• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    According to the invention, an air scrubber is provided which comprises an electrically driven fan and a drum (10) with a mat (15) spanning an overlay of the drum (10) forming a closed circulating belt (15). The mat (15) is electrically driven about an axis of rotation, wherein a lower part of the drum (10) is immersed in the water trough (21). The mat (15) is removable by a movement in the axial direction of the drum and pushed back by a movement in the axial direction on this.
    公开号:CH713848A2
    申请号:CH00709/17
    申请日:2017-06-01
    公开日:2018-12-14
    发明作者:Fitsch Manfred;Hutter Armando
    申请人:Boneco Ag;
    IPC主号:
    专利说明:

    Description: [0001] The invention relates to an air washer.
    Airborne contaminants such as dust, pollen, bacteria, etc. are a burden for some people. For this reason, there are devices known as “air washers”. An air flow in contact with water - which may be mixed with active substances and / or aromas - is brought into contact in these. The consequence of this is that, first of all, impurities present in the form of solid particles remain in the water and secondly the air is humidified, which also has a positive effect on the indoor climate.
    For air washers, the principle is known to guide an air flow through a moistened structure, in particular from an absorbent material immersed in water. The air can emit impurities and - depending on the humidity already present - absorb moisture. In such air washers it is important for reasons of efficiency that the air flow comes into contact with as large a surface of the structure as possible and on the other hand a large volume of air can be conveyed, for which the smallest possible flow resistance is favorable. It is also important in practice that the air washer device as a whole is as compact as possible and takes up little space, which is contrary to the requirement for the largest possible surface area of the structure.
    From WO 2015/179 993 an air washer with a radial fan is known, which sucks the air axially and blows it out radially. An electrically driven drum rotatable about a drum axis with a cage-like drum housing in an open-pored structure and a cage-like drum housing surrounding it on the outside is arranged in such a way that the air blown radially outwards is blown through the structure.
    In air washers - as with other devices for air conditioning - there is a need that these can be kept as hygienic and germ-free or as low as possible. For this purpose it is known, for example, to place a silver ion-releasing element in a part covered by the water. Even if this is quite effective, this procedure does not meet all hygiene requirements. An easy cleanability of the absorbent structure and the other parts that come into contact with water would be desirable.
    It is an object of the present invention to provide an air washer which overcomes disadvantages of the prior art, and combines a potentially compact design with great efficiency and is easy to clean and manufacture.
    [0007] According to one aspect of the invention, an air washer is provided which has:
    - a housing,
    - an electrically driven fan,
    - a water tub,
    - And a device which is designed for moistening with water from the water tub.
    - The device has a drum which is electrically driven to rotate about an axis of rotation, with a lower part of the drum being immersed in the water tub.
    The drum forms a cylindrical circumferential support. It is spanned by a mat which forms a closed circumferential band and is intended for wetting and forms the moisture-absorbing part of the device. Air conveyed by the fan can be passed through an upper part of the drum covered with the mat, in order to clean and humidify this air.
    The mat is open-pore in the sense that water can penetrate inside the mat and can adhere to surfaces inside the mat, i.e. the effective surface available for the water to be wetted is larger than a bare outside surface. In particular, the mat can be a foam-like and / or textile structure.
    The mat is removable from the drum by pulling in the axial direction (as a closed band). In addition, the support is designed in such a way that the mat can be pushed on again in the axial direction by a (for example opposite) movement. This means that the support is formed by, for example, a cylindrical support surface - possibly with perforations - or by a basket-like braid with or by axially extending ribs or the like. In any case, the circumferential band can be pushed open in the axial direction by a simple sliding movement, even if the band is a little elastic, with a slightly smaller diameter in the relaxed state compared to the diameter of the support. This excludes in particular that the support is formed by circular disk-shaped plates arranged next to one another (without peripheral axially extending structures in between) or by circumferential rings arranged at an axial distance from one another, since a belt cannot be pushed onto such an arrangement by a simple sliding movement.
    In particular, the support can be formed by one or more support elements which are essentially continuous in the axial direction.
