CN211451312U

CN211451312U - Water tank, humidifier and air conditioner

Info

Publication number: CN211451312U
Application number: CN201922500418.XU
Authority: CN
Inventors: 黄涛; 罗会斌; 吴庆壮; 严亮亮; 赖弥兴; 刘正如; 郝明; 赵春达; 吴复员
Original assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Current assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-09-08
Anticipated expiration: 2029-12-31

Abstract

The utility model provides a water tank, a humidifier and an air conditioner, wherein, the water tank comprises a water tank body and a water retaining structure, and a water mist channel is arranged on the water tank body; the water retaining structure is arranged in the water mist channel and comprises a water retaining plate and a plurality of flow guide ribs which are uniformly distributed on the water retaining plate, the flow guide ribs are integrally formed with the water retaining plate, and the water retaining plate is connected with the inner wall of the water mist channel through the flow guide ribs. The utility model discloses a water tank is through evenly setting up a plurality of water conservancy diversion muscle around the breakwater for when the water column that spouts in the water smoke passageway is blockked by the breakwater, evenly distributed's water conservancy diversion muscle can be with sputtering the breakwater around and on the rivers water conservancy diversion that fall back to the inner wall of water smoke passageway, make rivers slowly fall along the inner wall, thereby avoided the emergence of the condition of a large amount of water smoke of rivers absorption that directly fall back, guaranteed the play fog volume of humidifier, thereby guaranteed the humidification effect of humidifier.

Description

Water tank, humidifier and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a water tank, humidifier and air conditioner.

Background

The humidifying function of the existing air conditioner is realized by arranging an ultrasonic humidifier at the top of the existing air conditioner, the ultrasonic humidifier can spray water and water mist from a water mist channel in the high-frequency oscillation humidifying process, and a water baffle is arranged in the water mist channel to block the sprayed water column; however, after the sprayed water column is blocked by the water baffle, water flow which splashes around the water baffle and falls back is formed, and a large amount of water mist can be adsorbed by the water flow in the falling process, so that the mist outlet quantity of the humidifier is reduced, and the humidifying effect of the humidifier is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be: under the condition that a water baffle is arranged in the water mist channel, how to ensure the mist outlet quantity of the humidifier.

In order to solve the above problem, the utility model provides a water tank, include:

the water tank body is provided with a water mist channel;

and the water retaining structure is arranged in the water spray channel and comprises a water retaining plate and a plurality of flow guide ribs which are uniformly distributed on the water retaining plate, the flow guide ribs are all integrally formed with the water retaining plate, and the water retaining plate is connected with the inner wall of the water spray channel through the flow guide ribs.

Therefore, the water retaining structure is arranged in the water mist channel, so that water can be effectively prevented from being sprayed out of the water mist channel, only water mist can be sprayed out of the water mist channel, the fineness of the water mist sprayed out of the humidifier is guaranteed, and the humidifying effect of the humidifier is improved; evenly set up a plurality of water conservancy diversion muscle around the breakwater, make the water column of spouting in the water smoke passageway block by the breakwater and form to the breakwater sputter all around and when falling back the rivers, evenly distributed's water conservancy diversion muscle can be more comprehensively will sputter the breakwater around and on the inner wall of water smoke passageway of the rivers water conservancy diversion that fall back, make rivers slowly fall down along the inner wall, thereby reduce the rivers that directly fall back, avoided the rivers that directly fall back to adsorb the emergence of the situation of a large amount of water smoke and the production of great noise, the play fog volume of humidifier has been guaranteed, thereby the humidification effect of humidifier has been guaranteed.

Optionally, the water mist channel is a vertically arranged cavity structure, and the cavity structure is arranged at a position where the water mist channel is arranged on the water tank body in a penetrating manner.

