CN216769604U - Wall-mounted air conditioner - Google Patents

Abstract

The application provides a wall-mounted air conditioner, relates to air conditioner technical field. In the wall-mounted air conditioner of this application, air conditioner main part, humidification module set up in the main casing mutually independently, do not have direct fixed connection relation between the two, consequently, when the installation, can divide successively to hang and establish air conditioner main part and humidification module, the installation of the two does not influence each other. The humidifying module can be horizontally close to the wall surface, so that the ventilating pipe can be smoothly inserted into the pipe hole, and then the humidifying module is hung on the wall surface. Finally, the main shell is covered on the outer sides of the air conditioner main body and the humidifying module, and installation is completed. Therefore, the wall-mounted air conditioner provided by the application can avoid the interference problem of the ventilation pipe during installation, and is easier to install. In addition, the wall-mounted air conditioner adopts a main shell to cover the humidifying module and the air conditioner main body, so that the outer surface of the air conditioner is stronger in integrity, and the wall-mounted air conditioner is more attractive while being stable in structure.

Description

Wall-mounted air conditioner

Technical Field

The application relates to the technical field of air conditioners, in particular to a wall-mounted air conditioner.

Background

In the existing wall-mounted air conditioner with the humidifying function, a humidifying module is usually fixedly connected with an air conditioner main body, and when the humidifying module and the air conditioner main body are installed, the humidifying module and the air conditioner main body are hung on a wall together. However, in the conventional air conditioner installation habit, the ventilation pipe of the humidification module is easily interfered with the wall surface, or an installer is interfered with the operation on the back side of the air conditioner main body, so that the wall-mounted air conditioner with the humidification function is inconvenient to install.

SUMMERY OF THE UTILITY MODEL

The problem that how to improve among the prior art wall-hanging air conditioner that possesses the humidification function and have inconvenient problem when the installation is solved of this application.

In order to solve the above problems, the present application provides a wall-mounted air conditioner, including an air conditioner main body, a humidification module and a main housing, wherein the humidification module is used for humidifying the indoor air, and the air conditioner main body is used for adjusting the indoor temperature; the air conditioner main body and the humidification module are mutually independently arranged in the main shell, the main shell forms an opening on the back side of the wall-mounted air conditioner, the humidification module comprises a ventilation pipe extending out of the opening, and the ventilation pipe is used for being communicated with the outside.

In this application embodiment, air conditioner main part, humidification module set up in the main casing mutually independently, do not have direct fixed connection relation between the two, consequently, when the installation, can divide to hang successively and establish air conditioner main part and humidification module, the installation of the two does not influence each other. Moreover, in traditional installation custom, often hang the top edge of air conditioner main part in the wall earlier to can wind the top edge upset, make installer can lift the air conditioner main part, and install, debug the operation at its dorsal part, put down the lower limb of air conditioner main part after the operation is accomplished, make the dorsal part of air conditioner main part and wall laminating. If the humidifying device and the air conditioner main body are integrally installed in the process, when the humidifying module rotates downwards to be close to a wall surface, the ventilating pipe on the back side of the humidifying module is not easily and smoothly inserted into the pipe hole (pre-arranged on the wall surface) with the pipe diameter equivalent to that of the pipe hole, and the ventilating pipe is easy to interfere with the wall surface due to the rotation process from inclination to straightness. However, the wall-mounted air conditioner according to the embodiment of the present application may be installed with the air conditioner main body and the humidification module separately, the air conditioner main body may be installed in the above manner, and the humidification module may be horizontally close to a wall surface, so that the ventilation pipe is smoothly inserted into the pipe hole, and then the humidification module is hung on the wall surface. And finally, covering the main shell outside the air conditioner main body and the humidifying module to finish installation. Therefore, the wall-mounted air conditioner provided by the embodiment of the application can avoid the interference problem of the ventilation pipe during installation and is easier to install. In addition, the wall-mounted air conditioner that this application embodiment provided has adopted a main casing body to cover and has established humidification module and air conditioner main part for the surface wholeness of air conditioner is stronger, and also more pleasing to the eye when stable in structure.

