CN215909366U - Air treatment device and air conditioner - Google Patents

Abstract

The utility model discloses an air treatment device and an air conditioner, wherein the air treatment device comprises an air treatment piece, a shell and a support assembly, the support assembly comprises a support piece, the support piece is provided with an accommodating cavity for accommodating the air treatment piece and a vent hole communicated with the accommodating cavity, the outer surfaces of opposite side plates of the support piece are respectively provided with a plurality of sliding plates which are arranged at intervals up and down, the sliding plates define at least one sliding groove with an insertion opening, and a mounting part is suitable for being inserted into the sliding groove from the insertion opening and is movably matched with the sliding groove. The outer surface of the opposite side plate of the supporting piece is provided with a plurality of sliding plates which are arranged at intervals up and down, at least one sliding groove with an insertion opening is limited by the sliding plates, and the mounting portion is suitable for being inserted into the sliding groove from the insertion opening and is matched with the sliding groove in a moving mode. Thus, the support component can be conveniently installed on the shell, and the support component can be conveniently taken out of the shell.

Description

Air treatment device and air conditioner

Technical Field

The utility model relates to the technical field of air conditioning, in particular to an air treatment device and an air conditioner.

Background

In the technical field of air conditioning, most air treatment modules are fixedly mounted on a shell, and the air treatment modules are not convenient to mount and dismount.

SUMMERY OF THE UTILITY MODEL

The utility model provides an air treatment device which has the advantage of convenience in installation.

The utility model provides an air conditioner, which is provided with the air treatment device.

According to the air treatment device provided by the embodiment of the utility model, the air treatment device comprises an air treatment piece, a shell and a support assembly, wherein the shell is provided with a mounting part, the support assembly comprises a support piece, the support piece is provided with an accommodating cavity for accommodating the air treatment piece and a vent hole communicated with the accommodating cavity, the outer surfaces of opposite side plates of the support piece are respectively provided with a plurality of sliding plates which are arranged at intervals up and down, the sliding plates define at least one sliding chute with an insertion opening, and the mounting part is suitable for being inserted into the sliding chute from the insertion opening and is matched with the sliding chute in a moving mode.

According to the air treatment device provided by the embodiment of the utility model, the outer surfaces of the opposite side plates of the supporting piece are respectively provided with a plurality of sliding plates which are arranged at intervals up and down, the sliding plates define at least one sliding chute with an insertion opening, and the mounting part is suitable for being inserted into the sliding chute from the insertion opening and is matched with the sliding chute in a moving mode. Thus, the support component can be conveniently installed on the shell, and the support component can be conveniently taken out of the shell.

In some embodiments, at least one of the sliding plates is provided with a first projection towards a side wall of the chute, the first projection being adapted to slidingly engage with the mounting portion.

In some embodiments, the first protrusion is a plurality of protrusions, and each of the first protrusions includes a guide surface and a sliding engagement surface, and the guide surface is located on a side of the sliding engagement surface facing the insertion port.

In some embodiments, the first protrusion is disposed on each of the two opposite sliding plates of each sliding chute.

In some embodiments, the outer surface of the supporting member is further provided with a second protrusion located in the sliding groove, and the second protrusion is in sliding fit with the shell or the mounting portion.

In some embodiments, each sliding groove is provided with a plurality of second protrusions, and the plurality of second protrusions are arranged at intervals along the length direction of the sliding groove.

In some embodiments, the second protrusion has a contact surface, the contact surface is a planar structure, and the contact surface is in surface contact with the housing or the mounting portion.

In some embodiments, a side of the support far away from the insertion opening is provided with a drawing part, and the drawing part is provided with a mounting groove for placing a sealing element.

In some embodiments, a positioning member is disposed in the mounting groove, and the positioning member cooperates with the sealing member to position the sealing member.

In some embodiments, the bottom wall of the receiving cavity is formed in a grid shape to define the vent hole.

In some embodiments, an air flow passage is provided in the housing, the air flow passage has an air inlet and an air outlet, an installation space is provided in the air flow passage, a side wall of the installation space is provided with an installation portion, and the installation portion is matched with the sliding groove to enable the support assembly to be slidably arranged in the installation space.

In some embodiments, the mounting portion comprises two spaced apart first ribs and a transition rib connected at ends of the two first ribs facing the insertion opening.

In some embodiments, the transition rib includes two guide ribs and a connection rib, one end of each of the two guide ribs is respectively and smoothly connected with the two spaced first ribs, the connection rib is connected between the other ends of the two guide ribs, and the length of the connection rib is smaller than the distance between the two first ribs.

In some embodiments, two first ribs and the transition rib of the mounting portion enclose to form a ring, a filling portion is arranged in the ring, and the filling portion, the two first ribs and the transition rib are integrally formed.

In some embodiments, the mounting portion is a solid projection, and the solid projection extends in the same direction as the sliding plate.

In some embodiments, a plurality of mounting portions are arranged in the mounting space at even intervals; the supporting component is a plurality of, and is a plurality of supporting component's height is the same, every supporting component detachably with arbitrary installation department cooperation.

In some embodiments, a plurality of mounting portions are arranged in the mounting space at even intervals; the supporting assembly is a plurality of, and at least some supporting assembly's height is greater than the rest supporting assembly's height, at least some supporting assembly detachably with arbitrary adjacent a plurality of the installation department cooperation.

An air conditioner according to an embodiment of the present invention includes a cabinet and an air treatment device according to the above, the air treatment device being provided to the cabinet.

According to the air conditioner provided by the embodiment of the utility model, the outer surfaces of the opposite side plates of the supporting piece are respectively provided with a plurality of sliding plates which are arranged at intervals up and down, the sliding plates define at least one sliding chute with an insertion opening, and the mounting part is suitable for being inserted into the sliding chute from the insertion opening and is movably matched with the sliding chute. Thus, the support component can be conveniently installed on the shell, and the support component can be conveniently taken out of the shell.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a partial exploded view of an air treatment device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial schematic structural view of a housing according to an embodiment of the utility model;

FIG. 4 is a schematic structural diagram of a support assembly according to an embodiment of the present invention;

FIG. 5 is a partial enlarged view at B in FIG. 4;

fig. 6 is a partial structural schematic view of an air conditioner according to an embodiment of the present invention;

fig. 7 is an exploded view of an air conditioner according to an embodiment of the present invention;

fig. 8 is a schematic structural view of an air conditioner according to an embodiment of the present invention;

fig. 9 is a schematic structural view of an air conditioner according to another embodiment of the present invention;

FIG. 10 is a schematic view of an assembly of a support assembly and a seal according to an embodiment of the utility model;

fig. 11 is a schematic structural view of an air conditioner according to another embodiment of the present invention.

