CN212901829U

CN212901829U - Humidifier capable of buffering air inlet

Info

Publication number: CN212901829U
Application number: CN202021272442.9U
Authority: CN
Inventors: 蔡演强
Original assignee: Foshan Shunde Deerma Electric Appliances Co Ltd
Current assignee: Guangdong Delma Technology Co Ltd
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2021-04-06
Anticipated expiration: 2030-07-01

Abstract

The utility model discloses a moderate air inlet humidifier, which comprises a water tank, an atomizing assembly and a fan, wherein the atomizing assembly receives water from the water tank for atomization, the fan and the atomizing assembly are respectively arranged at the upper end and the lower end of the water tank, the fan is also provided with a mist outlet, the atomizing assembly comprises a mist outlet pipe, and the mist outlet pipe passes through the water tank and leads to the fan and the mist outlet; the water tank is equipped with inlet air channel outward, inlet air channel includes air intake, first wind channel and second wind channel, the air intake communicate external with first wind channel, first wind channel and second wind channel intercommunication and each other become the angle, the second wind channel intercommunication atomization component. The distance between the fan and the atomization assembly of the humidifier for alleviating air inlet is larger, the air inlet channel blowing to the atomization assembly is increased and is not directly blown, so that the influence of the fan and the air inlet on the water surface in the atomization assembly is reduced, and the stable and controllable atomization effect is convenient to realize.

Description

Humidifier capable of buffering air inlet

Technical Field

The utility model belongs to the technical field of domestic appliance and specifically relates to a humidifier of mitigateing air inlet.

Background

Air humidity is one of the important factors influencing environmental comfort, especially in northern areas and places where air conditioners are frequently used, so that humidifiers increasing the environmental humidity are becoming essential small household appliances for many families. Humidifiers generally humidify air by drawing air in with a fan and then blowing the air into the surrounding environment with the generated mist.

The evaporation of water in the humidifier is accelerated by often using a fan in the prior art, and then the humidification efficiency is accelerated. But the fan among the prior art often establishes near atomizing component, and the wind channel of air inlet is short, and often for directly blowing, consequently after the fan begins to operate, wind-force is fast for the last impact that is used for atomizing water to receive of atomizing component is great, is difficult to realize stable controllable atomization effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems existing in the prior art, the utility model provides a humidifier of alleviating air inlet, its fan is bigger with atomization component apart from, blows to atomization component's air inlet wind channel increase and not directly blow, therefore the influence of fan and air inlet to the surface of water reduces in the atomization component, is convenient for realize stable controllable atomization effect.

In order to achieve the above purpose, the technical scheme of the utility model has:

a humidifier for moderating intake air includes a water tank, an atomization assembly and a fan, the atomization assembly receiving water from the water tank for atomization.

The fan and the atomization assembly are respectively arranged at the upper end and the lower end of the water tank, a fog outlet is also formed outside the fan, the atomization assembly comprises a fog outlet pipe, and the fog outlet pipe penetrates through the water tank and leads to the fan and the fog outlet;

the water tank is equipped with inlet air channel outward, inlet air channel includes air intake, first wind channel and second wind channel, the air intake communicate external with first wind channel, first wind channel and second wind channel intercommunication and each other become the angle, the second wind channel intercommunication atomization component.

The fan is close to the atomization assembly and directly blows the atomization assembly in the prior art, so the water surface for atomization in the atomization assembly is easy to be impacted to cause unstable atomization effect. In order to avoid the situation in the scheme, the fan and the atomizing assembly are respectively arranged at the upper end and the lower end of the water tank, so that the distance between the fan and the atomizing assembly is at least the height of the water tank, and the fan cannot act on the atomizing assembly rapidly and directly during working but acts indirectly through the mist outlet pipe. Secondly, air inlet channel divide into first wind channel and second wind channel, still each other becomes the angle between the wind channel of two intercommunications, consequently outside wind need carry out the diversion after getting into first wind channel from the air intake and just can get into the second wind channel, the wind speed weakens in the in-process of diversion, the wind direction also becomes the stable air current of wind direction after twice standardizes, when getting into atomization component afterwards, can not be the quick air current of direction random conversion, it causes the impact to the water that is used for atomizing on the atomization component to have avoided, make the atomization process be difficult to control. After the air enters the atomizing assembly from the second air channel, the water mist generated stably by the atomizing assembly is driven to enter the outside from the mist outlet through the mist outlet pipe and the fan, and the efficient and stable humidifying effect is achieved.

Further, the water tank outside still overlaps and is equipped with the shell, inlet air channel locates between shell and the water tank, the air intake is located last port department between shell and the water tank, first wind channel is located between the lateral wall of shell and water tank, the second wind channel is located between the bottom surface of shell and water tank. The shell protects an air inlet channel outside the water tank, the position of an air inlet is matched with the original shape of the shell and the water tank, and a first air channel between the two side walls and a second air channel between the two bottom surfaces just utilize the angle between the side walls and the bottom surfaces to naturally form the angle between the first air channel and the second air channel so as to weaken the turning of wind.

