阅读说明：本技术 加湿器 (Humidifier ) 是由 胡书齐 于 2021-08-03 设计创作，主要内容包括：本申请实施例公开了加湿器,加湿器包括壳体、投射组件和雾化组件,所述壳体具有容纳腔及与所述容纳腔连通的出雾口,所述投射组件连接所述壳体；所述雾化组件位于所述容纳腔,且所述雾化组件产生的雾气可由所述出雾口导出所述壳体且在所述壳体外形成雾幕,所述雾幕位于所述投射组件的出光路径上。本申请实施例通过增设投射组件,使得加湿器不仅具备增加室内湿度的效果,还具备提升室内亮度的效果,可提升用户使用体验且具有良好的市场前景。另,通过将雾化组件在壳体外形成雾幕,且雾幕位于投射组件的出光路径上,如此,投射组件投射出的光线可成像于雾幕上,以呈现出图案效果,提升加湿器的趣味性。(The embodiment of the application discloses a humidifier, which comprises a shell, a projection assembly and an atomization assembly, wherein the shell is provided with an accommodating cavity and a mist outlet communicated with the accommodating cavity, and the projection assembly is connected with the shell; the atomizing component is located hold the chamber, just the fog that the atomizing component produced can by the fog outlet derives the casing just be in the casing forms the fog curtain outward, the fog curtain is located throw the light-emitting path of subassembly on. According to the embodiment of the application, the humidifier not only has the effect of increasing indoor humidity, but also has the effect of improving indoor brightness by additionally arranging the projection assembly, so that the user experience can be improved, and the humidifier has a good market prospect. In addition, through forming the fog curtain with atomizing subassembly outside the casing, and the fog curtain is located projection assembly's light-emitting path, so, the light that projection assembly throws out can be imaged on the fog curtain to demonstrate the pattern effect, promote the interest of humidifier.)

1. A humidifier, comprising:

the mist sprayer comprises a shell, a mist spraying device and a mist spraying device, wherein the shell is provided with an accommodating cavity and a mist outlet communicated with the accommodating cavity;

a projection assembly connected to the housing;

the atomizing component is located hold the chamber, just the fog that the atomizing component produced can by the fog outlet derives the casing just is in the casing external formation fog curtain, the fog curtain is located on the light-emitting path of projecting component.

2. The humidifier of claim 1, wherein the mist outlet comprises at least one first mist outlet in communication with the receiving chamber, the housing comprising:

a first sub-housing having the accommodation cavity;

the two second sub-shells are oppositely arranged and are connected with the first sub-shell, and one side, facing the other second sub-shell, of at least one second sub-shell is provided with the first fog outlet, so that fog generated by the atomization assembly can be led out of the shells through the first fog outlet and form the fog curtain between the two second sub-shells.

3. The humidifier of claim 2, wherein the first mist outlet is slit shaped.

4. The humidifier according to claim 3, wherein one end of the first mist outlet penetrates through the first sub-housing, and the other end of the first mist outlet is located at one end of the second sub-housing far away from the first sub-housing.

5. The humidifier according to claim 4, wherein the mist outlet comprises two first mist outlets, one first mist outlet is arranged on one side of each second sub-housing facing the other second sub-housing, and the two first mist outlets are communicated with each other.

6. The humidifier of claim 1, further comprising:

the bracket is connected between the projection assembly and the shell, and the projection assembly can move relative to the shell through the bracket.

7. The humidifier of claim 6, wherein the support comprises:

a first connecting part connected with the housing;

the second connecting part is hinged to the first connecting part and sleeved on the periphery of the projection assembly and can move relative to the projection assembly.

8. The humidifier of claim 7, wherein the first connection comprises:

the first connecting plate is attached to the shell and connected with the shell;

a second connecting plate connected to the first connecting plate;

the third connecting plate with the second connecting plate is located the homonymy of first connecting plate, the third connecting plate with the second connecting plate interval sets up and connects first connecting plate, at least part of second connecting portion be located between the second connecting plate with the third connecting plate and with the second connecting plate, the third connecting plate all articulates.

9. The humidifier of claim 1,

the light outlet of the projection component is positioned outside the shell; or

The projection assembly is positioned in the shell, and the shell comprises a light transmission part, so that light projected by the projection assembly can pass through the light transmission part and further reach the fog curtain outside the shell.