Reference numerals:

an air conditioner 10000, an air processing apparatus 1000, a cabinet 2000,

the support assembly 10 is supported on a support frame,

the support member 1, the receiving chamber 11, the vent hole 12, the drawing part 13, the mounting groove 131, the positioning member 1311,

the slide plate 2, the slide groove 21, the insertion port 211, the first projection 22, the guide surface 221, the slide engagement surface 222,

the height of the second protrusion 3, the contact surface 31,

the sealing member (20) is provided with a sealing part,

the housing 200, the air flow passage 200a, the mounting space 201, the mounting port 2011,

the mounting portion 202 is formed of a plastic material,

a transition rib 2021, a guide rib 20211, a connecting rib 20212, a first rib 2022, a filling portion 2023,

the solid bump 2022, the first guide surface 20221, the second guide surface 20222, the sliding surface 20223, and the stop surface 20224.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

An air processing apparatus 1000 and an air conditioner 10000 according to an embodiment of the present invention are described below with reference to the accompanying drawings.

As shown in fig. 1-9, according to an air treatment device 1000 of an embodiment of the present invention, the air treatment device 1000 includes an air treatment member, a housing 200 and a support assembly 10, the housing 200 has a mounting portion 202 thereon, referring to fig. 1-2, the support assembly 10 includes a support member 1, the support member 1 has an accommodating chamber 11 for accommodating the air treatment member and a vent hole 12 communicating with the accommodating chamber 11, outer surfaces of opposite side plates of the support member 1 are each provided with a plurality of sliding plates 2 spaced up and down, the plurality of sliding plates 2 define at least one sliding slot 21 having an insertion port 211, the mounting portion 202 is adapted to be inserted into the sliding slot 21 from the insertion port 211 and movably engaged with the sliding slot 21, at least one sliding plate 2 is provided with a plurality of first protrusions 22 spaced toward a side wall of the sliding slot 21, and the first protrusions 22 are adapted to be slidably engaged with the mounting portion 202.

It is understood that the air treatment member may be disposed in the accommodating chamber 11, the accommodating chamber 11 may provide an installation environment for the air treatment member, the support assembly 10 may be installed in the housing 200 by being engaged with the installation portion 202, and the air flow in the housing 200 may enter the accommodating chamber 11 through the vent hole 12, so that the air treatment member in the accommodating chamber 11 may treat the air flow and then blow the treated air flow out of the air treatment device 1000. For example, the air treatment member may be provided as a humidifying member, a filter member, a formaldehyde removing member, a VOC removing member, a dust removing member, an allergy removing member, a sterilization member, or a deodorizing member. Without limiting the air treatment members too much, the air treatment device 1000 may produce different air treatment effects by providing different air treatment members.

Specifically, as shown in fig. 4, the outer surfaces of the opposite side plates of the support member 1 are each provided with a plurality of sliding plates 2 arranged at intervals up and down, the plurality of sliding plates 2 may conveniently define at least one sliding slot 21, that is, the plurality of sliding plates 2 may define one sliding slot 21, the plurality of sliding plates 2 may also define a plurality of sliding slots 21, for example, two sliding plates 2 may define one sliding slot 21, four sliding plates 2, two sliding slots 21, six sliding plates 2 may define three sliding slots 21, eight sliding plates 2 may define four sliding slots 21, ten sliding plates 2 may define five sliding slots 21, twelve sliding plates 2 may define six sliding slots 21, and so on.

Referring to fig. 5, each slide groove 21 may have an insertion opening 211, and the mounting portion 202 is adapted to be inserted into the slide groove 21 from the insertion opening 211 and to be movably engaged with the slide groove 21. Therefore, the insertion opening 211 can facilitate the insertion of the mounting part 202 into the sliding groove 21, the support assembly 10 can be conveniently mounted and fixed in the casing 200 of the air treatment device 1000 by the cooperation of the sliding groove 21 and the mounting part 202, and further, the air treatment piece can be conveniently mounted and fixed in the casing 200, so that the air treatment device 1000 can perform the functions of humidification, filtration, formaldehyde removal, VOC removal, dust removal, allergen removal, disinfection and sterilization, or odor removal.

In the related art, most air treatment modules are fixedly mounted on a housing, and the air treatment modules are inconvenient to mount and dismount.

In the air treatment device 1000 according to the embodiment of the present invention, the outer surfaces of the opposite side plates of the support 1 are respectively provided with a plurality of sliding plates 2 arranged at intervals up and down, the plurality of sliding plates 2 define at least one sliding slot 21 having the insertion port 211, and the mounting portion 202 is adapted to be inserted into the sliding slot 21 from the insertion port 211 and movably engaged with the sliding slot 21. Thus, the support assembly 10 can be easily attached to the housing 200, and the support assembly 10 can be easily removed from the housing 200.

In some embodiments of the utility model, as shown in fig. 1, 2, 4 and 5, at least one sliding plate 2 is provided with a first protrusion 22 towards the side wall of the sliding slot 21, the first protrusion 22 being in sliding engagement with the mounting portion 202. The first protrusion 22 is provided such that the mounting portion 202 does not need to be in contact fit with the sliding plate 2, and the contact area of the first protrusion 22 with the mounting portion 202 is smaller than the contact area of the sliding plate 2 with the mounting portion 202, whereby the friction force between the support member 10 and the mounting portion 202 can be reduced, so that the support member 10 can be easily mounted to the housing 200, and at the same time, the support member 10 can be easily taken out of the housing 200.

