Humidifying module, humidifier and humidifying purifier

Abstract

This application relates to the field of air purifier technology, providing a humidification module, a humidifier, and a humidifying air purifier. The humidification module includes: a base; a linkage component installed in a mounting cavity within the base; a humidification component connected to the linkage component, with its first end located within the mounting cavity; and a water tank switchable between a separated state and an installed state relative to the mounting cavity. During the process of switching from the separated state to the installed state, the water tank moves in a first direction, and the first end of the humidification component moves in a third direction relative to the mounting cavity and is located within the water tank. During the process of switching from the installed state to the separated state, the water tank moves in a second direction, and the linkage component drives the first end of the humidification component to move in a fourth direction relative to the mounting cavity and detach from the water tank. The humidification module according to the embodiments of this application enables the movement of the humidification component, allows for quick disassembly and assembly of the water tank, facilitates cleaning of the water tank, and improves the convenience of cleaning the humidification module.

Description

Technical Field

[0001] This application relates to the field of air purifier technology, and more particularly to humidification modules, humidifiers, and humidifying air purifiers. Background Technology

[0002] With the rapid development of air purifiers, they are entering more and more homes. People are using air purifiers in more and more scenarios, and their demand for diversified products is increasing, including humidifiers that can meet diverse needs.

[0003] Humidifiers and air purifiers mainly humidify the air through a humidification module. After a certain period of use, the humidification module of the purifier needs to be cleaned. However, the humidification module in related technologies is troublesome to disassemble and is difficult to clean. Summary of the Invention

[0004] This application aims to address at least one of the technical problems existing in the related art. To this end, this application proposes a humidification module that realizes automatic movement of the humidification components, allows for quick disassembly and assembly of the water tank, facilitates cleaning of the water tank, and improves the convenience of cleaning the humidification module.

[0005] This application also proposes a humidifier.

[0006] This application also proposes a humidifier and air purifier.

[0007] According to the first aspect of this application, a humidification module, a humidifier, and a humidifying purifier include:

[0008] Base;

[0009] The linkage component is installed in the mounting cavity within the base;

[0010] A humidification component is connected to the linkage component, and the first end of the humidification component is located in the mounting cavity;

[0011] The water tank can switch between a detached state and an installed state relative to the mounting cavity. During the process of switching the water tank from the detached state to the installed state, the water tank moves in a first direction, and the first end of the humidifying component moves in a third direction relative to the mounting cavity and is located inside the water tank. During the process of switching the water tank from the installed state to the detached state, the water tank moves in a second direction, and the linkage component drives the first end of the humidifying component to move in a fourth direction relative to the mounting cavity and detach from the water tank.

[0012] According to the humidification module of this application embodiment, by switching the water tank from the installed state to the separated state, the water tank is gradually pulled out of the installation cavity. During the process of the water tank being pulled out of the installation cavity, the water tank no longer squeezes the linkage component, allowing the linkage component to recover its deformation and drive the humidification component to move in the fourth direction relative to the installation cavity, so that the humidification component moves away from the water tank, thereby completely pulling the water tank out of the installation cavity without being limited by the humidification component. This achieves automatic movement of the humidification component, allows for quick disassembly and assembly of the water tank, facilitates cleaning of the water tank, and improves the convenience of cleaning the humidification module.

[0013] According to one embodiment of this application, the linkage component includes a reset member and a movable member. The first end of the reset member is installed in the mounting cavity, and the second end of the reset member is connected to the movable member. The humidification component is connected to the movable member. The movable member includes a connecting end and a free end. The connecting end is rotatably connected to the mounting cavity, and the free end is connected to the humidification component. During the process of the water tank switching from the separated state to the installed state, the water tank applies an external force to the movable member, causing the movable member to rotate, which in turn causes the reset member to deform and the humidification component to move closer to the water tank. During the process of the water tank switching from the installed state to the separated state, the water tank removes the external force applied to the movable member, and the reset member returns to its original shape, causing the movable member to move in the opposite direction and the humidification component to move away from the water tank.

[0014] According to one embodiment of this application, the movable component includes a support plate. During the process of the water tank switching from the separated state to the installed state, the water tank abuts against the support plate and compresses the reset component. During the process of the water tank switching from the installed state to the separated state, the reset component drives the support plate to move in the opposite direction.

[0015] According to one embodiment of this application, the movable component includes a rotating bracket, which is rotatably disposed in the mounting cavity, the support plate is fixed to the rotating bracket, and the second end of the reset component is connected to the rotating bracket.

[0016] According to one embodiment of this application, the rotating bracket is provided with a limit block, and the second end of the reset member is fixedly connected to the limit block.

[0017] According to one embodiment of this application, the movable component includes a fixing frame, which is mounted on the rotating bracket and connected to the humidification assembly.

[0018] According to one embodiment of this application, the fixing frame is provided with a hook groove, the hook groove is connected to the humidification component, and the hook groove is used to drive the humidification component to move.

[0019] According to one embodiment of this application, the reset element is any one of a coil spring, a spring, or a torsion spring.

[0020] According to one embodiment of this application, the linkage component includes a fixed base, which is installed in the mounting cavity. The first end of the reset member is connected to the fixed base, and the rotating bracket is connected to the fixed base. The rotating bracket is rotatable relative to the fixed base, and the reset member is located between the rotating bracket and the fixed base.

[0021] According to one embodiment of this application, the humidification module includes at least two interconnected components arranged opposite to each other.

[0022] According to one embodiment of this application, the humidification assembly includes a filter support and a humidification filter, the humidification filter being mounted on the filter support, and the filter support being connected to the movable component.

[0023] According to one embodiment of this application, when the movable member includes a connector, the filter support is provided with a guide groove, and the connector is adapted to move along the guide groove.

[0024] According to one embodiment of this application, the connector is provided with a buckle that matches the guide rail groove, and the buckle engages with the guide rail groove; the guide rail groove includes a snap-fit ​​section and a sliding section connected in sequence, the snap-fit ​​section being closer to the base than the sliding section, wherein, during the process of the water tank switching from the separated state to the installed state, the buckle moves from the snap-fit ​​section to the sliding section, and during the process of the water tank switching from the installed state to the separated state, the buckle moves from the sliding section to the snap-fit ​​section.

