CN212566100U - Top-water-adding ultrasonic atomization humidifier - Google Patents

Abstract

The utility model provides a top watered ultrasonic atomization humidifier. The top watered ultrasonic atomization humidifier includes: the water tank assembly is mounted at the top of the base, and the mist outlet assembly is mounted on the water tank assembly; the water tank component comprises a water tank body, wherein a water adding groove is formed in the water tank top cover of the water tank body in a concave mode, a water leakage hole is formed in the water adding groove, and the water leakage hole is communicated with a water storage space in the water tank body. The utility model has the advantages that: in the ultrasonic atomization humidifier with water added from the top, when water is needed to be added, water can be directly added into the water tank body through the water leakage hole without stopping the humidifier.

Description

Top-water-adding ultrasonic atomization humidifier

Technical Field

The utility model belongs to the technical field of atomizing humidifier, in particular to top watered ultrasonic atomization humidifier.

Background

The humidifier is a household appliance which is frequently used in life, but the existing humidifier needs to take down the water storage part of the humidifier in the using process, then adds a water cover to the water storage part and seals the water cover, and then can humidify the air; in addition, during the water adding period, the power supply needs to be cut off, and the water tank is separated independently, so that water can be added into the water tank; most of humidifiers control the work of the humidifiers through a button switch, and the operation process of adding water of the humidifier by adopting the mode is complex and wastes time.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned problem that exists among the prior art, the utility model provides a top watered ultrasonic atomization humidifier.

In order to achieve the above object, the utility model provides a following technical scheme: a top-fed ultrasonic atomizing humidifier comprising: the water tank assembly is mounted at the top of the base, and the mist outlet assembly is mounted on the water tank assembly; the water tank component comprises a water tank body, wherein a water adding groove is formed in the water tank top cover of the water tank body in a concave mode, a water leakage hole is formed in the water adding groove, and the water leakage hole is communicated with a water storage space in the water tank body.

Preferably, the tank top cover of the tank body comprises a top cover body and a mist inlet pipe formed by extending downwards from the top cover body; the water adding groove is formed in the top cover body and is integrally in an inverted horn-shaped structure; the water inlet pipe is arranged in the middle of the water adding groove, and the water leakage hole is formed in the position surrounding the water inlet pipe.

Preferably, the fog outlet assembly is clamped at the top of the fog inlet pipe, and the periphery of the fog outlet assembly extends outwards, so that the extending part of the fog outlet assembly is positioned right above the water leakage hole.

Preferably, the fog outlet assembly comprises an upper fog outlet cover and a lower fog outlet cover which are clamped with each other, the upper fog outlet cover is provided with the fog outlet, and the lower fog outlet cover is provided with the fog inlet; after the lower fog outlet cover and the upper fog outlet cover are connected in a clamped mode, the lower fog outlet cover and the upper fog outlet cover are matched with each other to form a fog outlet channel in a surrounding mode, the inlet end of the fog outlet channel is communicated with the fog inlet, the outlet end of the fog outlet channel is communicated with the fog outlet, the lower fog outlet cover is clamped and connected with the top of the fog inlet pipe in a sealing mode, and the fog inlet of the lower fog outlet cover is communicated with the fog inlet pipe.

Preferably, the water tank assembly further comprises: install in this internal air guide unit of water tank and guide fog pipe, this internal water tank wind channel that is equipped with of water tank, the water tank subassembly still includes: the air guide unit and the fog guide pipe are arranged in the water tank body, a water tank air duct is arranged in the water tank body,

the wind guide unit includes: the air guide part and the tubular part are mutually communicated, the air guide part and the tubular part are fixed on the bottom surface of the top cover body, the air inlet end of the air guide part is correspondingly communicated with a water tank air channel in the water tank body, the tubular part is sleeved on the outer side of the mist outlet pipe, and the bottom of the tubular part extends into the mist guide component; an air inlet gap is formed between the tubular part and the fog inlet pipe at a certain interval, and the air inlet gap is communicated with the air guide channel and the fog guide channel.

Preferably, the side surface of the mist inlet pipe is also provided with an air inlet.

Preferably, the wind guide part and the tubular part of the wind guide unit are integrally formed with the top cover body.