    Optionally, the support can be tapered towards at least one side (ie the diameter of the support decreases continuously from the edge to at least one side), so that the circumferential band is pulled over a ramp-like section when pushed on, which simplifies the mounting .
    CH 713 848 A2 [0013] In addition to the support, the drum can have at least one end plate, in particular one end plate on each side. This has a larger diameter than the diameter of the support and forms a stop for the mat to the sides (in the axial direction). The diameter of the end plate (s) corresponds, for example, at least approximately to the outside diameter of the mat when it is pushed onto the support.
    The drum and generally the device can be free of elements located on the outside of the mat, in particular of the mat overlapping the outside, rotating elements with the drum. The mat thus forms the outer surface of the rotating device radially on the outside in at least one axial region (this does not rule out the fact that the end plates can optionally have a larger diameter than the mat), specifically along the entire circumference, so it can in particular be led from the inside.
    If there is one end plate on each side, at least one of the two end plates can be reversibly removed from a drum body which forms the support and which optionally also has the other end plate. In embodiments, such a reversible removal is possible, in particular, without tools and with a single handle, for example by fastening the end plate to the drum body by means of a bayonet-type connection.
    The mat can be dimensioned such that it is optionally slightly compressed in the axial direction between the two end plates, i.e. that it is slightly compressed by the two end plates against an elastic restoring force.
    [0017] The mat can be a textile element, for example. In particular, it can have an inner (support-side) textile layer and an outer textile layer, a plurality of threads running between the textile layers, each of which connects the inner and outer textile layers with one another, so that one of the Thread crossed space results. The threads can run more or less parallel in the sense that the majority do not touch each other. The threads can have a certain inherent stiffness so that they maintain the distance between the inner and outer layers from one another, but the mat as a whole can be compressed against an elastic force of the threads.
    Due to the construction according to the invention, the mat can in particular be made of a material which does not have sufficient inherent rigidity to form a self-supporting circular cylindrical shape even without the support.
    Such a mat can be made of a plastic material. For example, it has been shown that polyethylene terephthalate (PET) is very suitable as a material for the mat, despite its hydrophobic properties. When using a more hydrophobic material such as PET, it is particularly evident that the efficiency increases even more after repeated use of the device, since deposits that are not or hardly visible to the eye on the surfaces of the threads (or other elements of the mat) affect the water absorption capacity of the mat as a whole increase.
    The axis of rotation of the drum is preferably arranged at least approximately horizontally, i.e. the axis of rotation is at least approximately parallel to the water surface (for example at an angle of maximum plus minus 20 ° to the horizontal). The axis of rotation of the fan, however, can be vertical, i.e. the air is sucked in from the outside and blown vertically down into the drum - or, if necessary, sucked in through the drum and blown out vertically upwards.
    In embodiments, the drum and the fan are matched to one another and arranged relative to one another and air guiding means are optionally present such that the air flows successively through the mat radially into the drum interior and from there flows radially outward through the mat again. In contrast to designs with axial air flow in relation to the drum, the mat is flowed through twice, which increases the effectiveness.
    The housing can in particular be in two parts in the sense that it is composed of an upper housing part and a lower housing part. The lower housing part then forms or supports the water tub. The upper housing part carries the fan and is placed on the lower housing part and can be lifted off the latter.
    For example, it can be lifted off without a connection having to be released, or lifting off the upper housing part can require the connection to be released, for example by turning a locking knob or the like.
    The upper housing part itself can also be constructed in the simplest way, for example. Can be composed of two partial housing shells. The lower housing part can even be in one piece.
    The air washer can be designed in designs with the upper housing part and lower housing part so that the upper housing part carries all electronic components, i.e. all semiconductor components and possibly capacitors (for control, current conversion etc.) and also all converters, especially all motors. The lower part of the housing is then free of electronic components. The fan can also be present in the upper part of the housing.