[0025] According to one embodiment of this application, the water tank is provided with a notch that matches the humidification component, wherein, during the process of switching the water tank from the separated state to the installed state, the end of the water tank abuts against the linkage component.

[0026] According to one embodiment of this application, the notch is an arc-shaped structure, and in the installed state, the notch is arranged around the outer wall surface of the humidification component.

[0027] According to one embodiment of this application, a support block is provided at the end of the water tank, and during the process of switching the water tank from the separated state to the installed state, the support block abuts against the linkage component.

[0028] According to one embodiment of this application, the humidification module includes a water tank located below the water tank. During the process of switching the water tank from the separated state to the installed state, the first end of the humidification component moves in the third direction and is located in the water tank. During the process of switching the water tank from the installed state to the separated state, the first end of the humidification component moves in the fourth direction and moves away from the water tank.

[0029] According to one embodiment of this application, the water tank and the water container are integrally formed; or, the water tank and the water container are detachably connected.

[0030] According to a second aspect embodiment of the present application, the humidifier is provided with an air inlet and an air outlet. The humidifier includes a power module and the aforementioned humidification module. The power module is installed on the humidification module and is used to draw in external gas from the air inlet and cause the gas to flow through the humidification component and then flow out from the air outlet.

[0031] The humidifier according to the embodiments of this application includes the humidification module described above, and therefore has all the technical effects of the humidification module described above, which will not be described again here.

[0032] The humidifier and air purifier according to a third aspect of this application includes the humidification module described above.

[0033] The humidifier and air purifier according to the embodiments of this application includes the humidification module described above, and therefore has all the technical effects of the humidification module described above, which will not be described again here.

[0034] According to one embodiment of this application, the humidifier purifier is provided with an air inlet and an air outlet. The humidifier purifier includes a power module and a purification module. The purification module is at least partially arranged around the humidifier module. The power module is used to make outside air flow sequentially through the air inlet, the purification module, the humidifier module and the air outlet.

[0035] According to one embodiment of this application, during the process of the water tank switching from the separated state to the installed state, the first end of the humidification module gradually approaches the water tank, and the area of ​​the purification module surrounding the humidification module gradually decreases. During the process of the water tank switching from the installed state to the separated state, the first end of the humidification module gradually moves away from the water tank, and the area of ​​the purification module surrounding the humidification module gradually increases.

[0036] According to one embodiment of this application, the power module, the purification module, and the humidification module are arranged sequentially from top to bottom along the axial direction.

[0037] According to one embodiment of this application, the power module, the purification module, and the humidification module can all be detachably connected to each other; or

[0038] The power module and the purification module are fixedly connected, and the humidification module is detachably connected to or disconnected from the power module or the purification module.

[0039] Additional aspects and advantages of this application 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 this application. Attached Figure Description

[0040] To more clearly illustrate the technical solutions in the embodiments or related technologies of this application, the accompanying drawings used in the description of the embodiments or related technologies will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0041] Figure 1 This is a schematic diagram of the structure of the humidification module provided in the embodiment of this application;

[0042] Figure 2 This is a schematic diagram of the humidification module provided in an embodiment of this application, wherein the water tank is removed from the mounting cavity;

[0043] Figure 3 This is a schematic diagram of the humidification module provided in an embodiment of this application, wherein the water tank and water trough are both removed from the mounting cavity;

[0044] Figure 4 This is a schematic diagram of the linkage component of the humidification module provided in the embodiments of this application;

[0045] Figure 5 This is one of the exploded structural diagrams of the linkage components of the humidification module provided in the embodiments of this application;

[0046] Figure 6 This is the second exploded view of the linkage component of the humidification module provided in the embodiments of this application;

[0047] Figure 7 This is a schematic diagram of the filter support structure of the humidification module provided in the embodiments of this application;

[0048] Figure 8 This is a schematic diagram of the structure of the connector of the humidification module provided in the embodiment of this application;

[0049] Figure 9 This is a schematic diagram of the structure of the humidifier and air purifier provided in the embodiments of this application;

[0050] Figure 10 This is one of the exploded structural diagrams of the humidifier and air purifier provided in the embodiments of this application;

[0051] Figure 11 This is a cross-sectional view of the humidifier and air purifier provided in the embodiments of this application;

[0052] Figure 12 This is a schematic diagram of the airflow direction of the humidifier and purifier provided in the embodiments of this application;

[0053] Figure 13 This is the second exploded view of the humidifier and air purifier provided in the embodiments of this application;

[0054] Figure 14 This is the third exploded view of the humidifier and air purifier provided in the embodiments of this application;

[0055] Figure label:

[0056] 1. Base; 2. Linkage components; 3. Humidification components; 4. Water tank; 5. Power module;

[0057] 6. Purification module; 11. Mounting cavity; 12. Opening; 20. Reset component; 21. Moving component;

[0058] 22. Fixture base; 23. Fixture frame; 24. Connector; 25. Hook groove; 26. Rotating bracket;

[0059] 27. Limiting block; 28. Support plate; 31. Filter screen bracket; 32. Humidifying filter screen; 33. Guide rail groove;

[0060] 34. Connecting section; 42. Water tank; 43. Notch; 44. Support block; 241. Buckle. Detailed Implementation

[0061] The embodiments of this application will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this application, but should not be used to limit the scope of this application.

[0062] In the description of the embodiments of this application, it should be noted that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the embodiments of this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the embodiments of this application. In addition, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0063] In the description of the embodiments of this application, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this application based on the specific circumstances.

[0064] In the embodiments of this application, unless otherwise expressly specified and limited, "above" or "below" the second feature can mean that the first feature is in direct contact with the second feature, or that the first feature is in indirect contact with the second feature through an intermediate medium. Furthermore, "above," "on top of," and "over" the second feature can mean that the first feature is directly above or diagonally above the second feature, or simply that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature can mean that the first feature is directly below or diagonally below the second feature, or simply that the first feature is at a lower horizontal level than the second feature.

[0065] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., refer to specific features, structures, materials, or characteristics described in connection with that embodiment or example, which are included in at least one embodiment or example of the embodiments of this application. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. Moreover, without contradiction, those skilled in the art can combine and integrate the different embodiments or examples described in this specification, as well as the features of different embodiments or examples.