The utility model has the advantages that:

in the ultrasonic atomization humidifier with water added at the top, a water adding groove is formed in a concave part of a top cover of the water tank body, a water leakage hole is formed in the water adding groove and is communicated with a water storage space in the water tank body, so that when water is required to be added, water can be directly added into the water tank body through the water leakage hole without stopping the machine;

in addition, the water leakage hole and the mist inlet pipe are both arranged in the bottom of the horizontal groove, the water leakage hole is arranged between the mist inlet pipe and the annular inclined groove wall, the mist outlet lower cover is clamped at the top of the mist inlet pipe, and the mist outlet lower cover is covered at the top of the mist inlet pipe, so that water enters the water tank body from the water leakage hole;

go out the periphery of fog subassembly and outwards extend, make the extension of going out the fog subassembly is located directly over the hole that leaks, through it shelters from to go out the fog subassembly the hole that leaks avoids dust etc. directly to fall into in the hole that leaks.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is an exploded view of an ultrasonic atomizing humidifier according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the ultrasonic atomizing humidifier shown in FIG. 1;

FIG. 3 is a schematic diagram of an exploded view of a mist outlet assembly, a water tank upper cover and a mist guiding assembly in the ultrasonic wave atomizing humidifier shown in FIG. 1;

FIG. 4 is a schematic view of the bottom surface of the upper cover of the water tank of the ultrasonic atomization humidifier shown in FIG. 1;

FIG. 5 is a schematic view of a bottom structure of a mist guiding assembly of the ultrasonic wave atomizing humidifier shown in FIG. 1;

FIG. 6 is a schematic diagram of an explosion structure of a water diversion tray, a water tank lower cover and an ultrasonic atomizer in the ultrasonic atomization humidifier shown in FIG. 1;

FIG. 7 is a schematic view of a bottom structure of a water diversion tray in the ultrasonic wave atomizing humidifier shown in FIG. 1;

FIG. 8 is a schematic view of the bottom surface of the lower cover of the water tank of the ultrasonic atomization humidifier shown in FIG. 1;

fig. 9 is an assembled sectional structure diagram of the mist guiding assembly, the water guiding plate and the lower cover of the water tank in the ultrasonic wave atomizing humidifier shown in fig. 1;

fig. 10 is a schematic structural view of a floating ball body of a floating ball in the ultrasonic atomizing humidifier shown in fig. 1;

fig. 11 is a schematic cross-sectional view of the body of the float ball shown in fig. 10.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the utility model provides an ultrasonic atomization humidifier with internal air intake, which comprises: frame 10, water tank set spare 20 and play fog subassembly 30, water tank set spare 20 install in the top of frame 10, it installs to go out fog subassembly 30 in water tank set spare 20.

Specifically, the base 10 includes a base housing 11, and an ultrasonic atomizer 12 and a turbo fan 13 which are disposed in the base housing 11. The ultrasonic atomizer 12 is used for generating atomized water mist, and the turbo fan 13 is installed at the lower fog outlet cover of the air inlet of the engine base shell 11 and used for introducing air flow to improve the fog outlet efficiency.

After the water tank assembly 20 is installed at the top of the base housing 11, a base air duct 101 is formed in an inner cavity of the base housing 11, and the base air duct 101 is communicated with an air outlet of the turbo fan 13; the airflow introduced by the turbo fan 13 passes through the base air duct 101 and then enters the water tank assembly 20.

The water tank assembly 20 comprises a water tank body 21, a mist guide pipe 22 and an air guide unit 23 which are arranged in the water tank body 21, a floating ball 24 arranged in the mist guide pipe 22, and an aroma box 25 arranged in the air guide unit 23.

Specifically, the water tank body 21 includes a water tank upper cover 211, a water tank lower cover 212 and a water tank top cover 213, the water tank lower cover 212 and the water tank upper cover 211 cooperate with each other to define a water tank main body, and the water tank top cover 213 covers the top of the water tank upper cover 211.

Wherein, the water tank upper cover 211 and the water tank lower cover 212 are respectively formed with an upper air duct 201 and a lower air duct 202 which are communicated with each other. The upper air duct 201 and the lower air duct 202 are communicated with each other to form a water tank air duct 2101 in the water tank body 21. In this embodiment, after the water tank lower cover 212 is installed on the top of the base 10, the base air duct 101 communicates with the lower air duct 202.

