CN215058285U

CN215058285U - Water-cooling fan

Info

Publication number: CN215058285U
Application number: CN202022961013.9U
Authority: CN
Inventors: 李享福
Original assignee: Shenzhen Jisu Technology Co Ltd
Current assignee: Shenzhen Jisu Technology Co Ltd
Priority date: 2020-11-19
Filing date: 2020-12-09
Publication date: 2021-12-07
Anticipated expiration: 2030-12-09
Also published as: WO2022121064A1; CN216384424U; CN216384425U; CN216384423U; CN216384426U

Abstract

The utility model provides a water-cooling fan. The water-cooling fan comprises a shell, a spacing part and at least two wind wheels, wherein the shell is provided with a first accommodating space, an air inlet and an air outlet; the spacing part is positioned in the shell and is used for dividing the first accommodating space into at least two first accommodating parts, and each first accommodating part corresponds to at least part of the air inlet and at least part of the air outlet; the at least two wind wheels correspond to the at least two first accommodating parts, and the wind wheels are arranged in the corresponding first accommodating parts and used for guiding wind of the air inlet to the air outlet to be discharged independently. The air-out efficiency of water-cooling fan is higher, and wind is made an uproar lower, and use comfort is also higher.

Description

Water-cooling fan

Technical Field

The utility model relates to a fan field, concretely relates to water-cooling fan.

Background

In recent years, various fans have appeared on the market in order to improve the quality of life and meet the requirements of practical fans in life scenes such as the comfort level of human bodies using fans in hot days. Wherein, the appearance of some fans has solved the fan and has simply leaned on the function limitations such as driving the air flow and cooling down, can further realize effects such as heating, champignon, spraying humidification.

However, the air outlet efficiency of some existing fans is low, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a water-cooling fan that air-out is efficient, the air-out comfort level is better.

An embodiment of the utility model provides a water-cooling fan, which comprises a shell, a spacing part, at least two wind wheels and an atomizing device, wherein the shell is provided with a first accommodating space, an air inlet and an air outlet; the spacing part is positioned in the shell and is used for dividing the first accommodating space into at least two first accommodating parts, and each first accommodating part corresponds to at least part of the air inlet and at least part of the air outlet; the at least two wind wheels correspond to the at least two first accommodating parts, and the wind wheels are arranged in the corresponding first accommodating parts and used for guiding wind of the air inlet to the air outlet to be discharged independently.

Compared with the prior art, in the water-cooling fan of the above embodiment, the partition is located in the housing and divides the first receiving space, the air inlet and the air outlet of the housing into at least two first receiving portions, and each first receiving portion corresponds to at least part of the air inlet and at least part of the air outlet; and the at least two wind wheels correspond to the at least two first accommodating parts and are accommodated in the first accommodating parts, and because each first accommodating part is isolated by the spacing part, the at least two wind wheels can independently guide the wind of the air inlet to the air outlet for discharging, the wind wheels are isolated from each other and do not influence each other, the whole air outlet efficiency is improved, the wind noise is reduced, the use noise is reduced while the air outlet efficiency is improved, and the use comfort is improved.

Further, in some embodiments, the wind wheel includes a plurality of support plates, the support plates are sequentially arranged at intervals along a preset direction, and a plurality of wind plates are connected between two adjacent support plates, and it can be understood that the wind plates are annularly arranged around an axial direction in which the preset direction is located and are arranged at intervals to form a wind wheel layer. Because the wind wheel has around it is a plurality of to predetermine the axial at direction place to encircle and establish interval arrangement the aerofoil is constituteed the aerofoil layer makes the wind wheel is favorable to even air-out when rotating, makes the air-out link up, smooth and easy, and further the cooperation is connected a plurality of on the aerofoil the backup pad reaches the support when aerofoil stability, has also guaranteed the stability of whole wind wheel, makes the air-out effect more comfortable.

Further, in some embodiments, the wind wheel includes at least four support plates, and a plurality of wind plates are connected between two adjacent support plates, so that the wind wheel includes at least three wind plate layers. The wind wheel is provided with at least four supporting plates, so that the wind wheel comprises at least three wind wheel layers, the wind outlet rate is maximum, the energy consumption is low, the high energy efficiency ratio is achieved, and the best cooling effect is provided while the energy is saved. It can be understood that the number of the supporting plates and the number of the wind plates can be reasonably configured according to different use environments, so that the wind wheel has the best air outlet efficiency and the highest energy efficiency ratio.

Further, in some embodiments, the air inlet and the air outlet both extend along the predetermined direction; just the air intake and/or at least one rib portion is still installed to the air outlet, can understand, the extending direction of rib portion with predetermine the direction and be predetermine the contained angle and will the air intake and/or the air outlet interval is two at least parts, can be through adjusting the extending direction of rib portion with predetermine the contained angle of direction and reach adjustment wind direction, the effect of accurate air guide satisfies the needs of different use scenes, simultaneously, rib portion will the air intake and/or the air outlet interval can also play certain supporting role for two at least parts, has guaranteed the air intake and/or the stable in structure of air outlet.

Further, in some embodiments, the water cooling fan further comprises a heating device and/or a cooling device, and the heating device and/or the cooling device is used for heating and/or cooling. It can be understood that the heating device and/or the refrigerating device are further arranged, so that the water-cooling fan further has a heating and/or refrigerating function, is applicable to various scenes, and improves user experience.

Further, in some embodiments, the wind wheel may exhaust the heated and/or cooled wind through the wind outlet. The wind wheel can discharge the heated and/or refrigerated wind through the air outlet, so that the wind is comfortable to discharge, and a more comfortable refrigerating and/or heating effect is achieved.

