阅读说明：本技术 加湿组件及具有加湿组件的装置 (Humidification subassembly and have device of humidification subassembly ) 是由 陈欢 于 2021-09-09 设计创作，主要内容包括：本发明涉及生活电器技术领域,具体涉及一种加湿组件及具有加湿组件的装置,加湿组件包括：转动架,底部适于设置在水槽中,所述转动架具有内环面和环绕在所述内环面外侧的外环面,所述内环面与所述外环面之间设有多个沿周向分布的储水腔,每一所述储水腔均具有进水口及出水口,所述进水口设在所述外环面上,所述出水口设在所述内环面上；吸湿盘,所述内环面的内侧构成安装空间,所述吸湿盘设置在所述安装空间中。转动架按照第一预设方向转动和按照第二预设方向转动均能浸湿吸湿盘,能够双向旋转舀水浸湿吸湿盘,从而该加湿组件对电机的驱动及控制要求低,可采用成本更加低廉的电机,例如采用同步电机驱动其旋转,从而降低成本。(The invention relates to the technical field of domestic appliances, in particular to a humidifying component and a device with the same, wherein the humidifying component comprises: the bottom of the rotating frame is suitable for being arranged in a water tank, the rotating frame is provided with an inner annular surface and an outer annular surface surrounding the outer side of the inner annular surface, a plurality of water storage cavities distributed along the circumferential direction are arranged between the inner annular surface and the outer annular surface, each water storage cavity is provided with a water inlet and a water outlet, the water inlets are formed in the outer annular surface, and the water outlets are formed in the inner annular surface; and the inner side of the inner ring surface forms an installation space, and the moisture absorption disc is arranged in the installation space. The rotating frame rotates according to first direction of predetermineeing and rotates the homoenergetic according to the second and soak the wet dish, can two-way rotation bailing soak the wet dish to this humidification subassembly requires lowly to the drive and the control of motor, can adopt cheaper motor of cost, for example adopt synchronous machine drive its rotation, thereby reduce cost.)

1. A humidifying assembly, comprising:

the bottom of the rotating frame is suitable for being arranged in a water tank (4), the rotating frame is provided with an inner annular surface and an outer annular surface surrounding the outer side of the inner annular surface, a plurality of water storage cavities distributed along the circumferential direction are arranged between the inner annular surface and the outer annular surface, each water storage cavity is provided with a water inlet and a water outlet, the water inlets are formed in the outer annular surface, and the water outlets are formed in the inner annular surface;

the inner side of the inner ring surface forms an installation space, and the moisture absorption disc (1) is arranged in the installation space.

2. The humidifying assembly of claim 1, wherein the water inlet is disposed at the center of the outer side wall of the water storage cavity, the water outlet is disposed at the center of the inner side wall of the water storage cavity, and the water outlet and the water inlet of each water storage cavity are disposed in an opposite manner.

3. The humidifying assembly of claim 1, wherein the turret comprises:

a first bracket (2) comprising a first central connection portion (201) and a first ring-shaped structure (202) surrounding the first central connection portion (201), the first ring-shaped structure (202) and the first central connection portion (201) being connected by a plurality of first spokes (203);

the second support (3) is butted with the first support (2), the second support (3) comprises a second center connecting part (301) and a second annular structure (302) surrounding the outer side of the second center connecting part (301), the second annular structure (302) is connected with the second center connecting part (301) through a plurality of second spokes (303), and after the first support (2) is butted with the second support (3), the installation space is formed between the first support (2) and the second support (3).

4. The humidifying assembly according to claim 3, characterized in that the first ring-shaped structure (202) comprises a plurality of first cavities (2021), the second ring-shaped structure (302) comprises a plurality of second cavities (3021), and after the second bracket (3) and the first bracket (2) are docked, the first cavities (2021) and the second cavities (3021) together constitute the water storage cavity.