The position of the water tank lower cover 212 corresponding to the ultrasonic atomizer 12 is provided with an atomizing hole 203, and the hole wall of the atomizing hole 203 of the water tank lower cover 212 extends downwards to be in sealing contact with the ultrasonic atomizer 12. Specifically, the ultrasonic atomizer 12 is fastened to the bottom surface of the tank lower cover 212 by screws, and a downward extending portion of a hole wall of the atomizing hole 203 of the tank lower cover 212 is fixed to the ultrasonic atomizer 12 in a sealing manner by a sealing ring, so that water enters the atomizing hole 203 and contacts the ultrasonic atomizer 12 to generate water mist.

A water adding groove 2102 is formed in the water tank top cover 213 in a concave mode, a water leakage hole 2103 is formed in the water adding groove 2102, and the water leakage hole 2103 is communicated with a water storage space in the water tank body 21.

The water tank top cover 213 includes a top cover body 2131 and a mist outlet pipe 2132 extending downward from the top cover body 2131. The top cover body 2131 is used for covering the top of the upper water tank cover 211 so as to cover the main water tank body, and the mist outlet pipe 2132 is communicated with the mist outlet channel 303 in the mist outlet assembly 30 and is used for guiding water mist to enter the mist outlet assembly 30.

The water adding groove 2102 is formed in the top cover body 2131, and is integrally in an inverted horn-shaped structure. The mist inlet pipe 2132 is disposed at the middle position of the water adding groove 2102, and the water leakage hole 2103 is opened at a position surrounding the mist inlet pipe 2132.

The bottom of the mist guide assembly 22 is abutted against the lower water tank cover 212 for guiding the water mist emitted from the lower water tank cover 212, and the top of the mist guide assembly 22 is abutted and communicated with the mist outlet pipe 2132, so that the water mist is guided into the mist outlet pipe 2132.

Specifically, the mist guide assembly 22 includes: a fog guide pipe 221 and a water inlet cover 222 sleeved outside the fog guide pipe 221.

The mist guide pipe 221 is a tubular structure, and a mist guide channel 2201 is formed inside the mist guide pipe. In this embodiment, the top end of the mist guiding pipe 221 is in butt joint with the mist outlet pipe 2132, and the bottom of the mist guiding pipe 221 is in butt joint with the atomizing hole 203 of the water tank lower cover 212. The base 10 is provided with an ultrasonic atomizer 12 at a position facing the atomizing hole 203 of the water tank lower cover 212, and the ultrasonic atomizer 12 generates water mist and finally flows upwards along the mist guiding channel 2201 in the mist guiding pipe 221 from bottom to top.

The whole loudspeaker form that is of the dustcoat 222 of said intaking, and the gap 2202 of intaking has been seted up to the side of the dustcoat 222 of said intaking, and the one end orientation of the large mouth of the dustcoat 222 of said intaking the lower cover 212 of water tank sets up, the one end orientation of the small mouth of the dustcoat 222 of said intaking the top cover 213 of water tank sets up. In this embodiment, the top end of the mist guiding pipe 221 is fixed to the small end of the water inlet cover 222. Preferably, the water inlet cover 222 and the mist guiding pipe 221 are of an integrally formed structure.

In order to cooperate with the mist guiding assembly 22 to guide water to the ultrasonic atomizer 12, the water tank lower cover 212 is further provided with a water guiding tray 214 corresponding to the position of the ultrasonic atomizer 12, and the water guiding tray 214 comprises: a water-conducting disc body 2141 and a hollow column 2142 disposed through the water-conducting disc body 2141.

The surface of the diversion tray body 2141 is provided with a plurality of diversion slits 2104, and the large-mouth end of the water inlet outer cover 222 of the mist guiding component 22 is abutted and covered on the upper surface of the diversion tray body 2141, so as to form a diversion channel. Therefore, the water inlet gap 2202 on the side of the water inlet housing 222 communicates with the water guide gap 2104 of the water guide plate through the internal space of the mist guide assembly 22.

In addition, the part of the hollow column 2142 extending out of the upper surface of the catchment basin body 2141 forms a hollow upper column 2143, and the part of the hollow column 2142 extending out of the lower surface of the catchment basin body 2141 forms a hollow lower column 2144. The hollow upper column 2143 and the hollow lower column 2144 are both integrally of a columnar structure; moreover, the hollow upper column 2143 is in butt joint communication with the bottom of the mist guiding pipe 221 of the mist guiding assembly 22, and the hollow lower column 2144 is in butt joint communication with the atomizing hole 203 of the water tank lower cover 212.