In some embodiments of the present invention, as shown in fig. 4 to 5, the first protrusion is a plurality of first protrusions, each of the first protrusions 22 includes a guide surface 221 and a sliding engagement surface 222, and the guide surface 221 is located on a side of the sliding engagement surface 222 facing the insertion port 211. For example, the guide surface 221 may extend obliquely toward the inside of the slide groove 21 and toward the slide engagement surface 222. It can be understood that the mounting portion 202 is inserted into the sliding groove 21 from the insertion opening 211, and the side of the guiding surface 221 facing the insertion opening 211 and located on the sliding engagement surface 222 can provide guidance for the mounting portion 202 during the process of engaging the mounting portion 202 with the sliding groove 21, so as to guide the mounting portion 202 to the sliding engagement surface 222, and further facilitate the movable engagement of the mounting portion 202 with the sliding groove 21.

In addition, the contact area of the plurality of first protrusions 22 with the mounting portion 202 may be further smaller than the contact area of the sliding plate 2 with the mounting portion 202, and thus, the frictional force between the support member 10 and the mounting portion 202 may be further reduced, so that the support member 10 may be easily mounted to the housing 200, while the support member 10 may also be easily taken out from the housing 200. The plurality of first protrusions 22 make the fitting of the mounting portion 202 and the support assembly 10 more stable, and on one hand, the support assembly 10 is not easy to shake when being mounted to the housing 200 or taken out from the housing 200; on the other hand, the supporting assembly 10 and the housing 200 are more uniformly stressed and are convenient to fix.

As shown in fig. 4-5, according to some embodiments of the present invention, the first protrusions 22 are provided on the two opposite sliding plates 2 of each sliding chute 21. It will be appreciated that the first protrusion 22 is provided such that the mounting portion 202 does not need to be in contact with the sliding plate 2, and the contact area of the first protrusion 22 with the mounting portion 202 is smaller than that of the sliding plate 2 with the mounting portion 202, thereby reducing the friction force between the support member 10 and the mounting portion 202, so that the support member 10 can be easily mounted to the housing 200, and the support member 10 can be easily removed from the housing 200. The first protrusions 22 are disposed on the two opposite sliding plates 2 of each sliding slot 21, so that the contact area between the supporting component 10 and the mounting portion 202 can be further reduced, the friction force between the supporting component 10 and the mounting portion 202 can be further reduced, the supporting component 10 can be further easily mounted to the housing 200, and the supporting component 10 can be easily taken out from the housing 200.

In addition, the two opposite sliding plates 2 of each sliding chute 21 are respectively provided with the first protrusions 22, so that the matching between the mounting part 202 and the supporting component 10 is more stable, and on one hand, the supporting component 10 is not easy to shake when being mounted to the housing 200 or taken out from the housing 200; on the other hand, the supporting assembly 10 and the housing 200 are more uniformly stressed and are convenient to fix.

In some embodiments of the present invention, as shown in fig. 4-5, the outer surface of the supporting member 1 is further provided with a second protrusion 3 located in the sliding groove 21, and the second protrusion 3 is slidably engaged with the housing 200 or the mounting portion 202. It should be noted that in some examples as shown in fig. 3, the mounting portion 202 may be a hollow structure defined by ribs, and in this case, the second protrusion 3 may extend to be suitable for abutting against the housing 200, so that the second protrusion 3 may be matched with the housing 200, and the second protrusion 3 may be matched with the housing 200 to provide a supporting point for the supporting member 1, so that the matching of the supporting member 1 and the housing 200 is more reliable. Also, the second protrusion 3 may also provide a guide for the support 1 during the mounting of the support 1 to the housing 200.

In some examples as shown in fig. 9, the mounting portion 202 may be a solid structure having a certain width, and at this time, the second protrusion 3 may abut against the mounting portion 202, so that the second protrusion 3 may be engaged with the mounting portion 202, the second protrusion 3 may be disposed such that the mounting portion 202 does not need to be in contact engagement with the outer surface of the supporting member 1, and the contact area of the second protrusion 3 with the mounting portion 202 is smaller than the contact area of the outer surface of the supporting member 1 with the mounting portion 202, and thus, the friction force between the supporting member 10 and the mounting portion 202 may be reduced, so that the supporting member 10 may be easily mounted to the housing 200, and the supporting member 10 may also be easily removed from the housing 200.

As shown in fig. 4 to 5, according to some embodiments of the present invention, a plurality of second protrusions 3 may be correspondingly disposed on each sliding groove 21, and the plurality of second protrusions 3 are spaced along the length direction of the sliding groove 21. It will be appreciated that the provision of the second projection 3 eliminates the need for the mount 202 or the housing 200 to be in contact engagement with the outer surface of the support member 1, and thus, the frictional force between the support member 10 and the mount 202 or the housing 200 can be reduced, so that the support member 10 can be easily mounted to the housing 200, while the support member 10 can be easily removed from the housing 200. The corresponding arrangement of the plurality of second protrusions 3 on each sliding slot 21 can further reduce the contact area between the supporting component 10 and the mounting portion 202 or the housing 200, further make the supporting component 10 easily mounted to the housing 200, and simultaneously make the supporting component 10 easily taken out from the housing 200.

In some embodiments of the present invention, as shown in fig. 4-5, the second protrusion 3 has a contact surface 31, the contact surface 31 is a planar structure, and the contact surface 31 is suitable for surface contact with the housing 200 or the mounting portion 202. In some specific examples, the contact surface 31 is adapted to be in surface contact with the housing 200, in which case the mounting portion 202 may be a hollow structure defined by ribs, the second protrusion 3 may extend to be adapted to abut against the housing 200, so that the second protrusion 3 may be matched with the housing 200, and the contact surface 31 of the second protrusion 3 is a planar structure, which makes the second protrusion 3 not scratch the housing 200 during the process of assembling the support assembly 10 into the housing 200, so that the quality of the housing 200 may be good, and the rejection rate of the housing 200 during the assembling process may be reduced.

In other specific examples, the contact surface 31 is in surface contact with the mounting portion 202, at this time, the mounting portion 202 may be a solid structure having a certain width, the second protrusion 3 may abut against the mounting portion 202, so that the second protrusion 3 may be matched with the mounting portion 202, the contact surface 31 of the second protrusion 3 is a planar structure, the planar structure enables the second protrusion 3 not to scratch the mounting portion 202 during the process of assembling the support assembly 10 into the housing 200, and since the mounting portion 202 is a structure on the housing 200, the quality of the housing 200 may be good, and the rejection rate of the housing 200 during the assembling process may be reduced.