    Optionally, however, conductors contacted from the upper housing part can be present in the lower housing part, in particular for determining whether the tub is filled via a conductivity measurement. The at least two conductors then do not touch each other from where they form contacts to the upper housing part, down to a minimum fill level in the trough. If the evaluation electronics arranged in the upper part of the housing measure a substantial conductivity between the two conductors, the water tank is filled to the minimum fill level, otherwise
    CH 713 848 A2 not. The air washer can be programmed so that it switches off and / or emits a signal when the minimum fill level is not reached or the upper housing part is not placed on the lower housing part.
    This solution with contactable conductors from the upper housing part has the further advantage that the easy cleanability of all the elements present in the lower housing part is supported, but the level monitoring is carried out without moving parts (floats or the like), which complicate the assembly or the cleaning of the tub as a whole complicate.
    The lower housing part can be designed so that the tub has at least the same extent in all directions as the upper housing part, that is, with the possible exception of a removable water tank, no other component is arranged laterally next to / in front of / behind the water tub .
    The procedure according to the invention in particular enables easy cleaning of the parts in contact with the water during use. So the mat can consist of flexible material. After its - because of the construction according to the invention very simple, user-friendly - removal from the drum, it can be mechanically processed (tumbled), as a result of which lime deposits dissolve in the simplest way, since lime deposits are not elastic. In particular, the mat can be machine-washable. During a wash cycle, the limescale deposits are loosened by mechanical action and other contaminants are washed off.
    Because of the procedure according to the invention, the device is different from an evaporator mat (suction mat) in that it is positively irrigated. In the present case, the forced irrigation takes place by rotating the drum about its axis while simultaneously immersing the underside of the drum in the filled water tub.
    The structure with a, for example. Textile or possibly foam-like, stretched around a rotating drum and air-flowed mat also has great advantages compared to stacks of wettable disks which are also known from the prior art and form a drum. In such a construction, an inner part of the panes is not wetted, which is particularly important when the water tank is almost empty. Accordingly, part of the air flows past non-wetted parts and is not effectively washed and moistened.
    In contrast, the procedure according to the invention always ensures that the entire mat, that is to say the entire active area, is wetted as long as the water in the tub reaches the minimum fill level. By flowing through the mat, all air will always come into contact with wetted surfaces.
    The procedure according to the invention also has advantages for production: in comparison to stacked disks according to the prior art, much fewer individual parts are required.
    In addition, other parts, in particular the drum but optionally also the lower housing part forming the tub as a whole or - if appropriate - the tub as such can be dishwasher-safe.
    In particular, the drum and optionally the housing lower part forming the tub can be dishwasher-safe up to at least 55 ° C and / or the mat can be machine-washable up to 40 °. The properties “dishwasher-safe” or “machine-washable” - up to the corresponding temperatures - can mean that the corresponding materials are alkali-stabilized and / or do not experience any significant color or material (brittleness) impairment after at least 100 or at least 150 washing cycles.
    The drum can be rotatably supported by the lower housing part. A drum drive, on the other hand, can be arranged in the upper part of the housing and can have a transmission means (for example a gearwheel) which interacts with the drum in such a way that the drum can be driven by the drum drive in the assembled state of the housing. By lifting the upper part of the housing, the drum is decoupled from the drive without further measures being necessary.
    In particular, the drum can be driven from above, i.e. the drive means are arranged above the drum axis and engage from above into a corresponding structure (gear or the like) of the drum.
    The drum can be easily rotatably mounted in a corresponding receptacle of the lower housing part and can be lifted out of this. For maintenance, this results in a process that is as simple as possible: the user only has to lift off the upper part of the housing (which can optionally have handles, for example in the form of recessed grips) and then lift the drum out, after which, if necessary, he can remove the end plate Pull off the mat and clean it if necessary. The assembly is carried out accordingly with a reverse sequence.
    The drum drive can have its own electric motor, or optionally use the propulsion generated by the motor of the fan via suitable transmission means.
    A gear wheel of the drum can belong to a part that was originally separate during manufacture. This enables, for example, the manufacture of the gearwheel - and / or a bearing journal for the drum - from a particularly suitable material, for example a plastic.