5. The humidifying assembly of claim 3, wherein the outer annular surface comprises a first peripheral wall (2022) of the first ring-shaped structure (202) and a second peripheral wall (3022) of the second ring-shaped structure (302), and the water inlet comprises a first water inlet hole (2023) provided on the first peripheral wall (2022) and a second water inlet hole (3023) provided on the second peripheral wall (3022).

6. The humidifying assembly of claim 3, wherein the inner annular surface comprises a first inner circumferential wall (2024) of the first annular structure (202) and a second inner circumferential wall (3024) of the second annular structure (302), the first inner circumferential wall (2024) and the second inner circumferential wall (3024) have the same diameter, a first outlet hole (2025) is formed in the first inner circumferential wall (2024), a second outlet hole (3025) is formed in the second inner circumferential wall (3024), and the first outlet hole (2025) and the second outlet hole (3025) form the water outlet together in an abutting manner.

7. Humidifying assembly according to claim 3, characterized in that the second annular structure (302) is provided with circumferentially distributed gear teeth (304).

8. Humidifying assembly according to any of claims 3-7, characterized in that the first bracket (2) and the second bracket (3) are connected by a snap-fit.

9. A device having a humidifying assembly, comprising the humidifying assembly of any one of claims 1-8.

10. The device with a humidifying assembly of claim 9, wherein the device with a humidifying assembly is an air purifier.

Technical Field

The invention relates to the technical field of household appliances, in particular to a humidifying component and a device with the same.

Background

With the improvement of the national standard of living, the requirement of people on the air quality is higher and higher, so the popularization rate of the air purifier is higher and higher. Humidification is also gaining increasing popularity as an additional functional selling point for air purifiers. In general, air pollution is serious in northern winter, and northern winter climate is particularly dry, so that two functions of purification and humidification are needed to be used simultaneously.

The humidification subassembly of current air purifier includes the support and establishes the moisture absorption dish in the support, and the motor is at the rotatory in-process of drive support, and the support constantly ladles out water and moistens the moisture absorption dish, and is air humidification when air process moisture absorption dish. In order to reduce the cost, a synchronous motor is considered to be adopted to drive the humidifying assembly to rotate, when the synchronous motor is started, the rotating direction of the motor is uncertain, and the motor can rotate forwards or backwards, and the existing humidifying assembly can only realize one-way rotation water scooping and humidifying of the moisture absorption disc, so that the humidifying assembly can not normally realize the humidifying function. Therefore, the existing humidifying assembly mostly adopts an asynchronous motor with higher cost.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to overcome the defect that the humidifying assembly in the prior art can only scoop water and wet the moisture absorption disc in a unidirectional rotation manner, which is not beneficial to reducing the cost, so as to provide a humidifying assembly capable of scooping water and wetting the moisture absorption disc in a bidirectional rotation manner and a device with the humidifying assembly.

In order to solve the above technical problem, the present invention provides a humidification module, including: the bottom of the rotating frame is suitable for being arranged in a water tank, the rotating frame is provided with an inner annular surface and an outer annular surface surrounding the outer side of the inner annular surface, a plurality of water storage cavities distributed along the circumferential direction are arranged between the inner annular surface and the outer annular surface, each water storage cavity is provided with a water inlet and a water outlet, the water inlets are formed in the outer annular surface, and the water outlets are formed in the inner annular surface; and the inner side of the inner ring surface forms an installation space, and the moisture absorption disc is arranged in the installation space.

Optionally, the water inlet sets up the center of the lateral wall in water storage chamber, the delivery port with the water inlet is relative, the delivery port is established the center of the inside wall in water storage chamber, every the water storage chamber the delivery port with the water inlet all is relative formula setting.

Optionally, the turret comprises: the first bracket comprises a first central connecting part and a first annular structure surrounding the outer side of the first central connecting part, and the first annular structure is connected with the first central connecting part through a plurality of first spokes; the second support is in butt joint with the first support, the second support comprises a second center connecting portion and a second annular structure surrounding the outer side of the second center connecting portion, the second annular structure is connected with the second center connecting portion through a plurality of second spokes, and after the first support is in butt joint with the second support, the installation space is formed between the first support and the second support.