According to some embodiments of the present invention, as shown in fig. 4 and 10, a side of the support 1 away from the insertion port 211 is provided with a drawn part 13, and the drawn part 13 is provided with a mounting groove 131 for placing the sealing member 20. In one aspect, the pull-out portion 13 may facilitate gripping by a user, thereby facilitating pushing the support assembly 10 into the housing 200 along the mounting portion 202 and also facilitating removal of the support assembly 10 from the housing 200. On the other hand, the drawn part 13 may provide an installation environment for the sealing member 20, and may support the sealing member 20. The mounting groove 131 and the sealing member 20 may be limited to each other, so that the sealing member 20 may be reliably mounted on the drawing part 13, where the sealing member 20 may be used to seal a gap between the support member 10 and the housing 200, and when a plurality of support members 10 are mounted in the housing 200, the sealing member 20 may also be used to seal a gap between the support member 10 and the support member 10, so that the air flow in the accommodating chamber 11 may not escape from the gap between the support member 10 and the housing 200, or from the gap between the support member 10 and the support member 10, and thus the air flow processed by the air processing member may be used by a user, and energy may be saved.

In some embodiments of the present invention, as shown in fig. 4, a positioning member 1311 may be disposed in the installation groove 131, and the positioning member 1311 cooperates with the sealing member 20 to position the sealing member 20. It will be appreciated that the positioning member 1311 can position the sealing member 20 in the mounting groove 131, and further limit the position of the sealing member 20, so that the sealing member 20 is securely mounted on the drawing part 13.

According to some embodiments of the present invention, the positioning element 1311 may be one of a positioning column and a positioning hole, the sealing element 20 is provided with the other of the positioning column and the positioning hole, and the positioning column is matched with the positioning hole, wherein the positioning element 1311 may be provided with the positioning column, and at this time, the sealing element 20 may be provided with the positioning hole; the positioning member 1311 may further have a positioning hole, and the sealing member 20 has a positioning post. The cooperation of the positioning posts and the positioning holes makes the installation of the sealing member 20 in the installation groove 131 more stable. Furthermore, the number of the positioning holes can be multiple, and the positioning columns are matched with the positioning holes one by one. It will be appreciated that the plurality of positioning posts and positioning holes cooperate to further enhance the stability of the sealing member 20 within the mounting groove 131.

In some embodiments of the present invention, as shown in fig. 1, the bottom wall of the receiving chamber 11 is formed in a lattice shape to define the vent hole 12. Wherein the air flow in the housing 200 can enter the accommodating chamber 11 through the vent 12, so that the air treatment member in the accommodating chamber 11 can treat the air flow and then blow the treated air flow out of the air treatment device 1000. For example, the air treatment member may be provided as a humidifying member, a filter member, a formaldehyde removing member, a VOC removing member, a dust removing member, an allergy removing member, a sterilization member, or a deodorizing member. By providing different air treatment members, the air treatment device 1000 can produce different air treatment effects. The bottom wall of the accommodating cavity 11 is formed into a grid shape, so that the air treatment part can be supported by the grid-shaped bottom wall while the vent holes 12 are formed, the grid-shaped bottom wall and the opposite side plates of the supporting part 1 can jointly define the accommodating cavity 11, and the air treatment part is limited in the accommodating cavity 11.

An air treatment device 1000 according to an embodiment of the present invention is described in detail below with reference to fig. 1 to 9. It is to be understood that the following description is illustrative only and is not intended to be in any way limiting.

Referring to fig. 1-2, the air treatment device 1000 includes an air treatment member, a housing 200 and a support assembly 10, the housing 200 has a mounting portion 202 thereon, the support assembly 10 includes a support member 1, the support member 1 has an accommodating chamber 11 for accommodating the air treatment member and a vent hole 12 communicated with the accommodating chamber 11, outer surfaces of opposite side plates of the support member 1 are each provided with a plurality of sliding plates 2 arranged at intervals up and down, the plurality of sliding plates 2 define at least one sliding chute 21 having an insertion opening 211, the mounting portion 202 is adapted to be inserted into the sliding chute 21 from the insertion opening 211 and movably engaged with the sliding chute 21, at least one sliding plate 2 is provided with a plurality of first protrusions 22 arranged at intervals toward a side wall of the sliding chute 21, and the first protrusions 22 are adapted to be slidably engaged with the mounting portion 202.

It is understood that the air treatment member may be disposed in the accommodating chamber 11, the accommodating chamber 11 may provide an installation environment for the air treatment member, the support assembly 10 may be installed in the housing 200 by being engaged with the installation portion 202, and the air flow in the housing 200 may enter the accommodating chamber 11 through the vent hole 12, so that the air treatment member in the accommodating chamber 11 may treat the air flow and then blow the treated air flow out of the air treatment device 1000. For example, the air treatment member may be provided as a humidifying member, a filter member, a formaldehyde removing member, a VOC removing member, a dust removing member, an allergy removing member, a sterilization member, or a deodorizing member. Without limiting the air treatment members too much, the air treatment device 1000 may produce different air treatment effects by providing different air treatment members.

Specifically, as shown in fig. 4, the outer surfaces of the opposite side plates of the support member 1 are each provided with a plurality of sliding plates 2 arranged at intervals up and down, the plurality of sliding plates 2 may conveniently define at least one sliding slot 21, that is, the plurality of sliding plates 2 may define one sliding slot 21, the plurality of sliding plates 2 may also define a plurality of sliding slots 21, for example, two sliding plates 2 may define one sliding slot 21, four sliding plates 2, two sliding slots 21, six sliding plates 2 may define three sliding slots 21, eight sliding plates 2 may define four sliding slots 21, ten sliding plates 2 may define five sliding slots 21, twelve sliding plates 2 may define six sliding slots 21, and so on.