10. The humidifier according to claim 1, wherein a partition is arranged in the housing, the partition divides the accommodating chamber into a first sub-accommodating chamber and a second sub-accommodating chamber, the atomizing assembly is located in the first sub-accommodating chamber, and the mist outlet is communicated with the first sub-accommodating chamber; at least part of the projection assembly is located in the second sub-receiving cavity.

Technical Field

The application relates to the technical field of household appliances, in particular to a humidifier.

Background

Along with the improvement of the living standard of people, household appliances are more and more favored. For example, in order to avoid the phenomena of water shortage, peeling and the like of the skin under the dry air condition, more and more people use the humidifier to increase the air humidity, so that the living environment becomes more comfortable.

However, the humidifier in the related art only has the effect of increasing the air humidity, and has a single function and a poor user experience.

Disclosure of Invention

The application provides a humidifier for solve the humidifier function singleness among the correlation technique, user's use feels not good enough problem.

A humidifier, comprising:

the mist sprayer comprises a shell, a mist spraying device and a mist spraying device, wherein the shell is provided with an accommodating cavity and a mist outlet communicated with the accommodating cavity;

a projection assembly connected to the housing;

the atomizing component is located hold the chamber, just the fog that the atomizing component produced can by the fog outlet derives the casing just is in the casing external formation fog curtain, the fog curtain is located on the light-emitting path of projecting component.

The humidifier of this application through addding the projection subassembly for the humidifier not only possesses the effect that increases indoor humidity, still possesses the effect that promotes indoor luminance, can promote the user and use experience and have good market prospect. In addition, through forming the fog curtain with atomizing subassembly outside the casing, and the fog curtain is located projection assembly's light-emitting path, so, the light that projection assembly throws out can be imaged on the fog curtain to demonstrate the pattern effect, promote the interest of humidifier.

Drawings

In order to more clearly illustrate the embodiments of the present application 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, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a perspective view of a humidifier provided in an embodiment of the present application;

fig. 2 is a perspective cross-sectional view of the humidifier shown in fig. 1;

fig. 3 is a perspective view of another humidifier provided in accordance with an embodiment of the present application;

fig. 4 is a perspective cross-sectional view of the humidifier shown in fig. 3;

FIG. 5 is a block diagram of an alternative to the configuration at A in FIG. 4;

fig. 6 is a perspective view of a bracket in the humidifier shown in fig. 3;

fig. 7 is a perspective exploded view of the humidifier shown in fig. 3.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

The embodiment of the application provides a humidifier 100. This humidifier 100 not only possesses the effect that increases indoor humidity, still possesses pattern display's effect, can promote user's use and experience and have good market prospect.

Specifically, referring to fig. 1 and 2, the humidifier 100 may include a housing 110, a projection assembly 120 and an atomization assembly 130, wherein the projection assembly 120 may be connected to the housing 110 and used for projecting light to the outside of the housing 110, so as to improve indoor brightness; the atomizing assembly 130 may be installed in the accommodating cavity 111 of the housing 110, and the generated mist may be guided out of the housing 110 through the mist outlet 112 on the housing 110, so as to increase the indoor humidity, thereby achieving the characteristics of increasing the indoor humidity and improving the indoor brightness of the humidifier 100.

Further, in order to make the light projected by the projecting component 120 show the pattern display effect on the basis of improving the indoor brightness, the mist of the atomizing component 130 guided out from the mist outlet 112 can be located on the light-emitting path of the projecting component 120, so that the light projected by the projecting component 120 can be imaged on the mist and show the pattern effect. Preferably, the mist generated by the atomizing component 130 is guided out of the housing 110 through the mist outlet 112 to form a mist curtain outside the housing 110, so that the light projected by the projecting component 120 can be imaged on the mist curtain, and further a pattern can be better presented. As can be understood, the fog curtain refers to a form in which fog is approximately distributed in a plane shape; the planar shape may be a planar shape, an arc-shaped shape, or the like, and this is not limited in the embodiment of the present application.

The area where the fog curtain is located may include a first area and a second area, the light projected by the projection assembly 120 may be imaged on the fog at the first area, and the fog at the second area may not be irradiated with the light, so that a portion of the fog curtain corresponding to the first area will be illuminated and a portion corresponding to the second area will not be changed, thereby presenting a pattern.

