CN218027410U - Humidification blower - Google Patents

Abstract

The application discloses a humidifying blower, which comprises an air pipe and a blower, wherein the blower is matched with the air pipe and is suitable for generating directional air flow; the humidifying component comprises a water outlet component and a water supply part, the water outlet component is connected to the water supply part, and the water supply part is suitable for providing a water source; the water outlet assembly comprises a water outlet pipe and a water outlet spray head, the head of the water outlet pipe invades a path of directional air flow, the tail of the water outlet pipe is connected to the water supply part, the water outlet spray head is arranged at the head of the water outlet pipe, and the water outlet spray head is suitable for changing the speed and the shape of the water flow sprayed out of the water outlet pipe. Gardens hair-dryer is mainly in order to blow away grass bits, dust etc. but in the in-service use process, its dust of swabbing is very big, can cause secondary pollution for it is not good to blow the effect, installs the humidification subassembly additional on gardens hair-dryer, can prevent that dust, grass bits from being swabbed, prevents secondary pollution, and makes the plant surface more pleasing to the eye.

Description

Humidification blower

Technical Field

The application relates to the field of gardens, in particular to but humidification hair-dryer.

Background

At present, the hair drier is mainly used for drying and shaping hair, but also can be used for local drying and heating physiotherapy in laboratories, physiotherapy rooms, industrial production, art designing and the like. Gardens hair-dryer and ordinary hair-dryer are different, generally do not have the heating function, are used for reducing fallen leaves, dust, the grass bits etc. on the gardens vegetation usually, make gardens more pleasing to the eye.

In the actual use process, because the weight ratio of dust, grass bits is lighter, is blown up by the gardens hair-dryer, and the later time is fallen to the plant surface again, forms secondary pollution, therefore ordinary gardens hair-dryer result of use is not good. Therefore, the existing hair dryer has the problem of large dust when in use, and is a problem to be solved by the technical personnel in the field.

Disclosure of Invention

It is an object of the present application to provide a blower that reduces dust.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows:

a humidifiable blower comprising an air duct and a blower adapted to generate a directed air flow in cooperation with said air duct, said blower further comprising a humidifying assembly adapted to generate a flow of water adapted to invade the path of said directed air flow.

The humidification component is additionally arranged on the garden blower, and the wind generated by the fan drives the fluids to be sprayed on the surface of the plant, so that the aims of reducing dust and beautifying the environment are fulfilled.

It should be noted that the water flow provided by the humidifying assembly is not necessarily pure water, and may be other fluids such as nutrient solution.

Preferably, the humidifying assembly comprises a water outlet assembly and a water supply part, the water outlet assembly is connected to the water supply part, and the water supply part is suitable for providing a water source; the water outlet assembly comprises a water outlet pipe and a water outlet spray head, the head of the water outlet pipe invades the path of the directional airflow, the tail of the water outlet pipe is connected to the water supply part, the water outlet spray head is arranged at the head of the water outlet pipe, and the water outlet spray head is suitable for changing the speed and the shape of the water outlet pipe for spraying water flow.

The mounting position of the water outlet assembly can be optimized by using the water outlet pipe, and the volume of the fluid sprayed out of the water outlet assembly can be reduced by arranging the water outlet spray head, so that the water outlet assembly is more uniform, and the effect of increasing the spraying area is achieved.

Preferably, the water supply part is provided with a water pump, and the water pump is suitable for driving the fluid to pass through the water outlet pipe.

Preferably, the inner wall of the water supply part defines a sealed cavity, and an air inlet hole is arranged on the sealed cavity and is suitable for increasing the pressure of the sealed cavity.

Further preferably, the humidification assembly comprises an air inlet pipe and a one-way valve, the air inlet pipe is connected with the air inlet hole through the one-way valve, and the air inlet pipe is suitable for air inlet.