Therefore, the water mist channel in the cavity structure is vertically arranged on the water tank body, so that the water mist can be conveniently sprayed out and the sprayed water column can fall back; for the water mist channel that the slope set up, the condition that vertical water mist channel set up can effectively reduce water mist and attach to on the inner wall of water mist channel in the blowout in-process takes place, and the inner wall area of vertical water mist channel that sets up will be little, the injection moulding of the water tank body of being convenient for in water mist channel department. The cavity structure runs through in the setting of water tank body for the water smoke passageway can communicate the water smoke of humidifier and generate department and humidifier outside, thereby carries out the humidification to humidifier external environment.

Optionally, the cross-sectional area of the water deflector occupies 50% to 70% of the cross-sectional area of the water mist channel.

From this, the cross sectional area when the breakwater cuts along the axis direction of perpendicular to water smoke passageway accounts for 50% to 70% of the cross sectional area when the water smoke passageway cuts along its axis direction of perpendicular to for the breakwater can play the effect of blockking to the water column of spouting, can not block the blowout of water smoke again, has guaranteed the humidification effect of humidifier.

Optionally, the flow guide rib comprises a first flow guide part and a second flow guide part, the first flow guide part and the second flow guide part are both connected with the water baffle, and the second flow guide part is located below the water baffle; one end of the first flow guide part is connected with the inner wall of the water mist channel, and the other end of the first flow guide part is connected with the water baffle and the second flow guide part.

Therefore, the flow guide ribs are respectively connected with the two sides of the water baffle through the first flow guide part and the second flow guide part, so that the water baffle is stably fixed in the water mist channel, and the impact resistance of the water baffle is enhanced; the second diversion part is connected with one side of the water baffle plate, which is used for retaining water, so that diversion of the water falling back by the diversion ribs is facilitated.

Optionally, a water blocking rib is arranged on the water blocking plate, a water blocking rib is arranged on the lower end face of the water blocking plate, and the water blocking rib extends downwards from the lower end face of the water blocking plate in the vertical direction.

Therefore, the water retaining rib is arranged on one side of the water retaining plate for retaining water, so that the water retaining effect of the water retaining plate is further enhanced, and after the sprayed water column is blocked by the water retaining plate in the vertical direction, the water column is blocked by the water retaining rib in the horizontal direction, so that the energy sprayed by the water column is further weakened, and the water column falls back conveniently; and the arrangement of the water retaining ribs strengthens the structural strength of the water retaining plate.

Optionally, the water blocking ribs are arranged in a plurality, and the water blocking ribs are uniformly arranged around the edge of the water blocking plate.

Therefore, a plurality of water retaining ribs are arranged and surround the edges of the water retaining plates; every two manger plate muscle all have certain distance between two tip nearest to the water conservancy diversion muscle to the water that is blockked can follow between the tip of two breakwaters and fall back along the water conservancy diversion muscle.

Optionally, the length of the end, connected with the inner wall of the water mist channel, of the flow guide rib in the vertical direction is greater than the length of the end, connected with the water baffle, of the flow guide rib in the vertical direction.

From this, the length of the one end that water conservancy diversion muscle and water smoke passageway's inner wall are connected is bigger in vertical direction to the water conservancy diversion of water conservancy diversion muscle to the water that falls back, and make the water conservancy diversion muscle have certain area of contact with the inner wall of water smoke passageway, so that the water conservancy diversion muscle is connected with the firm of the inner wall of water smoke passageway.

Optionally, the orthographic projection of the water baffle on the horizontal plane is circular, oval or regular polygon, and the water baffle and the water mist channel are coaxially arranged.

Therefore, the orthographic projection of the water baffle on the horizontal plane is circular, oval or regular polygon, so that the water baffle is uniform in structure and is deviated from the structural stability of the water baffle and the injection molding of the water baffle; because the water is in the in-process of upwards spouting, like the fountain, the energy of centre is the biggest, consequently sets up the breakwater in the intermediate position of water smoke passageway, can block the water column that spouts up most effectively and spout the water smoke passageway.

In order to solve the problem, the utility model also provides a humidifier, including the aforesaid the water tank.

In order to solve the problem, the utility model also provides an air conditioner, including the aforesaid humidifier.

Compared with the prior art, the humidifier, the air conditioner and the motor shaft assembling structure have the same advantages, and the details are not repeated.