Further, in some embodiments, a heating end of the heating device and/or a cooling end of the cooling device is disposed in the first receiving portion. It can be understood that the heating end of the heating device and/or the cooling end of the cooling device are/is arranged in the first accommodating part, so that the heated and/or cooled wind can be effectively discharged through the wind wheel, and the heating and/or cooling efficiency is high.

Further, in some embodiments, atomizing device can be when the wind wheel air-out with treating atomizing liquid atomize and discharge liquid fog, supplementary cooling with water-cooling mode when using the forced air cooling, make the cooling effect better, use comfort is better.

Further, in some embodiments, the water-cooling fan further includes a control component, and the control component is configured to control the on and off of the atomizing device and the on and off of the heating device and/or the cooling device, respectively. It can be understood, through the control assembly can control opening and closing of each function such as cold wind, warm braw, the liquid fog of water-cooling fan, make water-cooling fan can realize cold wind alone, warm braw alone, liquid fog alone, cold wind + liquid fog, warm braw + liquid fog, one side cold wind (if a first storage part blows cold wind) + one side warm braw (if another first storage part blows warm braw) + liquid fog etc. multiple usage pattern, satisfy the needs of multiple scene, improve user experience nature.

Further, in some embodiments, the housing includes a first side wall structure, the partition includes a first main body portion and a second main body portion, two ends of the first main body portion are connected to two ends of the first side wall structure so as to enclose the first receiving space together with the first side wall structure, and the second main body portion is connected between the first main body portion and the first side wall structure and is used for dividing two first receiving portions. Through the both ends of first main part with the both ends of first side wall structure are connected, the second main part with first main part, connection between the first side wall structure will first storage space divides into two when first storage part, given first storage space first storage part supports, has guaranteed the integrality of whole structure, stability.

Further, in some embodiments, the water-cooling fan further includes a wind wheel motor, the wind wheel motor is connected to one end of the wind wheel and used for driving the wind wheel to rotate, the partition further includes a first bottom plate portion, the first bottom plate portion is connected to the first side wall structure, the first main body portion and the second main body portion and divides the first storage space into a second storage portion, the first storage portion and the second storage portion are respectively located on two sides of the bottom plate portion, and the wind wheel motor is located in the second storage portion. As can be understood, the wind wheel motor is accommodated by the second accommodating part, so that heat of the wind wheel motor can be prevented from entering the first accommodating part, and the influence on the cooling effect is avoided; in addition, the design can also enable the wind wheel motor to be independently designed to dissipate heat, route wires and the like, and the electricity utilization safety is improved.

Further, in some embodiments, the housing further includes a second sidewall structure, two ends of the second sidewall structure are connected to two ends of the first sidewall structure, the second sidewall structure encloses a second receiving space, the partition further includes a second bottom plate, the second bottom plate is connected between the second sidewall structure and the first main body and divides the second receiving space into a third receiving portion and a fourth receiving portion, the third receiving portion is configured to receive the liquid to be atomized, the fourth receiving portion is configured to receive the atomizing device, the second bottom plate further has a first opening, and the atomizing device is disposed corresponding to the first opening to atomize the liquid to be atomized in the third receiving portion. It can be understood that the liquid to be atomized is contained in the third containing part, and the atomization device is contained in the fourth containing part, so that water and electricity separation can be realized, and the electricity utilization safety is further increased.

Further, in some embodiments, the water-cooling fan further includes a liquid storage tank disposed on a side of the third receiving portion away from the fourth receiving portion, the liquid storage tank including a second opening, the liquid storage tank being configured to store the liquid to be atomized and to provide the liquid to be atomized to the third receiving portion through the second opening. It can be understood, through the liquid reserve tank is right treat that atomized liquid stores, when needs atomize the cooling, via the second opening will treat that atomized liquid leads to the third storage part, and through first opening will treat that atomized liquid sends to atomize among the atomizer, can be right treat that atomized liquid stores, atomizes as required, has promoted user experience.

Further, in some embodiments, the liquid storage box includes a liquid storage part arranged in the third accommodating part and having the second opening, and a cover body covering the liquid storage part, wherein the cover body is movably arranged at one end of the liquid storage part far away from the third accommodating part, and it can be understood that the liquid to be atomized can be added to the liquid storage part through opening the cover body as required, so that the liquid to be atomized or the solid of the liquid to be atomized is added to the liquid storage part, thereby facilitating the operation of a user and further improving the user experience.

Further, in some embodiments, the water-cooling fan further includes a lower water valve assembly, the lower water valve assembly includes a lower water valve and a lower water weight, the lower water valve includes a valve body corresponding to the second opening and located in the liquid storage tank and a connecting end connected to the valve body and extending out of the second opening to the third receiving portion, and the lower water weight is located in the third receiving portion and connected to the connecting end. It can be understood that atomizing device is to flowing into it treat atomizing liquid atomize the back, can pass through launch the weight part and be in treat that atomizing liquid's buoyancy is controlled down the valve body breaks away from the second opening makes the stock solution case treat atomizing liquid certainly the second opening flows extremely the third storage part or install in the second opening makes atomizing device can last to adding wherein treat atomizing liquid atomizes, has guaranteed lasting water-cooling effect, makes water-cooling fan reaches and lasts effectual cooling effect.

Further, in some embodiments, the liquid storage tank further includes a channel portion, and the channel portion is disposed corresponding to the first opening and is configured to discharge the atomized liquid mist of the atomization device. Through the guide of the channel part, the liquid fog can be guided out along the required direction, thereby achieving the purpose of accurate cooling.