Because the wind generated by the fan flows along the wind pipe, the head of the water outlet pipe is arranged at the front end of the fan, and the pressure intensity of the head of the water outlet pipe is lower than the pressure intensity of the tail of the water outlet pipe according to the Bernoulli principle, the fluid in the water outlet pipe is pressed out from the water supply part and is pressed out of the head of the water outlet pipe along the water outlet pipe; at the moment, the air pressure in the water supply part is reduced, an air inlet hole needs to be formed, an air inlet pipe needs to be installed, the air pressure in the water supply part is guaranteed to be unchanged, the pressure intensity of the head of the water outlet pipe is always guaranteed to be lower than the pressure intensity of the tail of the water outlet pipe, and the purpose of continuous water outlet is achieved.

It is worth mentioning that although the check valve is not necessary, in the actual use process, the humidification assembly of the check valve is installed, the water outlet continuity of the humidification assembly is better, the reason is that the air flow is blocked by the check valve, the air flow can only enter the water supply part through the air inlet pipe, the pressure of the water supply part is always kept larger, and the water outlet continuity is guaranteed.

To realize water outlet, it is necessary to ensure that the pressure in the sealing cavity is greater than the pressure at the head of the water outlet pipe, and to maintain the pressure in the sealing cavity, it is necessary to ensure that the air inlet pipe continuously enters air, so that it is necessary to ensure that the pressure at the head of the air inlet pipe is greater than the pressure in the sealing cavity, and thus it is necessary to maintain the pressure at the head of the air inlet pipe greater than the pressure at the head of the water outlet pipe to maintain continuous water outlet.

Preferably, the head of the air inlet pipe is connected to the head of the air pipe, the tail of the air inlet pipe is connected to the one-way valve, and the distance between the head of the air inlet pipe and the fan is greater than the distance between the head of the water outlet pipe and the fan.

Along the air pipe axis direction, the wind speed reduces along with the distance increase with the fan, consequently when the head of intake pipe and the distance of fan are greater than the head of outlet pipe and the distance of fan, the wind speed of the head of intake pipe is less than the wind speed of the head of outlet pipe, consequently the pressure of the head of intake pipe is greater than the pressure of the head of outlet pipe, consequently gaseous can get into the water supply portion through intake pipe and check valve, pressure increase in the water supply portion, thereby order to order about the fluid and flow out to the head of outlet pipe from the water supply portion, realize the effect of humidification.

Preferably, the head of the air inlet pipe is connected to the air pipe, the tail of the air inlet pipe is connected to the one-way valve, the head of the water outlet pipe is connected to the head of the air pipe, a nozzle part is mounted at the head of the air pipe and is suitable for increasing the air speed of the head of the air pipe, and the distance between the head of the air inlet pipe and the fan is smaller than the distance between the head of the water outlet pipe and the fan.

Along the axial direction of the air pipe, the air speed is reduced along with the increase of the distance from the fan, the distance from the head of the air inlet pipe to the fan is smaller than the distance from the head of the water outlet pipe to the fan, so the air speed of the head of the air inlet pipe is larger than that of the head of the water outlet pipe, in order to ensure water outlet, a nozzle part needs to be installed on the head of the air pipe, the air speed of the head of the air pipe is increased, the purpose that the air speed of the head of the air inlet pipe is smaller than that of the head of the water outlet pipe is achieved, the purpose that the pressure of the head of the air inlet pipe is larger than that of the head of the water outlet pipe is achieved, and the effect of water outlet humidification is achieved.

The distance between the head of the air inlet pipe and the fan is smaller than the distance between the head of the water outlet pipe and the fan, the volume of the blower can be reduced, the head of the water outlet pipe is connected to the head of the air pipe, the humidifying effect can be increased, and unnecessary fluid residue in the air pipe is reduced.

Another preferred, the afterbody of intake pipe is provided with the anticreep stopper, the anticreep stopper is applicable to and increases the intake pipe with the leakproofness between the water supply portion, and prevent the intake pipe with the separation of water supply portion.

Further preferably, the water supply part is slidably connected with the air pipe.

In the in-service use, but water supply portion and tuber pipe sliding connection conveniently toward filling fluid in the water supply portion to when water in the water supply portion is not enough, conveniently lift off water supply portion and fill.

Further preferably, the direction of the water outlet nozzle faces the air pipe.

The direction of the water outlet spray head can point to all directions, but preferably points to the air pipe, and because the air in the air pipe can drive the fluid sprayed by the water outlet spray head, the fluid can be sprayed farther; and the air in the air pipe can be moistened, so that the humidifying efficiency is improved, dust is further reduced, and the environment is beautified in the actual production.

