阅读说明：本技术 喷头及喷雾器 (Spray head and sprayer ) 是由 王高峰 于 2020-07-28 设计创作，主要内容包括：一种喷头及喷雾器,喷头包括传输件和风叶组件,风叶组件与传输件连接,风叶组件能够相对于传输件旋转以在风叶组件的内部形成真空环境,从而使待雾化的液体在大气压强下通过传输件进入风叶组件的内部,风叶组件还能够带动进入风叶组件的内部的液体旋转以使液体雾化并喷出至风叶组件的外部,由于进入风叶组件内的液体随风叶组件一起旋转使得液体雾化效果更好。(The utility model provides a shower nozzle and atomizer, the shower nozzle includes transmission and fan blade subassembly, fan blade subassembly is connected with the transmission, fan blade subassembly can be rotatory in order to form vacuum environment in fan blade subassembly's inside for the transmission, thereby make the liquid of treating the atomizing pass through the transmission under atmospheric pressure and get into the inside of fan blade subassembly, fan blade subassembly can also drive the liquid rotation that gets into the inside of fan blade subassembly so that liquid atomizing and spout to the outside of fan blade subassembly, because the liquid that gets into in the fan blade subassembly rotates together along with fan blade subassembly and makes liquid atomization effect better.)

1. A spray head, comprising:

a transport member;

the fan blade assembly is connected with the transmission piece and can rotate relative to the transmission piece to form a vacuum environment in the fan blade assembly, so that liquid to be atomized enters the inside of the fan blade assembly through the transmission piece under atmospheric pressure, and the fan blade assembly can also drive the liquid entering the inside of the fan blade assembly to rotate so as to atomize the liquid and spray the liquid to the outside of the fan blade assembly.

2. The spray head of claim 1, wherein the blade assembly comprises a blade and a water outlet, the water outlet is connected to the blade, the water outlet is of a hollow structure, the transmission member passes through the blade and extends into the water outlet, the water outlet can rotate relative to the transmission member along with the blade to form a vacuum environment inside the water outlet, so that liquid enters the water outlet through the transmission member under atmospheric pressure, and the water outlet can drive the liquid entering the water outlet to rotate so as to atomize and spray the liquid to the outside of the water outlet.

3. The spray head of claim 2, wherein the blade assembly further comprises a connecting pipe, the blade and the water outlet are both sleeved on the connecting pipe, the transmission member is sleeved in one end of the connecting pipe, the blade can rotate relative to the transmission member to drive the water outlet to rotate synchronously through the connecting pipe, and liquid can enter the interior of the water outlet through the transmission member and the connecting pipe under atmospheric pressure.

4. The spray head of claim 2, wherein the inner diameter of the water outlet increases progressively from the end of the water outlet connected with the fan blade to the end of the water outlet far away from the fan blade.

5. The spray head of claim 2, wherein the transmission member has a gap with an inner sidewall of the connection pipe.

6. The spray head of claim 3, wherein the side wall of the connection pipe is provided with a first opening for communicating an interior of the connection pipe with an interior of the water outlet, and wherein the liquid can enter the interior of the water outlet through the transmission member, the connection pipe, and the first opening under atmospheric pressure.

7. The spray head of claim 6, wherein the first opening comprises a plurality of first openings spaced apart on a sidewall of the connecting tube.

8. The spray head of claim 3, wherein the inner wall of the water outlet is provided with a first threaded portion, the outer wall of the connecting pipe is provided with a second threaded portion, and the first threaded portion and the second threaded portion are screwed together to fixedly connect the water outlet and the connecting pipe.

9. The spray head of claim 1, further comprising a bearing, wherein the bearing is sleeved on the fan blade assembly, and the fan blade assembly is rotatably connected with the transmission member through the bearing.

10. Nebulizer comprising a nebulizer body connected to the transport element and a spray head according to any one of claims 1 to 9, the nebulizer body being intended to contain a liquid to be nebulized.