It should be noted that a through water inlet 2105 is formed in the side surface of the hollow lower column 2144, so that water can enter the hollow lower column 2144 through the water inlet 2105, and then enter the atomization hole 203 of the water tank lower cover 212 to contact the ultrasonic atomizer 12.

In order to ensure sufficient water diversion, a water diversion channel 2106 is formed between the water diversion tray body 2141 and the water tank lower cover 212 at a certain distance, one end of the water diversion channel 2106 is opened towards the inner space of the water tank body 21, and the other end is communicated with the water inlet hole 2105.

When assembled, the entry of water from the tank body 21 into the atomization holes 203 of the tank lower cover 212 involves two processes:

the first route:

the water in the water tank body 21 enters the water inlet housing 222 through the water inlet gap 2202 on the side of the water inlet housing 222 and enters the lower surface of the water guide plate through the water guide gap 2104 of the water guide plate;

then, the water at the lower surface of the water guide plate 214 enters into the hollow column 2142 through the water inlet port 2105 of the hollow lower column 2144 and finally enters into the atomization hole 203 of the tank lower cover 212, contacting the ultrasonic atomizer 12;

the second way is as follows:

the water enters from the water guide channel 2106 between the water guide disc body 2141 and the water tank lower cover 212, enters the hollow column 2142 through the water inlet hole 2105 of the hollow lower column 2144, and finally enters the atomization hole 203 of the water tank lower cover 212 to contact the ultrasonic atomizer 12.

It should be noted that, in the water tank assembly 20, the hollow column 2142 makes the diversion tray form a diversion channel completely separated from the mist guiding channel of the mist guiding pipe 221, and the diversion channel and the mist guiding pipe are not affected by each other, so as to ensure that the mist generating effect has high reliability and stability.

It should be noted that the water inlet housing 222 in the mist guiding assembly 22 is not essential, and in other alternative embodiments, the water inlet housing 222 may be omitted, but even if the water inlet housing 222 is omitted, the present invention still falls within the scope of the present invention.

The air guide unit 23 includes an air guide portion 231 and a tubular portion 232 that communicate with each other, and the air guide portion 231 and the tubular portion 232 communicate with each other to form an air guide passage 2301 of the air guide unit 23.

The air guiding part 231 is installed on the bottom surface of the top cover body 2131, and an air inlet end of the air guiding part 231 is correspondingly communicated with the water tank air channel 2101 in the water tank body 21.

The tubular portion 232 is sleeved outside the mist outlet pipe 2132, the top of the tubular portion 232 abuts against the bottom surface of the top cover body 2131, and the bottom of the tubular portion 232 extends into the mist guiding assembly 22 and also abuts against the mist guiding assembly 22.

In this embodiment, the wind guiding portion 231 and the tubular portion 232 of the wind guiding unit 23 are integrated on the bottom surface of the top cap body 2131, and are integrally formed with the top cap body 2131. Of course, without being limited to this embodiment, the wind guiding portion 231 and the tubular portion 232 of the wind guiding unit 23 may also be fixed to the top cap body 2131 by other suitable fixing methods, which is not limited by the present invention; the wind guiding unit 23 is adopted to guide the wind direction, and the wind guiding unit falls into the protection scope of the invention.

In this embodiment, the top of the tubular portion 232 is fixed to the bottom surface of the top cap body 2131, the top of the mist guiding assembly 22 is provided with an abutting platform 204, and the bottom of the tubular portion 232 extends into the mist guiding assembly 22 and abuts against the abutting platform 204.

In this embodiment, an air inlet gap 205 is further formed between the tubular portion 232 and the mist outlet pipe 2132 at a certain distance, and the air inlet gap 205 communicates the air guiding channel 2301 and the mist guiding channel 2201. It should be noted that the air inlet gap 205 guides the airflow in the air guiding channel 2301 to enter the mist guiding channel 2201 from top to bottom, so as to realize convective mixing of the airflow and the mist.

In addition, the side surface of the mist outlet pipe 2132 is also provided with an air inlet 2133. The mixing of the mist and airflow within the tank assembly 20 has the following characteristics:

the air inlet gap 205 is used for guiding the air flow to be convectively mixed with the water mist, so that the air flow and the water mist are fully mixed;

the air inlet 2133 on the side surface of the fog outlet pipe 2132 is used for increasing the air inlet amount, so that the water fog fully mixed with the air flow can be quickly blown into the fog outlet assembly 30, and the fog outlet efficiency is ensured.