    CH 713 848 A2 The drum can be symmetrical in the sense that it can be inserted into the lower part of the housing in two different orientations with an axis of rotation rotated relative to one another. This increases the user friendliness for the user, who then has no possibility of incorrectly installing the drum.
    The upper housing part - if the housing is constructed in the manner described above - or generally the device can form an air flow guide which, in the assembled state, channels the air conveyed by the fan and prevents the air from flowing through the mat instead of the mat Mat flows past. The air flow guide - it can be designed as an air flow hood - therefore leads directly to the mat spanning the drum and ends, for example, at a distance of at most a few millimeters, for example at most, at most 10 mm, at most 8 mm or at most 5 mm, for example. 3-8 mm from this.
    For such air flow guidance can be particularly advantageous if, as mentioned above, the drum is free of elements overlapping the outside of the mat and the mat therefore has the radially outermost surface of the rotating surface at least in an area that is central to axial directions along the entire circumference Establishment forms. The air duct can be felt particularly close to the outer surface of the mat.
    Such an air flow guide can in particular be designed to narrow towards the mat, which is why a nozzle effect is formed.
    The fan can in particular be arranged above the drum.
    The fan can be an axial fan or a diagonal fan and have a relatively large diameter. It can be installed vertically; this constellation has proven to be particularly favorable, especially when the drum - which is preferred for reasons of efficiency - takes up a large part of the base area of the entire device.
    Quite independently of this, it is preferred that the drum occupies a large part of the base area of the device, for example (with the possible exception of a water tank mounted on the side) at least 50% (area of the drum in a projection along the vertical).
    Furthermore, a water tank can be available, from which water can be refilled into the water tank as soon as the water level falls below a certain setpoint. The water level can be controlled by an active controller with a water level sensor or passively, e.g. according to the so-called «bird bath principle». Optionally, a measure for suppressing unwanted noise can be taken, for example, according to the principle described in Swiss patent application 01 622/13.
    In embodiments, an additional filter element can also be provided, which is arranged such that air drawn in by the fan flows through the filter element before it reaches it. The reverse is also conceivable (air is blown by the fan through the filter element). Due to the design according to the invention, the area of the filter element can be selected to be relatively large and the filter element can thus be efficient and low-maintenance even with a small flow resistance (i.e. it only needs to be replaced rarely.) Exemplary embodiments of the invention are described in more detail below with reference to drawings. In the drawings, the same reference numerals designate the same or analogous elements. The figures partially show the elements shown on different scales. Show it:
    1 is a view of an air washer according to the invention;
    2 shows an exploded view of the lower housing part and of the elements mounted therein;
    3 shows an exploded view of the upper housing part and of the elements mounted therein;
    FIG. 4 shows the air washer according to FIGS. 1-3 cut along the plane IV-IV in FIG. 1; and FIG. 5 elements of an embodiment with an additional filter element.
    The air washer 1 shown in FIG. 1 has a housing composed of an upper housing part 2 and a lower housing part 3. It can be connected to the power supply via a power cable 4, which is guided along the lower housing part 2 into the upper housing part. It can be put into operation via one or more control elements 5.
    Fig. 2 shows the lower housing part 3 and parts present therein in an exploded view. The lower housing part forms a trough 21 for water to be evaporated. After lifting off the upper part of the housing, the tub can be easily filled from above, and it is not absolutely necessary to remove the drum.
    The tub 21 is made, for example, from a suitable plastic.
    On the tub 21, a receptacle 22 is arranged on both sides for a pivot 19 of the drum. In addition, there are two electrical contacts 24, for example in the form of stainless steel strips, which extend downward like strips from an upper contact surface visible in FIG. 2 on the inside of the tub. From the upper part of the housing
    CH 713 848 A2 ago it can be determined by measuring the conductivity between the two contacts 24 whether the tub 21 is filled with water at least up to the underside of the contacts 24 or not.
    The drum is rotatably supported by the pivot pin 19 in the tub, in such a way that the drum does not completely touch the bottom of the tub.