Further, in some embodiments, the channel portion includes a first inlet disposed corresponding to the first opening, a channel communicated with the first inlet, a first outlet communicated with the channel and located on a side opposite to the first inlet, and a vent communicated with the channel, and the water-cooling fan further includes a blower for blowing air to the vent so as to discharge the mist in the channel through the first outlet. Through the air-blower to the vent is bloied, can accelerate the exhaust velocity of the liquid fog in the passageway accelerates water cooling fan's cooling rate, simultaneously, can also prevent the liquid fog refluence in the passageway improves the exhaust efficiency of liquid fog, promotes the cooling effect.

Further, in some embodiments, the first main body portion is further provided with an air duct, an inlet of the air duct is disposed adjacent to the blower, and an outlet of the air duct is disposed corresponding to the vent.

Further, in some embodiments, the blower is located in the fourth receiving portion, which may achieve water-electricity separation, further increasing electricity safety.

Further, in some embodiments, the first side wall structure has a liquid mist outlet, the second main body further has a liquid mist channel therein, one end of the liquid mist channel is used for receiving the liquid mist atomized by the atomizing device, and the other end of the liquid mist channel is connected to the liquid mist outlet for discharging the liquid mist to the outside of the water-cooling fan; the liquid mist outlet is located between the air outlets of the two first accommodating portions. It can be understood that the liquid fog export is located two first storage part can with between the air outlet liquid fog is even leading-in the air-out that the wind wheel produced, reach even, quick cooling effect, use comfort is better.

Further, in some embodiments, the first sidewall structure includes two sidewalls that set up relatively and connects the connection wall of two sidewalls, the air intake set up in on two sidewalls, the air outlet set up in on the connection wall, through on the sidewall the air intake air, the rethread on the connection wall the air outlet air-out makes the play fog of fan does not receive the influence that the air intake was intake, only air outlet department with the wind wheel air-out fuses, further reaches even, quick cooling effect, and use comfort is better.

Further, in some embodiments, the two rotors rotate in opposite directions. It can be understood that the opposite rotation of the two wind wheels can lead the air outlet to be more concentrated and the air outlet efficiency to be higher, thereby achieving the effect of rapid cooling.

Further, in some embodiments, the water-cooled fan further includes a head swinging assembly, and the head swinging assembly is configured to drive the casing or the casing and the at least two wind wheels to rotate, so that the air outlet direction of the air outlet is adjustable. Through the drive of yaw subassembly the casing or the casing reaches two at least wind wheels rotate, can make the air-out scope bigger, reach the purpose of cooling on a large scale.

Further, in some embodiments, the casing further includes a first cover plate, the first cover plate covers the at least two wind wheels and is connected with the first side wall structure, the wind wheels are sealed in the first accommodating portion, the appearance is attractive, foreign matters are not easy to be drawn in, and the safety is improved.

Further, in some embodiments, the housing further comprises a second cover plate disposed opposite the first cover plate and connecting a side of the first sidewall structure remote from the first cover plate, the head swinging assembly comprises a head swinging motor, a first gear connected with the head swinging motor, a head swinging turntable and a second gear arranged on the head swinging turntable and meshed with the first gear, the head swinging motor is arranged on the second cover plate, it can be understood that the head swinging motor drives the first gear to rotate relative to the second gear, thereby driving the shell or the shell and the at least two wind wheels to rotate relative to the swing turntable, therefore, the wind wheel can be used for blowing fans within a preset range, the air outlet of the wind wheel is more flexible, the application scenes of the water-cooling fan are further increased, and the user experience is improved.

Further, in some embodiments, the second gear is located between the second cover plate and the swing head turntable, the swing head turntable and the second gear are fixed by a first fastener, the swing head turntable includes a through hole, the swing head assembly further includes a turntable fixing member, the turntable fixing member is disposed corresponding to the through hole, and the turntable fixing member and the second gear are fixed by a second fastener. Through the carousel mounting with the second gear passes through the second fastener is fixed, can make the casing or the casing reaches two at least wind wheels for the yaw carousel rotates more stably, has ensured the security in the operation process.

Further, in some embodiments, the wind wheel further comprises a pivot portion disposed adjacent to the first cover plate, the pivot portion being configured to be rotatably connected to the first cover plate; the first cover plate comprises a body part, an installation part arranged on the body part and a shaft sleeve arranged on the installation part, the pivoting part comprises a pivot, and one end of the pivot extends into the shaft sleeve and is rotatably connected with the shaft sleeve. One end of the pivot penetrates into the shaft sleeve and is connected with the shaft sleeve to rotate, so that the rotating stability of the wind wheel is guaranteed, and the air outlet effect is guaranteed.

