross-section running transversely to the vertical direction Z. Here, too, the filter element 5 is dimensioned in such a way that it essentially completely fills said housing cross section and thus the filter chamber 9 . Furthermore, it is also provided here that the fan unit 3 is dimensioned in such a way that it also essentially completely fills the housing cross section in question and thus the fan chamber 9 . In the present context, the wording “substantially” refers to a state that is at least 90% achieved. Accordingly, a deviation of the actual state from the respective target state of up to 10% is permissible.

According to the 5 , 7 and 8th the filter element 5 has a filter body 32 made of a filter material 33, which is suitably folded in the present case. Furthermore, the filter element 5 has a band 34 which runs closed around the filter body 32 and with which the filter element 5 in the assembled state according to FIG 5 is supported on the intermediate floor 31. The band 34 is on the outflow side of the filter body 32, which faces the intermediate floor 31 in the assembled state, over the filter body 32, so that in the assembled state according to FIG 5 an intermediate space 35 is formed between the filter body 32 and the intermediate floor 31 , which is bordered by the band 34 and which forms the clean air space 12 . The band 34 can expediently be attached to the intermediate floor 31, for example by means of an adhesive. A design in which the band 34, the filter material 33 and the housing 4, in particular the piece of material 23, consist of similar materials that can be recycled together is particularly advantageous. It is particularly advantageous if the components mentioned are made of the same material or are based on the same material, in particular cellulose.

So that the air flow path 13 can lead through the filter chamber 9 and through the blower chamber 10 , the intermediate floor 31 has a passage opening 36 which can expediently be positioned centrally in the intermediate floor 31 . This passage opening 36 is also in 6 recognizable on the piece of material 23.

According to the 3 and 4 the inlet flap 15 and the outlet flap 16 can be pivoted when opening beyond the respective open position into an exchange position that is in the 3 and 4 is shown. In the respective exchange position, the inlet flap 15 and the outlet flap 16 extend essentially parallel to the underside 28 of the housing 4. In the cuboid housing 4, the inlet flap 15 and the outlet flap 16 pivot between the closed position and the open position by less than 90°, for example between 45 ° and 65°. In contrast, the inlet flap 15 and the outlet flap 16 pivot through about 90° for the exchange position. In any case, in the respective replacement position, the blower chamber 10 is accessible to such an extent that the blower unit 3 can be inserted into or removed from the blower chamber 10, for example when being exchanged. In 4 such an exchange process is indicated by a double arrow, which indicates a direction of movement 37 of the fan unit 3 with respect to the housing 4, with which the fan unit 3 and the housing 4 are moved relative to one another in order to move the fan unit 3 into the fan chamber 10 use or take from it.

According to the 4 and 9 the fan unit 3 has a fan housing 38 which has a fan inlet 39 and a fan outlet 40 . The blower unit 3 also has an electromotive blower 41 arranged in the blower housing 38 which, in the example shown here, is designed as a radial compressor and has an impeller 42 arranged in the blower inlet 39 . According to 9 For example, a flow straightener structure 43 can be arranged in the fan outlet 40, which is formed here by a multiplicity of parallel ribs 44 and enables a flow exit from the fan outlet 40 that is as uniform and homogeneous as possible. When the blower unit 3 is inserted into the housing 4, the blower outlet 40 fills according to FIG 2 and 5 the air outlet opening 8 essentially completely. The blower inlet 39 is positioned centrally in the blower housing 38, so that when installed it is shown in FIG 5 directly to the passage opening 36 adjoins.

According to the 4 and 9 the blower unit 3 has an electrical interface 45 on the blower housing 38, to which according to FIG 2 a cable 46 with a suitable plug 47 can be connected. According to the 1 until 4 For example, the housing 4 can have a coupling opening 48 through which the plug 47 can be coupled to the interface 45 .

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

• DE 102004053324 A1 [0003]

Claims (15)