Compared with the prior art, the beneficial effect of this application lies in:

(1) The hair drier is mainly used for blowing away grass clippings, dust and the like, but in the actual use process, the excited dust is very large, secondary pollution can be caused, the hair drier has poor blowing effect, the humidification component is additionally arranged on the hair drier, the dust and the grass clippings can be prevented from being excited, the secondary pollution is prevented, and the plant surface is more attractive;

(2) To the longer gardens hair-dryer of tuber pipe, invade the rivers that the humidification subassembly produced the route of directional air current can make the wind that the fan produced drive humidification subassembly spun rivers, makes the humidification effect better to the wind that is driven by the fan has accelerated the flow velocity that the humidification subassembly produced the rivers, thereby realizes faster humidification effect.

Drawings

Figure 1 is a schematic view of one embodiment of a hair dryer of the present application, showing the location and configuration of the various components;

figure 2 is a top view of one embodiment of a blower of the present application;

figure 3 isbase:Sub>A cross-sectional view of sectionbase:Sub>A-base:Sub>A of one embodiment ofbase:Sub>A hair dryer of the present application illustrating the configuration and location of the humidifying assembly when D1 is less than D2;

FIG. 4 isbase:Sub>A cross-sectional view taken along section A-A of another embodiment ofbase:Sub>A blower of the present application, illustrating the configuration and location of the humidifying assembly when D1 is greater than D2;

FIG. 5 isbase:Sub>A cross-sectional view taken along section A-A of another embodiment ofbase:Sub>A blower of the present application, illustrating the use ofbase:Sub>A water pump for pressurization;

FIG. 6 is an enlarged partial view of position B of one embodiment of a hair dryer of the present application showing the position of the anti-clog and air intake;

FIG. 7 is an enlarged view of a portion of one embodiment of a hair dryer of the present application at position C, showing the orientation of water outlet nozzle 311;

figure 8 is a structural illustration of an anti-clog of an embodiment of a blower of the present application;

FIG. 9 is a schematic view of a water supply portion of one embodiment of a hair dryer of the present application, showing a sliding projection of the water supply portion;

figure 10 is a schematic view of an air duct of one embodiment of a hair dryer of the present application showing a sliding channel below the air duct.

In the figure: 1. a fan; 2. an air duct; 21. a nozzle portion; 22. a head of the air duct; 23. the tail part of the air pipe; 24. a sliding groove;

3. a humidifying assembly; 31. a water outlet assembly; 311. a water outlet nozzle; 313. a water outlet pipe; 3131. a head of the water outlet pipe; 3132. the tail part of the water outlet pipe;

32. a water supply part; 321. sealing the cavity; 3211. an air intake; 322. a water pump; 323. a sliding projection;

33. an air inlet pipe; 331. a one-way valve; 332. an intake pipe head; 333. the tail part of the air inlet pipe; 334. the plug is prevented from falling.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present application and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be construed as limiting the specific scope of protection of the present application.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The terms "comprises," "comprising," and "having," and any variations thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The hair-dryer mainly used beautifully gardens reduce the influence of dust, grass bits etc. nevertheless in the in-service use process, because the weight ratio of dust, grass bits is lighter, is blown up the back by the gardens hair-dryer, and the overperiod will descend to the plant surface again, forms secondary pollution, and consequently ordinary gardens hair-dryer result of use is not good.

Based on this, the inventor of the present application has developed a hair dryer capable of humidifying, as shown in fig. 1 to 10, which includes an air duct 2 and a blower 1, the blower 1 is installed at the tail of the air duct 2, i.e., the air duct tail 23, the hair dryer capable of humidifying includes a humidifying assembly 3, the humidifying assembly 3 is installed below the air duct 2, the humidifying assembly 3 includes a water outlet assembly 31 and a water supply portion 32, the head of the water outlet assembly 31 is connected to the front end of the blower 1, the tail of the water outlet assembly 31 is connected to the water supply portion 32, and the water supply portion 32 is adapted to supply fluid. The head and tail directions of the air duct tail 23 and the water outlet assembly 31 are in the orientation shown in fig. 3.