Referring to fig. 10 and 11, the float ball 24 includes a float ball body 241 and a purifying noise reduction cotton 242, the top of the float ball body 241 is provided with a receiving groove 2401, and the purifying noise reduction cotton 242 is received in the receiving groove 2402.

The floating ball body 241 is cylindrical, and the floating ball body 241 can float on a plane by the principle that the density of the floating ball body is smaller than that of water. Moreover, the floating ball body 241 is annularly provided with a plurality of water leakage holes 2402, and the water leakage holes 2402 are communicated with the accommodating groove 2401.

The purifying and silencing cotton 242 is processed by sponge, and the purifying and silencing cotton 242 has the functions of filtering and purifying water quality, silencing and reducing noise and inhibiting bacteria. However, the material of the purifying and noise reducing cotton 242 is not limited to sponge, and other suitable materials with a cotton-like structure may be selected, so long as the functions of filtering and purifying water quality, reducing noise and reducing noise are achieved, and the invention falls within the protection scope of the present invention.

The working principle of the floating ball 24 is as follows:

when the ultrasonic humidifier works, condensed water drops fall on the purification and noise reduction cotton 242 of the floating ball 24 in the mist guide pipe 22; after being filtered and purified by the purifying and silencing cotton 242, the water drops flow out through the water leakage holes 2402 of the floating ball body 241;

since the water drops are dropped on the purifying noise reducing cotton 242, the noise is not generated so much, and the noise reducing function is realized.

In addition, a through-center column 243 is formed at the center position of the receiving groove 2401 of the floating ball body 241 in an upward protruding manner, and a cylindrical hole 2403 in the through-center column 243 penetrates through the bottom plate of the receiving groove 2401. In this embodiment, the diameter of the through core column 243 is in the interval of 6-10mm, and the height thereof is in the interval of 10-20 mm; the hollow column 243 can aggregate the mechanical waves generated by the ultrasonic waves to generate more concentrated and stronger mechanical waves, so that the water is beaten higher and more scattered, and the atomization efficiency is improved.

Further, the fragrance box 25 includes: the incense box comprises an incense box body 251 for placing incense and incense cotton 252 placed in the incense box body 251. Wherein, two opposite side edges of the champignon box body 251 are provided with mounting chutes 2401,

in this embodiment, the fragrance box body 251 is integrally a square box structure with an open top, a fragrance box installation chute 2302 is formed in the air guiding portion 231 of the air guiding unit 23, and the fragrance box body 251 is slidably installed in the fragrance box installation chute 2302.

In order to limit the aroma box body 251, two side walls of the aroma box installation chute 2302 are respectively provided with a limiting rib 2303, and the limiting rib 2303 is parallel to the sliding direction of the aroma box body 251;

after being assembled, the top edge of the fragrance box body 251 abuts against the limiting rib 2303, so that the fragrance box body 251 is limited to move in the vertical direction; moreover, the inner wall of the upper cover 211 of the water tank blocks the installation opening of the champignon box installation chute 2302, so as to prevent the champignon box body 251 from exiting from the champignon box installation chute 2302. After the air current passes through the air guide channel 2301 of the air channel cover 23, the air current takes away the fragrance in the fragrance box 25 after passing through the fragrance box 25, thereby forming the fragrance function.

The mist outlet assembly 30 is clamped at the top of the mist inlet pipe 3132, and the periphery of the mist outlet assembly 30 extends outward, so that the extending portion of the mist outlet assembly 30 is located right above the water leakage hole 2103.

The mist outlet assembly 30 comprises an upper mist outlet cover 31 and a lower mist outlet cover 32 which are clamped with each other, the upper mist outlet cover 31 is provided with a mist outlet 301, and the lower mist outlet cover 32 is provided with a mist inlet 302;

after the lower fog outlet cover 32 and the upper fog outlet cover 31 are connected in a clamping manner, the lower fog outlet cover and the upper fog outlet cover cooperate to form a fog outlet channel 303 of the fog outlet assembly 30. The inlet end of the mist outlet channel 303 is communicated with the mist inlet 302, and the outlet end of the mist outlet channel 303 is communicated with the mist outlet 301.

The lower fog outlet cover 32 is mounted on the top of the fog outlet pipe 2132 of the water tank top cover 213, and the fog inlet 302 of the lower fog outlet cover 32 is communicated with the fog outlet pipe 2132.