Housing filter unit (2) for a room air cleaning device (1), - with a housing (4) and - with a filter element (5) arranged in the housing (4) through which an air flow (6) can flow, - wherein the housing (4) has an air inlet opening (7) and an air outlet opening (8), - wherein the housing (4) contains a filter chamber (9), in which the filter element (5) is arranged and therein separates a raw air space (11) from a clean air space (12), - wherein the housing (4) contains a blower chamber (10) for interchangeably accommodating a blower unit (3), - wherein the housing (4) defines an air flow path (13) leading from the air inlet opening (7) to the air outlet opening (8), which leads through the filter chamber (9), through the filter element (5) and through the blower chamber (10), - wherein the housing (4) has a housing body (14) containing the filter chamber (9) and the blower chamber (10) and an inlet flap (15) which is fixed to the housing body (14) between a closed position in which the inlet flap ( 15) closes the air inlet opening (7) and is pivotably arranged in an open position in which the inlet flap (15) releases the air inlet opening (7) and an air inlet shaft ( 20) defined, - Wherein the housing (4) has an outlet flap (16) which is pivotably arranged on the housing body (14) between a closed position in which the outlet flap (16) closes the air outlet opening (8) and an open position in which the outlet flap ( 16) releases the air outlet opening (8) and defines an air outlet shaft (21) leading from the air outlet opening (8) to the environment (19). Housing filter unit (2) after claim 1 , characterized in that the inlet flap (15) is formed integrally on the housing body (14) and is connected thereto via an inlet flap fold (24) which defines an inlet flap pivot axis (17) about which the inlet flap (15) can be pivoted on the housing body (14 ) is arranged, and/or - that the outlet flap (16) is formed integrally on the housing body (14) and is connected to it via an outlet flap fold (25), which defines an outlet flap pivot axis (18) about which the outlet flap (16) can be pivoted on Housing body (14) is arranged. Housing filter unit (2) after claim 1 or 2 , characterized in that the housing (4) is designed as a folding box (22) which is folded from a single piece of material (23). Housing filter unit (2) according to one of Claims 1 until 3 , characterized in that - that the filter element (5) and the housing (4) consist of the same material or consist of mutually recyclable materials. Housing filter unit (2) according to one of Claims 1 until 4 , characterized in that the housing (4) is designed as a flat cuboid having an upper side (27), an underside (28) opposite the upper side (27), two opposite longitudinal sides (29) and two opposite front sides (30 ) has, - that the upper side (27), the lower side (28) and the two longitudinal sides (29) form the housing body (14), - that the inlet flap (15) is arranged on one end face (30), while the outlet flap (16) is arranged on the other end face (30). Housing filter unit (2) after claim 5 , characterized in that the housing (4) has an intermediate floor (31) which separates the filter chamber (9) from the blower chamber (10), which runs parallel to the upper side (27) and the lower side (28) and differs from the one longitudinal side (29) to the other longitudinal side (29) and from one end face (30) to the other end face (30). Housing filter unit (2) after claim 5 or 6 , characterized in that - that the upper side (27) and the lower side (28) define a housing cross-section with respect to a height direction (Z) of the housing (4), the filter chamber (9) and the fan chamber (10) with respect to the height direction (Z) are arranged one above the other and each fill the housing cross section. Housing filter unit (2) after claim 7 , characterized in that - that the filter element (5) in the filter chamber (9) fills the housing cross-section, and/or - that the housing unit (3) used in the blower chamber (10) fills the housing cross-section in the blower chamber (10) and/or or fills the blower chamber (10). Housing filter unit (2) according to one of Claims 1 until 8th , characterized in that - that the housing (4) has an intermediate floor (31) which separates the filter chamber (9) from the blower chamber (10), - that the filter element (5) has a filter body (32) made of filter material (33) and one around the filter body (32) has a circulating band (34), - that the filter element (5) is supported by the band (34) on the intermediate floor (31), - that the band (34) protrudes over the filter body (32), so that a Band (34) bordered, the clean air space (12) forming intermediate space (35) between the intermediate floor (31) and the filter body (32). Housing filter unit (2) according to one of Claims 1 until 9 , characterized in that - that the housing (4) has an intermediate floor (31) which separates the filter chamber (9) from the blower chamber (10), - that the intermediate floor (31) has a passage opening (36) through which the air flow path (13) from the filter chamber (9) into the blower chamber (10). Housing filter unit (2) according to one of Claims 1 until 10 , characterized in that the inlet flap (15) and/or the outlet flap (16) can be pivoted beyond the respective open position into an exchange position in which the blower chamber (10) is accessible for inserting and removing the blower unit (3). . Housing filter unit (2) according to one of Claims 1 until 11 , characterized in that the blower unit (3) has a blower outlet (40) which fills the air outlet opening (8) when the blower unit (3) is inserted into the blower chamber (10). Housing filter unit (2) according to claims 10 and 12 , characterized in that the blower unit (3) has a blower inlet (39) which, when the blower unit (3) is inserted into the blower chamber (10), directly adjoins the passage opening (36). Room air cleaning device (1) - with a housing filter unit (2) according to one of Claims 1 until 13 - With a blower unit (3), which is inserted into the blower chamber (10) of the housing (4) of the housing-filter unit (2) in an interchangeable manner. Blower unit (3) for a room air cleaning device (1). Claim 14 or for a housing-filter unit (2) according to one of Claims 1 until 13 , - with a blower housing (38) which has a blower inlet (39) and a blower outlet (40) and which is dimensioned and shaped for insertion into the blower chamber (10), - with an electromotive blower ( 41) for generating an air flow (6) from the fan inlet (39) to the fan outlet (40).

Images