Referring to fig. 5, each slide groove 21 may have an insertion opening 211, and the mounting portion 202 is adapted to be inserted into the slide groove 21 from the insertion opening 211 and to be movably engaged with the slide groove 21. Therefore, the insertion opening 211 can facilitate the insertion of the mounting part 202 into the sliding groove 21, the support assembly 10 can be conveniently mounted and fixed in the casing 200 of the air treatment device 1000 by the cooperation of the sliding groove 21 and the mounting part 202, and further, the air treatment piece can be conveniently mounted and fixed in the casing 200, so that the air treatment device 1000 can perform the functions of humidification, filtration, formaldehyde removal, VOC removal, dust removal, allergen removal, disinfection and sterilization, or odor removal.

As shown in fig. 2 and 5, at least one sliding plate 2 is provided with a plurality of first protrusions 22 spaced from each other toward the side wall of the sliding slot 21, and the first protrusions 22 are adapted to be slidably engaged with the mounting portion 202. It will be appreciated that the first protrusions 22 are arranged such that the mounting portion 202 does not need to be in contact with the sliding plate 2, and the contact area of the plurality of first protrusions 22 with the mounting portion 202 is smaller than the contact area of the sliding plate 2 with the mounting portion 202, whereby the friction force between the support member 10 and the mounting portion 202 can be reduced, so that the support member 10 can be easily mounted to the housing 200, and the support member 10 can be easily removed from the housing 200. The plurality of first protrusions 22 make the fitting of the mounting portion 202 and the support assembly 10 more stable, and on one hand, the support assembly 10 is not easy to shake when being mounted to the housing 200 or taken out from the housing 200; on the other hand, the supporting assembly 10 and the housing 200 are more uniformly stressed and are convenient to fix.

As shown in fig. 4 to 5, each first projection 22 includes a guide surface 221 and a slide engagement surface 222, the guide surface 221 is located on a side of the slide engagement surface 222 facing the insertion port 211, and the guide surface 221 extends obliquely in a direction facing into the chute 21 and toward the slide engagement surface 222. It can be understood that the mounting portion 202 is inserted into the sliding groove 21 from the insertion opening 211, and the side of the guiding surface 221 facing the insertion opening 211 and located on the sliding engagement surface 222 can provide guidance for the mounting portion 202 during the process of engaging the mounting portion 202 with the sliding groove 21, so as to guide the mounting portion 202 to the sliding engagement surface 222, and further facilitate the movable engagement of the mounting portion 202 with the sliding groove 21.

As shown in fig. 4-5, the two opposite sliding plates 2 of each sliding slot 21 are provided with first protrusions 22. It will be appreciated that the first protrusion 22 is provided such that the mounting portion 202 does not need to be in contact with the sliding plate 2, and the contact area of the first protrusion 22 with the mounting portion 202 is smaller than that of the sliding plate 2 with the mounting portion 202, thereby reducing the friction force between the support member 10 and the mounting portion 202, so that the support member 10 can be easily mounted to the housing 200, and the support member 10 can be easily removed from the housing 200. The first protrusions 22 are disposed on the two opposite sliding plates 2 of each sliding slot 21, so that the contact area between the supporting component 10 and the mounting portion 202 can be further reduced, the friction force between the supporting component 10 and the mounting portion 202 can be further reduced, the supporting component 10 can be further easily mounted to the housing 200, and the supporting component 10 can be easily taken out from the housing 200.

In addition, the two opposite sliding plates 2 of each sliding chute 21 are respectively provided with the first protrusions 22, so that the matching between the mounting part 202 and the supporting component 10 is more stable, and on one hand, the supporting component 10 is not easy to shake when being mounted to the housing 200 or taken out from the housing 200; on the other hand, the supporting assembly 10 and the housing 200 are more uniformly stressed and are convenient to fix.

As shown in fig. 4-5, the outer surface of the supporting member 1 is further provided with a second protrusion 3 located in the sliding groove 21, and the second protrusion 3 is adapted to be slidably engaged with the housing 200 or the mounting portion 202. It should be noted that, the mounting portion 202 may be a solid structure with a certain width, in this case, the second protrusion 3 may abut against the mounting portion 202, so that the second protrusion 3 may be matched with the mounting portion 202, the second protrusion 3 is disposed such that the mounting portion 202 does not need to be in contact with the outer surface of the supporting member 1, and the contact area of the second protrusion 3 and the mounting portion 202 is smaller than the contact area of the outer surface of the supporting member 1 and the mounting portion 202, so that the friction force between the supporting member 10 and the mounting portion 202 may also be reduced, so that the supporting member 10 may be easily mounted to the housing 200, and the supporting member 10 may also be easily taken out from the housing 200.

As shown in fig. 4 to 5, a plurality of second protrusions 3 may be correspondingly disposed on each sliding slot 21, and the plurality of second protrusions 3 are spaced apart from each other along the length direction of the sliding slot 21. It will be appreciated that the second protrusion 3 is arranged such that the mounting portion 202 does not need to be in contact fit with the outer surface of the supporting member 1, and the contact area of the second protrusion 3 with the mounting portion 202 is smaller than that of the outer surface of the supporting member 1 with the mounting portion 202, so that the friction force between the supporting member 10 and the mounting portion 202 can be reduced as well, so that the supporting member 10 can be easily mounted to the housing 200, and at the same time, the supporting member 10 can be easily taken out of the housing 200. The corresponding arrangement of the plurality of second protrusions 3 on each sliding groove 21 can further reduce the contact area between the supporting component 10 and the mounting portion 202, further reduce the friction force between the supporting component 10 and the mounting portion 202, further enable the supporting component 10 to be easily mounted to the housing 200, and enable the supporting component 10 to be easily taken out of the housing 200.

As shown in fig. 4-5, the second protrusion 3 has a contact surface 31, the contact surface 31 is a planar structure, and the contact surface 31 is adapted to be in surface contact with the mounting portion 202. At this time, the mounting portion 202 may be a solid structure having a certain width, and the second protrusion 3 may abut against the mounting portion 202, so that the second protrusion 3 may be matched with the mounting portion 202, the contact surface 31 of the second protrusion 3 is a planar structure, the planar structure may prevent the second protrusion 3 from scratching the mounting portion 202 in the process of assembling the support assembly 10 into the housing 200, and since the mounting portion 202 is a structure on the housing 200, the quality of the housing 200 may be good, and the rejection rate of the housing 200 in the assembling process may be reduced.