Further, in some embodiments, the water-cooled fan further includes an air deflector disposed in the first receiving portion, and the air deflector is disposed around one side of the wind wheel away from the air inlet and the air outlet, so that it can be understood that the air deflector is disposed around one side of the wind wheel, matches the wind flow direction of the wind wheel, and guides the wind, and the outlet air at one side away from the air inlet and the air outlet can be guided into the air outlet, so that the outlet air is more concentrated, the outlet air efficiency is improved, and the cooling speed is increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic perspective view of a water-cooling fan according to an embodiment of the present invention;

FIG. 2 is an exploded perspective view of the water-cooled fan shown in FIG. 1;

FIG. 3 is an exploded perspective view of the water-cooled fan shown in FIG. 1 at another angle;

FIG. 4 is a schematic diagram of the water-cooling fan shown in FIG. 1 with the first cover plate and the cover removed and assembled together;

FIG. 5 is a rear assembled view of the water-cooled fan shown in FIG. 4 with the reservoir removed;

FIG. 6 is a schematic view of a liquid storage tank of the water-cooled fan shown in FIG. 1;

FIG. 7 is a rear assembled view of the water-cooled fan shown in FIG. 1 with the second cover plate removed;

fig. 8 is an exploded perspective view of a water-cooling fan according to a modified embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The terms "first," "second," and "third," etc. in the description and claims of the present invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Referring to fig. 1 to 7, fig. 1 is a schematic perspective view of a water-cooling fan 100 according to the present invention; fig. 2 is an exploded perspective view of the water-cooled fan 100 shown in fig. 1; FIG. 3 is an exploded perspective view of the water-cooled fan 100 shown in FIG. 1 at another angle; fig. 4 is a combined view of the water-cooled fan 100 shown in fig. 1 with the first cover plate 17 and the cover 63 removed; fig. 5 is a rear combination view of the water-cooled fan 100 shown in fig. 4 with the liquid storage tank 6 removed, and fig. 6 is a structural view of the liquid storage tank 6 of the water-cooled fan 100 shown in fig. 1; fig. 7 is a rear combination view of the water-cooled fan 100 shown in fig. 1 with the second cover plate 18 removed. The water-cooling fan 100 includes a housing 1, a partition 2, at least two wind wheels 3, and an atomizing device 4.

The housing 1 has a first receiving space 11, an inlet 12 and an outlet 13.

The partition portion 2 is located in the housing 1 and is used for dividing the first receiving space 11 into at least two first receiving portions 111, and each first receiving portion 111 corresponds to at least a part of the air inlet 12 and at least a part of the air outlet 13.

The at least two wind wheels 3 correspond to the at least two first receiving portions 111, and the wind wheels 3 are disposed in the corresponding first receiving portions 111, so as to independently guide the wind from the wind inlet 12 to the wind outlet 13 for discharging.

The atomization device 4 is used for atomizing a liquid to be atomized and discharging liquid mist.

Compared with the prior art, in the water-cooling fan 100 of the above embodiment, the partition portion 2 is located in the casing 1 to divide the first receiving space 11, the air inlet 12 and the air outlet 13 of the casing 1 into at least two first receiving portions 111, and each first receiving portion 111 corresponds to at least part of the air inlet 12 and at least part of the air outlet 13; and the at least two wind wheels 3 correspond to the at least two first accommodating parts 111 and are accommodated in the first accommodating parts 111, and because each first accommodating part 111 is isolated by the partition part 2, the at least two wind wheels 3 can guide the wind of the corresponding wind inlet 12 to the corresponding wind outlet 13 to be discharged independently, and the wind wheels 3 are isolated from each other and do not influence each other, thereby improving the overall wind outlet efficiency, reducing the wind noise, improving the wind outlet efficiency, reducing the use noise and improving the use comfort.

Further, atomizing device 4 can be when 3 air-outs of wind wheel will treat that atomizing liquid atomizes and discharge liquid fog, supplementary cooling with water-cooling mode when using the forced air cooling, makes the cooling effect better, and use comfort is better.

It is understood that in the present embodiment, the water-cooling fan 100 is mainly described by taking the example that it includes two wind wheels 3. However, in other embodiments, the water-cooling fan 100 may include more than three wind wheels 3, correspondingly, the first receiving space 11 may be divided into more than three first receiving portions 111 by the partition 2, and each wind wheel 3 is located in a corresponding one of the first receiving portions 111 for guiding the wind from the corresponding wind inlet 12 to the corresponding wind outlet 13 for discharging.

Further, it is understood that the liquid to be atomized includes, but is not limited to, water, aromatherapy, a liquid medicine, and the like.

Further, the wind wheel 3 may include a plurality of support plates 31, the support plates 31 are sequentially arranged at intervals along a preset direction, a plurality of wind plates 32 are connected between two adjacent support plates 31, and it can be understood that the wind plates 32 are annularly arranged around an axial direction where the preset direction is located and are arranged at intervals to form a wind plate layer 33. In this embodiment, the aerofoil 32 winds the axial at predetermineeing the direction place encircles and interval arrangement is in order to constitute cylindricly, because the wind wheel 3 has the wind predetermineeing the axial at direction place encircles and establishes the interval arrangement a plurality ofly the aerofoil 32 is constituteed aerofoil layer 33 makes wind wheel 3 does benefit to even air-out when rotating, makes the air-out coherent, smooth and easy, and further the cooperation is connected a plurality of on the aerofoil 32 backup pad 31 reaches the support when aerofoil 32 stability, has also guaranteed the stability of whole wind wheel 3, makes the air-out effect more comfortable.

Specifically, the wind wheel 3 includes at least four support plates 31, and a plurality of wind plates 32 are connected between two adjacent support plates 31, so that the wind wheel 3 includes at least three wind plate layers 33. The wind wheel is used in a common household environment, and at least four supporting plates 31 can be arranged on the wind wheel 3, so that the wind wheel 3 comprises at least three wind wheel layers 33, the wind outlet rate is maximum, the energy consumption is low, a high energy efficiency ratio is achieved, and an optimal cooling effect is provided while energy is saved. It can be understood that the number of the support plates 31 and the wind plates 32 can be reasonably configured according to different use environments, so that the wind outlet efficiency of the wind wheel 3 is optimal, and the energy efficiency ratio is highest.