Drawings

Fig. 1 is a schematic structural diagram of a water tank in an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural view of another view angle of the water tank according to the embodiment of the present invention;

FIG. 4 is a schematic structural view of the water retaining structure disposed in the water mist channel according to the embodiment of the present invention;

fig. 5 is another schematic structural diagram of the water tank in the embodiment of the present invention;

fig. 6 is a partially enlarged view of fig. 5 at B.

Description of reference numerals:

1-a water tank; 11-a water tank body; 12-a water retaining structure; 121-a water baffle; 1211-water retaining ribs; 122-flow guiding ribs; 1221-a first flow guide; 1222-a second flow guide; 21-a water mist channel; 211-outlet.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "high", "low", and the like are based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

With reference to fig. 1 and 3, the present invention provides a water tank 1, including:

a water tank body 11 provided with a water mist channel 21;

and the water retaining structure 12 is arranged in the water mist channel 21, the water retaining structure 12 comprises a water retaining plate 121 and a plurality of flow guide ribs 122 which are uniformly distributed around the water retaining plate 121, the plurality of flow guide ribs 122 are integrally formed with the water retaining plate 121, and the water retaining plate 121 is connected with the inner wall of the water mist channel 21 through the flow guide ribs 122.

Because in the humidification process of humidifier, water can be spout from water smoke passageway 21 together with water smoke, through set up water retaining structure 12 in water smoke passageway 21, can effectively block the blowout of water for only water smoke can be spout from water smoke passageway 21, thereby guarantees the exquisiteness of humidifier spun water smoke, with the humidification effect that promotes the humidifier. A plurality of flow guiding ribs 122 are uniformly arranged around the water baffle 121, that is, the plurality of flow guiding ribs 122 are uniformly distributed (i.e., are distributed at equal intervals) around the water baffle 121; when the plurality of flow guide ribs 122 are not uniformly distributed around the water baffle 121, water flow splashing around the water baffle 121 and falling back can be formed after the water column sprayed in the water mist channel 21 is blocked by the water baffle 121, at the moment, the water flow splashing around the water baffle 121 cannot be fully guided to the inner wall of the water mist channel 21 by the non-uniformly distributed flow guide ribs 122, and the water flow which is not guided can adsorb a large amount of sprayed water mist when falling due to large diffusion area in the sputtering process, so that the mist outlet amount of the humidifier is reduced, and the humidifying effect of the humidifier is influenced; and the falling water flow which is not guided has a high speed when directly falling, and generates a large noise when impacting a part below the water mist channel 21. Therefore, evenly set up a plurality of water conservancy diversion muscle 122 around breakwater 121, can make the water column of spouting in the water smoke passageway 21 block by breakwater 121 and form to splash all around and when falling back the rivers of breakwater 121, evenly distributed's water conservancy diversion muscle 122 can be more comprehensively will sputter all around and fall back the rivers water conservancy diversion of breakwater 121 to the inner wall of water smoke passageway 21, make rivers slowly fall down along the inner wall, thereby reduce the rivers that directly fall back, avoided the rivers that directly fall back to adsorb the emergence of the condition of a large amount of water smoke and the production of great noise, the play fog volume of humidifier has been guaranteed, thereby the humidification effect of humidifier has been guaranteed. Moreover, when the water column impacts on all the positions of the water baffle 121, the impact energy applied to the water baffle 121 can be dispersed by the diversion ribs 122 uniformly distributed around the water baffle 121, so that the water baffle 121 is uniformly stressed, the stability of the water baffle 121 in the water mist channel 21 is improved, and the service life of the water retaining structure 12 is prolonged.

Optionally, as shown in fig. 1 and 4, the water mist channel 21 is a vertically arranged cavity structure, and the cavity structure penetrates through the tank body 11.