Compare in ordinary hair-dryer, gardens hair-dryer's tuber pipe 2 is generally longer, be convenient for tuber pipe 2 to press close to the plant surface that needs were bloied, for example lawn etc., consequently install fan 1 at the afterbody of tuber pipe 2, can reduce the moment of fan 1's production on tuber pipe 2, thereby reduce the power that the handheld hair-dryer of workman needs, play laborsaving purpose, and install humidification subassembly 3 additional on the gardens hair-dryer, and supply water through water supply portion 32, go out water through play water subassembly 31, the wind that produces through fan 1 drives these fluids and sprays the plant surface, realize reducing the dust, beautify the purpose of environment.

It should be noted that the fluid supplied from the water supply unit 32 is not necessarily pure water, and may be other fluids such as nutrient solution.

As a preferred embodiment, as shown in fig. 3, the water outlet assembly 31 includes a water outlet pipe 313 and a water outlet nozzle 311, wherein a head 3131 of the water outlet pipe is connected to the front end of the blower 1, a tail 3132 of the water outlet pipe is connected to the water supply part 32, the water outlet nozzle 311 is disposed on the head 3131 of the water outlet pipe, and the water outlet nozzle 311 is adapted to change the speed and shape of the fluid sprayed out of the water outlet pipe 313. Wherein the positions of the head 3131 and the tail 3132 of the outlet tube are shown in fig. 3.

The installation position of the water outlet assembly 31 can be optimized by using the water outlet pipe 313, and the volume of the fluid sprayed out of the water outlet assembly 31 can be reduced by arranging the water outlet nozzle 311, so that the fluid is more uniform, and the effect of increasing the spraying area is achieved.

In another preferred embodiment, as shown in fig. 3 to 6, the inner wall of the water supply part 32 defines a sealed cavity 321, and the sealed cavity 321 is provided with an air inlet hole 3211, and the air inlet hole 3211 is adapted to increase the pressure in the sealed cavity 321.

As shown in fig. 3 and 6, since the outlet pipe 313 is located at the front of the blower 1, when the blower 1 is started, the air flow rate near the outlet pipe head 3131 is faster, and the pressure of the outlet pipe head 3131 is lower according to bernoulli's principle, so that the fluid flows out from the water supply part 32 to the outlet pipe head 3131, but in the actual use process, as the fluid in the water supply part 32 is less and less, the pressure in the sealed cavity 321 is less and less, and the fluid movement is stopped when no pressure difference is formed between the sealed cavity 321 and the outlet pipe head 3131; therefore, it is necessary to provide the air inlet holes 3211 on the sealed cavity 321 to ensure that the pressure in the sealed cavity 321 is always higher than the head 3131 of the water outlet pipe as the fluid in the water supply part 32 decreases, so that the fluid can smoothly flow into the water outlet pipe 313 from the water supply part 32.

Further preferably, as shown in fig. 3 and 6, the humidifying assembly 3 comprises an air inlet pipe 33 and a one-way valve 331, the air inlet pipe 33 is connected with the air inlet hole 3211 through the one-way valve 331, and the air inlet pipe 33 is suitable for air inlet.

Because the wind generated by the fan 1 flows along the wind pipe 2, the head 3131 of the outlet pipe is installed at the front end of the fan 1, and the pressure of the head 3131 of the outlet pipe is lower than that of the tail 3132 of the outlet pipe according to the bernoulli principle, the fluid in the outlet pipe is pressed out from the water supply part 32 and pressed out of the head 3131 of the outlet pipe along the outlet pipe 313; at this time, the air pressure in the water supply part 32 is reduced, and an air inlet hole 3211 needs to be opened and an air inlet pipe 33 needs to be installed to ensure that the air pressure in the water supply part 32 is unchanged, so that the pressure of the head part 3131 of the water outlet pipe is always lower than the pressure of the tail part 3132 of the water outlet pipe, and the purpose of continuous water outlet is achieved.