In an optional embodiment, the humidification module includes a humidification piece, the ventilation pipe includes an air inlet pipe and an air outlet pipe, the air inlet pipe and the air outlet pipe are used for communicating outdoors, a first air path can be formed in the humidification module, the first air path enters the humidification module through the air inlet pipe and is sent out of the humidification module through the air outlet pipe, the humidification module can form a second air path sent out indoors, the first air path and the second air path both pass through the humidification piece, and the humidification piece is used for absorbing moisture in the first air path and providing moisture to the second air path. In this embodiment, the moisture supplied to the second air passage by the humidifying element is from the first air passage, that is, from the moisture in the outdoor air, and this humidifying module can realize the "no-water humidifying" function without adding water to the user.

In an optional embodiment, the humidification module further includes a heating member for heating the air flow of the second air path. The heating member can heat the airflow of the second air path, and the air with higher temperature has higher saturated vapor pressure, so that the heated second air path can carry away more moisture on the humidifying member.

In an alternative embodiment, the humidification module includes a first fan and a second fan, the first fan is used for forming a first air path, and the second fan is used for forming a second air path. In this embodiment, two fans are respectively adopted to form the first air path and the second air path, so that the first air path and the second air path are controlled relatively independently, the control flexibility is increased, and the requirements of users can be better met.

In an optional embodiment, the humidification module further includes a driving element, the driving element is used for driving the humidification element to rotate, the humidification module has a moisture absorption area and a moisture desorption area therein, a part of the humidification element is located in the moisture absorption area, another part of the humidification element is located in the moisture desorption area, the first air path passes through a part of the humidification element located in the moisture absorption area, and the second air path passes through a part of the humidification element located in the moisture desorption area. In this embodiment, the humidifying element can rotate, and the first air path and the second air path penetrate through different positions of the humidifying element, so that the first air path and the second air path can operate simultaneously, the first air path provides moisture for the humidifying element, and the second air path takes away moisture from the humidifying element, thereby improving the humidifying efficiency.

In an optional embodiment, the humidification module has a humidification air inlet and a humidification air outlet, both the humidification air inlet and the humidification air outlet are used for being communicated with the indoor space, and the second air path enters from the humidification air inlet and is sent out from the humidification air outlet. In this embodiment, the humidifying module takes away moisture on the humidifying element by using indoor air, so that the main body of the humid air flow (except the moisture obtained from the humidifying element) blown to the user comes from the indoor space, and no air exchange exists between the indoor space and the outdoor space, thereby preventing poor quality external air from being introduced into the indoor space under the condition of bad outdoor environment.

In an optional embodiment, the main casing is provided with a main air outlet and a humidifying port, the main air outlet is used for supplying air to the room by the air conditioner main body, and the humidifying port is used for supplying humid air to the room by the humidifying module.

In an alternative embodiment, the humidifying module is arranged side by side in the lateral direction with the air conditioner main body.

In an optional embodiment, the wall-mounted air conditioner further includes a hanging plate, the air conditioner main body and the humidification module are both hung on the hanging plate, and the hanging plate is located on one side of the main housing, where the opening is formed. Usually, fix the link plate on the wall earlier, hang air conditioner main part and humidification module and establish on the link plate again, be convenient for like this air conditioner main part and humidification module's fixed.

In an optional embodiment, the hanging plate is provided with a window for the ventilation pipe to pass through. Through seting up the window for the link plate can have great area, also can not produce the interference to the ventilation pipe when the steadiness is strengthened.

Drawings

Fig. 1 is a view illustrating an installation manner of a conventional wall-mounted type air conditioner;

FIG. 2 is a schematic view of a wall-mounted air conditioner according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a wall-mounted air conditioner according to an embodiment of the present application, prior to installation of the main housing;

FIG. 4 is an exploded view of an attack-aiding wall-mounted air conditioner according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a humidification module in an embodiment of the present application;

FIG. 6 is a schematic view illustrating an embodiment of the present disclosure in which the air conditioner main body is lifted and the humidifying device is attached to a wall;

fig. 7 is a schematic view of a humidifying module separately installed in an embodiment of the present application.