The water mist channel 21 in a cavity structure is vertically arranged on the water tank body 11, wherein the vertical direction is the direction CD in the figure 1 or the figure 4, the direction C is the vertically upward direction, and the direction D is the vertically downward direction; the arrangement is so that the sprayed water column can rise and fall in the vertical direction, and the water mist can be conveniently sprayed out and the sprayed water column can fall back; for the water mist channel 21 that sets up for the slope, the condition that vertical water mist channel 21 set up can effectively reduce water mist and attach to on the inner wall of water mist channel 21 takes place in the blowout process, and the inner wall area of vertical water mist channel 21 that sets up will be little relatively, and the structure is simpler, the injection moulding of the water tank body 11 of being convenient for in water mist channel 21 department. The cavity structure runs through in water tank body 11 setting for water smoke channel 21 can communicate the water smoke of humidifier and generate department and humidifier outside, specifically, the one end of water smoke channel 21 and the water smoke of humidifier generate the department intercommunication, and the other end communicates water tank body 11 and the outside intercommunication department of humidifier, so sets up, makes water smoke can follow the water smoke in the humidifier and generate the department and spout outside water tank body 11, thereby carries out the humidification to humidifier external environment.

Optionally, as shown in fig. 1, fig. 3, and fig. 4, an orthographic projection of the water deflector 121 on a horizontal plane is circular, elliptical, or regular polygon, and the water deflector 121 is disposed coaxially with the water mist channel 21.

The orthographic projection of the water baffle 121 on the horizontal plane is circular, oval or regular polygon, namely the water baffle 121 can be in a circular plate-shaped structure, oval plate-shaped structure or regular polygon plate-shaped structure, so that compared with the water baffle 121 in an irregular plate-shaped structure, the water baffle 121 in the circular, oval or regular polygon plate-shaped structure is uniform in structure, so that the stable structure of the water baffle 121 is ensured, and meanwhile, the injection molding of the water baffle 121 is facilitated; for the structural strength of guaranteeing water smoke passageway 21 and be convenient for water smoke passageway 21's design, the production shaping, water smoke passageway 21 is cylindrical structure (for other cylindrical structures, cylindrical structure's water smoke passageway 21 can provide bigger holding power for water tank body 11), therefore breakwater 121 is preferably circular platelike structure, and breakwater 121 and water smoke passageway 21 coaxial arrangement, for polygonal platelike structure's breakwater 121, water smoke passageway 21 is separated for a plurality of fan ring shape passageways by breakwater 121 and a plurality of water conservancy diversion muscle 122 in breakwater 121 department, make water smoke can follow even blowout of these a plurality of fan ring shape passageways, in order to guarantee humidifier humidification effect.

Further, since the water deflector 121 is disposed coaxially with the water mist channel 21, the water deflector 121 is located at the middle position of the water mist channel 21; in the upward spraying process of water, the energy in the middle of the sprayed water column like a fountain is the largest, so the water baffle 121 is arranged in the middle of the water mist channel 21, and the sprayed water column can be effectively blocked from spraying out of the water mist channel 21.

Optionally, as shown in fig. 1, 3 and 4, the cross-sectional area of the water baffle 121 occupies 50% to 70% of the cross-sectional area of the water mist channel 21.

The area of the section (i.e. the cross section of the water baffle 121) of the water mist channel 21 cut along the direction perpendicular to the axis of the water mist channel 21 accounts for 50% to 70% of the area of the section (i.e. the cross section of the water mist channel 21) of the water mist channel 21 cut along the direction perpendicular to the axis, specifically, because the axis of the water mist channel 21 is perpendicular to the horizontal plane, the area of the orthographic projection of the water baffle 121 on the horizontal plane accounts for 50% to 70% of the area of the orthographic projection of the water mist channel 21 on the horizontal plane; when the ratio of the cross section area of the water baffle 121 to the cross section area of the water mist channel 21 is larger than 70%, the spraying area of the water mist is reduced relative to the cross section area of the water mist channel 21, and by the arrangement, the spraying rate of the water mist can be reduced, so that the humidifying effect of the humidifier is reduced; when the ratio of the cross-sectional area of the water baffle 121 to the cross-sectional area of the water mist channel 21 is less than 50%, the water baffle 121 cannot effectively block the sprayed water column; the cross sectional area of the water baffle 121 is preferably 60% of the cross sectional area of the water mist channel 21, and the water baffle 121 has enough area to block the sprayed water column, and enough space is reserved between the water baffle 121 and the inner wall of the water mist channel 21 to spray water mist, so that the humidifying effect of the humidifier is guaranteed.