Air intake 12 reaches air outlet 13 all follows the direction of predetermineeing extends, just air intake 12 and/or air outlet 13 still installs at least one rib 121, can understand, rib 121's extending direction with predetermine the direction and be predetermine the contained angle and will air intake 12 and/or air outlet 13 interval is two at least parts, can be through adjusting rib 121's extending direction with predetermine the contained angle of predetermineeing the direction and reach the adjustment wind direction, the effect of accurate air conduction satisfies the needs of different use scenes, simultaneously, rib 121 will air intake 12 and/or air outlet 13 interval can also play certain supporting role for two at least parts, has guaranteed air intake 12 and/or air outlet 13's stable in structure and structural strength.

Further, the rotation directions of the two wind wheels 3 may be opposite. It can be understood that the two wind wheels 3 rotate oppositely, so that the air outlet is more concentrated, the air outlet efficiency is higher, and the effect of rapid cooling is achieved.

The housing 1 includes a first sidewall structure 14, the partition 2 includes a first main body portion 21 and a second main body portion 22, two ends of the first main body portion 21 are connected to two ends of the first sidewall structure 14 so as to enclose the first receiving space 11 together with the first sidewall structure 14, and the second main body portion 22 is connected between the first main body portion 21 and the first sidewall structure 14 and is used for dividing two first receiving portions 111. Through the connection between the two ends of the first main body part 21 and the two ends of the first side wall structure 14, the connection between the second main body part 22 and the first main body part 21 and the first side wall structure 14 divides the first accommodating space 11 into two first accommodating parts 111, and simultaneously supports the first accommodating space 11 and the first accommodating parts 111, so that the integrity, stability and strength of the whole structure are ensured.

It can be understood that the water-cooling fan 100 further includes a wind wheel motor 5, the wind wheel motor 5 is connected to one end of the wind wheel 3 and is used for driving the wind wheel 3 to rotate, in this embodiment, the wind wheel motor 5 includes two, and is used for driving two wind wheels 3 to rotate respectively.

The partition 2 further includes a first bottom plate 23, the first bottom plate 23 connects the first sidewall structure 14, the first body 21 and the second body 22 and divides the first receiving space 11 into a second receiving portion 112, the first receiving portion 111 and the second receiving portion 112 are respectively located at two sides of the bottom plate, and the wind turbine 3 and the motor are located in the second receiving portion 112. It can be understood that, by receiving the wind wheel 3 motor through the second receiving portion 112, the heat of the wind wheel 3 motor can be prevented from entering the first receiving portion 111, thereby preventing the cooling effect from being affected; in addition, the design can also enable the motor of the wind wheel 3 to be independently designed for heat dissipation, wiring and the like, so that the electricity utilization safety is increased.

Further, the housing 1 further comprises a second side wall structure 15, two ends of the second side wall structure 15 are connected to two ends of the first side wall structure 14 which are connected to two ends of the first main body portion 21, the second side wall structure 15 encloses a second receiving space 16, the partition 2 further comprises a second bottom plate portion 24, the second bottom plate portion 24 is connected between the second side wall structure 15 and the first body portion 21 and divides the second receiving space 16 into a third receiving portion 161 and a fourth receiving portion 162, the third receiving portion 161 is used for receiving the liquid to be atomized, the fourth receiving portion 162 is used for receiving the atomization device 4, the second bottom plate portion 24 further has a first opening 241, and the atomization device 4 is disposed corresponding to the first opening 241 for atomizing the liquid to be atomized in the third receiving portion 161. It can be understood that the liquid to be atomized is received in the third receiving portion 161, and the atomization device 4 is received in the fourth receiving portion 162, so that water and electricity separation can be realized, and the electricity safety can be further increased.

In this embodiment, the water-cooling fan 100 may further include a liquid storage tank 6, the liquid storage tank 6 is disposed on a side of the third receiving portion 161 away from the fourth receiving portion 162, the liquid storage tank 6 includes a second opening 61, and the liquid storage tank 6 is configured to store the liquid to be atomized and provide the liquid to be atomized to the third receiving portion 161 through the second opening 61. It can be understood, through the liquid reserve tank 6 is right wait that atomized liquid stores, when needs atomize the cooling, via second opening 61 will wait that atomized liquid leads to third storage section 161, and through first opening 241 will wait that atomized liquid sends to atomize in the atomizing device 4, can be right wait that atomized liquid stores, atomizes as required, has promoted user experience.

Specifically, the liquid reserve tank 6 including set up in the third storage part 161 just has the stock solution portion 62 and the lid of second opening 61 are located the lid 63 of stock solution portion 62, the mobile lid of lid 63 is located stock solution portion 62 is kept away from the one end of third storage part 161 can be understood, add in needs the liquid of treating atomizing can be through opening the lid 63 to stock solution portion 62 adds treat atomizing liquid or treat atomizing liquid's solid, convenience of customers operates, further promotes user experience.

The water-cooling fan 100 further includes a lower water valve assembly 7, the lower water valve assembly 7 includes a lower water valve 71 and a lower water weight 72, the lower water valve 71 includes a valve body 711 corresponding to the second opening 61 and located in the liquid storage tank 6 and a connecting end 712 connected to the valve body 711 and extending from the second opening 61 to the third receiving portion 161, the lower water weight 72 is located in the third receiving portion 161 and connected to the connecting end 712. It can be understood that atomizing device 4 convection current flows into it treat the atomizing back of atomizing liquid, can pass through launch counterweight 72 is in treat the buoyancy of atomizing liquid under control valve body 711 breaks away from second opening 61 makes the liquid reserve tank 6 treat atomizing liquid from second opening 61 flows to third storage portion 161 or install in second opening 61 makes atomizing device 4 can be continuously to adding wherein treat atomizing liquid atomizes, has guaranteed lasting water-cooling effect, makes water-cooling fan 100 reaches and lasts effectual cooling effect.