Optionally, the first annular structure includes a plurality of first cavities, the second annular structure includes a plurality of second cavities, and after the second support and the first support are docked, the first cavities and the second cavities jointly constitute the water storage cavity.

Optionally, the outer annular surface includes a first peripheral wall of the first annular structure and a second peripheral wall of the second annular structure, and the water inlet includes a first water inlet hole provided on the first peripheral wall and a second water inlet hole provided on the second peripheral wall.

Optionally, the inner annular surface includes a first inner circumferential wall of the first annular structure and a second inner circumferential wall of the second annular structure, the diameters of the first inner circumferential wall and the second inner circumferential wall are equal, a first water outlet is arranged on the first inner circumferential wall, a second water outlet is arranged on the second inner circumferential wall, and the first water outlet and the second water outlet are connected in a butt joint mode to form the water outlet.

Optionally, the second annular structure is provided with gear teeth distributed along the circumferential direction.

Optionally, the first bracket and the second bracket are connected by a snap.

The invention also provides a device with the humidifying assembly, which comprises the humidifying assembly.

Optionally, the device with a humidifying assembly is an air purifier.

The technical scheme of the invention has the following advantages:

according to the humidifying assembly provided by the invention, when the humidifying assembly works, the rotating frame is arranged in the water tank, so that the lower end of the rotating frame is contacted with water in the water tank, water in the water tank enters the water storage cavity through the water inlet in the process that the rotating frame rotates according to the first preset direction, then the water is stored at one side in the water storage cavity along with the rotation of the rotating frame, the water in the water storage cavity gradually falls into the moisture absorption disc through the water outlet in the process of rotating to the top, the moisture absorption disc is wetted, and the water sequentially enters different water storage cavities and gradually falls into the moisture absorption disc through the water outlet in the process that the rotating frame rotates, so that the whole moisture absorption disc is wetted finally; the in-process that the direction pivoted is predetermine according to the second to the rotating turret, and the water in the basin gets into the water storage chamber through the water inlet, later along with the rotation of rotating turret, water storage is at the opposite side of water storage intracavity, at the rotatory in-process to top, and the water of water storage intracavity falls into the moisture absorption dish through the delivery port gradually, soaks the moisture absorption dish, and the rotatory in-process of rotating turret, water get into different water storage chamber in proper order and fall into the moisture absorption dish through the delivery port gradually, finally makes whole moisture absorption dish soak. Therefore, the rotating frame rotates according to the first preset direction and rotates according to the second preset direction to soak the moisture absorption disc, and the moisture absorption disc can be soaked by water scooped in a bidirectional rotating mode, so that the humidifying assembly is low in requirements on driving and controlling of the motor, the motor with lower cost can be adopted, for example, the synchronous motor is adopted to drive the motor to rotate, and the cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is an exploded view of a humidifying assembly provided in embodiment 1 of the present invention;

fig. 2 is a sectional view of a humidifying assembly provided in embodiment 1 of the present invention;

FIG. 3 is a schematic view of the first bracket of FIG. 1 at an angle;

FIG. 4 is a schematic view of the first bracket of FIG. 1 at another angle;

FIG. 5 is a schematic structural view of the second bracket of FIG. 1;

fig. 6 is a schematic structural view of the assembled first bracket and second bracket of fig. 1.