    The drum has a drum body 10 with a first end plate 11 and a support section, which in turn is formed in the illustrated embodiment by a plurality of axial webs 12. The drum body 10 can be formed in one or more parts.
    The open-pore mat 15 is made of a flexible, textile-based material. It forms a closed band. It can be manufactured, for example, by welding the end edges of a tape of suitable length to one another or by fastening them to one another by other methods (sewing or the like). The thickness and consequently the water absorption capacity of the mat can be reduced along a corresponding axially running hem line (not shown in FIG. 2), which does not impair the functionality of the device as a whole.
    The mat can for example each have an inner and outer textile layer, the inner and outer layer being connected by a large number of threads running between them. The material of the mat can also be a suitable plastic, for example polyethylene terephthalate (PET).
    The mat 15 spans the support section of the drum body formed here by the axial webs 12. It is delimited on the inside by these and axially on both sides by the end plates, while on the radially outside it forms the outer surface of the device, i.e. there are no elements of the drum body which overlap the mat, i.e. at least in a central region (with respect to axial directions), i.e. for example, the mat is only guided from the inside.
    A second end plate 16 can be attached to the drum body. The attachment takes place here according to the bayonet lock principle by simply leading to the drum body followed by a locking rotary movement. The mat 15 has a slight oversize in the axial direction, i.e. it is slightly compressed in the assembled state between the end plates 11, 16.
    The second end plate has a bearing and transmission section which is manufactured here as a separate element 17 and which forms the mentioned pivot 19 and a gearwheel 18 which serves to drive the drum.
    The storage and transmission section can in particular be present as a separate element 17 and attached to the second end plate 16 because it can optionally be made of a different material, for example from a sliding plastic that is particularly suitable for gears due to the sliding friction properties.
    The first end plate 11 can also optionally be assigned a gear in addition to a pivot, in particular a gear identical to the gear 18 of the separate element 17 mentioned. In particular, when assembled, the drum can be symmetrical with respect to reverse insertion, i.e. a rotation of its axis by 180 °.
    The axial webs 12 have a tapering portion 13 on the side of the second end plate 16. This makes it easier to push the mat onto the support formed by the drum. When pushed on, in particular the mat 15 can be slightly stretched in the circumferential direction against its elasticity.
    The drum and the tub are in particular dishwasher-safe. The mat is machine washable. It has been shown that due to the flexibility of the mat material, washing in the washing machine also descales very efficiently.
    Due to the deformation during the washing process, lime fragments easily fall off the mat.
    Fig. 3 shows the upper housing part 2 with cover 31 and insertable separate aroma compartment 32. A handle 34 is formed on both sides of the upper housing part. The handles make it easy to lift the upper housing part 2 from the lower housing part 3.
    The aroma compartment is shown as a pull-out drawer into which a fragrance can be dripped if necessary. A textile receiving element can optionally be present in the drawer, which absorbs the fragrance and releases it again in a controlled manner. Past the drawer, there can be a flow-through connection to the actual flow-through area, so that air is drawn in past the drawer via the Bernoulli effect, so that the humidified and washed air emitted by the device is aromatized.
    The flow path of the air conveyed by the fan 41 through the air washer leads through corresponding first openings 35 in the cover past the fan 41 from above into the interior of the drum, from there again laterally through second openings 36 out of the housing - or vice versa .
    The aroma compartment 32 can optionally have a tool extension 33 which can be inserted into one of the first openings 35 provided therefor and with which the cover can be removed from the upper housing part 2 without the use of separate tools.
    4 that the air guided by the fan 41 - an axial fan - is guided by an air flow guide hood 47. In the exemplary embodiment shown, this is designed such that it
    CH 713 848 A2 narrows down towards the drum, so that a certain nozzle effect is formed. The air flow guide hood 47 extends right up to an upper edge of the drum and ends at a very small distance of, for example, 3-8 mm from the surface of the mat.
    According to one option, the drum could be driven via appropriate transmission and reduction means from the fan electric motor 42. In the illustrated embodiment, in contrast, there is a separate drum drive motor 52 which drives the drum via a drive gear 51, which can be brought into engagement with the gear 18. Reduction means that may be required may be present in the housing of the drum drive motor 52.