Further, the liquid storage tank 6 further includes a channel portion 64, and the channel portion 64 is disposed corresponding to the first opening 241 and is used for discharging the atomized liquid mist of the atomization device 4. By the guide of the channel part 64, the liquid fog can be guided out along the required direction, thereby achieving the purpose of accurate temperature reduction.

Specifically, the tunnel part 64 may include a first inlet 641 disposed corresponding to the first opening 241, a tunnel 642 communicating with the first inlet 641, a first outlet 643 communicating with the tunnel 642 and located at a side opposite to the first inlet 641, and a vent 644 communicating with the tunnel 642, and the water-cooled fan 100 further includes a blower 8, wherein the blower 8 is configured to blow air to the vent 644 so as to discharge the mist in the tunnel 642 through the first outlet 643. The blower 8 blows air to the ventilation opening 644, so that the discharge speed of the liquid mist in the channel 642 can be accelerated, the cooling speed of the water-cooling fan 100 can be accelerated, meanwhile, the liquid mist in the channel 642 can be prevented from flowing backwards, the discharge efficiency of the liquid mist is improved, and the cooling effect is improved.

Furthermore, in the partition 2, the first main body 21 is further provided with an air duct 211, an inlet of the air duct 211 is disposed adjacent to the blower 8, and an outlet of the air duct 211 is disposed corresponding to the vent 644, it can be understood that the blower 8 can blow air to the vent 644 through the air duct 211, so that the air outlet of the blower 8 is more accurate, and interference between the air outlet of the blower 8 and the air outlet of the wind wheel 3 is avoided. Wherein, the blower 8 can be located in the fourth receiving portion 162, and water and electricity separation can be realized, further increasing the electricity safety.

In the housing 1, the first side wall structure 14 has a liquid mist outlet 141, the second main body portion 22 further has a liquid mist channel 221 inside, one end of the liquid mist channel 221 is used for receiving the liquid mist atomized by the atomizing device 4, and the other end of the liquid mist channel 221 is connected to the liquid mist outlet 141 for discharging the liquid mist to the outside of the water cooling fan 100; the liquid mist outlet 141 is located between the air outlets 13 of the two first receiving portions 111. It can be understood that liquid fog export 141 is located two first storage section 111 can with between the air outlet 13 the even leading-in of liquid fog reaches even, quick cooling effect in the air-out that the wind wheel 3 produced, and use comfort is better.

Further, first lateral wall structure 14 includes two lateral walls 142 that set up relatively and connects the connection wall 143 of two lateral walls 142, air intake 12 set up in on two lateral walls 142, air outlet 13 set up in on the connection wall 143, through on the lateral wall 142 the air intake 12 air inlet, the rethread on the connection wall 143 the air outlet 13 air-out makes the play fog of fan does not receive the influence of air intake 12 air inlet, only is in air outlet 13 department with the air-out of wind wheel 3 fuses, further reaches even, quick cooling effect, and use comfort is better.

Further, the water-cooling fan 100 may further include a swinging head assembly 9, and the swinging head assembly 9 is configured to drive the casing 1 or the casing 1 and the at least two wind wheels 3 to rotate, so that the air outlet direction of the air outlet 13 is adjustable. Through yaw subassembly 9 drive casing 1 or casing 1 reaches at least two wind wheels 3 rotate, can make the air-out scope bigger, reach the purpose of cooling on a large scale.

Wherein, casing 1 still includes first apron 17, first apron 17 cover is located outside at least two wind wheels 3 and with first lateral wall structure 14 is connected, will wind wheel 3 seals in first storage section 111, not only the outward appearance is pleasing to the eye, still is difficult for being drawn into the foreign matter, increases the security. The housing 1 further includes a second cover plate 18, the second cover plate 18 is disposed opposite to the first cover plate 17 and connected to one side of the first sidewall structure 14 away from the first cover plate 17, the yaw assembly 9 includes a yaw motor 91, a first gear 92 connected to the yaw motor 91, a yaw turntable 93, and a second gear 94 disposed on the yaw turntable 93 and engaged with the first gear 92, the yaw motor 91 is mounted on the second cover plate 18, it can be understood that the yaw motor 91 drives the first gear 92 to rotate relative to the second gear 94, in this embodiment, the first gear 92 rotates along an outer circumference of the second gear 94, and then drives the housing 1 or the housing 1 and the at least two wind wheels 3 to rotate relative to the yaw turntable 93, so that the wind wheels 3 can supply air within a preset range, the air outlet of the wind wheel 3 is more flexible, the application scenes of the water-cooling fan 100 are further increased, and the user experience is improved.

In detail, the second gear 94 is located between the second cover 18 and the swing head turntable 93, the swing head turntable 93 and the second gear 94 are fixed by a first fastener 95, the swing head turntable 93 includes a through hole 931, the swing head assembly 9 further includes a turntable fixing member 96, the turntable fixing member 96 is disposed corresponding to the through hole 931, and the turntable fixing member 96 and the second gear 94 are fixed by a second fastener 97. Through the fixing of the turntable fixing piece 96 and the second gear 94 through the second fastening piece 97, the shell 1 or the shell 1 and the at least two wind wheels 3 can rotate more stably relative to the swing turntable 93, and the safety in the operation process is guaranteed.