[0066] The following is combined with Figures 1 to 14 This application describes a humidification module, a humidifier, and a humidifying air purifier. According to embodiments of this application, such as... Figure 1 , Figure 2 , Figure 3 and Figure 13As shown, the humidification module includes a base 1, a linkage component 2, a humidification component 3, and a water tank 4. The linkage component 2 is installed in the mounting cavity 11 inside the base 1. The humidification component 3 is connected to the linkage component 2, and the first end of the humidification component 3 is located in the mounting cavity 11. The water tank 4 can switch between a separated state and an installed state relative to the mounting cavity 11. During the process of switching the water tank 4 from the separated state to the installed state, the water tank 4 moves in a first direction, and the first end of the humidification component 3 moves in a third direction relative to the mounting cavity 11 and is located in the water tank 4. During the process of switching the water tank 4 from the installed state to the separated state, the water tank 4 moves in a second direction, and the linkage component 2 drives the first end of the humidification component 3 to move in a fourth direction relative to the mounting cavity 11 and detach from the water tank 4.

[0067] In use, the water tank 4 is installed inside the mounting cavity 11, placing it in the installed state. At this time, the water tank 4 abuts against the linkage component 2, so the linkage component 2 no longer supports the humidifying component 3. The humidifying component 3 moves relative to the mounting cavity 11 in a third direction, so that its first end is inside the water tank 4. In this state, the humidifying component 3 provides some restraint to the water tank 4, and it comes into contact with the water inside, thus humidifying the air passing through it. When cleaning the water tank 4 is required, an external force is applied to it, causing it to switch from the installed state to the separated state. During this transition, the water tank 4 gradually moves away from the mounting cavity 11. At this point, the water tank 4 no longer abuts against the linkage component 2. As the linkage component 2 returns to its original shape, it moves the humidifying component 3 in a fourth direction, moving it away from the water tank 4. The water tank 4 can now freely enter and exit the mounting cavity 11 without being restricted by the humidifying component 3.

[0068] The humidification module of this application embodiment switches the water tank 4 from the installed state to the separated state, gradually pulling the water tank 4 out of the installation cavity 11. During the process of the water tank 4 being pulled out of the installation cavity 11, the water tank 4 no longer squeezes the linkage component 2, causing the linkage component 2 to recover its deformation and drive the humidification component 3 to move in the fourth direction relative to the installation cavity 11, so that the humidification component 3 moves away from the water tank 4, thereby completely pulling the water tank 4 out of the installation cavity 11 without being limited by the humidification component 3. This realizes the automatic movement of the humidification component 3, allows for quick disassembly and assembly of the water tank 4, facilitates cleaning of the water tank 4, and improves the convenience of cleaning the humidification module.

[0069] In embodiments of this application, the first direction is, for example, the direction of movement of the water tank 4 when it is installed horizontally from the outside into the mounting cavity 11. However, it should be understood that the first direction can also be any other suitable direction, such as the vertical direction.

[0070] In embodiments of this application, the second direction is, for example, the direction of movement of the water tank 4 when it is pulled out of the mounting cavity 11 in a horizontal direction. However, it should be understood that the second direction can also be any other suitable direction, such as a vertical direction.

[0071] In embodiments of this application, the third direction is, for example, vertically downward, and the fourth direction is, for example, vertically upward. However, it should be understood that the third and fourth directions can also be any other suitable directions.

[0072] In one embodiment of this application, such as Figure 1 , Figure 2 and Figure 14 As shown, the side wall of the base 1 has an opening 12 that matches the water tank 4. The water tank 4 can move relative to the mounting cavity 11 through the opening 12, thereby switching between a separated state and an installed state. In use, the water tank 4 is moved into the mounting cavity 11 through the opening 12, so that the water tank 4 is installed in the mounting cavity 11 and in the installed state. The water tank 4 is pulled out from the mounting cavity 11 through the opening 12, so that the water tank 4 is in the separated state. The opening 12 on the side wall of the base 1 allows for a faster switching of the state of the water tank 4, and the side wall opening 12 is more in line with user habits, improving the user experience.

[0073] In the embodiments of this application, the upper surface of the base 1 is provided with a through hole communicating with the mounting cavity 11, and the humidifying component 3 matches the through hole. In use, the first end of the humidifying component 3 can be installed into the mounting cavity 11 through the through hole, and the humidifying component 3 is slidably connected to the through hole, so that the humidifying component 3 can move up and down along the through hole, and so that the humidifying component 3 can move relative to the mounting cavity 11.

[0074] In one embodiment of this application, such as Figure 4 , Figure 5 , Figure 6 and Figure 13As shown, the linkage component 2 includes a reset component 20 and a movable component 21. The first end of the reset component 20 is installed in the mounting cavity 11, and the second end of the reset component 20 is connected to the movable component 21. The humidification component 3 is connected to the movable component 21. The movable component 21 includes a connecting end and a free end. The connecting end is rotatably connected to the mounting cavity 11, and the free end is connected to the humidification component 3. During the process of the water tank 4 switching from the separated state to the installed state, the water tank 4 applies an external force to the movable component 21, causing the movable component 21 to rotate, which in turn causes the reset component 20 to deform and the humidification component 3 to move closer to the water tank 4. During the process of the water tank 4 switching from the installed state to the separated state, the water tank 4 removes the external force applied to the movable component 21, the reset component 20 returns to its original shape, causing the movable component 21 to move in the opposite direction and the humidification component 3 to move away from the water tank 4. In use, the humidifying component 3 and the resetting component 20 are connected by the movable component 21. When the water tank 4 switches from the separated state to the installed state, the water tank 4 moves in the first direction, causing it to come into contact with the movable component 21 and apply an external force to the water tank 4. This causes the movable component 21 to rotate. As the movable component 21 rotates, it causes the resetting component 20 and the humidifying component 3 to move along with it, causing the humidifying component 3 to move in the third direction and be located inside the water tank 4. When the water tank 4 switches from the installed state to the separated state, the water tank 4 moves in the second direction, causing it to disengage from the movable component 21. At this time, the water tank 4 no longer applies an external force to the movable component 21. The resetting component 20 returns to its original shape and simultaneously causes the movable component 21 to rotate in the opposite direction. The movable component 21 then causes the humidifying component 4 to move in the fourth direction, causing the humidifying component 3 to detach from the water tank 4, ensuring that the movement of the water tank 4 is not obstructed by the humidifying component 3. This enables the resetting component 20 and the humidifying component 3 to be connected via the movable component 21, allowing the humidifying component 3 to move in tandem with the water tank 4, and the water tank 4 to quickly switch states.