Further, the first air duct and the second air duct are perpendicular to each other. The mutually perpendicular angle satisfies the perpendicular shape of lateral wall and bottom surface of general water tank or shell, and is more convenient when setting up. When better steering is ensured, the wind force is not weakened too much, and the water mist cannot be brought out.

Furthermore, an annular interval is formed between the outer side of the water tank and the shell, the air inlet channel is arranged in the interval, and the air inlet is annular and surrounds the water tank. The water tank can form annular intervals when being wholly smaller than the shell, the manufacturing is convenient, in making wind enter the air inlet channel from all angles outside the water tank, the air inlet efficiency is high.

Furthermore, an air guide plate is further arranged, the air guide plate gradually inclines outwards and upwards extends from the inner side of the air inlet close to the water tank, and a lateral air guide opening is formed between the air guide plate and the upper end of the shell. The air deflector enables the air inlet direction to be changed into the lateral direction, and compared with an upward structure, the lateral structure is not easy to drop sundries.

Furthermore, the air deflector is matched with the annular air inlet and is arranged in an annular mode, so that the air inlet at each position can be guided.

The top of the atomization cover cap is provided with an opening communicated with the mist outlet pipe, and the lower end of the atomization cover cap covers the atomization assembly; the atomizing cover is further provided with a through hole communicated with the second air channel. The atomizing cover cap forms an atomizing cavity above the atomizing assembly, temporary storage space is provided for mist, and wind entering from the through hole can be guided more conveniently.

Further, the top of atomizing shroud by go out fog pipe bottom to peripheral radial extension and with the bottom in second wind channel flushes, the through-hole encircles play fog pipe sets up, from each direction intercommunication second wind channel and atomization component. The top of the flush atomization cover cap can not block the air coming out of the second air channel, and the surrounding through holes can ensure that the air entering the atomization assembly from the air inlets in all directions is received.

Further, the atomization assembly comprises a heating element and a water adding assembly, wherein the heating element is used for heating water falling onto the heating element so as to generate water vapor; the water adding assembly is arranged above the heating element and comprises a drainage channel and a flow dispersing structure, the drainage channel is used for receiving water from the water tank and guiding the water to the flow dispersing structure, and the flow dispersing structure disperses the water and then flows into the heating element below. The atomizing component that adopts heating element heating a small amount of water more needs to guarantee that the water level on the heating element is at a certain degree, if the wind speed blows away the surperficial and the surperficial little water of structure that looses of heating element easily too fast, consequently this kind of humidifier is fit for the scheme that intake passage and fan and atomizing component in this scheme of adoption are farther to be set up more.

Further, the atomization assembly comprises a heating element and a water adding assembly, the heating element is used for heating water falling on the heating element so as to generate steam, the water adding assembly is located above the heating element and guides the water to the heating element, and a vent is formed in the water adding assembly; the air inlet channel further comprises a third air channel, the third air channel extends to the position between the water adding assembly and the heating element from the second air channel, and the ventilation opening is communicated with the third air channel and the mist outlet pipe. The third wind channel leads wind to the below of adding water the subassembly to avoid the air current directly to blow the surface of water that adds water the subassembly, the air current directly produces the impact to the surface of water, can obtain better atomization effect. When air enters, air entering from the second air channel flows in the third air channel, directly passes through the upper part of the heating element, directly takes away mist evaporated by the heating element, upwards enters the mist outlet pipe from the vent and then goes out to the outside from the mist outlet through the fan.

Drawings

Fig. 1 is a first angle cross-sectional view of a mild inlet humidifier according to the present invention;

FIG. 2 is an exploded view of a second angle section of a mild inlet humidifier according to the present invention;

fig. 3 is a perspective view of the humidifier for moderating intake air according to the present invention.

Detailed Description

The humidifier with moderated intake air of the present invention will be described in detail with reference to the accompanying drawings for explaining and explaining the scope of the present invention.

A humidifier for moderating incoming air includes a water tank 1, an atomizing assembly that receives water from the water tank 1 for atomization, and a fan (not shown).

The fan and the atomization assembly are respectively arranged at the upper end and the lower end of the water tank 1, the fan is arranged in the blowing chamber 3 and used for blowing air from the mist outlet pipe 21 to the outside, the top 72 of the blowing chamber 3 outside the fan is also provided with a mist outlet 31, the atomization assembly comprises the mist outlet pipe 21, and the mist outlet pipe 21 passes through the water tank 1 and leads to the fan and the mist outlet 31;

the water tank 1 is equipped with inlet air channel outward, inlet air channel includes air intake 41, first wind channel 42 and second wind channel 43, air intake 41 communicate external with first wind channel 42, first wind channel 42 and second wind channel 43 intercommunication and each other become the angle, second wind channel 43 intercommunication atomization component.