Further, the wind wheel 3 further comprises a pivot joint part 19 arranged adjacent to the first cover plate 17, and the pivot joint part 19 is used for being rotatably connected with the first cover plate 17; the first cover 17 includes a body 171, a mounting portion 172 disposed on the body 171, and a bushing 173 mounted on the mounting portion 172, the pivot portion 19 includes a pivot 191, and one end of the pivot 191 extends into the bushing 173 and is rotatably connected to the bushing 173. One end of the pivot 191 extends into the shaft sleeve 173 and is connected with the shaft sleeve 173 to rotate, so that the rotation stability of the wind wheel 3 is guaranteed, and the air outlet effect is guaranteed.

In addition, the water-cooled fan 100 may further include an air deflector 10, where the air deflector 10 is disposed in the first receiving portion 111, and the air deflector 10 is disposed around one side of the wind wheel 3, which is away from the air inlet 12 and the air outlet 13, it can be understood that the air deflector 10 is disposed around one side of the wind wheel 3, matches the wind flow direction of the wind wheel 3, and guides the wind, so that the outlet wind at one side, which is away from the air inlet 12 and the air outlet 13, can be guided into the air outlet 13, so that the outlet wind is more concentrated, the outlet wind efficiency is improved, and the cooling speed is increased.

Further, please refer to fig. 8, fig. 8 is a schematic exploded perspective view of a water-cooling fan 100 according to an alternative embodiment of the present invention. The water-cooling fan 100 has substantially the same structure as the water-cooling fan 100 shown in fig. 1, that is, the above description of the water-cooling fan 100 shown in fig. 1 is basically applied to the water-cooling fan 100 of the modified embodiment, and the main differences are as follows: in the modified embodiment, the water-cooling fan 100 further includes a heating device 200 and/or a cooling device 300 (i.e., the water-cooling fan 100 includes at least one of the heating device 200 and the cooling device 300). The heating device 200 is used for heating, and the cooling device 300 is used for cooling. It can be understood that the water-cooling fan 100 further has a heating and/or cooling function by further providing the heating device 200 and/or the cooling device 200, and is applicable to various scenes, thereby improving user experience.

Wherein the heating device 200 includes, but is not limited to, a heating plate, and the cooling device 300 includes, but is not limited to, a cooling plate, a condenser, etc.

Specifically, the heating end of the heating device 200 may be disposed in one first receiving portion 111, or one heating end of the heating device 200 may be disposed in each first receiving portion 111.

The cooling end of the refrigeration apparatus 300 may be provided in one first storage section 111, or the cooling end of the refrigeration apparatus 300 may be provided for each first storage section 111.

One of the first receiving portions 111 may be provided with a heating end of the heating device 200, and the other first receiving portion 111 may be provided with a refrigerating end of the refrigerating device 300.

It is understood that the wind wheel 3 in the first receiving portion 111 can discharge the heated and/or cooled wind through the wind outlet 12. It can be understood that the heated and/or refrigerated wind is discharged through the wind wheel through the wind outlet 12, so that the wind outlet is comfortable, and a more comfortable refrigerating and/or heating effect is achieved.

Further, in some embodiments, a heating end of the heating device 200 and/or a cooling end of the cooling device 300 are disposed in the first receiving portion 111. It can be understood that, by disposing the heating end of the heating device 200 and/or the cooling end of the cooling device 300 in the first receiving portion 111, the heated and/or cooled wind can be effectively discharged through the wind wheel 3, so that the heating and/or cooling efficiency is high.

In the embodiment, the water-cooling fan 100 may have functions of cool air, warm air, and liquid mist, and the opening and closing of the heating device 200, the refrigerating device 300, and the atomizing device 4 may be controlled by the control assembly 400, so as to control the opening and closing of the functions of cool air, warm air, and liquid mist of the water-cooling fan 100, so that the water-cooling fan 100 may implement multiple usage modes of cool air alone, warm air alone, liquid mist alone, cool air + liquid mist, warm air + liquid mist, cool air on one side (for example, the first receiving portion 111 blows cool air) + warm air on one side (for example, the other first receiving portion 111 blows warm air) + liquid mist, and meet the needs of multiple scenes, thereby improving the user experience.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A water-cooled fan, its characterized in that: the water-cooling fan includes:

the shell is provided with a first accommodating space, an air inlet and an air outlet;

the spacing part is positioned in the shell and is used for dividing the first accommodating space into at least two first accommodating parts, and each first accommodating part corresponds to at least part of the air inlet and at least part of the air outlet; and

the wind wheels are arranged in the corresponding first accommodating parts and used for guiding the wind of the air inlet to the air outlet to be discharged independently.

2. The water-cooling fan as claimed in claim 1, wherein the wind wheel includes a plurality of supporting plates, the supporting plates are sequentially arranged at intervals along a preset direction, a plurality of wind plates are connected between two adjacent supporting plates, and the wind plates are annularly arranged around an axial direction of the preset direction and are arranged at intervals to form a wind plate layer.

3. The water-cooled fan of claim 2, wherein the air inlet and the air outlet both extend in the predetermined direction; and the air inlet and/or the air outlet are also provided with at least one rib part, the extending direction of the rib part and the preset direction form a preset included angle and the air inlet and/or the air outlet are separated into at least two parts.

4. The water-cooled fan according to claim 1, further comprising a heating device and/or a cooling device for heating and/or cooling.

5. The water-cooled fan of claim 4, wherein the wind wheel can discharge the heated and/or cooled wind through the wind outlet; the heating end of the heating device and/or the refrigerating end of the refrigerating device are/is arranged in the first accommodating part.