Technical Field

The invention relates to the field of agriculture, in particular to a spray head and a sprayer.

Background

Disclosure of Invention

Based on the above, the main object of the present invention is to provide a spray head and a sprayer with better liquid atomization effect.

To achieve the above object, the present invention provides a head including:

a transport member;

the fan blade assembly is connected with the transmission piece and can rotate relative to the transmission piece to form a vacuum environment in the fan blade assembly, so that liquid to be atomized enters the inside of the fan blade assembly through the transmission piece under atmospheric pressure, and the fan blade assembly can also drive the liquid entering the inside of the fan blade assembly to rotate so as to atomize the liquid and spray the liquid to the outside of the fan blade assembly.

Preferably, the fan blade assembly comprises a fan blade and a water outlet, the water outlet is connected with the fan blade, the water outlet is of a hollow structure, the transmission piece penetrates through the fan blade and extends into the water outlet, the water outlet can rotate relative to the transmission piece along with the fan blade to form a vacuum environment inside the water outlet, so that liquid enters the inside of the water outlet through the transmission piece under atmospheric pressure, and the water outlet can also drive the liquid entering the inside of the water outlet to rotate so that the liquid is atomized and sprayed out of the water outlet.

Preferably, the fan blade assembly further comprises a connecting pipe, the fan blade and the water outlet are sleeved on the connecting pipe, the transmission piece is sleeved in one end of the connecting pipe, the fan blade can rotate relative to the transmission piece so as to drive the water outlet to rotate synchronously through the connecting pipe, and liquid can enter the inside of the water outlet through the transmission piece and the connecting pipe under atmospheric pressure.

Preferably, the inner diameter of the water outlet increases progressively from the end of the water outlet connected with the fan blade to the end of the water outlet far away from the fan blade.

Preferably, a gap is formed between the transmission member and an inner side wall of the connection pipe.

Preferably, a first opening is formed in a side wall of the connecting pipe, the first opening is used for communicating the inside of the connecting pipe with the inside of the water outlet, and liquid can enter the inside of the water outlet through the transmission member, the connecting pipe and the first opening under atmospheric pressure.

Preferably, the first opening hole comprises a plurality of first opening holes, and the plurality of first opening holes are arranged on the side wall of the connecting pipe at intervals.

Preferably, the inner wall of the water outlet is provided with a first threaded portion, the outer wall of the connecting pipe is provided with a second threaded portion, and the first threaded portion and the second threaded portion are screwed together to fixedly connect the water outlet and the connecting pipe.

Preferably, the nozzle further comprises a bearing, the bearing is sleeved on the fan blade assembly, and the fan blade assembly is rotatably connected with the transmission piece through the bearing.

The invention also provides a sprayer which comprises a sprayer body and the sprayer head, wherein the sprayer body is connected with the transmission piece and is used for containing liquid to be atomized.

The technical scheme of the invention has the advantages that the fan blade assembly can rotate relative to the transmission piece, the fan blade assembly generates vacuum in the fan blade assembly through rotation, so that liquid in the external container enters the fan blade assembly through the transmission piece under atmospheric pressure, and the liquid entering the fan blade assembly rotates along with the fan blade assembly to atomize and spray the liquid.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, 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 according to the structures shown in the drawings without creative efforts.

FIG. 1 is an exploded view of a showerhead according to one embodiment;

FIG. 2 is a cross-sectional view of a showerhead according to one embodiment;

FIG. 3 is an isometric view of a spray head of an embodiment;

FIG. 4 is an isometric view of an embodiment of a sprayer;

FIG. 5 is an isometric view of an embodiment of a sprayer with a spray head housing;

FIG. 6 is a cross-sectional view of an embodiment of a sprayer with a spray head housing;

FIG. 7 is an isometric view of a spray head and blower of an embodiment;

FIG. 8 is a cross-sectional view of a showerhead and a blower of an embodiment;

FIG. 9 is a schematic view of the engagement of a boss and a retaining assembly according to one embodiment;

FIG. 10 is a cross-sectional view of a sprinkler and sprinkler casing of an embodiment.