It should be mentioned that, although the check valve 331 is not necessary, in the actual use process, the humidification component 3 with the check valve 331 is installed, and the water outlet continuity is better because the air flow is blocked by the check valve 331, and the air flow can only enter the water supply part 32 through the air inlet pipe 33, so that the pressure of the water supply part 32 is always kept higher, and the water outlet continuity is ensured.

To achieve water discharge, it is necessary to ensure that the pressure inside the seal cavity 321 is greater than the pressure inside the outlet pipe head 3131, and to maintain the pressure inside the seal cavity 321, it is necessary to ensure that the air inlet pipe 33 is continuously supplied with air, so it is necessary to ensure that the pressure inside the air inlet pipe head 332 is greater than the pressure inside the seal cavity 321, so it is possible to maintain the pressure inside the air inlet pipe head 332 greater than the pressure inside the outlet pipe head 3131 in order to maintain continuous water discharge.

In a further preferred embodiment, as shown in fig. 4, the air inlet pipe head 332 is connected to the air pipe head 22, the air inlet pipe tail 333 is connected to the one-way valve 331, and the distance D1 between the air inlet pipe head 332 and the fan 1 is greater than the distance D2 between the water outlet pipe head 3131 and the fan 1.

Along the axial direction of the air duct 2, the wind speed decreases with the increasing distance from the fan 1, therefore, when the distance D1 between the air inlet pipe head 332 and the fan 1 is greater than the distance D2 between the water outlet pipe head 3131 and the fan 1, the wind speed of the air inlet pipe head 332 is less than that of the water outlet pipe head 3131, therefore, the pressure of the air inlet pipe head 332 is greater than that of the water outlet pipe head 3131, therefore, air can enter the water supply part 32 through the air inlet pipe 33 and the one-way valve 331, the pressure in the water supply part 32 increases, thereby driving fluid to flow out from the water supply part 32 to the water outlet pipe head 3131, and achieving the humidifying effect.

In another preferred embodiment, as shown in fig. 3, the air inlet pipe head 332 is connected to the air pipe 1, the air inlet pipe tail 333 is connected to the one-way valve 331, the water outlet pipe head 3131 is connected to the air pipe head 22, the air pipe head 22 is provided with the nozzle part 21, the nozzle part 21 is suitable for increasing the air speed of the air pipe head 22, and the distance D1 between the air inlet pipe head 332 and the fan 1 is smaller than the distance D2 between the water outlet pipe head 3131 and the fan 1.

In this embodiment, the nozzle 21 has a smaller front and a larger rear, and a smaller cross-sectional area, and when the fluid flow rate is constant, the smaller the cross-sectional area, the faster the fluid flow rate, so that the air speed in the duct head 22 can be increased by adding the nozzle 21.

Along the axial direction of the air duct 2, the air speed is reduced along with the increase of the distance from the fan 1, because the distance D1 between the air inlet pipe head 332 and the fan 1 is less than the distance D2 between the water outlet pipe head 3131 and the fan 1, the air speed of the air inlet pipe head 332 is greater than that of the water outlet pipe head 3131, and in order to ensure water outlet, a nozzle part 21 needs to be installed on the air duct head 22, so that the air speed of the air duct head 22 is increased, the purpose that the air speed of the air inlet pipe head 332 is less than that of the water outlet pipe head 3131 is achieved, the purpose that the pressure of the air inlet pipe head 332 is greater than that of the water outlet pipe head 3131 is achieved, and the effect of water outlet humidification is achieved.

The distance between the air inlet pipe head 332 and the fan 1 is smaller than the distance between the water outlet pipe head 3131 and the fan 1, so that the volume of the blower can be reduced, and the water outlet pipe head 3131 is connected to the air pipe head 22, so that the humidifying effect can be increased, and unnecessary fluid residue in the air pipe 2 can be reduced.

In another preferred embodiment, as shown in FIG. 5, a water pump 322 is provided on the water supply 32, the water pump 322 being adapted to drive fluid through the outlet pipe 313.

The water pump 322 is used to drive fluid out of the water supply 32, along the outlet pipe 313 from the outlet pipe tail 3132 to the outlet pipe head 3131, thereby humidifying the wind generated in the fan 1, and thus achieving the humidifying effect.