In some exemplary aspects, referring to fig. 3 and 4, the housing 110 may include a first sub-housing 113 and two second sub-housings 114, the first sub-housing 113 may have a receiving cavity 111 for receiving the atomizing assembly 130 and the like, and the two second sub-housings 114 may be disposed opposite to each other and connected to the first sub-housing 113. Thus, the first sub-housing 113 may be relatively large in structure to have enough space to accommodate the atomizing assembly 130 and the solution for atomization, and the two second sub-housings 114 may be relatively small in structure to make the first sub-housing 113 and the two second sub-housings 114 form a shape similar to an animal, so as to enhance the aesthetic feeling and the interest of the humidifier 100. For example, the first sub-housing 113 may be substantially cylindrical to visually resemble the body of an animal such as a fawn, and the two second sub-housings 114 may be substantially rod-shaped to visually resemble the antlers of an animal such as a fawn, such that the overall housing 110 is similar in appearance to a fawn, which increases the enjoyment of the humidifier 100. In addition, the first sub-housing 113 may be provided with two circular grooves 1131 to be similar to eyes of animals such as fawn.

It is understood that the mist outlet 112 may be provided on the first sub-housing 113, at least one of the two second sub-housings 114. When the mist outlet 112 is disposed on the first sub-housing 113, the first sub-housing 113 has a relatively large structure, which facilitates the processing and forming of the mist outlet 112. When the mist outlet 112 is disposed on the second sub-housing 114, the sealing performance of the first sub-housing 113 can be improved, and the situation that impurities such as dust fall into the first sub-housing 113 can be reduced, so as to better protect the devices such as the atomizing assembly 130 in the first sub-housing 113.

Preferably, the mist outlet 112 may include at least one first mist outlet 1121 communicating with the accommodating cavity 111, and a side of the at least one second sub-housing 114 facing another second sub-housing 114 may be provided with the first mist outlet 1121, so that the mist guided out from the atomizing assembly 130 through the first mist outlet 1121 will be blocked by the two second sub-housings 114, and the mist curtain is mainly formed between the two second sub-housings 114. The mist guided out by the atomizing assembly 130 is blocked between the two second sub-housings 114, so that the distribution density of the mist between the two second sub-housings 114 can be increased, and the imaging clarity and integrity of the light projected by the projecting assembly 120 between the two second sub-housings 114 can be enhanced.

In order to form the mist guided out of the housing 110 through the first mist outlet 1121 into a mist curtain, the first mist outlet 1121 may be in a slit shape or a lattice shape. When the first mist outlet 1121 is slit-shaped, on one hand, the first mist outlet 1121 is more conveniently formed, and on the other hand, mist guided out of the first mist outlet 1121 is more uniformly distributed and has a larger area, so that more light rays are imaged on the mist, and the projection component 120 is ensured to completely present the projected pattern. Referring to fig. 5, when the first mist outlet 1121 is in a lattice shape, that is, when the first mist outlet 1121 includes a plurality of sub mist outlet 1122 arranged along a line, the area of the sub mist outlet 1122 is relatively small, so that the distribution density of the mist led out from each sub mist outlet 1122 is higher, and the pattern can be more clearly displayed. When the mist outlet 112 includes a plurality of sub-mist outlets 1122, the distribution density of the sub-mist outlets 1122 should be increased as much as possible so that the mist projected from the plurality of sub-mist outlets 1122 forms a dense and relatively uniformly dispersed mist curtain.

The first mist outlet 1121 may be substantially distributed along a straight line, an arc line, a curve, or the like, so that the mist curtain formed by the first mist outlet 1121 is planar, arc-shaped, curved, or the like. Preferably, the first mist outlet 1121 may be distributed along a straight line, so that the mist curtain guided out through the first mist outlet 1121 is substantially planar, and a pattern display effect on the mist curtain is better. When the first mist outlet 1121 includes a plurality of sub-mist outlets 1122, the distribution of the first mist outlet 1121 along the straight line direction may be understood as the distribution of the plurality of sub-mist outlets 1122 along the straight line direction at intervals.