Wherein, 1, the transmission piece; 11. a first side surface; 12. a first end face; 13. a first cavity; 2. a fan blade assembly; fan blades; 22. a water outlet; 221. a first threaded portion; 23. a connecting pipe; 231. a second side surface; 232. a second end face; 233. a second threaded portion; 234. a second cavity; 235. a first opening; 3. a bearing; 31. an inner ring; 32. an outer ring; 4. a bearing locator; 5. a fixing member; 6. an extension portion; 100. a spray head; 200. a sprayer body; 210. a fan; 211. a network structure; 220. a sprayer housing; 230. an accommodating barrel; 2301. a third opening; 240. a barrel cover; 250. an energy bin; 260. an adjustment section; 261. a second opening; 2611. a first sub-aperture; 2612. a second sub-aperture; 2613. third sub-aperture; 262. a first tooth-like structure; 300. a showerhead housing; 400. a fixing assembly; 410. an elastic member; 420. a fixed block; 421. a second toothed structure; 500. a spacer; 600. a handle; 700. a switch button; valve switch 800.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

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

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, "and/or" in the whole text includes three schemes, taking a and/or B as an example, including a technical scheme, and a technical scheme that a and B meet simultaneously; in addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The specific structure of the head will be mainly described below.

As shown in fig. 1, a nozzle 100 in an embodiment includes a transmission member 1 and a fan blade assembly 2, the fan blade assembly 2 is connected to the transmission member 1, the fan blade assembly 2 can rotate relative to the transmission member 1 to form a vacuum environment inside the fan blade assembly 2, so that liquid to be atomized enters the inside of the fan blade assembly 2 through the transmission member 1 under atmospheric pressure, and the fan blade assembly 2 can also drive the liquid entering the inside of the fan blade assembly 2 to rotate so as to atomize the liquid and spray the liquid to the outside of the fan blade assembly 2.

The fan blade assembly 2 rotates relative to the transmission piece 1, the fan blade assembly 2 generates vacuum in the fan blade assembly 2 through rotation, liquid enters the fan blade assembly 2 through the transmission piece 1 under atmospheric pressure, and the liquid entering the fan blade assembly 2 rotates along with the fan blade assembly 2 to atomize and spray the liquid.

As shown in fig. 1-2, the blade assembly 2 includes a blade 21 and a water outlet 22, the water outlet 22 is connected to the blade 21, the transmission member 1 penetrates through the blade 21 and extends into the water outlet 22, the water outlet 22 can rotate relative to the transmission member 1 along with the blade 21 to form a vacuum environment inside the water outlet 22, so that the liquid to be atomized enters the inside of the water outlet 22 through the transmission member 1 under atmospheric pressure, and the water outlet 22 can also drive the liquid entering the inside of the water outlet 22 to rotate so as to atomize the liquid and spray the liquid to the outside of the water outlet 22.

The rotation of the fan blade 21 can also generate wind power for blowing the liquid sprayed from the water outlet 22, and the wind power generated by the fan blade 21 blows the liquid sprayed from the water outlet 22, so that the liquid is further atomized, and the atomized liquid is sprayed out for a longer distance.

The fan blade assembly 2 further comprises a connecting pipe 23, the fan blade 21 and the water outlet 22 are both sleeved on the connecting pipe 23, the transmission piece 1 is sleeved in one end of the connecting pipe 23, the fan blade 21 can rotate relative to the transmission piece 1 to drive the water outlet 22 to rotate synchronously through the connecting pipe 23, and liquid can enter the water outlet 22 through the transmission piece 1 and the connecting pipe 23 under atmospheric pressure.