In this scheme in order to avoid the adjacent atomization component of fan and direct-blow atomization component among the prior art, consequently be used for the atomizing surface of water to receive the impact easily among the atomization component and cause the unstable condition of atomization effect to take place, at first locate the upper and lower both ends of water tank 1 with fan and atomization component branch for distance between the two is the height of water tank 1 at least, and the fan during operation can not directly act on atomization component fast, but through going out fog pipe 21 and come indirect effect. Secondly, air inlet channel divide into first wind channel 42 and second wind channel 43, still each other becomes the angle between the wind channel of two intercommunications, consequently outside wind gets into first wind channel 42 from air intake 41 after need carry out the diversion and just can get into second wind channel 43, wind speed weakens in the in-process of diversion, the wind direction also becomes the stable air current of wind direction after two regulations, when getting into atomization component afterwards, can not be the quick air current of direction random switching, the water that is used for atomizing on the atomization component has been avoided causing the impact, make the atomization process difficult to control. After the air enters the atomizing assembly from the second air duct 43, the air carries the water mist generated stably by the atomizing assembly to enter the outside from the mist outlet 31 through the mist outlet pipe 21 and the fan, so that the efficient and stable humidifying effect is achieved.

As the preferred embodiment of air inlet channel, the outer side of the water tank 1 is also sleeved with the shell 5, the air inlet channel is arranged between the shell 5 and the water tank 1, the air inlet 41 is positioned at the upper port between the shell 5 and the water tank 1, the first air channel 42 is positioned between the shell 5 and the side wall of the water tank 1, and the second air channel 43 is positioned between the shell 5 and the bottom surface of the water tank 1. The shell 5 protects an air inlet channel outside the water tank 1, the position of the air inlet 41 is matched with the original shape of the shell 5 and the water tank 1, the first air channel 42 between the two side walls and the second air channel 43 between the two bottom surfaces just utilize the angle between the side walls and the bottom surfaces, and the angle between the first air channel 42 and the second air channel 43 is naturally formed so as to realize the direction change weakening of wind. The first air duct 42 and the second air duct 43 are perpendicular to each other. The mutually perpendicular angles satisfy the vertical shape of the side wall and the bottom surface of the common water tank 1 or the shell 5, and the arrangement is more convenient. When better steering is ensured, the wind force is not weakened too much, and the water mist cannot be brought out. An annular interval is formed between the outer side of the water tank 1 and the shell 5, the air inlet channel is arranged in the interval, and the air inlet 41 is annular and surrounds the water tank 1. The water tank 1 can form annular intervals when being wholly smaller than the shell 5, the manufacturing is convenient, in wind can enter the air inlet channel from all angles outside the water tank 1, the air inlet efficiency is high. The air inlet 41 is covered with a grid. The grid plays a role in guiding wind and preventing sundries from falling into the grid from the air inlet 41.

Based on the above-mentioned embodiment of the air intake channel, the present embodiment further provides a preferable solution, that is, a third air duct 44 is further provided on the basis of the first air duct 42 and the second air duct 43. The atomization assembly comprises a heating element 21 and a water adding assembly, the heating element 21 is used for heating water falling on the heating element to generate water vapor, the water adding assembly is located above the heating element 21 and guides the water to the heating element 21, and a vent is formed in the water adding assembly; the air inlet channel further comprises a third air channel 44, the third air channel 44 extends from the second air channel to a position between the water adding assembly and the heating element 21, and the ventilation opening is communicated with the third air channel 44 and the fog outlet pipe. During air intake, the air entering from the second air duct flows in the third air duct 44, directly passes through the upper part of the heating element 21, directly takes away the mist evaporated from the heating element 21, upwards enters the mist outlet pipe 21 from the vent, and then passes through the fan and goes out from the mist outlet 31 to the outside.

In the arrangement of the air inlet 41 in the direction, an air guiding plate 6 is further disposed at the air inlet 41 in this embodiment, and the air guiding plate 6 gradually inclines and extends upwards from the inner side of the air inlet 41 close to the water tank 1, and forms a lateral air guiding opening with the upper end of the housing 5. The air guide plate 6 enables the air inlet direction to be changed into the lateral direction, and compared with an upward structure, the lateral structure is not easy to drop sundries. The air deflector 6 is matched with the annular air inlet 41 and is arranged in an annular shape, so that the air inlet 41 at each position can be guided.