In an exemplary scheme, referring to fig. 3 and 4 again, one end of the first mist outlet 1121 may penetrate through the first sub-housing 113, and the other end of the first mist outlet 1121 may be located at one end of the second sub-housing 114 away from the first sub-housing 113. In this way, the mist curtain formed outside the housing 110 is closely attached to the first sub-housing 113, so that the height of the humidifier 100 can be reduced, and the humidifier 100 can be miniaturized. It is understood that, in this case, the projection assembly 120 may be located at one side of the two second sub-housings 114 and connected with the first sub-housing 113; for example, the two second sub-housings 114 and the projection assembly 120 may be located on the top of the first sub-housing 113, the two second sub-housings 114 may be located on the left side of the top of the first sub-housing 113, and the projection assembly 120 may be located on the right side of the top of the second sub-housing 114. It should be noted that both ends of the first mist outlet 1121 may also be disposed away from the first sub-housing 113, so that the mist curtain formed outside the housing 110 is spaced apart from the first sub-housing 113, which is not limited in this embodiment of the application.

The above-mentioned "one side of the at least one second sub-housing 114 facing the other second sub-housing 114 may be provided with the first mist outlet 1121", and one side of one of the second sub-housings 114 facing the other second sub-housing 114 is provided with the first mist outlet 1121, or one side of each of the two second sub-housings 114 facing the other second sub-housing 114 is provided with one first mist outlet 1121. When only one second sub-housing 114 is provided with the first mist outlet 1121, the structural design of the humidifier 100 can be simplified, and when both the two second sub-housings 114 are provided with the first mist outlet 1121, the mist outlet amount can be increased, and the indoor humidity control speed can be increased. Preferably, when the first mist outlets 1121 are disposed on both the two second sub-housings 114, the two first mist outlets 1121 may be communicated with each other, so as to ensure continuity of mist guided out through the two first mist outlets 1121, and improve a pattern display effect on the mist curtain.

In an exemplary embodiment, the second sub-housings 114 may gradually increase the distance between the two second sub-housings 114 from the end connected to the first sub-housing 113 to the end far away from the first sub-housing 113, so that the two second sub-housings 114 are closer to the shape of the animal, and thus the appearance is more attractive and interesting. Furthermore, the second sub-housings 114 are connected from one end of the first sub-housing 113 to one end far away from the first sub-housing 113, and the distance between the two second sub-housings 114 can be gradually increased in a preset curve; the preset curve may be a parabola or the like, so that the change of the distance between the two second sub-housings 114 is more gradual, and the edge of the matte surface formed between the two second sub-housings 114 is a substantially smooth curve, so that the visual experience is better.

To enhance the feel of the humidifier 100 during use, the outer surface of the second sub-housing 114 may be smoothly curved. The surface of the portion of the top of the first sub-housing 113 that is easily touched by the user may be smoothly curved.

It can be understood that the pattern displayed on the fog screen can be correspondingly adjusted by changing the color and pattern of the light projected by the projection assembly 120, and parameters such as the distance and the included angle between the projection assembly 120 and the fog screen. The adjustment of the color and pattern of the light projected by the projection component 120 can be directly controlled and realized by the controller 140 electrically connected to the projection component 120, for example, the controller 140 can control the light projected by the projection component 120 to be red, green or blue; the controller 140 may also control the pattern projected by the projection component 120 to be a current time value, a current indoor humidity value, or a current day weather icon, so that the pattern displayed on the fog screen has a prompt effect of corresponding time, humidity, weather, and the like. It is understood that the controller 140 can also control the projection assembly 120 to project a dynamic pattern, such as a dynamically changing pattern, for example, the controller 140 can control the projection assembly 120 to project a dynamic clock pattern with an hour hand, a minute hand and a second hand, and the projection pattern of the projection assembly 120 is not limited in the embodiments of the present application.

In order to adjust the distance between the projection assembly 120 and the fog screen, the humidifier 100 may further include a bracket 150, the bracket 150 may be connected between the projection assembly 120 and the housing 110, and the projection assembly 120 may be movable relative to the housing 110 through the bracket 150. The movement may include moving, rotating, etc., and after the projection assembly 120 moves relative to the housing 110, the distance or the included angle between the projection assembly 120 and the fog screen may be changed, so that the size or the shape (for example, the circle may be changed into an ellipse, etc.) of the pattern displayed on the fog screen may be changed.