Optionally, as shown in fig. 1 to 4, the flow guiding rib 122 includes a first flow guiding portion 1221 and a second flow guiding portion 1222, the first flow guiding portion 1221 and the second flow guiding portion 1222 are both connected to the water baffle 121, and the second flow guiding portion 1222 is located below the water baffle 121 (i.e., in a direction D in fig. 1 or 4); one end of the first guiding portion 1221 is connected to the inner wall of the water mist channel 21, and the other end is connected to both the water guard plate 121 and the second guiding portion 1222.

It should be noted that the dotted lines on the air guide ribs 122 in fig. 4 are not true, and are only used to distinguish the first air guide portion 1221 from the second air guide portion 1222, and are not a limitation on the structure of the air guide ribs 122; the diversion rib 122 is connected with two sides of the water baffle 121 through the first diversion part 1221 and the second diversion part 1222 respectively, specifically, the diversion rib 122, the water baffle 121 and the inner wall of the water mist channel 21 are integrally formed, and the first diversion part 1221 and the second diversion part 1222 are integrally formed; of the two ends of the first guiding part 1221 in the horizontal direction, one end is connected to the inner wall of the water mist channel 21, and the other end is connected to the edge of the water guard plate 121; the second diversion part 1222 is located below the water baffle 121, and an upper end surface (an end surface of the second diversion part 1222 in the direction of C in fig. 1 or 4) of the second diversion part 1222 is connected to one side of the water baffle 121 for retaining water (i.e., a lower end surface of the water baffle 121), wherein, since the water baffle 121 has two end surfaces in the vertical direction, i.e., in the direction of CD in fig. 1, the end surface of the water baffle 121 in the direction of C is an upper end surface, and the end surface in the direction of D is a lower end surface; in addition, of two ends of the second flow guide 1222 in the horizontal direction, one end is connected to the first flow guide 1221, and the other end is a free end. Due to the arrangement, the contact area between the diversion rib 122 and the water baffle 121 is increased, so that the diversion rib 122 and the water baffle 121 have enough contact area, the stable connection between the diversion rib 122 and the water baffle 121 is facilitated, the diversion rib 122 can effectively disperse impact energy caused by sprayed water column received by the water baffle 121, the water baffle 121 is stably fixed in the water mist channel 21, and the impact resistance of the water baffle 121 is enhanced; and the second diversion part 1222 is connected to one side of the water baffle 121 for water diversion, so that the diversion rib 122 can divert the water that falls back due to being blocked by the water baffle 121, thereby reducing noise.

Alternatively, as shown in fig. 1, 5, and 6, a water blocking rib 1211 is provided on a lower end surface of the water blocking plate 121 (the end surface of the water blocking plate located in the direction D in fig. 1 is the lower end surface), and the water blocking rib 1211 extends downward (i.e., in the direction D in fig. 1) from the lower end surface of the water blocking plate 121 in the vertical direction (i.e., in the direction CD in fig. 1).

The water blocking rib 1211 is arranged on one side of the water blocking plate 121 for blocking water (namely, the lower end face of the water blocking plate 121), the water blocking rib 1211 extends downwards from the lower end face of the water blocking plate 121 in the vertical direction, namely, the water blocking rib 1211 is arranged perpendicular to the water blocking plate 121, so that the water blocking effect of the water blocking plate 121 is further enhanced, and after the sprayed water column is blocked by the water blocking plate 121 in the vertical direction, the water blocking rib 1211 blocks the water column in the horizontal direction, so that the energy sprayed by the water column is further weakened, and the water column falls back; and the water blocking ribs 1211 are arranged to reinforce the structural strength of the water blocking plate 121.