Description of reference numerals:

1. a moisture-absorbing pan; 2. a first bracket; 201. a first center connection; 202. a first annular structure; 2021. a first cavity; 2022. a first outer peripheral wall; 2023. a first water inlet hole; 2024. a first inner peripheral wall; 2025. a first water outlet; 2026. a first annular flat surface; 2027. a first I-shaped structure; 203. a first spoke; 204. a card slot; 3. a second bracket; 301. a second center connection; 302. a second annular structure; 3021. a second cavity; 3022. a second peripheral wall; 3023. a second water inlet hole; 3024. a second inner peripheral wall; 3025. a second water outlet; 3026. a second annular plane; 3027. a second I-shaped structure; 303. a second spoke; 304. gear teeth; 305. elastic buckle; 4. a water tank; 401. a first support arm; 402. a second support arm.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1

The humidification subassembly of current air purifier includes the support and establishes the moisture absorption dish in the support, and the motor is at the rotatory in-process of drive support, and the support constantly ladles out water and moistens the moisture absorption dish, and is air humidification when air process moisture absorption dish. In order to reduce the cost, a synchronous motor is considered to be adopted to drive the humidifying assembly to rotate, when the synchronous motor is started, the rotating direction of the motor is uncertain, and the motor can rotate forwards or backwards, and the existing humidifying assembly can only realize one-way rotation water scooping and humidifying of the moisture absorption disc, so that the humidifying assembly can not normally realize the humidifying function. Therefore, the existing humidifying assembly mostly adopts an asynchronous motor with higher cost.

For this reason, as shown in fig. 1 to 6, the present embodiment provides a humidifying assembly capable of bidirectionally rotating the water scooping humidifying the moisture absorption disk 1 so that the humidifying assembly can be rotated by the synchronous motor, thereby reducing the cost.

In one embodiment, the humidifying assembly comprises a turret and a moisture absorbing disc 1. The bottom of the rotating frame is suitable for being arranged in the water tank 4, the rotating frame is provided with an inner annular surface and an outer annular surface surrounding the outer side of the inner annular surface, a plurality of water storage cavities distributed along the circumferential direction are arranged between the inner annular surface and the outer annular surface, each water storage cavity is provided with a water inlet and a water outlet, the water inlets are arranged on the outer annular surface, and the water outlets are arranged on the inner annular surface; the inner side of the inner annular surface constitutes an installation space in which the moisture absorption sheet 1 is disposed.

In this embodiment, as shown in fig. 2, when the humidifying assembly works, the rotating frame is arranged in the water tank 4, so that the lower end of the rotating frame is in contact with water in the water tank 4, in the process that the rotating frame rotates according to a first preset direction, the water in the water tank 4 enters the water storage cavity through the water inlet, then along with the rotation of the rotating frame, the water is stored at one side in the water storage cavity, in the process of rotating to the top, the water in the water storage cavity gradually falls into the moisture absorption disc 1 through the water outlet, the moisture absorption disc 1 is wetted, and in the process that the rotating frame rotates, the water sequentially enters different water storage cavities and gradually falls into the moisture absorption disc 1 through the water outlet, and finally the whole moisture absorption disc 1 is wetted; the pivoted in-process of direction is predetermine according to the second to the rotating turret, and the water in the basin 4 gets into the water storage chamber through the water inlet, later along with the rotation of rotating turret, water storage is at the opposite side of water storage intracavity, at the rotatory in-process to the top, and the water of water storage intracavity falls into moisture absorption dish 1 through the delivery port gradually, soaks moisture absorption dish 1, and the rotatory in-process of rotating turret, water get into different water storage chamber in proper order and fall into moisture absorption dish 1 through the delivery port gradually, finally makes whole moisture absorption dish 1 soak. Therefore, the rotating frame rotates according to the first preset direction and rotates according to the second preset direction to soak the moisture absorption disc 1, and the moisture absorption disc 1 can be soaked by water in a bidirectional rotating and scooping mode, so that the humidifying assembly is low in driving and control requirements on the motor, the motor with lower cost can be adopted, for example, the synchronous motor is adopted to drive the motor to rotate, and the cost is reduced. One of the first preset direction and the second preset direction is clockwise, and the other one is anticlockwise.