As shown in fig. 4, a side of the support 1 away from the insertion opening 211 is provided with a drawing part 13, and the drawing part 13 is provided with a mounting groove 131 for placing the sealing member 20. In one aspect, the pull-out portion 13 may facilitate gripping by a user, thereby facilitating pushing the support assembly 10 into the housing 200 along the mounting portion 202 and also facilitating removal of the support assembly 10 from the housing 200. On the other hand, the drawn part 13 may provide an installation environment for the sealing member 20, and may support the sealing member 20. The mounting groove 131 and the sealing member 20 may be limited to each other, so that the sealing member 20 may be reliably mounted on the drawing part 13, where the sealing member 20 may be used to seal a gap between the support member 10 and the housing 200, and when a plurality of support members 10 are mounted in the housing 200, the sealing member 20 may also be used to seal a gap between the support member 10 and the support member 10, so that the air flow in the accommodating chamber 11 may not escape from the gap between the support member 10 and the housing 200, or from the gap between the support member 10 and the support member 10, and thus the air flow processed by the air processing member may be used by a user, and energy may be saved.

As shown in fig. 4, a positioning member 1311 may be disposed in the mounting groove 131, and the positioning member 1311 is adapted to cooperate with the sealing member 20 to position the sealing member 20. It will be appreciated that the positioning member 1311 can position the sealing member 20 in the mounting groove 131, and further limit the position of the sealing member 20, so that the sealing member 20 is securely mounted on the drawing part 13.

The positioning member 1311 may have a positioning post thereon, and the sealing member 20 may have a positioning hole thereon. The cooperation of the positioning posts and the positioning holes makes the installation of the sealing member 20 in the installation groove 131 more stable. Furthermore, the number of the positioning holes can be multiple, and the positioning columns are matched with the positioning holes one by one. It will be appreciated that the plurality of positioning posts and positioning holes cooperate to further enhance the stability of the sealing member 20 within the mounting groove 131.

As shown in fig. 1, the bottom wall of the receiving chamber 11 is formed in a grid shape to define the vent hole 12. Wherein the air flow in the housing 200 can enter the accommodating chamber 11 through the vent 12, so that the air treatment member in the accommodating chamber 11 can treat the air flow and then blow the treated air flow out of the air treatment device 1000. For example, the air treatment member may be provided as a humidifying member, a filter member, a formaldehyde removing member, a VOC removing member, a dust removing member, an allergy removing member, a sterilization member, or a deodorizing member. By providing different air treatment members, the air treatment device 1000 can produce different air treatment effects. The bottom wall of the accommodating cavity 11 is formed into a grid shape, so that the air treatment part can be supported by the grid-shaped bottom wall while the vent holes 12 are formed, the grid-shaped bottom wall and the opposite side plates of the supporting part 1 can jointly define the accommodating cavity 11, and the air treatment part is limited in the accommodating cavity 11.

In some embodiments of the present invention, as shown in fig. 6, 7 and 9, an air flow passage 200a is provided in the housing 200, the air flow passage 200a has an air inlet and an air outlet, a mounting space 201 is provided in the air flow passage 200a, and a mounting portion 202 is provided on a side wall of the mounting space 201; the mounting portion 202 is engaged with the slide groove 21 so that the support assembly 10 is slidably disposed in the mounting space 201.

It should be noted that the airflow can enter the air flow passage 200a from the air inlet and further enter the installation space 201 in the air flow passage 200a, the support assembly 10 is installed in the installation space 201 through the installation portion 202 on the side wall of the housing 200, and the airflow in the installation space 201 can enter the accommodating cavity 11 through the vent hole 12, so that the airflow can be processed by the air processing member in the accommodating cavity 11, and then the processed airflow is blown out of the air processing device 1000. For example, the air treatment member may be provided as a humidifying member, a filter member, a formaldehyde removing member, a VOC removing member, a dust removing member, an allergy removing member, a sterilization member, or a deodorizing member. By providing different air treatment members, the air treatment device 1000 can produce different air treatment effects.

According to some embodiments of the utility model, as shown in fig. 1 and 3, the mounting portion 202 may include a transition bead 2021 and two spaced apart first beads 2022, the transition bead 2021 being connected at ends of the two first beads 2022 facing the insertion opening 211. It is understood that when the sliding groove 21 of the support assembly 10 is inserted into the housing 200 along the mounting portion 202, the mounting portion 202 is inserted into the sliding groove 21 from the insertion opening 211, and the transition rib 2021 is connected to the end portions of the two first ribs 2022 facing the insertion opening 211, so that the mounting portion 202 can be smoothly inserted into the sliding groove 21, and the transition rib 2021 can play a role in guiding. Two first ribs 2022 are spaced apart and set up the width that can widen mounting portion 202, and compare with only a narrower rib does mounting portion 202, two first ribs 2022 are spaced apart and are makeed the cooperation of spout 21 and mounting portion 202 more firm for mounting portion 202 and spout 21 are more smooth and easy when moving each other.

As shown in fig. 3, in some embodiments of the present invention, the transition rib 2021 may include two guide ribs 20211 and a connection rib 20212, one end of each of the two guide ribs 20211 is smoothly connected to the two spaced first ribs 2022, the connection rib 20212 is connected between the other ends of the two guide ribs 20211, and the length of the connection rib 20212 is smaller than the distance between the two first ribs 2022. Wherein, direction muscle 20211 can be convenient for install department 202 direction spout 21, and the installation department 202 of being convenient for is installed to spout 21, and two direction muscle 20211 can be sealed to splice bar 20212 for two direction muscle 20211 all can not fish tail spout 21, thereby can make supporting component 10's quality good, reduce the abandonment rate of supporting component 10 in the equipment process. In addition, the length of the connecting rib 20212 being smaller than the distance between the two first ribs 2022 may facilitate the installation portion 202 to be smoothly inserted into the slide groove 21 from the insertion opening 211.