[0075] In one embodiment of this application, such as Figure 4 , Figure 5 and Figure 6As shown, the movable component 21 includes a support plate 28. During the process of switching the water tank 4 from the separated state to the installed state, the water tank 4 abuts against the support plate 28 and compresses the reset component 20. During the process of switching the water tank 4 from the installed state to the separated state, the reset component 20 drives the support plate 28 to move in the opposite direction. In use, the humidification component 3 and the reset component 20 are connected through the support plate 28. When the water tank 4 switches from the separated state to the installed state, the water tank 4 abuts against the support plate, driving the support plate 28 to move. This causes the support plate 28 to compress the reset component 20 and simultaneously drive the humidification component 3 to move in a third direction, so that the humidification component 3 is located inside the water tank 4. When the water tank 4 is removed from the mounting cavity 11, the water tank 4 loses contact with the support plate 28, causing the reset member 20 to restore its deformation and drive the support plate 28 to move in the opposite direction. This allows the support plate 28 to drive the humidification component 3 to move in the fourth direction, thus moving the humidification component 3 away from the water tank 4. This allows the water tank 4 to be smoothly removed from the mounting cavity 11, making it easier to clean or add water to the water tank 4.

[0076] In one embodiment of this application, such as Figure 4 , Figure 5 and Figure 6 As shown, the movable component 21 includes a rotating bracket 26, which is rotatably disposed within the mounting cavity 11. A support plate 28 is fixed to the rotating bracket 26, and the second end of the reset component 20 is connected to the rotating bracket 26. In use, by rotating the rotating bracket 26, the second end of the reset component 20 rotates, thereby compressing the reset component 20. By installing the support plate 28 on the rotating bracket 26, when the linkage assembly 2 is installed in the mounting cavity 11, the support plate 28 is located on the moving path of the water tank 4. When the water tank 4 switches from the separated state to the installed state, the water tank 4 abuts against the support plate 28, causing the support plate 28 to move. This, in turn, causes the entire linkage assembly 2 to rotate via the support plate 28, making it easier for the water tank 4 to rotate the linkage assembly 2.

[0077] Specifically, the support plate 28 can extend away from the humidification component 3, so that the contact point between the water tank 4 and the support plate 28 can be between the inner wall of the humidification component 3 and the mounting cavity 11, and the movement of the water tank 4 and the support plate 28 will not be affected by the humidification component 3.

[0078] In the embodiments of this application, such as Figure 4 , Figure 5 and Figure 6 As shown, the rotating bracket 26 is provided with a limit block 27, and the second end of the reset member 20 is fixedly connected to the limit block 27. In use, by connecting the reset member 20 and the limit block 27, the rotating bracket 26 and the reset member 20 can rotate synchronously.

[0079] Specifically, the limiting block 27 and the support plate 28 are respectively disposed on both sides of the rotating bracket 26, so that the limiting block 27 and the support plate 28 clamp the reset member 20 in the middle, so that the rotating bracket 26 and the reset member 20 can maintain stable linkage.

[0080] Furthermore, the limiting block 27 is, for example, parallel to the support plate 28. However, it should be understood that the limiting block 27 and the support plate 28 can also be in any other suitable positional relationship.

[0081] The size of the limiting block 27 is, for example, smaller than the size of the support plate 28, that is, the width of the limiting block 27 is smaller than the width of the support plate 28.

[0082] In one embodiment of this application, such as Figure 4 , Figure 5 , Figure 6 and Figure 13 As shown, the movable component 21 includes a fixed frame 23, which is mounted on the rotating bracket 26. The second end of the coil spring is connected to the fixed frame 23, and the humidifying component 3 is connected to the fixed frame 23. In use, in the separated state, the coil spring and the fixed frame 23 are tilted to a certain extent. At this time, the coil spring is in its initial state, that is, no deformation has occurred. When the water tank 4 is switched to the installation state, the water tank 4 is installed in the installation cavity 11. The water tank 4 drives the fixed frame 23 to rotate, and the fixed frame 23 drives the coil spring to rotate, thereby compressing the coil spring. At the same time, the fixed frame 23 drives the humidifying component 3 to move in a third direction and be located inside the water tank 4. When cleaning of the water tank 4 is required, it is gradually pulled out of the mounting cavity 11. During the process of switching the water tank 4 to the separated state, the water tank 4 is no longer in contact with the fixing frame 23. As the coil spring returns to its original deformation, it drives the fixing frame 23 to move. The fixing frame 23 then drives the humidifying component 3 upward, causing the first end of the humidifying component 3 to move away from the water tank 4. Thus, the water tank 4 can be smoothly pulled out of the mounting cavity 11. This achieves a rapid switching between the mounted and separated states of the water tank 4, facilitating its removal from the mounting cavity 11 for cleaning.

[0083] In one embodiment of this application, such as Figure 4 , Figure 5 , Figure 6 and Figure 13 As shown, the mounting bracket 23 is provided with a hook groove 25, which is connected to the humidifying component 3. The hook groove 25 is used to drive the humidifying component 3 to move. In use, the hook groove 25 on the mounting bracket 23 is connected to the humidifying component 3, so that when the hook groove 25 of the mounting bracket 23 rotates, it will drive the humidifying component 3 to move accordingly. This allows for stable linkage between the mounting bracket 23 and the humidifying component 3, and the up-and-down movement of the humidifying component 3 can be controlled by rotating the mounting bracket 23.

[0084] In the embodiments of this application, such as Figure 4 As shown, the rotating bracket 26 is engaged with the fixed bracket 23. In use, the engagement of the rotating bracket 26 and the fixed bracket 23 ensures that the rotating bracket 26 and the fixed bracket 23 rotate synchronously, so that the rotating bracket 26, the fixed bracket 23 and the reset member 20 can maintain stable synchronous rotation.