As shown in fig. 1-2, the inner diameter of the water outlet 22 increases progressively from the end of the water outlet 22 connected to the fan blade 21 to the end of the water outlet 22 away from the fan blade 21, specifically, the inner diameter of the water outlet 22 increases progressively from the end of the water outlet 22 connected to the fan blade 21 to the end of the water outlet 22 away from the fan blade 21, so that the liquid entering the water outlet 22 can be better diffused outwards, the liquid is more uniformly distributed, the atomization effect of the liquid is better, and the water outlet 22 may be, but is not limited to, in a horn shape.

As shown in fig. 2, a gap exists between the transmission member 1 and the connection pipe 23, so that when the connection pipe 23 rotates together with the fan blade 21 and the water outlet 22 relative to the connection pipe 23, the connection pipe 23 does not directly contact with the transmission member 1, thereby reducing resistance when the connection pipe 23 rotates.

As shown in fig. 2, in one embodiment, the transmission element 1 has a first side surface 11 and a first end surface 12, the connection tube 23 has a second side surface 231 disposed toward the first side surface 11 and a second end surface 232 disposed toward the first end surface 12, a first gap exists between the first end surface 12 and the second end surface 232, a second gap exists between the first side surface 11 and the second side surface 231, and the first gap and the second gap together form a gap.

As shown in fig. 1-2, the inner wall of the water outlet 22 is provided with a first threaded portion 221, the outer wall of the connection pipe 23 is provided with a second threaded portion 233, and the first threaded portion 221 and the second threaded portion 233 are screwed together to fixedly connect the water outlet 22 and the connection pipe 23, specifically, the first threaded portion 221 is an internal thread, and the second threaded portion 233 is an external thread.

As shown in fig. 2, the transmission member 1 has a first cavity 13, the connection pipe 23 has a second cavity 234, the first cavity 13 is communicated with the second cavity 234, the second cavity 234 is communicated with the interior of the water outlet 22, and the liquid can enter the interior of the water outlet 22 through the first cavity 13 and the second cavity 234, specifically, the first cavity 13 may be, but is not limited to, cylindrical, the flow rate of the liquid passing through the cylindrical first cavity 13 is faster, and the force applied to the cylindrical first cavity 13 is uniform, the second cavity 234 may be, but is not limited to, cylindrical, the flow rate of the liquid passing through the cylindrical second cavity 234 is faster, and the force applied to the cylindrical second cavity 234 is uniform.

As shown in fig. 1-2, the sidewall of the connection tube 23 has a first opening 235, the first opening 235 is used for communicating the second cavity 234 with the interior of the water outlet 22, and the liquid can enter the water outlet 22 through the first cavity 13, the second cavity 234 and the first opening 235, and particularly, the first opening 235 may be, but not limited to, circular.

In one embodiment, the first opening 235 comprises a plurality of openings, the plurality of first openings 235 are spaced apart from each other on a sidewall of the connecting tube 23, through the arrangement of the plurality of first openings 235, the liquid in the second cavity 234 of the connecting pipe 23 can enter the interior of the water outlet 22 from different directions, so that the liquid is more dispersed inside the water outlet 22, and thus the atomization effect on the liquid is better, in the embodiment, the first openings 235 include four, four first openings 235 are spaced apart from each other on the sidewall of the connecting tube 23, by arranging the four first openings 235, the liquid in the second cavity 234 of the connecting tube 23 can enter the interior of the water outlet portion through the first openings 235 from different directions, and it can be understood that, in other embodiments, the number of the first openings 235 may be less than three or more than five, and the specific number may be appropriately selected according to the actual situation.

As shown in fig. 1-2, the nozzle 100 further includes a bearing 3, the bearing 3 is sleeved on the fan blade assembly 2, the bearing 3 is used for supporting the fan blade assembly 2, the fan blade assembly 2 is rotatably connected to the transmission member 1 through the bearing 3, specifically, the bearing 3 is sleeved on the connection pipe 23, one end of the bearing 3 contacts with the connection pipe 23, the other end of the bearing 3 contacts with one end of the fan blade 21 departing from the water outlet 22, and the fan blade 21 and the connection pipe 23 realize axial positioning of the bearing 3.