According to some embodiments of the present invention, referring to fig. 3 and 9, the two first ribs 2022 and the transition rib 2021 of the mounting portion 202 are enclosed to form a ring shape, a filling portion 2023 is disposed in the ring shape, and the filling portion 2023, the two ribs and the transition rib 2021 are integrally formed. It will be appreciated that the two first ribs 2022 and the transition rib 2021 are annularly arranged to provide the mounting portion 202 with better integrity to facilitate insertion of the mounting portion 202 into the sliding slot 21. The filling portion 2023 may reinforce the structural strength between the two first ribs 2022, so that the fitting of the mounting portion 202 to the slide groove 21 is more reliable. The filler portion 2023, the two ribs, and the transition rib 2021 are integrally formed, which may further improve the integrity of the mounting portion 202 and enhance the structural strength of the mounting portion 202.

According to some embodiments of the present invention, as shown in fig. 11, the mounting portion 202 may be a solid bump 2022, and the solid bump 2022 extends in the same direction as the sliding plate 2. It will be appreciated that the solid tab 2022 may provide for greater integrity of the mounting portion 202, facilitating insertion of the mounting portion 202 into the channel 21. The solid bump 2022 also provides the mounting portion 202 with a relatively strong structure, so that the mounting portion 202 is more reliably engaged with the sliding groove 21.

Further, referring to fig. 11, the housing 200 has a mounting opening 2011, the support assembly 10 is mounted into the housing 200 from the mounting opening 2011, the solid bump 2022 has a first guide face 20221 and a second guide face 20222, the first guide face 20221 and the second guide face 20222 are located at one end of the solid bump 2022 near the mounting opening 2011, and the first guide face 20221 and the second guide face 20222 extend in a direction toward the mounting opening 2011 and toward each other. The first guiding surface 20221 and the second guiding surface 20222 can facilitate the installation portion 202 to be smoothly inserted into the sliding groove 21, and the first guiding surface 20221 and the second guiding surface 20222 can perform a guiding function.

Further, as shown in fig. 11, the solid bump 2022 further has two sliding surfaces 20223 spaced apart in the up-down direction and an abutting surface 20224 connected between the two sliding surfaces 20223, the sliding surface 20223 is adapted to be in sliding contact with the first protrusion 22 in the sliding slot 21, and the abutting surface 20224 is adapted to be in sliding contact with the second protrusion 3 in the sliding slot 21. It is understood that the sliding surface 20223 may provide a supporting surface and a sliding surface for the first protrusion 22, so that the first protrusion 22 can smoothly slide on the solid protrusion 2022, and further, the supporting member 10 can smoothly slide on the solid protrusion 2022, so that the supporting member 10 can smoothly be installed into the housing 200. Meanwhile, the contact area of the first protrusion 22 with the sliding surface 20223 is smaller than the contact area of the sliding plate 2 with the sliding surface 20223, and thus, the friction force between the support member 10 and the solid bump 2022 can be reduced, so that the support member 10 can be easily mounted to the housing 200, and at the same time, the support member 10 can be easily removed from the housing 200.

In addition, the abutting surface can provide a supporting surface and a sliding surface for the second protrusion 3, so that the second protrusion 3 can smoothly slide on the solid bump 2022, and the contact area between the second protrusion 3 and the solid bump 2022 is smaller than the contact area between the outer surface of the support 1 and the solid bump 2022, thereby reducing the friction force between the supporting component 10 and the solid bump 2022, so that the supporting component 10 can be easily mounted to the housing 200, and the supporting component 10 can be easily taken out of the housing 200.

As shown in fig. 1, in some embodiments of the present invention, a plurality of mounting portions 202 may be disposed at regular intervals in a mounting space 201; the support assembly 10 may be provided in plurality, with a plurality of support assemblies 10 having the same height, with each support assembly 10 being removably engaged with either mounting portion 202. In some specific examples, the outer surface of the opposite side plates of the support member 1 of each support assembly 10 may be provided with two sliding plates 2, the two sliding plates 2 may define one sliding groove 21, and the support assembly 10 having one sliding groove 21 may be provided with an air treatment member of a corresponding thickness. At this time, each air module has the same height, and each support assembly 10 may be fitted to any one of the fitting portions 202, for example, the number of the fitting portions 202 provided in the fitting space 201 may be equal to or greater than the number of the support assemblies 10, and each support assembly 10 may be detachably fitted to any one of the fitting portions 202, whereby it is possible to facilitate selective fitting of the support assemblies 10, and it is possible to improve the convenience of operation.

In some specific examples, the outer surface of the opposite side plates of the support member 1 of each support assembly 10 may be provided with four sliding plates 2, the four sliding plates 2 may define two sliding grooves 21, and the support assembly 10 having the two sliding grooves 21 may be provided with an air treatment member of a corresponding thickness. At this time, each air module has the same height, and each support assembly 10 can be fitted to any adjacent two of the mounting portions 202, whereby selective mounting of the support assemblies 10 can be facilitated, and the convenience of operation can be improved.

Of course, each support assembly 10 with the same height may also have three sliding grooves 21, four sliding grooves 21, five sliding grooves 21, six sliding grooves 21, and so on, which will not be described in detail herein.

In some embodiments of the present invention, a plurality of mounting portions 202 are disposed in the mounting space 201 at regular intervals; the support members 10 are plural, at least a portion of the support members 10 have a height greater than the remaining portion of the support members 10, and at least a portion of the support members 10 are removably engaged with any adjacent plurality of the mounting portions 202. In some specific examples, the outer surface of the opposite side plates of the support member 1 of at least a part of the support assembly 10 may be provided with four sliding plates 2, the four sliding plates 2 may define two sliding grooves 21, and the support assembly 10 having the two sliding grooves 21 may be provided with an air treatment member of a corresponding thickness; the outer surface of the opposite side plate of the support member 1 of the other part of the support assembly 10 may be provided with two sliding plates 2, the two sliding plates 2 may define one sliding slot 21, and the support assembly 10 having one sliding slot 21 may be provided with an air treatment member of a corresponding thickness. The height of the support assembly 10 having two slide grooves 21 is higher than the height of the support assembly 10 having one slide groove 21.

In other specific examples, the outer surface of the opposite side plates of the support member 1 of at least a portion of the support assembly 10 may be provided with eight sliding plates 2, the eight sliding plates 2 may define four sliding grooves 21, and the support assembly 10 having the four sliding grooves 21 may be provided with an air treatment member of a corresponding thickness; the outer surfaces of the opposite side plates of the support member 1 of the other part of the support assembly 10 may be provided with four sliding plates 2, the four sliding plates 2 may define two sliding grooves 21, and the support assembly 10 having the two sliding grooves 21 may be provided with an air treatment member of a corresponding thickness. The height of the support assembly 10 having four slide grooves 21 is higher than the height of the support assembly 10 having two slide grooves 21.