Description of reference numerals: 1' -an air conditioner; 2' -a wall body; 3' -a pad; 010-wall mounted air conditioners; 020-wall body; 100-air conditioner main body; 200-a humidifying module; 201-moisture absorption zone; 202-a dehumidification zone; 210-a humidifying element; 220-an air inlet pipe; 230-air outlet pipe; 240-heating element; 250-a first fan; 260-a second fan; 300-a main housing; 400-hanging the board; 410-window.

Detailed Description

Fig. 1 shows an installation manner of a conventional wall-mounted air conditioner 1'. As shown in fig. 1, when a wall-mounted air conditioner 1 ' is installed, it is a common practice to hang the upper edge of the air conditioner 1 ' on a wall 2 ' (or a hanging plate on a wall surface), and then lift the air conditioner 1 ' upward with the upper edge as a rotation axis, so as to perform installation and debugging operations on the back side of the air conditioner 1 '. Of course, the pad 3 ' may be abutted between the back side of the air conditioner 1 ' and the wall surface during the work, so that the air conditioner 1 ' is maintained in the lifted state. After the installation of the back side of the air conditioner 1 ' by the installer is completed, the pad 3 ' is taken away, the air conditioner 1 ' is put down, and the back side of the air conditioner is attached to the wall surface. However, when the wall-mounted air conditioner 1' having the humidifying function is installed, if the installation method is adopted, the following problems may occur:

the humidifying module is often fixedly connected with the air conditioner main body, the back side of the humidifying module is often provided with a convex ventilating pipe, and the ventilating pipe needs to be inserted into a pipe hole which is arranged on the wall body 2' in advance and is communicated with the outside. The ventilation pipe protrudes from the back side, which may interfere with an installer itself, and is not easily inserted into the pipe hole smoothly in a process of putting down the whole air conditioner 1 'after the installation work of the back side of the air conditioner 1' is completed. Because the process that the ventilation pipe rotates from inclination to straight exists in the process that the humidifying module rotates and is attached to the wall surface, if the pipe hole is equal to the pipe diameter of the ventilation pipe, the wall body 2' is easy to interfere with the ventilation pipe, and the ventilation pipe cannot be inserted. In order to solve this problem, some approaches accommodate the ventilation pipe as much as possible in the main body of the humidification module, i.e., the ventilation pipe is not inserted into or is inserted into the pipe hole as little as possible, which results in that the humidification module needs to accommodate at least a part of the length of the ventilation pipe, and the thickness of the humidification module after being mounted on the wall surface is significantly increased (it is understood that inserting the ventilation pipe into the wall body 2' as much as possible can reduce the thickness of the humidification module on the indoor side of the wall surface). In some methods, the diameter of the ventilation pipe is obviously smaller than that of the pipe hole, so that the ventilation pipe can be smoothly inserted into the pipe hole even if the humidifying module rotates downwards, but the method increases the cost for opening the pipe hole (the pipe hole needs to be opened larger), or reduces the diameter of the ventilation pipe, so that the humidifying function is limited.

In order to solve the problem that the humidifying module is inconvenient to mount in the prior art, the embodiment of the application provides a wall-mounted air conditioner with a humidifying function, wherein the humidifying module and an air conditioner main body are in a split design and can be independently mounted in sequence, so that the humidifying module can be horizontally close to a wall surface and a ventilating pipe is inserted into a pipe hole with the same pipe diameter instead of being mounted according to the mounting mode of the air conditioner 1' shown in fig. 1. Therefore, the size of the humidifying module is ensured to be small, and meanwhile, the humidifying performance is not influenced.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below.