    Instead of a drive gear there is also the possibility of driving the drum via a worm drive.
    Fig. 5 shows an embodiment in which the upper housing part carries a filter mat 51 in addition to the elements described above. The filter mat can be designed as a simple lint filter or as a HEPA (High Efficiency Particulate AirfiIter) fine dust filter; Combinations of a coarse filter and a HEPA filter are also possible. E.g. a HEPA filter with a pleated fabric, e.g. made of PE, can be used, which is characterized by a large area and therefore a low pressure drop in relation to efficiency. In one embodiment, a coarse filter is connected upstream of a filter of a higher filter class (F to H); This refers to the applicable European standards (as of 2014). HEPA filters are used to filter out dust, pollen, smoke particles, bacteria, etc. that can enter the air.
    Additionally or alternatively, a filter element made of activated carbon, for combating unpleasant odors or the like, can also be present. For example, the filter mat can be a hybrid structure made of fine dust filter and activated carbon.
    The filter mat 51 is stored here in a filter mat support 52. Removable coarse pre-filter 53 is located above. The filter mat support can be placed on and attached to the upper housing part 2. The cover 31 is then attached to the top of the filter mat support 52.
    In a further alternative embodiment (not shown), a water tank can also be present in addition or as an alternative to a filter mat. Such a device can, for example, be attached to the side of the housing and have an outlet on the underside which leads into the water tub. It can be equipped with a suitable mechanism that causes its exit to the water tub to close automatically when the water tank is lifted up and that water only flows in when the water level in the water tank falls below a certain level.
    权利要求:
    Claims (19)
    [1]
    Claims
    1. Air washer (1), comprising a housing, an electrically driven fan (41), a water pan (20) and a device which is designed for moistening with water from the water pan (20), the device having a drum which is electrically driven to rotate about an axis of rotation, a lower part of the drum being immersed in the water pan (20), characterized in that
    the drum forms a cylindrical circumferential support,
    the device further comprises a wettable mat (15) forming a closed, continuous band, which spans the support and can be removed from the drum by being pulled off in the axial direction,
    and that the support forms an outer surface onto which the circulating belt can be pushed by a movement in the axial direction,
    - Air conveyed by the fan can be passed through an upper part of the drum covered with the mat in order to clean and humidify this air.
    [2]
    2. Air washer according to claim 1, wherein the support is formed by a basket-like grid or mesh with openings or an arrangement of axially extending webs (12).
    [3]
    3. Air washer according to claim 1 or 2, wherein the drum has a first end plate (11) and a second end plate (16), of which the second end plate (16) for removing the mat (15) reversibly from a drum body forming the support (10) is removable.
    [4]
    4. Air washer according to claim 3, wherein the second end plate (16) can be removed from the drum body (10) without tools.
    [5]
    5. Air washer according to claim 4, wherein the second end plate (16) by a bayonet lock from the drum body (10) is removable.
    [6]
    6. Air washer according to one of the preceding claims, wherein the drum and the fan (41) are arranged relative to one another such that the air flows successively through the mat radially into the interior of the drum and from there again through the mat radially outwards again.
    CH 713 848 A2
    [7]
    7. Air washer according to one of the preceding claims, wherein the housing has a lower housing part which forms the trough, and a housing upper part which can be lifted off from the lower housing part, the upper housing part carrying the fan and the lower housing part being free of electronic components.
    [8]
    8. Air washer according to claim 7, wherein the lower housing part is dishwasher-safe.
    [9]
    9. Air washer according to claim 7 or 8, wherein the lower housing part has electrical contacts, via which an evaluation electronics arranged in the upper housing part can determine by means of a conductivity measurement whether the water tub is filled with a sufficient amount of water.
    [10]
    10. Air washer according to one of claims 7-9, wherein the drum is mounted in the lower housing part and wherein the upper housing part carries an electric drum drive, which is arranged to drive the drum in the assembled state of the housing.