Here, the number of the sliding grooves 21 of at least one part of the supporting assemblies 10 is not limited, and the number of the sliding grooves 21 of the other part of the supporting assemblies 10 is smaller than the number of the sliding grooves 21 of at least one part of the supporting assemblies 10, which is not described in detail herein.

At least a portion of the support member 10 is detachably engaged with any adjacent plurality of the mounting portions 202, whereby selective mounting of the support member 10 can be facilitated, and the convenience of operation can be improved.

In some embodiments of the utility model, as shown in fig. 2, the slot widths of the sliding slots 21 of the opposite side walls of the support 1 are different. The slot width here can be understood as the distance H between the two sliding plates 2 defining the sliding slot 21, whereby different slot widths can be matched with the mounting portions 202 of the corresponding sides in the housing 200, so that the support member 1 can be prevented from being mounted incorrectly.

As shown in fig. 7 to 8, an air conditioner 10000 according to an embodiment of the present invention includes a cabinet 2000 and an air processing apparatus 1000 as described above.

According to the air conditioner 10000 of the embodiment of the utility model, a plurality of first protrusions 22 arranged at intervals are arranged on the side wall of the sliding chute 21 through at least one sliding plate 2, and the first protrusions 22 are in sliding fit with the mounting part 202. The first protrusions 22 are arranged such that the mounting portion 202 does not need to be in contact fit with the sliding plate 2, and the contact area of the plurality of first protrusions 22 with the mounting portion 202 is smaller than the contact area of the sliding plate 2 with the mounting portion 202, whereby the frictional force between the support member 10 and the mounting portion 202 can be reduced, so that the support member 10 can be easily mounted to the housing 200, and at the same time, the support member 10 can be easily taken out of the housing 200. The plurality of first protrusions 22 make the fitting of the mounting portion 202 and the support assembly 10 more stable, and on one hand, the support assembly 10 is not easy to shake when being mounted to the housing 200 or taken out from the housing 200; on the other hand, the supporting assembly 10 and the housing 200 are more uniformly stressed and are convenient to fix.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the utility model. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (19)

1. An air treatment device, comprising:

an air treatment member;

the air flow channel is arranged in the shell and provided with an air inlet and an air outlet;

the supporting component comprises a supporting piece, the supporting piece is provided with an accommodating cavity for accommodating the air processing piece and a ventilation hole communicated with the accommodating cavity, the outer surface of the opposite side plate of the supporting piece is provided with a plurality of sliding plates which are arranged at intervals up and down, the sliding plates limit at least one sliding chute with an insertion opening, and the mounting portion is suitable for being inserted into the sliding chute from the insertion opening and is matched with the sliding chute in a moving mode.

2. An air treatment device according to claim 1, wherein at least one of the sliding plates is provided with a first projection towards a side wall of the chute, the first projection being adapted to slidingly engage with the mounting portion.

3. The air treatment device according to claim 2, wherein the first protrusion is plural, and each of the first protrusions includes a guide surface and a slide engagement surface, the guide surface being located on a side of the slide engagement surface facing the insertion port.

4. An air treatment unit according to claim 2, wherein the first projections are provided on two opposite sliding plates of each chute.

5. An air treatment device according to claim 2, wherein the outer surface of the support member is further provided with a second projection located within the chute, the second projection being in sliding engagement with the housing or the mounting portion.

6. The air treatment device according to claim 5, wherein a plurality of the second protrusions are provided corresponding to each of the slide grooves, and the plurality of the second protrusions are provided at intervals along a length direction of the slide groove.

7. The air treatment device of claim 5, wherein the second protrusion has a contact surface that is a planar structure that is in surface contact with the housing or the mounting portion.

8. The air treatment device of claim 1, wherein the support member is provided with a pull on a side thereof remote from the insertion opening, the pull being provided with a mounting groove for receiving a sealing member.

9. An air treatment device as claimed in claim 8, wherein a locating member is provided in the mounting slot, the locating member cooperating with the sealing member to locate the sealing member.

10. The air treatment device of claim 1, wherein a bottom wall of the receiving cavity is formed in a grid-like shape to define the vent hole.

11. The air treatment device of claim 1, wherein an installation space is provided in the air flow passage, and an installation portion is provided on a side wall of the installation space, and the installation portion is engaged with the sliding groove so that the support assembly is slidably provided in the installation space.

12. The air treatment device of claim 1, wherein the mounting portion includes two spaced apart first ribs and a transition rib connected at ends of the two first ribs facing the insertion opening.

13. The air treatment device of claim 12, wherein the transition rib comprises two guide ribs and a connecting rib, one end of each of the two guide ribs is smoothly connected with the two spaced first ribs, the connecting rib is connected between the other ends of the two guide ribs, and the length of the connecting rib is smaller than the distance between the two first ribs.

14. The air treatment device of claim 12, wherein the two first ribs and the transition rib of the mounting portion enclose a ring shape, a filling portion is arranged in the ring shape, and the filling portion, the two ribs and the transition rib are integrally formed.

15. The air treatment device of claim 1, wherein the mounting portion is a solid projection extending in a direction that is coincident with a direction of extension of the sliding plate.

16. An air treatment device according to claim 11, wherein a plurality of mounting portions are provided in the mounting space at regular intervals;

the supporting component is a plurality of, and is a plurality of supporting component's height is the same, every supporting component detachably with arbitrary installation department cooperation.

17. An air treatment device according to claim 11, wherein a plurality of mounting portions are provided in the mounting space at regular intervals;

the supporting assembly is a plurality of, and at least some supporting assembly's height is greater than the rest supporting assembly's height, at least some supporting assembly detachably with arbitrary adjacent a plurality of the installation department cooperation.

18. An air treatment device according to any of claims 1-17, characterized in that the groove widths of the runners of opposite side walls of the support are different.

19. An air conditioner comprising a cabinet and an air treatment device according to any one of claims 1 to 18, the air treatment device being provided in the cabinet.

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