Fig. 2 is a schematic diagram of a wall-mounted air conditioner 010 mounted on a wall 020 according to an embodiment of the present invention; fig. 3 is a schematic view of a wall-mounted air conditioner 010 before a main housing 300 is installed according to an embodiment of the present invention; fig. 4 is an exploded view of an attack-aiding wall-mounted air conditioner according to an embodiment of the present disclosure. As shown in fig. 2 to 4, a wall-mounted air conditioner 010 according to an embodiment of the present invention includes an air conditioner main body 100, a humidifying module 200, and a main housing 300, and in this embodiment, the humidifying module 200 is laterally arranged side by side with the air conditioner main body 100. In order to facilitate the installation of the air conditioner main body 100 and the humidification module 200 on the wall 020, the wall-mounted air conditioner 010 may further include a hanging plate 400, the hanging plate 400 is used to be fixed on the wall 020, and the air conditioner main body 100 and the humidification module 200 are hung on the hanging plate 400. In some alternative embodiments, the wall-mounted air conditioner 010 may not include the hanging plate 400, but may be directly hung on the wall 020.

In the present embodiment, the humidifying module 200 is used to humidify the room, and the air conditioner main body 100 is used to adjust the room temperature. The air conditioner main body 100 and the humidification module 200 are independently provided in the main housing 300, the main housing 300 forms an opening at a back side of the wall-mounted air conditioner 010, and the humidification module 200 includes a ventilation pipe protruding from the opening for communicating with the outside. In this embodiment, the main housing 300 is of an integrated design, that is, the portion covering the outside of the air conditioner main body 100 and the portion covering the outside of the humidifying module 200 are integrally formed, but of course, in alternative embodiments, the two portions may be fixedly connected by fasteners, or by welding, bonding, or the like. The front side of the main housing 300 in the embodiment of the present application has a relatively flat surface, and there is no apparent boundary in the shape between the portion covering the outside of the air conditioner main body 100 and the portion covering the outside of the humidifying module 200, so the integrity is better in the visual sense, and the appearance is more beautiful. And the integrated main housing 300 has better structural stability.

In the embodiment of the present application, the humidification module 200 and the air conditioner main body 100 are independent from each other, which means that the humidification module 200 and the air conditioner main body 100 are not directly and fixedly connected to each other, and a connection structure is not adopted to keep the relative position relationship unchanged, for example, in fig. 6, when the humidification module 200 is fixed, the air conditioner main body 100 can be lifted up separately.

In the present embodiment, the opening of the main housing 300 is located on the back side of the wall-mounted air conditioner 010, and it should be understood that the back side of the wall-mounted air conditioner 010 is opposite to the front side, the back side faces a wall 020 on which the air conditioner is installed, and the front side faces away from the wall 020. When the main housing 300 is installed, the opening of the main housing 300 may be horizontally directed to the wall 020, and then close to the wall 020 and fixed to the wall 020, so as to cover the air conditioner main body 100 and the humidification module 200 in the main housing 300.

In this embodiment, the main casing 300 is provided with a main air outlet for blowing air from the air conditioner main body 100 to the room, and a humidifying port (not shown) for blowing humidified air from the humidifying module 200 to the room. The main exhaust port and the humidifying port can be closed or opened through the controllable door plate, and when the humidifying and air conditioning functions are not used, the door plate closes the main exhaust port and the humidifying port to avoid sundries from entering and keep the appearance of the air conditioner attractive.

Fig. 5 is a schematic diagram of a humidification module 200 according to an embodiment of the present disclosure. As shown in fig. 5, the humidification module 200 includes a humidification element 210, the ventilation pipe includes an air inlet pipe 220 and an air outlet pipe 230, the air inlet pipe 220 and the air outlet pipe 230 are both used for communicating outdoors, a first air path can be formed in the humidification module 200, the first air path enters the humidification module 200 through the air inlet pipe 220 and is sent out of the humidification module 200 through the air outlet pipe 230, the humidification module 200 can form a second air path sent out indoors, the first air path and the second air path both pass through the humidification element 210, and the humidification element 210 is used for absorbing moisture in the first air path and providing moisture to the second air path. As shown in fig. 5, the air inlet pipe 220 and the air outlet pipe 230 are inserted into the pipe holes in the wall 020, so as to communicate with the external environment. It is necessary to keep the air inlet duct 220 and the air outlet duct at a certain length for guiding the air, and if the air inlet duct 220 and the air outlet duct are not inserted into the wall 020, the humidifying module 200 is required to be integrally moved toward the indoor side, which may increase the thickness of the indoor side portion of the air conditioner, and of course, in alternative embodiments, the air inlet duct 220 and the air outlet duct may be configured to be retractable. In fig. 5, the path represented by the solid arrow L1 is the path of the first air passage, and the path represented by the solid arrow L2 is the path of the second air passage. As can be seen, in the present embodiment, the first air path is "outdoor-outdoor", the second air path is "indoor-indoor", the moisture provided by the humidifying element 210 to the second air path is from the first air path, that is, from the moisture in the outdoor air, and the humidifying module 200 does not require a user to add water, and can achieve the "no-water humidifying" function.