[0085] In the embodiments of this application, such as Figure 4 , Figure 5 , Figure 6 and Figure 13 As shown, the reset element 20 includes, for example, a coil spring. One end of the coil spring is installed inside the mounting cavity 11, and the other end is connected to the movable element 21. In use, when the water tank 4 moves in a first direction, the movable element 21 abuts against the water tank 4 and moves, causing the coil spring to rotate. Simultaneously, the movable element 21 moves the humidifying assembly 3 in a third direction and positions it inside the water tank 4. When the water tank 4 moves in a second direction, causing the water tank 4 and the movable element 21 to disengage, the movable element 21 is no longer subjected to the force applied by the water tank 4. The coil spring, while restoring its deformation, moves the movable element 21, causing it to move the humidifying assembly 3 in a fourth direction and disengage it from the water tank 4. This allows for control of the up-and-down movement of the humidifying assembly 3. However, it should be understood that the reset element 20 can also be a spring, a torsion spring, or any other suitable elastic element.

[0086] Specifically, during the process of switching the water tank 4 from the installed state to the separated state, the coil spring and the fixing bracket 23 gradually tilt downwards along the direction of movement when the water tank 4 is withdrawn from the installation cavity 11. In the separated state, the tilt angle of the coil spring and the fixing bracket 23 is, for example, any angle between 10° and 90°.

[0087] Specifically, in the installed state, the coil spring and the retaining bracket 23 are perpendicular to each other, for example, the bottom of the mounting cavity 11. However, it should be understood that in the installed state, the coil spring and the retaining bracket 23 can also be tilted.

[0088] In one embodiment of this application, such as Figure 4 , Figure 5 , Figure 6 and Figure 13As shown, the linkage component 2 includes a fixed base 22, which is installed inside the mounting cavity 11. The first end of the reset member 20 is connected to the fixed base 22, and the rotating bracket 26 is connected to the fixed base 22. The rotating bracket 26 can rotate relative to the fixed base 22, and the reset member 20 is located between the rotating bracket 26 and the fixed base 22. In use, the first end of the fixed base 22 is fixedly installed inside the mounting cavity 11, and the second end of the reset member 20 is connected to the fixed frame 23. The fixed base 22 and the rotating bracket 26 clamp the coil spring in the middle to prevent the coil spring from falling off. When the water tank 4 is switched to the installation state, the water tank 4 is installed in the mounting cavity 11. The water tank 4 drives the fixed frame 23 and the reset member 20 to rotate around the fixed base 22 as the origin, thereby compressing the reset member 20. When the water tank 4 is switched to the separation state, the water tank 4 no longer abuts against the fixed frame 23, and the reset member 20, while restoring its deformation, drives the fixed frame 23 to move in the opposite direction.

[0089] The fixing base 22 is installed, for example, on the upper end of the base 1, and is located between the inner wall of the base 1 and the humidifying component 3. In use, the fixing base 22 is installed on the upper end of the base 1, allowing the coil spring and the fixing bracket 23 to rotate with the fixing base 22 as a fulcrum, thus increasing the rotation radius of the coil spring and the fixing bracket 23. However, it should be understood that the fixing base 22 can also be installed in any other suitable location.

[0090] Specifically, the coil spring can be installed between the rotating bracket 26 and the fixed base 22, and the limiting block 27 of the rotating bracket 26 is connected to the second end of the coil spring; the rotating bracket 26 can be rotated around the fixed base 22 as a fulcrum, and the second end of the coil spring can be rotated when the rotating bracket 26 rotates, thereby compressing the coil spring.

[0091] Specifically, by rotating the fixed frame 23, the coil spring can be rotated, which in turn drives the limiting block 27 and the rotating bracket 26 to rotate. This allows the water tank 4 to rotate the rotating bracket 26 or the fixed frame 23, thereby controlling the up-and-down movement of the humidification component 3 and allowing the structure of the water tank 4 to be changed accordingly.

[0092] In the embodiments of this application, the humidification module includes at least two opposing linkage components 2. During use, when the water tank 4 is in the installed state, the water tank 4 simultaneously abuts against both linkage components 2, causing the two linkage components 2 to simultaneously drive the humidification component 3 downwards relative to the mounting cavity 11. During the process of the water tank 4 switching to the separated state, the water tank 4 simultaneously disengages from the two linkage components 2, and the two linkage components 2, while restoring their deformation, drive the humidification component 3 upwards, causing the humidification component 3 to move away from the water tank 4. Furthermore, by providing linkage components 2 on both sides of the humidification component 3, both sides of the humidification component 3 can move up and down simultaneously and stably, avoiding asynchronous movement of the two sides of the humidification component 3.

[0093] In one embodiment of this application, such as Figure 2 and Figure 3 As shown, the humidification assembly 3 includes a filter support 31 and a humidifying filter 32. The humidifying filter 32 is mounted on the filter support 31, and the filter support 31 is connected to the movable component 21. In use, the movable component 21 connects the filter support 31 and the fixed frame 23. When the coil spring and the fixed frame 23 rotate, the filter support 31 moves accordingly. In the separated state, the coil spring and the fixed frame 23 are inclined at a certain angle inside the mounting cavity 11. At this time, the movable component 21 supports the filter support 31, causing the filter support 31 and the humidifying filter 32 to move away from the water tank 4. When the water tank 4 switches to the mounted state, the water tank 4 drives the coil spring and the fixed frame 23 to rotate, causing the movable component 21 to rotate accordingly. After the movable component 21 rotates, it no longer supports the filter support 31. The filter support 31 and the humidifying filter 32 move downward under the action of gravity, so that the first end of the humidifying filter 32 is located inside the water tank 4.