On the basis of the above embodiment, in a preferred embodiment, the water inlet is arranged at the center of the outer side wall of the water storage cavity, the water outlet is opposite to the water inlet, the water outlet is arranged at the center of the inner side wall of the water storage cavity, and the water outlet and the water inlet of each water storage cavity are arranged oppositely. It should be noted that the outer sidewall of the water storage cavity refers to a sidewall away from the rotation center of the turret, the inner sidewall of the water storage cavity refers to a sidewall close to the rotation center of the turret, the outer sidewall belongs to a portion of the outer annular surface, and the inner sidewall belongs to a portion of the inner annular surface. In this embodiment, through setting up the water inlet at the center of the lateral wall in water storage chamber, the center at the inside wall in water storage chamber is established to the delivery port, can make the rotating turret when rotating according to first preset direction with according to the second when presetting the direction rotation the water yield that the water storage intracavity was stored the same, when rotating according to first preset direction with according to the second preset the direction rotation homoenergetic and realize the same humidification effect.

As shown in fig. 1 and 2, on the basis of the above embodiments, in a preferred embodiment, the turret includes a first frame 2 and a second frame 3. The first bracket 2 comprises a first center connecting part 201 and a first annular structure 202 surrounding the first center connecting part 201, and the first annular structure 202 is connected with the first center connecting part 201 through a plurality of first spokes 203; the second bracket 3 is butted with the first bracket 2, the second bracket 3 comprises a second center connecting part 301 and a second annular structure 302 surrounding the second center connecting part 301, the second annular structure 302 is connected with the second center connecting part 301 through a plurality of second spokes 303, after the first bracket 2 is butted with the second bracket 3, an installation space is formed between the first bracket 2 and the second bracket 3, and the moisture absorption disc 1 is arranged in the installation space, namely, the moisture absorption disc 1 is positioned between the first spokes 203 and the second spokes 303. In this embodiment, the moisture absorption disc 1 is clamped between the first spokes 203 and the second spokes 303, the first support 2 and the second support 3 can be matched with the position of the moisture absorption disc 1 to be limited, the moisture absorption disc 1 is ensured not to fall off from the rotating frame, meanwhile, when the humidifying assembly is applied to an air purifier, the first spokes 203 and the second spokes 303 cannot influence the flow of air, the number of parts of the humidifying assembly is small, and the mold for processing the humidifying assembly is simple in structure and low in cost. In an alternative embodiment, the rotating frame is a unitary structure and comprises a ring structure with a hollow cavity, a plurality of partition plates are arranged in the ring structure, the ring structure is internally divided into a plurality of water storage cavities, the inner side of the inner ring surface of the ring structure forms an installation space, the moisture absorption disc 1 is installed in the installation space, and the moisture absorption disc 1 can be connected with the inner ring surface of the ring structure in an adhesive manner.

On the basis of the above embodiments, in a preferred embodiment, the first ring-shaped structure 202 includes a plurality of first cavities 2021, the second ring-shaped structure 302 includes a plurality of second cavities 3021, and after the second bracket 3 and the first bracket 2 are butted, the first cavities 2021 and the second cavities 3021 together form a water storage cavity. As shown in fig. 3 and 4, the first annular structure 202 includes a first annular plane 2026, the first annular plane 2026 has a plurality of first i-shaped structures 2027 arranged at intervals, and an area between two adjacent first i-shaped structures 2027 forms a first cavity 2021.

As shown in fig. 5 and 6, the second annular structure 302 includes a second annular plane 3026, the second annular plane 3026 has a plurality of second i-shaped structures 3027 arranged at intervals, and an area between two adjacent second i-shaped structures 3027 forms a second cavity 3021. When the rotating frame rotates in the first preset direction, the side of the first I-shaped structure 2027 and the side of the second I-shaped structure "]" are responsible for water scooping, and the side of the "[" is responsible for water scooping when the rotating frame rotates in the second preset direction. In this embodiment, since the water storage cavity is formed by the first cavity 2021 and the second cavity 3021 together, it can be ensured that water is uniformly located in the first cavity 2021 and the second cavity 3021 during the rotation of the rotating frame, and the balanced rotation of the rotating frame can be ensured. In an alternative embodiment, only the first ring structure 202 comprises a plurality of first cavities 2021, the first cavities 2021 constituting water storage cavities. In another alternative embodiment, only the second ring-shaped structure 302 comprises a plurality of second cavities 3021, the second cavities 3021 constituting water storage cavities.