In this embodiment, since the second air path is "indoor-indoor", the humidification module 200 has a humidification air inlet and a humidification air outlet (not shown in the figure), both the humidification air inlet and the humidification air outlet are used for communicating with the indoor, and the second air path enters from the humidification air inlet and exits from the humidification air outlet. The humidifying air outlet delivers a humidified air flow to the user, which should be in corresponding communication with the humidifying port on the main housing 300. The main housing 300 may have another opening corresponding to the humidifying air inlet, or the humidifying opening of the main housing 300 may be large enough to expose the humidifying air inlet and the humidifying air outlet. In this embodiment, the humidifying module 200 uses the indoor air to carry away the moisture on the humidifying element 210, so that the main body of the humid air flow (except the moisture obtained from the humidifying element 210) blown to the user comes from the indoor, and there is no air exchange between the indoor and the outdoor, which can avoid introducing poor quality outside air into the indoor under the harsh outdoor environment.

Of course, in other alternative embodiments, the second air path may be introduced from the outside, which is equivalent to introducing fresh air from the outside to take away the moisture on the humidifying element 210 and send the moisture to the inside. In this case, then, the back side of the humidification module 200 may need to be provided with three ventilation ducts.

In this embodiment, the humidifying module 200 further includes a heating member 240, and the heating member 240 is used for heating the air flow of the second air path. The heating member 240 can heat the air flow in the second air path, and the higher temperature air has a higher saturated vapor pressure, so that the heated second air path can carry away more moisture on the humidifying member 210. The heating member 240 may include a heating wire or the like to perform electric heating. Of course, in other alternative embodiments, the heating element 240 may be omitted, for example, the heat exchanger in the air conditioner main body 100 may be used to heat the airflow in the second air path, or the air in the second air path is the air heated by the heat exchanger in the air conditioner main body 100.

As shown in fig. 5, the humidification module 200 includes a first fan 250 and a second fan 260, where the first fan 250 is configured to form a first air path, and the second fan 260 is configured to form a second air path. In this embodiment, two fans are respectively adopted to form the first air path and the second air path, so that the first air path and the second air path are controlled relatively independently, the control flexibility is increased, and the requirements of users can be better met. In fig. 5, the left side of the wall 020 corresponds to the outdoors, and the right side of the wall 020 corresponds to the indoors.

Further, the humidification module 200 further includes a driving element (not shown in the drawings), the driving element is used for driving the humidification element 210 to rotate, the humidification module 200 has a moisture absorption region 201 and a moisture desorption region 202 therein, one part of the humidification element 210 is located in the moisture absorption region 201, the other part is located in the moisture desorption region 202, the first air path passes through the humidification element 210 at the moisture absorption region 201, and the second air path passes through the humidification element 210 at the moisture desorption region 202. A part of the humidifying element 210 absorbs moisture from the first air path at the moisture absorption region 201, and then humidifies the second air path after transferring to the moisture removal region 202. It will be appreciated that the humidifying element 210 is able to spin meaning that its axis of rotation passes through the humidifying element 210 itself. In the embodiment, the humidifying element 210 can rotate, and the first air path and the second air path pass through different positions of the humidifying element 210, so that the first air path and the second air path can operate simultaneously, the first air path provides moisture to the humidifying element 210 in the moisture absorption region 201, and the second air path takes away moisture from the humidifying element 210 in the moisture removal region 202, thereby improving the humidifying efficiency. The humidifying element 210 may be designed in a disc shape, which is made of a material selected to absorb moisture and to be dehumidified under certain conditions (see the prior art). In other optional embodiments, the humidifying element 210 may also be non-rotatable, and the paths of the first air path and the second air path may overlap, that is, pass through the same area of the humidifying element 210, in this arrangement, the first air path and the second air path may operate sequentially, for example, the first air path is used to provide moisture for the humidifying element 210, and then the second air path is used to obtain moisture from the humidifying element 210.