In another preferred embodiment, as shown in fig. 6 and 8, the air inlet pipe tail 333 is provided with a retaining plug 334, and the retaining plug 334 is adapted to increase the sealing property between the air inlet pipe 33 and the water supply part 32 and prevent the air inlet pipe 33 from being separated from the water supply part 32.

The anti-slip plug 334 is a conventional plug, and is generally made of a flexible body, and in practical use, the anti-slip plug 334 can prevent air leakage between the air inlet pipe 33 and the water supply part 32 due to two functions of sealing and anti-slip, and prevent the air inlet pipe 33 and the water supply part 32 from being separated during use.

Further preferably, as shown in fig. 9 and 10, the water supply part 32 is slidably connected with the air duct 2, in this embodiment, a sliding protrusion 323 is provided above the water supply part 32, a sliding groove 24 is provided below the air duct 2, and the water supply part 32 is slidably connected with the sliding groove 24 in the air duct 2 through the sliding protrusion 323.

In actual use, the water supply part 32 is slidably connected with the air pipe 2, so that fluid can be conveniently filled into the water supply part 32, and when the water in the water supply part 32 is insufficient, the water supply part 32 can be conveniently detached and filled.

In a further preferred embodiment, as shown in fig. 3 and 7, the water outlet nozzle 311 is oriented towards the air duct 2.

The direction of the water outlet nozzle 311 can be directed to various directions, but is preferably directed to the air duct 2, because the air in the air duct 2 can drive the fluid sprayed from the water outlet nozzle 311, so that the fluid is sprayed farther; and the air in the air pipe 2 can be moistened, so that the humidification efficiency is improved, dust is further reduced, and the environment is beautified in actual production.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (10)

1. A humidifiable blower comprising an air duct and a blower adapted to generate a directed air flow in cooperation with said air duct, wherein said blower further comprises a humidifying assembly adapted to generate a flow of water adapted to invade the path of said directed air flow.

2. The humidifiable blower of claim 1 wherein said humidifying assembly comprises a water outlet assembly and a water supply portion, said water outlet assembly being connected to said water supply portion, said water supply portion being adapted to provide a source of water; the water outlet assembly comprises a water outlet pipe and a water outlet spray head, the head of the water outlet pipe invades the path of the directional airflow, the tail of the water outlet pipe is connected to the water supply part, the water outlet spray head is arranged at the head of the water outlet pipe, and the water outlet spray head is suitable for changing the speed and the shape of the water outlet pipe for spraying water flow.

3. The humidifiable blower of claim 2 wherein said water supply is provided with a water pump adapted to drive fluid through said outlet tube.

4. The humidifiable blower of claim 2 wherein the inner wall of said water supply defines a sealed chamber, said sealed chamber having an air inlet hole therein, said air inlet hole adapted to increase the pressure in said sealed chamber.

5. The humidifiable blower of claim 4, wherein said humidifying assembly comprises an air inlet tube and a check valve, said air inlet tube being connected to said air inlet hole through said check valve, said air inlet tube being adapted for air intake.

6. The humidifiable blower of claim 5, wherein the head of said air inlet pipe is connected to the head of said air pipe, the tail of said air inlet pipe is connected to said one-way valve, and the distance between the head of said air inlet pipe and said blower is greater than the distance between the head of said water outlet pipe and said blower.

7. The humidifiable blower of claim 5, wherein the head of said air inlet pipe is connected to said air pipe, the tail of said air inlet pipe is connected to said one-way valve, the head of said water outlet pipe is connected to the head of said air pipe, the head of said air pipe is equipped with a nozzle portion, said nozzle portion is suitable for increasing the wind speed of the head of said air pipe, and the distance between the head of said air inlet pipe and said blower is smaller than the distance between the head of said water outlet pipe and said blower.

8. The humidifiable blower of claim 5, wherein the rear portion of said inlet pipe is provided with a stopper adapted to increase the sealing between said inlet pipe and said water supply portion and to prevent the inlet pipe from being separated from said water supply portion.

9. The humidifiable air blower of claim 2, wherein said water supply portion is slidably connected to said air duct.

10. The humidifiable blower of claim 2 wherein said outlet nozzle is oriented toward said air duct.

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