In addition to the above embodiments, in a preferred embodiment, the outer annular surface includes the first outer peripheral wall 2022 of the first annular structure 202 and the second outer peripheral wall 3022 of the second annular structure 302, and the water inlet includes the first water inlet hole 2023 provided on the first outer peripheral wall 2022 and the second water inlet hole 3023 provided on the second outer peripheral wall 3022. With further reference to fig. 3 and 4, the outer planes of the first i-shaped structures 2027 form the first outer peripheral wall 2022 of the first annular structure 202, and the gap between the outer planes of two adjacent first i-shaped structures 2027 forms the first water inlet hole 2023; with further reference to fig. 5 and 6, the outer planes of a plurality of second i-shaped structures 3027 form the second outer circumferential wall 3022 of the second annular structure 302, and the gap between the outer planes of two adjacent second i-shaped structures 3027 forms the second water inlet hole 3023. In this embodiment, since the first outer peripheral wall 2022 has the first water inlet hole 2023 and the second outer peripheral wall 3022 has the second water inlet hole 3023, the area of the water inlet can be secured, the amount of water entering the water storage chamber can be secured, and the wetting effect of the suction pad 1 can be secured. In an alternative embodiment, the water inlet includes only the first water inlet holes 2023 provided on the first peripheral wall 2022. In another alternative embodiment, the water inlet port includes only the second water inlet hole 3023 provided on the second peripheral wall 3022.

As shown in fig. 6, in one embodiment, the first peripheral wall 2022 and the second peripheral wall 3022 have the same diameter to facilitate the interfacing of the first cavity 2021 and the second cavity 3021. In other alternative embodiments, the first peripheral wall 2022 and the second peripheral wall 3022 are not the same diameter, for example, the diameter of the first peripheral wall 2022 is made larger than the diameter of the second peripheral wall 3022, or the diameter of the second peripheral wall 3022 is made larger than the diameter of the first peripheral wall 2022.

In addition to the above embodiments, in a preferred embodiment, the inner annular surface includes a first inner circumferential wall 2024 of the first annular structure 202 and a second inner circumferential wall 3024 of the second annular structure 302, the diameters of the first inner circumferential wall 2024 and the second inner circumferential wall 3024 are equal, a first outlet hole 2025 is provided on the first inner circumferential wall 2024, a second outlet hole 3025 is provided on the second inner circumferential wall 3024, and the first outlet hole 2025 and the second outlet hole 3025 form the water outlet together by abutting. With further reference to fig. 3 and 4, the inner planes of the first i-shaped structures 2027 form a first inner peripheral wall 2024 of the first annular structure 202, and a gap between the inner planes of two adjacent first i-shaped structures 2027 forms a first water outlet hole 2025; with further reference to fig. 5 and 6, the inner planes of the second i-shaped structures 3027 form the second inner peripheral wall 3024 of the second annular structure 302, and the gap between the inner planes of two adjacent second i-shaped structures 3027 forms the second water inlet hole 3023. In this embodiment, the first outlet port 2025 and the second outlet port 3025 are butted together to form a water outlet, and the area of the water outlet is large, so that the amount of water discharged for humidifying the moisture absorbing tray 1 can be large, and the humidifying effect can be ensured. In an alternative embodiment, the water outlet comprises only the first water outlet hole 2025. In another alternative embodiment, the water outlet comprises only the second water outlet hole 3025.