It should be understood that the humidifying module 200 may be provided with a housing that accommodates the components of the humidifying module 200 other than the vent tubes, and that the housing of the humidifying module 200 may be fitted to the wall 020 or the hanging plate 400 when installed in place.

In the embodiment of the present application, the air conditioner main body 100 should include basic components capable of implementing an air temperature adjusting function, such as an air outlet assembly, a heat exchanger, and the like, and the specific structure may refer to an existing air conditioner, which is not described herein again.

In the embodiment of the present application, the air conditioner main body 100 and the humidification module 200 are independently disposed in the main housing 300, and there is no direct fixed connection relationship between the two, so that the air conditioner main body 100 and the humidification module 200 can be sequentially hung during installation, and the installation processes of the two do not affect each other. Fig. 6 is a schematic view illustrating the air conditioner main body 100 lifted and the humidifying device attached to the wall 020 according to an embodiment of the present application. As shown in fig. 6, since the air conditioner main body 100 and the humidifying module 200 are independent from each other and have no direct connection relationship, the air conditioner main body 100 can be lifted up alone to perform debugging work on the back side thereof, and the air conditioner main body 100 can be put down to be attached to the wall 020 after the completion of the debugging work. It has been clarified that the humidifying module 200 has a problem that the ventilating duct (including the air inlet duct 220 and the air outlet duct 230) interferes with the wall 020 in such a mounting manner, and thus, when the humidifying device is mounted, the mounting can be performed in a manner as shown in fig. 7. Fig. 7 is a schematic view illustrating a humidifying module 200 separately installed in an embodiment of the present invention, and as shown in fig. 7, the humidifying module 200 may be horizontally close to a wall surface, so that a ventilation pipe is smoothly inserted into a pipe hole, and then the humidifying module 200 is hung on the wall surface or a hanging plate 400. The mode can ensure that the vent pipe is directly inserted into the pipe hole of the wall body 020, the pipe hole is obviously thicker than the vent pipe without arrangement, and the plug-in of the vent pipe can be realized by the equal pipe diameter. After the air conditioner main body 100 and the humidifying module 200 are mounted, the main housing 300 is covered outside the air conditioner main body 100 and the humidifying module 200, and the wall-mounted air conditioner 010 is mounted. Therefore, the wall-mounted air conditioner 010 provided by the embodiment of the application can avoid the interference problem of the ventilation pipe during installation, and is easier to install.

The hanging plate 400 is located at one side of the main housing 300 having an opening, particularly for fixing to a wall surface. Generally, the hanging plate 400 is fixed on a wall surface, and then the air conditioner main body 100 and the humidifying module 200 are hung on the hanging plate 400, so that the air conditioner main body 100 and the humidifying module 200 are fixed conveniently. In this embodiment, the hanging plate 400 is provided with a window 410, and the window 410 is used for the ventilation pipe to pass through. By arranging the window 410, the hanging plate 400 can have a large area, and interference on the ventilation pipe is avoided while the stability is enhanced.