In an exemplary embodiment, referring to fig. 4 and 6, the bracket 150 may include a first connecting portion 151 and a second connecting portion 152, the first connecting portion 151 may be connected to the housing 110, the second connecting portion 152 may be hinged to the first connecting portion 151, and the second connecting portion 152 may be sleeved on the periphery of the projection assembly 120 and may move relative to the projection assembly 120. The second connecting portion 152 is hinged to the first connecting portion 151 to enable the second connecting portion 152 to rotate relative to the first connecting portion 151, further enable the projection assembly 120 inserted into the second connecting portion 152 to rotate relative to the first connecting portion 151, and enable the projection assembly 120 to move in the second connecting portion 152, so that the support 150 can enable the projection assembly 120 and the fog screen to move and rotate, and the support 150 is simple in structure and convenient to adjust. It should be noted that, the second connecting portion 152 and the projecting assembly 120 may be tightly fitted, so that the second connecting portion 152 and the projecting assembly 120 can move under the action of an external force, and the second connecting portion 152 and the projecting assembly 120 can be maintained in a balanced state when no external force is applied. The second connecting portion 152 and the first connecting portion 151 can be hinged through a rotating shaft, and the second connecting portion 152 and the rotating shaft and the first connecting portion 151 and the rotating shaft can be tightly matched, so that the second connecting portion 152 and/or the first connecting portion 151 can rotate relative to the rotating shaft under the action of external force, and the second connecting portion 152 and the first connecting portion 151 can be maintained in a balanced state when no external force is applied.

Further, the first connection portion 151 may include a first connection plate 1511, a second connection plate 1512, and a third connection plate 1513, the first connection plate 1511 may be disposed to fit the housing 110 and connected to the housing 110, the second connection plate 1512 and the third connection plate 1513 may be connected to the same side of the first connection plate 1511 and spaced apart from each other, at least a portion of the second connection portion 152 may be located between the second connection plate 1512 and the third connection plate 1513 and spaced apart from the first connection plate 1511, and the second connection portion 152 may be hinged to both the second connection plate 1512 and the third connection plate 1513. Through laminating casing 110 setting with first connecting plate 1511, can promote the reliability of being connected between support 150 and the casing 110, set up second connecting portion 152 between second connecting plate 1512 and third connecting plate 1513 and all articulate with second connecting plate 1512 and third connecting plate 1513, can guarantee the stationarity of being connected between second connecting portion 152 and first connecting portion 151. It should be noted that the projection assembly 120 mounted on the bracket 150 can be adjusted to move or rotate with the fog screen through manual control, electric control, and the like.

In an exemplary embodiment, the light outlet of the projection assembly 120 may be located outside the housing 110, so that the light projected by the projection assembly 120 can reach the fog screen without damage, and the maintenance is convenient. In another exemplary aspect, the projection assembly 120 may be located inside the housing 110, in which case, the housing 110 may include a light-transmitting portion, so that the light projected by the projection assembly 120 can pass through the light-transmitting portion and reach the fog curtain outside the housing 110; therefore, the housing 110 can protect the projection assembly 120, and the service life of the projection assembly 120 is prolonged. It is understood that the projection assembly 120 can be selectively adjusted in movement and rotation with the fog screen by manual control or electric control when at least a portion of the projection assembly 120 is located outside the housing 110. When the sub-projection assembly 120 is located in the housing 110, the projection assembly 120 is preferably electrically adjusted to move and rotate with the fog screen.

Because the atomizing assembly 130 is filled with a solution in the accommodating chamber 111 when in use, the atomizing assembly 130 can convert the solution in the accommodating chamber 111 into a mist through high-frequency vibration and the like, so that if at least a portion of the projecting assembly 120 is located in the housing 110, the solution in the accommodating chamber 111 is very prone to wet the projecting assembly 120 when the humidifier 100 shakes, and the projecting assembly 120 may fail after being soaked for a long time, in order to avoid this problem, in an exemplary scheme, please refer to fig. 4 again, a partition plate 160 may be disposed in the housing 110, the partition plate 160 may divide the accommodating chamber 111 into a first sub-accommodating chamber 1111 and a second sub-accommodating chamber 1112, the atomizing assembly 130 may be located in the first sub-accommodating chamber 1111, and the mist outlet 112 is communicated with the first sub-accommodating chamber 1111. At least a portion of the projecting assembly 120 may be located in the second sub-receiving cavity 1112. Through holding chamber 111 with in the casing 110 and dividing, and set up atomizing subassembly 130 and at least some projection subassembly 120 respectively in first sub-chamber 1111 and the sub-chamber 1112 of holding, so, only need when using humidifier 100 fill solution in first sub-chamber 1111 can, can not cause the influence to projection subassembly 120 in the sub-chamber 1112 of holding of second, can ensure the smooth operation of projection subassembly 120 and atomizing subassembly 130.