As shown in fig. 1-2, the nozzle 100 further includes a bearing positioning element 4, the bearing positioning element 4 is sleeved on the bearing 3, the bearing positioning element 4 is used for positioning the bearing 3, the bearing positioning element 4 is connected with the transmission element 1, and the fan blade assembly 2 is connected with the transmission element 1 through the bearing 3 and the bearing positioning element 4.

As shown in fig. 1-2, the spray head 100 further includes a fixing member 5, the fixing member 5 penetrates through the transmission member 1 to be connected with the bearing positioning member 4, the bearing positioning member 4 is connected with the transmission member 1 through the fixing member 5, in an embodiment, the fixing member 5 includes a plurality of fixing members 5, the plurality of fixing members 5 are connected with the bearing positioning member 4 through the transmission member 1 at intervals, the plurality of fixing members 5 can realize reliable connection of the bearing positioning member 4 with the transmission member 1, in this embodiment, the fixing member 5 includes three fixing members 5, and the three fixing members 5 are connected with the bearing positioning member 4 through the transmission member 1 at intervals, it can be understood that, in other embodiments, the number of the fixing members 5 may be two or more, and the specific setting number may be reasonably selected according to actual situations, and specifically, the fixing members.

As shown in fig. 1-2, the bearing 3 includes an inner ring 31 and an outer ring 32, the outer ring 32 is rotatably sleeved outside the inner ring 31, the inner ring 31 is sleeved on the connecting pipe 23, the bearing positioning member 4 is sleeved on the outer ring 32, the fan blade 21 rotates to drive the connecting pipe 23 and the water outlet 22 to rotate, the connecting pipe 23 drives the inner ring 31 of the bearing 3 to rotate, the outer ring 32 of the bearing 3 cannot rotate along with the inner ring 31 of the bearing 3, so that the transmission member 1 connected with the bearing positioning member 4 and the bearing 3 cannot rotate along with the inner ring, that is, when the fan blade assembly 2 including the fan blade 21, the connecting pipe 23 and the water outlet 22 rotates, the transmission.

Referring to fig. 1 to 3, the cooperation and operation process between the mechanisms of the spray head 100 is as follows:

the external driving device drives the fan blade assembly 2 to drive the water outlet 22 to rotate, the water outlet 22 generates partial vacuum in the water outlet 22 through rotation, liquid enters the water outlet 22 through the first cavity 13 of the transmission piece 1, the second cavity 234 of the connecting pipe 23 and the first opening 235 of the connecting pipe 23 under the action of atmospheric pressure, the liquid in the water outlet 22 rotates along with the water outlet 22, so that liquid atomization is sprayed out from the water outlet 22, when the liquid atomization is sprayed out from the water outlet 22, wind power generated by rotation of the fan blade 21 further atomizes the liquid sprayed out from the water outlet 22, and the atomized liquid is sprayed out for a longer distance.

The specific structure of the nebulizer will be mainly described below.

As shown in fig. 2 and 4, the invention also provides a sprayer comprising the spray head 100 and a sprayer body 200 as described above, the sprayer body 200 being connected to the delivery member 1, the sprayer body 200 being intended to contain a liquid to be atomized.

The sprayer main body 200 can drive the fan blade assembly 2 to rotate relative to the transmission piece 1 so as to form a vacuum environment in the fan blade assembly 2, so that liquid in the sprayer main body 200 enters the fan blade assembly 2 through the transmission piece 1 under atmospheric pressure, and the fan blade assembly 2 can also drive the liquid entering the fan blade assembly 2 to rotate so as to atomize the liquid and spray the liquid to the outside of the fan blade assembly 2.