Further, the water blocking rib 1211 is circular or polygonal (that is, the exposed cross section of the water blocking rib 1211 when cut along a direction perpendicular to the axis of the water mist channel 21 is circular or polygonal), and is protruded on one side of the water blocking plate 121 for blocking the sprayed water column in each direction of the horizontal plane, so as to further prevent the water from being sprayed out of the water mist channel 21, thereby further ensuring the humidifying effect of the humidifier.

Alternatively, as shown in fig. 6, the water blocking ribs 1211 are provided in plurality, and the plurality of water blocking ribs 1211 are uniformly arranged around the edge of the water blocking plate 121.

The plurality of water blocking ribs 1211 are arranged around the edge of the water blocking plate 121, and are similar to the water blocking ribs 1211 in a circular or polygonal ring shape, and the plurality of water blocking ribs 1211 forms a ring shape, so that the plurality of water blocking ribs 1211 can block the sprayed water column in each direction of the horizontal plane; for the plurality of water blocking ribs 1211, a certain distance is provided between two nearest end portions of each two water blocking ribs 1211, and the second flow guiding portion 1222 of the flow guiding rib 122 may be located between the end portions of the two water blocking plates 121 (i.e., two water blocking ribs 1211 exist on two sides of one second flow guiding portion 1222), so that the blocked water may flow out from between the end portions of the two water blocking plates 121 and fall back along the flow guiding rib 122.

Optionally, as shown in fig. 1, 2, and 4, the length L of one end of the flow guiding rib 122 connected to the inner wall of the water mist channel 21 in the vertical direction (i.e., the CD direction in fig. 1 or 4) is greater than L₂Is greater than the length L of the end of the diversion rib 122 connected with the water baffle 121 in the vertical direction₁I.e. L₂>L₁。

The flow guide rib 122 has a plate-like structure with a trapezoid-like overall shape, and a length L in a vertical direction of one end (similar to the lower bottom surface of the trapezoid) of the flow guide rib 122 connected with the inner wall of the water mist channel 21 is opposite to one end (similar to the upper bottom surface of the trapezoid) of the flow guide rib 122 connected with the water baffle 121₂Is larger, so that the diversion rib 122 can divert the returned water, and the diversion rib 122 and the inner wall of the water mist channel 21 have a certain contact area, so that the diversion rib 122 and the inner wall of the water mist channel 21 can be stably connected.

Optionally, as shown in fig. 1 and 4, the vertical distance H between the water baffle 121 and the outlet 211 of the water mist channel 21₁Length H in the vertical direction (i.e., CD direction in fig. 1 or 4) of the water mist passage 21₂The ratio between is between 0.2 and 0.3.

If the water baffle 121 is arranged in the water mist channel 21 at a position closer to the outlet 211 of the water mist channel 21, H is₁The smaller the water column is, the more likely the water column is to be ejected out of the water mist channel 21, therefore, a certain distance is required between the water baffle 121 and the outlet 211 of the water mist channel 21, so that the water column is effectively blocked by the water baffle 121, and the noise generated by the impact of the water column and the water baffle 121 is reduced; in particular, the vertical distance H between the water deflector 121 and the outlet 211 of the water mist channel 21₁Length H in the vertical direction of the water mist passage 21₂The ratio of the water striking area to the water striking area is between 0.2 and 0.3, when the ratio is larger than 0.3, the position of the water baffle 121 in the water mist channel 21 is lower relative to the outlet 211, namely the water baffle 121 is lower in the vertical direction, the energy of the water column striking the water baffle 121 is larger, the noise is increased, when the ratio is smaller than 0.2, the position of the water baffle 121 in the water mist channel is higher relative to the outlet 211, namely the water baffleThe water column has a greater possibility of spraying out the water mist channel 21 because the water baffle 121 is closer to the outlet 211 of the water mist channel 21 than the water baffle 121 is upper in the vertical direction; thus H₁And H₂The ratio of (d) is in the range of 0.2 to 0.3, so that the water column sprayed up is not sprayed out of the outlet 211 even though the water guard 121 is subjected to weak energy.