[0094] In the embodiments of this application, such as Figure 3 , Figure 7 , Figure 8 and Figure 13 As shown, when the movable part 21 includes the connector 24, the filter support 31 is provided with a guide rail groove 33, and the connector is adapted to move along the guide rail groove. In use, the buckle 241 of the connector 24 is engaged with the guide rail groove 33, and the connector 24 is stably connected to the filter support 31. When the water tank 4 switches from the separated state to the installed state, the water tank 4 drives the coil spring and the fixing frame 23 to rotate, and the connector 24 rotates accordingly, causing the connector 24 to move from the lowest point of the guide rail groove 33 to the highest point of the guide rail groove 33. At this time, the connector 24 has no supporting force on the filter support 31 and the humidifying filter 32, and the filter support 31 and the humidifying filter 32 move downward into the water tank 4 under the action of gravity. As the water tank 4 switches from the installed state to the separated state, it is gradually pulled out of the installation cavity 11. When the water tank 4 is no longer in contact with the linkage component 2, the compressed coil spring recovers its deformation and drives the fixing frame 23 to rotate, causing the connecting piece 24 to rotate as well. The connecting piece 24 moves from the highest point of the guide rail groove 33 to the lowest point of the guide rail groove 33, causing the filter support 31 to move upward and the humidifying filter 32 to move upward as well. As a result, both the filter support 31 and the humidifying filter 32 move away from the water tank 4, and the water tank 4 can be smoothly pulled out of the installation cavity 11 without being blocked by the filter support 31 and the humidifying filter 32. This makes it convenient to pull out the water tank 4 for cleaning, and the operation is convenient and quick.

[0095] In the embodiments of this application, such as Figure 3 , Figure 7 , Figure 8 and Figure 13As shown, the connector 24 is provided with a buckle 241 that matches the guide rail groove 33. The buckle 241 engages with the guide rail groove 33. The guide rail groove 33 includes a snap-fit ​​section 34 and a sliding section connected in sequence. The snap-fit ​​section 34 is closer to the base 1 than the sliding section. During the process of switching the water tank 4 from the separated state to the installed state, the buckle 241 moves from the snap-fit ​​section 34 to the sliding section. During the process of switching the water tank 4 from the installed state to the separated state, the buckle 241 moves from the sliding section to the snap-fit ​​section 34. In use, in the separated state, the buckle 241 engages with the snap-fit ​​section 34, so that the connector 24 is limited in the snap-fit ​​section 34. At this time, the connector 24 supports the filter support 31, so that the entire humidification assembly 3 is away from the water tank 4. In the installed state, the buckle is located at the end of the sliding section away from the snap-fit ​​section 34. At this time, the first end of the humidification assembly 3 is located inside the water tank 4. During the process of switching the water tank 4 from the detached state to the installed state, the latch 241 moves from the engaging section 34 to the sliding section, and then moves along the sliding section to the end of the sliding section away from the engaging section 34. When the latch 241 moves to the sliding section, the connector 24 no longer supports the filter support 31. At this time, the humidifying component 3 moves towards the water tank 4, so that the first end of the humidifying component 3 is located inside the water tank 4. During the process of switching the water tank 4 from the installed state to the detached state, the latch 241 slides along the sliding section to the engaging section 34 and engages with the engaging section 34. At the same time, it drives the filter support 31 to move away from the water tank 4, so that the humidifying component 3 is away from the water tank 4. At this time, the connector 24 can support the filter support 31, so that the humidifying component 3 is stably kept away from the water tank 4.

[0096] Specifically, the snap-fit ​​section 34 is, for example, horizontally positioned on the filter support 31, so that the snap-fit ​​section 34 can engage and limit the latch 241. However, it should be understood that the snap-fit ​​section 34 can also be inclinedly positioned on the filter support 31.

[0097] Specifically, the sliding segment can be, for example, an arc-shaped structure. However, it should be understood that the sliding segment can also be any other suitable shape.

[0098] In one embodiment of this application, such as Figure 13 As shown, the water tank 41 is provided with a notch 43 that matches the humidification component 3. During the process of switching the water tank 41 from the separated state to the installed state, the end of the water tank 41 abuts against the linkage component 2. In use, when the water tank 41 is installed into the installation cavity 11, the water tank 41 and the humidification component 3 move relative to each other, with the humidification component 3 located at the notch 43. When the water tank 41 is pulled out of the installation cavity 11, the humidification component 3 and the notch 43 of the water tank 41 move relative to each other. That is, when the water tank 41 enters and exits the installation cavity 11, it is not blocked by the humidification component 3 due to the notch 43, allowing the water tank 41 to quickly enter and exit the installation cavity 11, thereby enabling the water tank 4 to quickly switch between the installed state and the separated state.

[0099] Specifically, the notch 43 may be an arc-shaped structure. In the installed state, the notch 43 surrounds the outer wall of the humidifying component 3. During use, the arc-shaped notch 43 matches the humidifying component 3. During the process of switching the water tank 4 from a separated state to an installed state, the arc-shaped notch 43 on the water tank 41 gradually moves towards the humidifying component 3, causing the arc-shaped notch 43 to fit against the outer wall of the humidifying component 3. During the process of switching the water tank 4 from an installed state to a separated state, the arc-shaped notch 43 on the water tank 41 gradually moves away from the humidifying component 3, causing the notch 43 to disengage from the humidifying component 3. Therefore, when the water tank 4 is in different states, the water tank 41 only occupies the space between the humidifying component 3 and the mounting cavity 11, and the water tank 4 can better interact with the humidifying component 3. However, it should be understood that the notch 43 can also be any other suitable shape.

[0100] Among them, such as Figure 13 As shown, a support block 44 is provided at the end of the water tank 41. During the process of switching the water tank 41 from the separated state to the installed state, the support block 44 abuts against the linkage component 2. In use, when the water tank 41 is installed into the installation cavity 11, the support block 44 abuts against the fixed frame 23 or the rotating bracket 26. The support block 44 drives the fixed frame 23 or the rotating bracket 26 to rotate, causing the coil spring and the connecting piece 24 to rotate, thereby driving the humidification component 3 to move downward, so that the first end of the humidification component 3 is located in the water tank 42. When the water tank 41 is removed from the installation cavity 11, the support block 44 no longer abuts against the fixed frame 23 or the rotating bracket 26, allowing the coil spring to return to its deformation, and at the same time driving the fixed frame 23 to rotate, causing the connecting piece 24 to drive the humidification component 3 to move upward.