As shown in fig. 2 and 4, the sprayer body 200 includes a blower 210 and a sprayer housing 220, one end of the blower 210 is connected to the sprayer housing 220, the other end of the blower 210 is connected to the transmission member 1, the sprayer housing 220 is used for containing liquid, the blower 210 can drive the fan blade assembly 2 to rotate relative to the transmission member 1 to form a vacuum environment inside the fan blade assembly 2, so that the liquid inside the sprayer housing 220 enters the inside of the fan blade assembly 2 through the transmission member 1 under atmospheric pressure, and the fan blade assembly 2 can also drive the liquid entering the inside of the fan blade assembly 2 to rotate so as to atomize the liquid and spray the liquid to the outside of the fan blade assembly 2.

The fan 210 can rotate relative to the sprayer housing 220, so that the angle of the fan 210 relative to the sprayer housing can be adjusted, and the spray head 100 connected with the fan 210 can also be adjusted relative to the angle of the sprayer housing 220, specifically, by adjusting the angle of the spray head 100 relative to the sprayer housing 220, different angles can be sprayed without moving the whole sprayer, so that the spraying range is larger, and the use is more convenient.

As shown in fig. 7, one side of the blower 210 facing the sprayer housing 220 is provided with a mesh structure 211, specifically, the mesh structure 211 is used for communicating the inside and the outside of the blower 210, outside air can enter the inside of the blower 210 through the mesh structure 211, and the mesh structure 211 can also block large-volume contaminants outside from entering the inside of the blower 210, so as to prevent the large-volume contaminants from affecting the normal operation of the blower.

As shown in fig. 5-6, the sprayer further includes a head housing 300, the head 100 being disposed within the head housing 300, the head housing 300 being connected to the sprayer housing 220.

As shown in fig. 1 and 10, the spray head further includes an extension portion 6, the extension portion 6 is disposed on an outer wall of the transmission member 1, and the transmission member 1 is connected to the spray head housing 300 through the extension portion 6, in an embodiment, the extension portion 6 includes a plurality of extension portions 6, the plurality of extension portions 6 are disposed on the outer wall of the transmission member 1 at intervals, and the transmission member 1 is reliably connected to the spray head housing 300 through the plurality of extension portions 6, in this embodiment, the extension portions 6 include three, and the three extension portions 6 are disposed on the outer wall of the transmission member 1 at intervals, it can be understood that, in other embodiments, the number of the extension portions 14 may be two or less or four or more, and the specific number of the arrangement is reasonably.

As shown in fig. 6, the sprayer body 200 further includes a receiving tub 230, the receiving tub 230 being disposed in the sprayer housing 220, the receiving tub 230 being for receiving liquid. Specifically, the accommodating barrel 230 partially extends to the outside of the sprayer housing 220, and the part of the accommodating barrel 230 extending to the outside of the sprayer housing 220 is opened with an opening, and the opening is communicated with the inside of the accommodating barrel 230, so that a user can inject liquid into the inside of the accommodating barrel 230 from the opening.

The sprayer body 200 further includes a cover 240, the cover 240 is disposed at the opening of the accommodating barrel 230, specifically, after the liquid is injected into the accommodating barrel 230, the cover 240 is disposed at the opening of the accommodating barrel 230, so as to prevent the liquid from spilling out of the accommodating barrel 230 through the opening when the sprayer is used, and prevent external dirt from entering the accommodating barrel 230 through the opening of the accommodating barrel 230.

The sprayer body 200 also includes a power supply disposed within the sprayer housing 220, the power supply being electrically connected to the blower 210, the power supply being for powering the blower 210.

As shown in fig. 6, the sprayer body 200 further includes an energy bin 250, the energy bin 250 is disposed in the sprayer housing 220 and spaced from the accommodating barrel 230, and the power source is disposed in the energy bin 250, specifically, the energy bin 250 is disposed so that the power source does not directly contact with the liquid inside the accommodating barrel 230, thereby avoiding short circuit of the power source and improving safety of the power source.

The sprayer body 200 also includes a wire through which the power source is electrically connected to the fan 210.

The sprayer further comprises a first tubular part, one end of the first tubular part is connected with the transmission part 1, the other end of the first tubular part is inserted into the sprayer shell 220, and liquid in the sprayer shell 220 can enter the fan blade assembly 2 through the first tubular part and the transmission part 1.