The utility model also provides a humidifier, including foretell water tank 1.

The humidifier that this embodiment provided is through evenly setting up a plurality of water conservancy diversion muscle 122 around breakwater 121, make the water column of spouting in the water smoke passageway 21 blockked by breakwater 121 and form to breakwater 121 sputter all around and when falling back the rivers, evenly distributed's water conservancy diversion muscle 122 can be more comprehensively will sputter all around and fall back the rivers water conservancy diversion to water smoke passageway 21 on breakwater 121 on, make rivers slowly fall down along the inner wall, thereby reduce the rivers that directly fall back, avoided the rivers that directly fall back to adsorb the emergence of the condition of a large amount of water smoke and the production of great noise, the play fog volume of humidifier has been guaranteed, thereby the humidification effect of humidifier has been guaranteed.

The utility model also provides an air conditioner, including foretell humidifier.

The air conditioner that this embodiment provided includes foretell humidifier, through evenly set up a plurality of water conservancy diversion muscle 122 around breakwater 121 on the humidifier, make the water column of spouting in the water smoke passageway 21 blockked by breakwater 121 and form to breakwater 121 sputter all around and when falling rivers, evenly distributed's water conservancy diversion muscle 122 can be more comprehensive will sputter breakwater 121 all around and fall rivers water conservancy diversion to water smoke passageway 21's inner wall on, make rivers slowly fall along the inner wall, thereby reduce the rivers that directly fall back, the emergence and the production of great noise of the condition of having avoided the rivers that directly fall back to adsorb a large amount of water smoke, the play fog volume of humidifier has been guaranteed, thereby the humidification effect of humidifier has been guaranteed.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims

1. A water tank, comprising:

a water tank body (11) which is provided with a water mist channel (21);

and the water retaining structure (12) is arranged in the water mist channel (21), the water retaining structure (12) comprises a water retaining plate (121) and a plurality of flow guide ribs (122) which are uniformly distributed around the water retaining plate (121), the flow guide ribs (122) are integrally formed with the water retaining plate (121), and the water retaining plate (121) is connected with the inner wall of the water mist channel (21) through the flow guide ribs (122).

2. A cistern as claimed in claim 1, characterized in that the water mist channel (21) is of a vertically arranged cavity structure which extends through the cistern body (11).

3. A water tank according to claim 1, characterized in that the cross-sectional area of the water deflector (121) is 50-70% of the cross-sectional area of the water mist channel (21).

4. The water tank as claimed in claim 1, wherein the guide rib (122) comprises a first guide portion (1221) and a second guide portion (1222), the first guide portion (1221) and the second guide portion (1222) are both connected to the water guard (121), and the second guide portion (1222) is located below the water guard (121); one end of the first flow guide part (1221) is connected with the inner wall of the water mist channel (21), and the other end of the first flow guide part is connected with the water baffle plate (121) and the second flow guide part (1222).

5. The water tank as claimed in claim 1, wherein a water blocking rib (1211) is provided on a lower end surface of the water blocking plate (121), and the water blocking rib (1211) extends downward from the lower end surface of the water blocking plate (121) in a vertical direction.

6. The water tank as claimed in claim 5, wherein the water blocking rib (1211) is provided in plurality, and the plurality of water blocking ribs (1211) are uniformly arranged around the edge of the water blocking plate (121).

7. The water tank as claimed in claim 1, wherein a length of an end of the flow guide rib (122) connected to an inner wall of the water mist passage (21) in a vertical direction is greater than a length of an end of the flow guide rib (122) connected to the water guard (121) in the vertical direction.

8. The water tank as claimed in any of claims 1 to 7, wherein an orthographic projection of the water deflector (121) on a horizontal plane is circular, elliptical or regular polygonal, and the water deflector (121) is disposed coaxially with the mist passage (21).

9. Humidifier characterized in that it comprises a water tank according to any one of claims 1-8.

10. An air conditioner characterized by comprising the humidifier according to claim 9.