    [11]
    11. Air washer according to claim 10, wherein the drum has a gear, in which a corresponding gear of the drum drive engages.
    [12]
    12. Air washer according to claim 11, wherein a drum body is made of a first plastic and the gear is made of a second plastic different from the first plastic.
    [13]
    13. Air washer according to one of claims 7-12, wherein the upper housing part forms an air flow guide hood (47) which, in the assembled state of the housing, directly adjoins the drum and causes the air conveyed by the fan to flow through the mat and prevents the air from entering the mat flows past.
    [14]
    14. Air washer according to claim 13, wherein the upper housing part has recessed grips for lifting off the lower housing part.
    [15]
    15. Air washer according to one of the preceding claims, wherein the drum is dishwasher-safe and the mat is dishwasher-safe and / or machine-washable.
    [16]
    16. Air washer according to one of the preceding claims, wherein the fan is an axial fan or a diagonal fan.
    [17]
    17. Air washer according to one of the preceding claims, wherein the drum is designed symmetrically so that it can be installed in two different orientations with the axis of rotation rotated relative to one another by 180 °.
    [18]
    18. Air washer according to one of the preceding claims, comprising an aroma compartment with an aroma substance receptacle, the aroma compartment being arranged in such a way that the air flow generated by the fan causes a Bernoulli effect to flow through the aroma compartment.
    [19]
    19. Air washer according to one of the preceding claims, wherein the mat (15) has an inner and an outer textile layer, and wherein the inner and the outer textile layer are connected to one another by a plurality of threads.
    CH 713 848 A2
    CH 713 848 A2
    CH 713 848 A2
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    WO2018219499A1|2018-12-06|
    CH713848B1|2021-01-15|
    US11085655B2|2021-08-10|
    EP3631309A1|2020-04-08|
    US20200182494A1|2020-06-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3149626A|1963-05-20|1964-09-22|Lau Blower Co|Humidifier|
    US3756579A|1971-07-15|1973-09-04|Electrohome Ltd|Humidifier|
    US3895083A|1973-05-29|1975-07-15|Skuttle Mfg Co|Rotary assembly for humidifier|
    CA1185518A|1982-04-13|1985-04-16|Kurt E. Petersen|Humidifier pad support|
    CA1182391A|1982-09-17|1985-02-12|Charles G. Shepherd|Drum humidifier|
    CA2204199A1|1996-05-02|1997-11-02|Rodney B. Burns|Air humidifier with reduced mineral buildup|
    CN101680672B|2007-05-21|2013-01-02|松下电器产业株式会社|Humidification device and air purifier with humidification function|
    CN102628604B|2007-07-18|2014-12-10|夏普株式会社|Humidifier and rotation drive structure|
    KR20110039691A|2009-10-12|2011-04-20|삼성전자주식회사|Air cleaning humidifier and disc assembly thereof|
    KR20110039692A|2009-10-12|2011-04-20|삼성전자주식회사|Air cleaning humidifier and disc assembly thereof|
    CH709701B1|2014-05-27|2018-08-15|Boneco Ag|Air washer.|
    CN106642391A|2016-12-30|2017-05-10|李先登|Air-conditioner deodorizing excessive moisture device|CN112484197A|2020-11-30|2021-03-12|孙一鑫|Air water molecule filling and supplying system|
    法律状态:
    2021-02-15| NV| New agent|Representative=s name: ABP PATENT NETWORK AG, CH |
    优先权:
    申请号 | 申请日 | 专利标题
    CH00709/17A|CH713848B1|2017-06-01|2017-06-01|Air washer.|CH00709/17A| CH713848B1|2017-06-01|2017-06-01|Air washer.|
    PCT/EP2018/000282| WO2018219499A1|2017-06-01|2018-05-30|Air scrubber|
    EP18732655.8A| EP3631309A1|2017-06-01|2018-05-30|Air scrubber|
    CN201880031592.XA| CN110914602A|2017-06-01|2018-05-30|Air washer|
    US16/614,429| US11085655B2|2017-06-01|2018-05-30|Air scrubber|
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