In summary, in the wall-mounted air conditioner 010 of the embodiment of the present application, the air conditioner main body 100 and the humidification module 200 are independently installed in the main housing 300, and there is no direct fixed connection relationship between the air conditioner main body 100 and the humidification module 200, so that the air conditioner main body 100 and the humidification module 200 can be sequentially hung during installation, and the installation processes of the two do not affect each other. The humidification module 200 may be horizontally close to a wall surface, so that the ventilation pipe is smoothly inserted into the pipe hole, and then the humidification module 200 is hung on the wall surface. Finally, the main housing 300 is covered outside the air conditioner main body 100 and the humidifying module 200, and the installation is completed. Therefore, the wall-mounted air conditioner 010 provided by the embodiment of the application can avoid the interference problem of the ventilation pipe during installation, and is easier to install. In addition, the wall-mounted air conditioner 010 provided by the embodiment of the application adopts the main housing 300 to cover the humidifying module 200 and the air conditioner main body 100, so that the outer surface integrity of the air conditioner is stronger, and the structure is stable and more attractive.

While the present application is disclosed above, the present application is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present disclosure, and it is intended that the scope of the present disclosure be defined by the appended claims.

Claims (10)

1. A wall-mounted air conditioner is characterized by comprising an air conditioner main body (100), a humidifying module (200) and a main shell (300), wherein the humidifying module (200) is used for humidifying the indoor space, and the air conditioner main body (100) is used for adjusting the indoor temperature; the air conditioner main body (100), humidification module (200) set up independently each other in main casing (300), main casing (300) is in the dorsal side formation opening of wall-hanging air conditioner (010), humidification module (200) includes the ventilation pipe, the ventilation pipe is used for stretching out and communicates with outdoor from the opening.

2. The wall-mounted air conditioner according to claim 1, wherein the humidifying module (200) comprises a humidifying element (210), the ventilating duct comprises an air inlet pipe (220) and an air outlet pipe (230), the air inlet pipe (220) and the air outlet pipe (230) are both used for communicating outdoors, a first air path can be formed in the humidifying module (200), the first air path enters the humidifying module (200) through the air inlet pipe (220) and is sent out of the humidifying module (200) through the air outlet pipe (230), the humidifying module (200) can form a second air path sent indoors, the first air path and the second air path both pass through the humidifying element (210), and the humidifying element (210) is used for absorbing moisture in the first air path and providing moisture to the second air path.

3. The wall-mounted air conditioner according to claim 2, wherein the humidifying module (200) further comprises a heating member (240), and the heating member (240) is used for heating the air flow of the second air path.

4. The wall hanging air conditioner according to claim 2, wherein the humidifying module (200) comprises a first fan (250) and a second fan (260), the first fan (250) being configured to form the first air path, and the second fan (260) being configured to form the second air path.

5. The wall-mounted air conditioner according to claim 2, wherein the humidifying module (200) further comprises a driving member for driving the humidifying element (210) to rotate, the humidifying module (200) has a moisture absorption region (201) and a moisture desorption region (202) therein, one part of the humidifying element (210) is located in the moisture absorption region (201), the other part of the humidifying element is located in the moisture desorption region (202), the first air path passes through a part of the humidifying element (210) located in the moisture absorption region (201), and the second air path passes through a part of the humidifying element (210) located in the moisture desorption region (202).

6. The wall-mounted air conditioner according to claim 2, wherein the humidifying module (200) has a humidifying air inlet and a humidifying air outlet, the humidifying air inlet and the humidifying air outlet are both used for being communicated with the indoor space, and the second air path enters from the humidifying air inlet and is sent out from the humidifying air outlet.

7. The wall-mounted air conditioner according to any one of claims 1 to 6, wherein the main housing (300) is provided with a main air outlet for blowing the air conditioner main body (100) indoors and a humidifying port for blowing humid air into the room by the humidifying module (200).

8. The wall-mounted air conditioner according to any one of claims 1 to 6, wherein the humidifying module (200) is laterally arranged side by side with the air conditioner main body (100).

9. The wall-mounted air conditioner according to any one of claims 1 to 6, wherein the wall-mounted air conditioner (010) further comprises a hanging plate (400), the air conditioner main body (100) and the humidifying module (200) are hung on the hanging plate (400), and the hanging plate (400) is located on one side of the main housing (300) having the opening.

10. The wall-mounted air conditioner according to claim 9, wherein the hanging plate (400) is provided with a window (410), and the window (410) is used for the ventilation pipe to pass through.

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