[0101] In one embodiment of this application, the humidification module includes a water tank 42 located below the water tank 41. During the process of switching the water tank 41 from a separated state to an installed state, the first end of the humidification component 3 moves in a third direction and is positioned within the water tank 42. During the process of switching the water tank 41 from an installed state to a separated state, the first end of the humidification component 3 moves in a fourth direction and moves away from the water tank 42. In use, during the process of switching the water tank 41 from a separated state to an installed state, the water tank 41 is installed in the installation cavity 11 and positioned above the water tank 42, causing water in the water tank 41 to flow into the water tank 42. The water tank 41 drives the linkage component 2 to move, which in turn drives the humidification component 3 to move in a third direction, so that the first end of the humidification component 3 is positioned within the water tank 42. Thus, the humidification component 3 can absorb water from the water tank 42 to humidify the gas. When water needs to be added to the water tank 41, the water tank 41 is switched from the installed state to the separated state and is pulled out of the installation cavity. At the same time, the linkage component 2 drives the humidification component 3 to move in the fourth direction and away from the water tank 42, so that the water adding component 3 will not be immersed in the water in the water tank 42. This can prevent the humidification component 3 from being immersed in the water tank 42 for a long time and growing bacteria, and prevent unnecessary wear and tear on the humidification component 3.

[0102] In embodiments of this application, the water tank 42 and the water container 41 are, for example, integrally formed. In use, when the water container 41 is pulled out from the mounting cavity 11, the water tank 42 can be pulled out together, allowing for operations such as cleaning of the water tank 42.

[0103] In embodiments of this application, the sink 42 and the water tank 41 are, for example, detachably connected. During use, the user can choose to connect the sink 42 and the water tank 41 together or separate them according to actual needs. The sink 42 and the water tank 41 can be connected as a single unit for use, or they can be used as two separate components.

[0104] The humidifier according to the second aspect of this application, such as Figure 9 , Figure 10 , Figure 11 , Figure 12 , Figure 13 and Figure 14 As shown, the humidifier has an air inlet and an air outlet. The humidifier includes a power module 5 and the aforementioned humidification module. The power module 5 is installed on the humidification module and is used to draw in outside air through the air inlet, causing the air to flow through the humidification component 4 and then out through the air outlet. In use, the power module starts working, allowing outside air to enter the humidifier through the air inlet. The air then passes through the humidification component 4 and flows out through the air outlet. The air flowing out of the air outlet is humidified by the humidification component 4, thus enabling the humidifier to perform its humidification function.

[0105] It should be noted that the air inlet and air outlet can be located on the power module 5 or on the humidification module. Alternatively, one of the air inlet and air outlet can be located on the power module 5, and the other can be located on the humidification module.

[0106] The humidifier and purifier according to the third aspect of this application, such as Figure 9 , Figure 10 , Figure 11 , Figure 12 , Figure 13 and Figure 14 As shown, including the humidification module, the humidifier purifier has all the technical effects of the humidification module.

[0107] Specifically, the humidifier purifier is equipped with an air inlet and an air outlet. It includes a power module 5 and a purification module 6. The purification module 6 is at least partially encircled by the humidifier module. The power module 5 allows outside air to flow sequentially through the air inlet, purification module 6, humidifier module, and air outlet. In use, the power module 5 activates, causing outside air to flow from the air inlet to the purification module 6. Since the purification module 6 is partially encircled by the humidifier module, the air is purified by the purification module 6 before passing through the humidifier module, which increases the humidity of the air. The air then flows out through the air outlet, thus achieving both purification and humidification of the air.

[0108] In one embodiment of this application, during the process of switching the water tank 4 from a separated state to an installed state, the first end of the humidifying module gradually approaches the water tank 4, and the area of ​​the purification module 6 surrounding the humidifying module gradually decreases. Conversely, during the process of switching the water tank 4 from an installed state to a separated state, the first end of the humidifying module gradually moves away from the water tank 4, and the area of ​​the purification module 6 surrounding the humidifying module gradually increases. In use, during the process of switching the water tank 4 from a separated state to an installed state, the first end of the humidifying component 3 moves relative to the installation cavity 11 in a third direction and gradually approaches the water tank 4. As the first end of the humidifying component 3 approaches the water tank 4, it gradually moves away from the purification module 6, causing the area of ​​the purification module 6 surrounding the humidifying module to gradually decrease. During the process of switching the water tank 4 from an installed state to a separated state, as the first end of the humidifying component moves relative to the installation cavity 11 in a fourth direction and gradually moves away from the water tank 4, the first end of the humidifying component 4 gradually approaches the purification module 6, thereby causing the area of ​​the purification module 6 surrounding the humidifying module to gradually increase.

[0109] In one embodiment of this application, the power module 5, the purification module 6, and the humidification module are arranged sequentially from top to bottom along the axial direction, for example. However, it should be understood that the connection order between the power module 5, the purification module 6, and the humidification module can be adjusted.

[0110] In one embodiment of this application, the power module 5, purification module 6, and humidification module are all detachably connected to each other. During use, the power module 5, purification module 6, and humidification module can be detachably connected to each other, and one of them can be individually replaced or disassembled. This facilitates the replacement of any one of the power module 5, purification module 6, or humidification module, especially when the purification module 6 or humidification module used is a consumable, allowing for quick replacement.

[0111] In one embodiment of this application, the power module 5 and the purification module 6 are fixedly connected, and the humidification module is detachably connected to either the power module 5 or the purification module 6. In use, the power module 5 and the purification module 6 are fixedly installed together to form a single component, while the humidification module can be detachably connected to either the power module 5 or the purification module 6, thus facilitating the installation and removal of the humidification module and making it convenient to replace or clean it.

[0112] In the embodiments of this application, the power module 5 consists of, for example, a motor and a fan wheel. The motor drives the fan wheel to rotate, thereby driving the gas flow.

[0113] In embodiments of this application, the purification module 6 includes, for example, a purification filter.

[0114] In the embodiments of this application, the power module 5 is integrally formed or fixedly connected with the purification module 6, and the humidification module is detachably connected with the purification module 6, so that the power module 5 and the purification module 6 are a whole component, which makes it easy to separate the power module 5 and the purification module 6 from the humidification module at the same time.

[0115] Finally, it should be noted that the above embodiments are only used to illustrate this application and are not intended to limit this application. Although this application has been described in detail with reference to the embodiments, those skilled in the art should understand that various combinations, modifications, or equivalent substitutions of the technical solutions of this application do not depart from the spirit and scope of the technical solutions of this application and should be covered within the scope of the claims of this application.