The sprayer further comprises a second tubular member, one end of the second tubular member is inserted into the blower 210, the other end of the second tubular member is inserted into the accommodating barrel 230, the second tubular member is used for introducing wind pressure generated by the blower 210 into the accommodating barrel 230, so that a greater ground pressure is generated in the accommodating barrel 230, on one hand, the water outlet 22 rotates relative to the transmission member 1 to form a vacuum environment in the water outlet 22, so that liquid to be atomized enters the interior of the water outlet 22 through the transmission member 1 under the atmospheric pressure, on the other hand, the second tubular member is used for introducing wind pressure generated by the blower 210 into the accommodating barrel 230, so that the accommodating barrel 230 has a greater ground pressure, and therefore liquid in the accommodating barrel 230 can enter the fan blade assembly 2 more quickly.

As shown in fig. 6 and 7, the sprayer body 200 further includes an adjusting portion 260, the blower 210 is connected to the sprayer housing 220 through the adjusting portion 260, the adjusting portion 260 is rotatable with respect to the sprayer housing 220 so that an angle of the blower 210 with respect to the sprayer housing 220 is adjustable, and thus an angle of the sprayer head 100 connected to the blower 210 with respect to the sprayer housing 220 is adjustable, and specifically, the adjusting portion 260 is cylindrical.

As shown in fig. 7 to 8, in an embodiment, the adjusting portion 260 includes a plurality of adjusting portions 260, the plurality of adjusting portions 260 are disposed on the fan 210 at intervals, and the plurality of adjusting portions 260 enable the fan 210 to be connected with the sprayer housing 220 more reliably, in this embodiment, the number of adjusting portions 260 includes two, and the two adjusting portions 260 are disposed on the fan 210 at intervals.

The adjusting portion 260 is provided with a second opening 261, and the second opening 261 is used for at least one of the first tubular member, the second tubular member and the lead wire to extend into the sprayer housing 220.

In this embodiment, the second opening 261 includes a first sub-opening 2611, a second sub-opening 2612 and a third sub-opening 2613 which are arranged on the adjusting portion 260 at intervals, the first tubular member passes through the first sub-opening 2611 to connect the transmission member 1 and the sprayer housing 220, the second tubular member passes through the second sub-opening 2612 to connect the blower 210 and the sprayer housing 220, and a wire passes through the third sub-opening 2613 to electrically connect the energy supply device and the blower 210, and specifically, the first sub-opening 2611, the second sub-opening 2612 and the third sub-opening 2613 are used for preventing the first tubular member, the second tubular member and the wire from interfering with each other.

The accommodating barrel 230 is provided with two third openings 2301, the first tubular member passes through the first sub-opening 2611 and one third opening 2301 to realize the connection between the transmission member 1 and the sprayer housing 220, and the second tubular member passes through the second sub-opening 2612 and the other third opening 2301 to realize the connection between the fan 210 and the sprayer housing 220.

As shown in fig. 7, the sprayer further includes a fixing assembly 400 for fixedly coupling the sprayer housing 220 and the adjustment part 260.

As shown in fig. 7, the fixing assembly 400 includes an elastic member 410 and a fixing block 420, one end of the elastic member 410 is connected to the sprayer housing 220, the other end of the elastic member 410 is connected to the fixing block 420, the fixing block 420 is connected to the adjusting portion 260, the adjusting portion 260 can rotate relative to the fixing block 420, the fixing block 420 can be engaged with different positions of the outer circumference of the adjusting portion 260, the elastic member 410 is used to provide an elastic force to the fixing block 420 to keep the fixing block 420 engaged with the adjusting portion 260, and particularly, the elastic member 410 may be, but is not limited to, a spring.