The working principle of the ultrasonic atomization humidifier with the internal air inlet is as follows:

the ultrasonic atomizer 12 in the base 10 generates water mist in the mist guide assembly 22, and the turbo fan 13 introduces air flow in the base air duct 101;

the air flow of the base air duct 101 enters the water tank air duct 2101 in the water tank body 21, and finally enters the mist guiding channel 2201 in the mist guiding component 22 through the air guiding channel 2301 of the air guiding unit 23;

the mixing of the mist and airflow within the tank assembly 20 is as follows: the air inlet gap 205 is used for guiding the air flow to be convectively mixed with the water mist, so that the air flow and the water mist are fully mixed; the air inlet on the side surface of the fog outlet pipe 2132 is used for increasing the air inlet amount, so that the water fog fully mixed with the air flow can be quickly blown into the fog outlet assembly 30, and the fog outlet efficiency is ensured;

after entering the mist outlet channel 303 of the mist outlet assembly 30, the water mist fully mixed with the air flow finally enters air through the mist outlet 301, so that the humidifying function is realized;

moreover, if water needs to be added into the ultrasonic atomizing humidifier, water can be directly added into the water adding groove 2102, so that water is added into the water tank body 21 through the water leakage holes 2103, and the machine does not need to be stopped.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (7)

1. The utility model provides a top watered ultrasonic atomization humidifier which characterized in that includes: the water tank assembly is mounted at the top of the base, and the mist outlet assembly is mounted on the water tank assembly;

the water tank component comprises a water tank body, wherein a water adding groove is formed in the water tank top cover of the water tank body in a concave mode, a water leakage hole is formed in the water adding groove, and the water leakage hole is communicated with a water storage space in the water tank body.

2. The ultrasonic atomizing humidifier with water added from the top as claimed in claim 1, wherein the top cover of the water tank body comprises a top cover body and a mist inlet pipe formed by extending downwards from the top cover body;

the water adding groove is formed in the top cover body and is of an inverted horn-shaped structure integrally; the water inlet pipe is arranged in the middle of the water adding groove, and the water leakage hole is formed in the position surrounding the water inlet pipe.

3. The ultrasonic atomizing humidifier with water added from the top as claimed in claim 2, wherein the mist outlet assembly is clamped at the top of the mist inlet pipe, and the periphery of the mist outlet assembly extends outwards, so that the extending part of the mist outlet assembly is positioned right above the water leakage hole.

4. The ultrasonic atomizing humidifier with water added at the top as claimed in claim 2, wherein the mist outlet assembly comprises an upper mist outlet cover and a lower mist outlet cover which are clamped with each other, the upper mist outlet cover is provided with the mist outlet, and the lower mist outlet cover is provided with a mist inlet;

after the lower fog outlet cover and the upper fog outlet cover are clamped and connected, the lower fog outlet cover and the upper fog outlet cover are mutually matched to enclose the fog outlet channel, the inlet end of the fog outlet channel is communicated with the fog inlet, the outlet end of the fog outlet channel is communicated with the fog outlet,

the lower fog outlet cover is clamped at the top of the fog inlet pipe so as to cover the top opening of the fog inlet pipe, and the fog inlet of the lower fog outlet cover is communicated with the fog inlet pipe.

5. A top feed ultrasonic atomizing humidifier as set forth in claim 2, wherein said water tank assembly further includes: the air guide unit and the fog guide pipe are arranged in the water tank body, a water tank air duct is arranged in the water tank body,

the wind guide unit includes: the air guide part and the tubular part are communicated with each other to form an air guide channel of the air guide unit; the air guide part and the tubular part are both fixed on the bottom surface of the top cover body, and the air inlet end of the air guide part is correspondingly communicated with a water tank air channel in the water tank body,

the tubular part is sleeved outside the fog outlet pipe, and the bottom of the tubular part extends into the fog guide pipe;

an air inlet gap is formed between the tubular part and the fog outlet pipe at a certain interval, and the air inlet gap is communicated with the air guide channel and a fog guide channel in the fog guide pipe.

6. The ultrasonic atomizing humidifier with water added at the top as claimed in claim 5, wherein the side surface of the mist inlet pipe is further provided with an air inlet.

7. The ultrasonic atomizing humidifier with water added from top as claimed in claim 5, wherein the wind guiding portion and the tubular portion of the wind guiding unit are integrally formed with the top cover body.

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