In order to better communicate the air inlet channel with the atomizing assembly, the water mist generated by the atomizing assembly is sent to the mist outlet pipe 21, the atomizing device further comprises an atomizing cover 7, an opening is formed in the top 72 of the atomizing cover 7 and is communicated with the mist outlet pipe 21, and the lower end of the atomizing cover 7 covers the atomizing assembly; the atomizing cover 7 is further provided with a through hole 71 communicated with the second air duct 43. The atomizing cover 7 forms an atomizing chamber above the atomizing assembly, which provides a temporary storage space for mist and can guide the wind entering from the through hole 71 more conveniently.

With the cooperation of atomizing shroud 7, the top 72 of atomizing shroud 7 by go out the fog pipe 21 bottom to peripheral radial extension and with the bottom in second wind channel 43 flushes, through-hole 71 encircles the setting of play fog pipe 21 is from all directions intercommunication second wind channel 43 and atomization component. The top 72 of the flush cover 7 will not block the air from the second air duct 43, and the surrounding through holes 71 can ensure that the air from the air inlet 41 can be received onto the atomizing assembly.

The atomizing assembly can be in various forms, such as a common atomizing assembly which generates water mist by using an ultrasonic atomizing sheet or other atomizing assemblies, the atomizing assembly in the embodiment preferably adopts a heating and evaporating scheme, and comprises a heating element 21 and a water adding assembly, wherein the heating element 21 is used for heating water falling onto the heating element so as to generate water vapor; the water adding assembly is arranged above the heating element 21 and comprises a drainage channel 22 and a water dispersing structure 23, the drainage channel 22 is used for receiving water from the water tank 1 and guiding the water to the water dispersing structure 23, and the water dispersing structure 23 disperses the water and then flows into the heating element 21 below. The flow dispersing structure 23 comprises a concave disc and a water leakage groove, and the concave disc is used for containing water from the drainage channel 22; the water leakage groove is arranged around the concave disc and receives water overflowing from the concave disc, a plurality of water leakage holes are formed in the bottom of the water leakage groove, and the heating element 21 is arranged below the water leakage holes. The atomizing assembly that adopts heating element 21 to heat a small amount of water more needs to guarantee that the water level on heating element 21 is at a certain degree, if the wind speed blows away the small amount of water on heating element 21 surface and the structure 23 surface that looses easily too fast, therefore this kind of humidifier is fit for the scheme that air inlet channel and fan and atomizing assembly in this scheme of adoption are farther to set up more.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims

1. A humidifier for moderating intake air, comprising a water tank, an atomizing assembly and a fan, the atomizing assembly receiving water from the water tank for atomization,

2. The humidifier of claim 1, wherein a housing is further sleeved outside the water tank, the air inlet channel is disposed between the housing and the water tank, the air inlet is located at an upper port between the housing and the water tank, the first air channel is located between the housing and a side wall of the water tank, and the second air channel is located between the housing and a bottom surface of the water tank.

3. The humidifier of claim 2, wherein the first and second air paths are perpendicular to each other.

4. The humidifier of claim 2, wherein an annular space is provided between the outside of the water tank and the housing, the air inlet passage is provided in the space, and the air inlet is annular around the water tank.

5. The humidifier of claim 4, further comprising a wind guide plate, wherein the wind guide plate extends from the inside of the wind inlet close to the water tank to the outside in an inclined manner, and forms a lateral wind guide opening with the upper end of the housing.

6. The humidifier of claim 5, wherein the air deflector is annularly disposed in cooperation with the annular air inlet.

7. The humidifier according to claim 5, further comprising an atomizing cover, wherein an opening is formed in the top of the atomizing cover and is communicated with the mist outlet pipe, and the lower end of the atomizing cover covers the atomizing assembly; the atomizing cover is further provided with a through hole communicated with the second air channel.

8. The humidifier of claim 7, wherein the top of the atomizing cover extends radially from the bottom end of the mist outlet pipe to the periphery and is flush with the bottom of the second air duct, and the through hole is disposed around the mist outlet pipe and communicates the second air duct and the atomizing assembly from all directions.

9. The humidifier of claim 1, wherein the atomizing assembly includes a heating element for heating water falling thereon to produce water vapor and a water addition assembly; the water adding assembly is arranged above the heating element and comprises a drainage channel and a flow dispersing structure, the drainage channel is used for receiving water from the water tank and guiding the water to the flow dispersing structure, and the flow dispersing structure disperses the water and then flows into the heating element below.

10. The humidifier of claim 1, wherein the atomizing assembly includes a heating element for heating water falling thereon to generate water vapor and a water adding assembly located above the heating element and directing the water onto the heating element, the water adding assembly having a vent; the air inlet channel further comprises a third air channel, the third air channel extends to the position between the water adding assembly and the heating element from the second air channel, and the ventilation opening is communicated with the third air channel and the mist outlet pipe.