In an initial state, the elastic member 410 is compressed, the elastic member 410 can provide an elastic force for the fixing block 420 to keep the fixing block 420 engaged with the adjusting portion 260, the fixing block 420 is engaged with a first position of the adjusting portion 260, so that the sprayer housing 220 and the blower 210 are positioned at a first angle, thereby realizing the fixation of the blower 210 relative to the sprayer housing 220, when the angle of the sprayer housing 100 relative to the sprayer housing 220 needs to be adjusted, an external force is applied to the sprayer housing 100 or the blower 210 to drive the sprayer housing 100 and the blower 210 to rotate together relative to the sprayer housing 220, at this time, the elastic force of the elastic member 410 is overcome by the external force, the adjusting portion 260 is separated from the fixing block 420 and rotates relative to the fixing block 420, at this time, the elastic member 410 is further compressed, when the sprayer housing 100 and the blower 210 are rotated to a second angle as needed relative to the sprayer housing 220, the external force applied to the, at this time, the elastic member 410 is elastically restored, and the fixing block 420 is engaged with the second position of the adjustment part 260 by the elastic force of the elastic member 410, so that the spray head 100 and the blower fan 210 are positioned in the second position with respect to the sprayer housing 220.

It should be noted that, since one end of the elastic member 410 is fixedly connected to the sprayer housing 220 and the other end of the elastic member 410 is fixedly connected to the fixing block 420, the adjusting portion 260 does not rotate together with the fixing block 420 when rotating relative to the fixing block 420.

As shown in fig. 6 to 7 and 9, a plurality of first tooth structures 262 are spaced apart from each other around the periphery of the adjusting portion 260, a plurality of second tooth structures 421 are spaced apart from each other on a side of the fixing block 420 facing the adjusting portion 260, and the second tooth structures 421 can be engaged with the first tooth structures 262 at different positions to achieve engagement between the adjusting portion 260 and the periphery of the fixing block 420 at different positions.

As shown in fig. 6, the sprayer further includes a spacer 500, the spacer 500 being disposed between the sprayer housing 220 and the blower 210, the spacer 500 serving to separate the sprayer housing 220 from the blower 210.

As shown in fig. 5 and 6, the sprayer further includes a handle 600, the handle 600 is disposed on the sprayer housing 220, and the handle 600 facilitates the position transfer of the sprayer.

As shown in fig. 6, the sprayer further includes a switch button 700, the switch button 700 is disposed on the sprayer housing 220, the switch button 700 is used for controlling the start and stop of the blower fan 210, and specifically, the switch button 700 is disposed on the handle 600.

As shown in fig. 6, the sprayer further includes a valve switch 800 disposed on the sprayer housing 220, the valve switch 800 is configured to control on/off of the first tubular member, specifically, the valve switch 800 is disposed on the handle 600, the valve switch 800 is spaced from the switch button 700, and when the sprayer stops operating, the valve switch 800 is closed, so that the first tubular member is in a blocking state, and the liquid inside the accommodating barrel 230 is prevented from continuously entering the vane assembly 2 and dripping from the vane assembly 2.

With reference to fig. 2 and 4 to 9, the cooperation and action between the various mechanisms of the sprayer is as follows:

opening the valve switch 800 to make the first tubular member in a communicating state, opening the switch button 700 to make the fan 210 start to work, the fan 210 driving the blade assembly 2 to rotate to generate a local vacuum in the blade assembly 2, the liquid in the containing barrel 230 entering the blade assembly 2 through the first tubular member under the action of atmospheric pressure, the liquid in the blade assembly 2 rotating with the blade assembly 2 to make the liquid atomized from the blade assembly 2, the fan 210 further atomizing the liquid sprayed from the outlet blade assembly 2 and making the atomized liquid sprayed out a farther distance, in the process of using the sprayer, the sprayer 100 and the fan 210 can rotate together relative to the sprayer housing 220 by rotating the sprayer 100 or the fan 210 according to requirements, thereby adjusting the angle of the sprayer 100 relative to the sprayer housing 220, after the sprayer is used, closing the switch button 700, the blower 210 is deactivated and the valve switch 800 is rotated so that the first tubular member is in the blocked position.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.