6. The water-cooled fan of claim 4, further comprising atomizing means for atomizing the liquid to be atomized and discharging the liquid mist.

7. The water-cooling fan as claimed in claim 6, further comprising a control assembly for controlling the opening and closing of the atomizing device and the opening and closing of the heating device and/or the cooling device, respectively.

8. The water-cooling fan as claimed in claim 6, wherein the housing includes a first sidewall structure, the partition includes a first main body portion and a second main body portion, both ends of the first main body portion are connected to both ends of the first sidewall structure so as to define the first receiving space together with the first sidewall structure, and the second main body portion is connected between the first main body portion and the first sidewall structure and divides two first receiving portions.

9. The water-cooled fan of claim 8, further comprising a wind wheel motor connected to one end of the wind wheel for driving the wind wheel to rotate; the partition part further comprises a first bottom plate part, the first bottom plate part is connected with the first side wall structure, the first main body part and the second main body part and divides the first containing space into a second containing part, the first containing part and the second containing part are respectively located on two sides of the bottom plate part, and the wind wheel motor is located in the second containing part.

10. The water-cooling fan as claimed in claim 8, wherein the housing further includes a second sidewall structure, two ends of the second sidewall structure are connected to two ends of the first main body portion, the second sidewall structure encloses a second receiving space, the partition further includes a second bottom plate portion, the second bottom plate portion is connected between the second sidewall structure and the first main body portion and divides the second receiving space into a third receiving portion and a fourth receiving portion, the third receiving portion is configured to receive the liquid to be atomized, the fourth receiving portion is configured to receive the atomizing device, the second bottom plate portion further has a first opening, and the atomizing device is disposed corresponding to the first opening to atomize the liquid to be atomized in the third receiving portion.

11. The water-cooled fan according to claim 10, further comprising a reservoir provided at a side of the third receiving portion remote from the fourth receiving portion, the reservoir including a second opening for storing the liquid to be atomized and providing the liquid to be atomized to the third receiving portion via the second opening.

12. The water-cooling fan as claimed in claim 11, wherein the reservoir includes a reservoir portion disposed in the third receiving portion and having the second opening, and a cover body covering the reservoir portion, and the cover body is movably disposed at an end of the reservoir portion away from the third receiving portion, so that the liquid to be atomized or the solid of the liquid to be atomized can be added into the reservoir portion when the cover body is opened.

13. The water-cooled fan as claimed in claim 11, wherein the water-cooled fan further comprises a launch valve assembly, the launch valve assembly comprises a launch valve and a launch weight, the launch valve comprises a valve body corresponding to the second opening and located in the reservoir and a connecting end connected to the valve body and extending from the second opening to the third receiving portion, the launch weight is located in the third receiving portion and connected to the connecting end, and the launch weight is used for controlling the valve body to be separated from the second opening under the buoyancy of the liquid to be atomized so that the liquid to be atomized in the reservoir flows out from the second opening to the third receiving portion or is mounted to the second opening.

14. The water-cooling fan as claimed in claim 8, wherein the first sidewall structure has a liquid mist outlet, the second main body further has a liquid mist channel therein, one end of the liquid mist channel is used for receiving the liquid mist atomized by the atomizing device, and the other end of the liquid mist channel is connected to the liquid mist outlet for discharging the liquid mist to the outside of the water-cooling fan; the liquid mist outlet is located between the air outlets of the two first accommodating portions.

15. The water-cooled fan of claim 8, wherein the first sidewall structure comprises two sidewalls disposed opposite to each other and a connecting wall connecting the two sidewalls, the air inlet is disposed on the two sidewalls, and the air outlet is disposed on the connecting wall; the rotation directions of the two wind wheels are opposite.

16. The water-cooled fan of claim 8, further comprising a swinging head assembly, wherein the swinging head assembly is configured to drive the casing or the casing and the at least two wind wheels to rotate, so that the air outlet direction of the air outlet is adjustable.

17. The water-cooling fan as claimed in claim 16, wherein the housing further includes a first cover plate and a second cover plate, the first cover plate is covered outside the at least two wind wheels and connected to the first sidewall structure, the second cover plate is disposed opposite to the first cover plate and connected to a side of the first sidewall structure away from the first cover plate, the yaw assembly includes a yaw motor, a first gear connected to the yaw motor, a yaw turntable, and a second gear disposed on the yaw turntable and engaged with the first gear, the yaw motor is mounted on the second cover plate and used for driving the first gear to rotate relative to the second gear, thereby driving the housing or the housing and the at least two wind wheels to rotate relative to the yaw turntable.

18. The water-cooling fan as claimed in claim 17, wherein the second gear is located between the second cover plate and the swing turntable, and the swing turntable and the second gear are fixed by a first fastener, the swing turntable includes a through hole, the swing assembly further includes a turntable fixing member, the turntable fixing member is disposed corresponding to the through hole, and the turntable fixing member and the second gear are fixed by a second fastener.

19. The water-cooled fan of claim 17, wherein the wind wheel further comprises a pivot portion disposed adjacent to the first cover plate, the pivot portion configured to be rotatably coupled to the first cover plate; the first cover plate comprises a body part, an installation part arranged on the body part and a shaft sleeve arranged on the installation part, the pivoting part comprises a pivot, and one end of the pivot extends into the shaft sleeve and is rotatably connected with the shaft sleeve.

20. The water-cooled fan according to claim 1, further comprising a wind deflector disposed in the first receiving portion, wherein the wind deflector is disposed around a side of the wind wheel away from the wind inlet and the wind outlet.