In addition to the above embodiments, in a preferred embodiment, the second annular structure 302 is provided with gear teeth 304 distributed along the circumferential direction. In this embodiment, the gear teeth 304 distributed along the circumferential direction are arranged on the second annular structure 302, so that the gear teeth 304 can be meshed with a gear, and when the gear is driven by a motor to rotate, the gear drives the rotating frame to rotate, and a rotating shaft is not required to be arranged at the center of the rotating frame, so that the moisture absorption disc 1 is not required to be worn on the rotating shaft, and the moisture absorption disc 1 is convenient to mount. In an alternative embodiment, one side of the turret may be coupled to a rotating shaft, which is coupled to the rotating shaft via a motor to rotate the turret.

On the basis of the above embodiments, in a preferred embodiment, the first bracket 2 and the second bracket 3 are connected by a snap fit. In this embodiment, the first bracket 2 and the second bracket 3 are simply and conveniently assembled and connected, and the assembling time can be reduced.

In one embodiment, as shown in fig. 3 and 4, the first ring structure 202 is provided with a locking groove 204, as shown in fig. 5, the second ring structure 302 is provided with an elastic clip 305, and the elastic clip 305 cooperates with the locking groove 204 to connect the first ring structure 202 and the second ring structure 302. Of course, in an alternative embodiment, the card slot 204 may be provided on the second ring structure 302 while the resilient catch 305 is provided on the first ring structure 202.

On the basis of the above embodiment, in a preferred embodiment, the humidifying assembly further comprises a water tank 4, and the bottom of the rotating frame is positioned in the water tank 4. In the embodiment, the bottom of the rotating frame is contacted with water in the water tank 4, in the process that the rotating frame rotates according to a first preset direction, the water in the water tank 4 enters the water storage cavity through the water inlet, then along with the rotation of the rotating frame, the water is stored at one side in the water storage cavity, in the process of rotating to the top, the water in the water storage cavity gradually falls into the moisture absorption disc 1 through the water outlet, the moisture absorption disc 1 is wetted, and in the process that the rotating frame rotates, the water sequentially enters different water storage cavities and gradually falls into the moisture absorption disc 1 through the water outlet; the rotating rack is according to the second direction pivoted in-process that predetermines, and the water in the basin 4 gets into the water storage chamber through the water inlet, later along with the rotation of rotating rack, water storage is at the opposite side of water storage intracavity, and at the in-process of rotatory top, the water of water storage intracavity falls into moisture absorption dish 1 through the delivery port gradually, soaks moisture absorption dish 1, and the rotatory in-process of rotating rack, water gets into different water storage chamber in proper order and falls into moisture absorption dish 1 through the delivery port gradually.

In addition to the above-described embodiments, in a preferred embodiment, the water tank 4 is provided with a first support arm 401 and a second support arm 402 which are provided to face each other at an interval, the first center connecting portion 201 is rotatably provided on the first support arm 401, and the second center connecting portion 301 is rotatably provided on the second support arm 402. In this embodiment, the first support arm 401 and the second support arm 402 support the rotating frame, and ensure that the rotating frame can rotate smoothly.

Example 2

The embodiment provides a device with a humidifying assembly, which comprises the humidifying assembly provided in the embodiment. Because the rotating turret of humidification subassembly rotates according to first direction of predetermineeing and rotates homoenergetic according to the second and soak moisture absorption dish 1, can two-way rotation bailing soak moisture absorption dish 1, the humidification subassembly requires lowly to the drive and the control of motor, can adopt cheaper motor of cost, for example adopt synchronous machine drive its rotation to reduce the cost of whole device.

In one embodiment, the device having the humidifying assembly is an air purifier. In this embodiment, the moisture absorption tray 1 is disposed at the downstream of the filter screen of the air purifier, and the purified air flow passes through the moisture absorption tray 1, so that the water vapor in the moisture absorption tray 1 can be brought into the purified clean air.

In an alternative embodiment, the device with the humidifying assembly is a cooling fan.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.