Referring to fig. 7, the housing 110 may include a bottom plate 115, a top plate 116, and a plurality of side plates 117 connected between the bottom plate 115 and the top plate 116, the top plate 116 may have a substantially arched shape, the top plate 116 may include a first portion 1161 and a second portion 1162 connected to the first portion 1161, the first portion 1161 may be provided with the mist outlet 112, the partition 160 may include a first sub-partition 161 and a second sub-partition 162, the first sub-partition 161 may be connected between the top plate 116 and the side plates 117 and correspond to the second portion 1162 of the top plate 116, the second sub-partition 162 may be connected between the first portion 1161 and the second portion 1162 of the top plate 116, and the first sub-partition 161 may be connected to the second sub-partition 162 such that the second portion 1162, the first sub-partition 161 and the second sub-partition 162 together enclose a second sub-receiving cavity 1112, and the first portion 1161, the first sub-partition 161, the second sub-partition 162, the bottom plate 115 and the plurality of side plates 117 together enclose a first sub-receiving cavity 1111. Since the second sub-receiving chamber 1112 is enclosed by the second portion 1162 of the top plate 116, the first sub-partition 161 and the second sub-partition 162, the second sub-receiving chamber 1112 can occupy only a small area of the receiving chamber 111, and the first sub-receiving chamber 1111 can be configured to be larger, so that the first sub-receiving chamber 1111 can be filled with sufficient solution, thereby prolonging the service life of the humidifier 100.

The first portion 1161 and the second portion 1162 of the top plate 116 may be integrally connected or may be separately provided. When the first portion 1161 and the second portion 1162 are separately disposed, the first sub-partition 161 and the second sub-partition 162 can be connected to the second portion 1162, so that the second portion 1162, the first sub-partition 161 and the second sub-partition 162 can be formed as a separate box after being connected and can be detached from the first portion 1161, the side plates 117 and the bottom plate 115, so as to facilitate the mounting and dismounting of the projection assembly 120 in the second sub-receiving cavity 1112.

In order to ensure the projection effect of the projection assembly 120, the second portion 1622 may be provided with an opening, a part of the support 150 may be installed in the second sub-accommodating cavity 1112 and connected to the first sub-partition 161, and a part of the support 150 may be located outside the second sub-accommodating cavity 1112, so that the projection assembly 120 may be installed on the part of the support 150 located outside the second sub-accommodating cavity 1112, and the light outlet of the projection assembly 120 may be exposed, so that light can be projected onto the fog curtain without damage.

It should be noted that, in order to facilitate the control of the projecting assembly 120 and the atomizing assembly 130, the humidifier 100 may further include a controller 140 electrically connected to the projecting assembly 120 and the atomizing assembly 130, and the controller 140 may also be installed in the second sub-receiving chamber 1112 to prevent the solution filled in the first sub-receiving chamber 1111 from wetting and soaking. Specifically, the projecting assembly 120 and the atomizing assembly 130 can be electrically connected to the controller 140 through wires, and the partition 160 can be provided with wire holes for facilitating wire routing.

The humidifier 100 may further include a blower 170, and the blower 170 may be installed in the accommodating chamber 111 and disposed near the mist outlet 112, so that the mist generated in the accommodating chamber 111 can be discharged toward the mist outlet 112 in a timely and large amount. Preferably, the fan 170 may be installed in the first sub-receiving cavity 1111 and located between the first portion 1161 of the top plate 116 and the second sub-partition plate 162, and the fan 170 may be electrically connected to the controller 140 in the second sub-receiving cavity 1112, so as to control the rotation speed, start and stop of the fan 170 through the controller 140.

To facilitate the installation of the blower 170 in the housing 110, the humidifier 100 may further include a mounting bracket 180, the mounting bracket 180 may be located in the accommodating cavity 111 and fixed to the housing 110, and the blower 170 may be connected to the mounting bracket 180 to achieve the installation and fixation in the accommodating cavity 111. Specifically, mounting holes may be formed in both the mounting frame 180 and the fan 170, so that the mounting frame 180 and the fan 170 can be mounted by the cooperation of screws and nuts penetrating through the mounting holes. The number of the mounting brackets 180 may be multiple, and multiple mounting brackets 180 may be spaced apart in the accommodating cavity 111 to ensure the stability of the installation of the fan 170 in the accommodating cavity 111.

In the description of the present application, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art. Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.