Claims

1. A humidification module, characterized by, include: Base; A linkage assembly is installed in a mounting cavity within the base; the linkage assembly includes a reset component and a movable component; a first end of the reset component is installed in the mounting cavity, and a second end of the reset component is connected to the movable component; the movable component includes a connecting end and a free end, and the connecting end is rotatably connected to the mounting cavity; A humidifying component is connected to the movable part, and the first end of the humidifying component is located in the mounting cavity; the humidifying component includes a filter support and a humidifying filter, the humidifying filter is mounted on the filter support, the filter support is connected to the movable part, and the free end is connected to the humidifying component; The water tank can switch between a separated state and an installed state relative to the mounting cavity. During the switch from the separated state to the installed state, the water tank moves in a first direction, and the first end of the humidifying component moves in a third direction relative to the mounting cavity and is located within the water tank. An external force is applied to the movable component by the water tank, causing it to rotate, which in turn deforms the reset component and moves the humidifying component closer to the water tank. During the switch from the installed state to the separated state, the water tank moves in a second direction, and the linkage component moves the first end of the humidifying component in a fourth direction relative to the mounting cavity and detaches it from the water tank. The external force applied to the movable component by the water tank is removed, and the reset component returns to its original shape, causing the movable component to move in the opposite direction and the humidifying component to move away from the water tank. If the movable component includes a connector, a guide rail groove is provided on the filter support, and the connector is adapted to move along the guide rail groove.

2. The humidification module according to claim 1, characterized in that, The movable component includes a support plate. During the process of the water tank switching from the separated state to the installed state, the water tank abuts against the support plate and compresses the reset component. During the process of the water tank switching from the installed state to the separated state, the reset component drives the support plate to move in the opposite direction.

3. The humidification module according to claim 2, characterized in that, The movable component includes a rotating bracket, which is rotatably disposed within the mounting cavity. The support plate is fixed to the rotating bracket, and the second end of the reset component is connected to the rotating bracket.

4. The humidification module according to claim 3, characterized in that, The rotating bracket is provided with a limit block, and the second end of the reset component is fixedly connected to the limit block.

5. The humidification module according to claim 3, characterized in that, The movable component includes a fixed frame, which is mounted on the rotating bracket and connected to the humidification assembly.

6. The humidification module according to claim 5, characterized in that, The mounting bracket is provided with a hook groove, which is connected to the humidification component and is used to move the humidification component.

7. The humidification module according to claim 1, characterized in that, The reset component is any one of a coil spring, a spring, or a torsion spring.

8. The humidification module according to claim 3, characterized in that, The linkage assembly includes a fixed base installed in the mounting cavity, a first end of the reset member connected to the fixed base, a rotating bracket connected to the fixed base, the rotating bracket being rotatable relative to the fixed base, and the reset member located between the rotating bracket and the fixed base.

9. The humidification module according to any one of claims 1 to 8, characterized in that, The humidification module includes at least two interconnected components arranged opposite to each other.

10. The humidification module according to claim 1, characterized in that, The connector is provided with a buckle that matches the guide rail groove, and the buckle engages with the guide rail groove; the guide rail groove includes a snap-fit ​​section and a sliding section connected in sequence, the snap-fit ​​section being closer to the base than the sliding section, wherein, during the process of the water tank switching from the separated state to the installed state, the buckle moves from the snap-fit ​​section to the sliding section, and during the process of the water tank switching from the installed state to the separated state, the buckle moves from the sliding section to the snap-fit ​​section.

11. The humidification module according to any one of claims 1 to 8, characterized in that, The water tank is provided with a notch that matches the humidification component, wherein, during the process of switching the water tank from the separated state to the installed state, the end of the water tank abuts against the linkage component.

12. The humidification module according to claim 11, characterized in that, The notch is an arc-shaped structure, and in the installed state, the notch is arranged around the outer wall surface of the humidification component.

13. The humidification module according to claim 11, characterized in that, A support block is provided at the end of the water tank. During the process of switching the water tank from the separated state to the installed state, the support block abuts against the linkage component.

14. The humidification module according to any one of claims 1 to 8, characterized in that, The humidification module includes a water tank located below the water tank. During the process of switching the water tank from the separated state to the installed state, the first end of the humidification component moves in the third direction and is located in the water tank. During the process of switching the water tank from the installed state to the separated state, the first end of the humidification component moves in the fourth direction and moves away from the water tank.

15. The humidification module according to claim 14, characterized in that: The water tank and the water trough are integrally formed; or The water tank and the water trough are detachably connected.

16. A humidifier, characterized in that, The humidifier is provided with an air inlet and an air outlet. The humidifier includes a power module and a humidification module as described in any one of claims 1 to 15. The power module is installed on the humidification module. The power module is used to draw in external gas from the air inlet and make the gas flow through the humidification component and then flow out from the air outlet.

17. A humidifier and air purifier, characterized in that, Includes the humidification module as described in any one of claims 1 to 15.

18. The humidifier and air purifier according to claim 17, characterized in that, The humidifier and purifier are provided with an air inlet and an air outlet. The humidifier and purifier include a power module and a purification module. The purification module is at least partially arranged around the humidifier module. The power module is used to make the outside air flow sequentially through the air inlet, the purification module, the humidifier module and the air outlet.

19. The humidifier and air purifier according to claim 18, characterized in that, During the process of the water tank switching from the separated state to the installed state, the first end of the humidification module gradually approaches the water tank, and the area of ​​the purification module surrounding the humidification module gradually decreases. During the process of the water tank switching from the installed state to the separated state, the first end of the humidification module gradually moves away from the water tank, and the area of ​​the purification module surrounding the humidification module gradually increases.

20. The humidifier and air purifier according to claim 18 or 19, characterized in that, The power module, the purification module, and the humidification module are arranged sequentially from top to bottom along the axial direction.

21. The humidifier and air purifier according to claim 18 or 19, characterized in that, The power module, the purification module, and the humidification module can all be detached and connected to each other; or The power module and the purification module are fixedly connected, and the humidification module is detachably connected to or disconnected from the power module or the purification module.

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