CN213273170U - Water tank of air conditioner and air conditioner - Google Patents

Abstract

The utility model discloses a water tank and air conditioner of air conditioner, water tank include the water tank body, this internal retaining space that is equipped with of water tank is equipped with the portion of intaking that communicates with the retaining space on the water tank body, and the water tank body still is equipped with water outlet channel, and water outlet channel and retaining space communicate, are equipped with the diversion muscle on water outlet channel's at least one inner wall. The utility model discloses a water tank is equipped with the diversion muscle through at least one inner wall at water outlet channel for the comdenstion water can be followed the diversion muscle and flowed out water outlet channel from water outlet channel's inner wall, from this, can avoid the comdenstion water at the in-process that flows, break away from water outlet channel inner wall direct flow down, and with the water receiving part striking that corresponds with water outlet channel, noise. Moreover, the condensate water can rub the diversion rib when flowing along the diversion rib, so that the flow speed is reduced, the noise of the condensate water flowing in the water outlet channel is reduced, and the noise of the impact of the condensate water and the water receiving part can also be reduced.

Description

Water tank of air conditioner and air conditioner

Technical Field

The utility model belongs to the technical field of air conditioning technology and specifically relates to a water tank and air conditioner of air conditioner is related to.

Background

In the air conditioning field, the outlet of water tank is the smooth structure of inner wall, and when the water tank inflow was great, the displacement of outlet was corresponding increased, and at this moment, the more each inner wall of edge of comdenstion water flows down, breaks away from the inner wall even and directly lets out from downthehole, and at this moment, the flow rate of comdenstion water is very fast, can produce the noise with the collision of water receiving part, influences the quality of air conditioner, and the user is in the noise environment for a long time moreover, influences healthyly.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water tank of air conditioner, the water tank has the advantage that the play water noise is little.

The utility model provides an air conditioner, air conditioner has as above the water tank of air conditioner.

According to the utility model discloses water tank of air conditioner, including the water tank body, this internal retaining space that is equipped with of water tank, be equipped with on the water tank body with the portion of intaking of retaining space intercommunication, the water tank body still is equipped with exhalant canal, exhalant canal with retaining space intercommunication, be equipped with the diversion muscle on exhalant canal's at least one inner wall.

According to the utility model discloses water tank of air conditioner is equipped with the diversion muscle through at least one inner wall at water outlet channel for the comdenstion water can be followed the diversion muscle and flowed out water outlet channel from water outlet channel's inner wall, from this, can avoid the comdenstion water at the in-process that flows, break away from water outlet channel inner wall direct flow down, and with the water receiving part striking, the noise of sending that correspond with water outlet channel. Moreover, the condensate water can rub the diversion rib when flowing along the diversion rib, so that the flow speed is reduced, the noise of the condensate water flowing in the water outlet channel is reduced, and the noise of the impact of the condensate water and the water receiving part can also be reduced. Therefore, the product quality of the air conditioner can be improved, and the physical health of a user is guaranteed.

In some embodiments, the inner wall of the water outlet channel is provided with a stop bulge part to reduce the water flow impact force.

In some embodiments, the diversion rib includes a first guide rib provided on a top wall of the stopper boss, the first guide rib guiding the water flow downward.

In some embodiments, the outlet passage comprises a first passage and a second passage, the first passage being located upstream of the second passage in the flow direction of the water flow, at least one inner wall of the first passage extending obliquely inwardly in a direction towards the second passage.

In some embodiments, each inner wall of the water outlet channel is provided with a plurality of water diversion ribs.

In some embodiments, the spacing between adjacent water-diverting ribs is no greater than 4 mm.

In some embodiments, a first plane of the water inlet end of the water outlet channel is lower than a second plane of the water outlet end of the water inlet portion.

In some embodiments, the difference in height between the first plane and the second plane is no less than 3 mm.

In some embodiments, the bottom wall of the water tank body is provided with a sewage draining outlet.

According to the utility model discloses air conditioner, including chassis and water tank, the water tank is according to as above the water tank, the water tank is established on the chassis.

According to the utility model discloses air conditioner is equipped with the diversion muscle through at least one inner wall at water outlet channel for the comdenstion water can be followed the diversion muscle and flowed out water outlet channel from water outlet channel's inner wall, from this, can avoid the comdenstion water at the in-process that flows, break away from water outlet channel inner wall direct flow down and with the water receiving part striking, the noise generation that correspond with water outlet channel. Moreover, the condensate water can rub the diversion rib when flowing along the diversion rib, so that the flow speed is reduced, the noise of the condensate water flowing in the water outlet channel is reduced, and the noise of the impact of the condensate water and the water receiving part can also be reduced. Therefore, the product quality of the air conditioner can be improved, and the physical health of a user is guaranteed.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a water tank according to an embodiment of the present invention;

fig. 2 is a schematic view of another angle of the water tank according to the embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along A-A of FIG. 2;

fig. 4 is a schematic view of a further angle of the water tank according to an embodiment of the present invention;

FIG. 5 is a partial enlarged view at B in FIG. 4;

fig. 6 is a schematic view of a further angle of the water tank according to an embodiment of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

fig. 8 is a schematic structural diagram of a chassis according to an embodiment of the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at D;

fig. 10 is a partial enlarged view at E in fig. 8;

fig. 11 is a partial structural schematic view of an air conditioner according to an embodiment of the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11 at F;

FIG. 13 is an enlarged view of a portion of FIG. 11 at G;

fig. 14 is a partial structural view of another angle of the air conditioner according to the embodiment of the present invention.

Reference numerals:

an air-conditioner (1000) is provided,

the water tank 100 is provided with a water tank,

a water tank body 110, a water storage space 111, a water inlet part 112,

the water outlet passage 113, the first passage 1131, the second passage 1132, the stopper boss 11321,

the water guide rib 114, the first guide rib 1141, the second guide rib 1142,

a drain outlet 115 is arranged on the upper portion of the sewage tank,

a first plane F1, a second plane F2,

the base plate 200 is provided with a plurality of grooves,

the chassis body 210 is formed of a plastic material,

a water receiving area 211, a water receiving bottom wall 2111, a water receiving side wall 2112,

the water-storing region (212) is,

the guide ribs 220, the splash post 230,

the outer water guide ribs 240, the water passage 241,

water diversion ribs 250 and sub-flow channels 251.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The water tank 100 of the air conditioner 1000 and the air conditioner 1000 according to the embodiment of the present invention are described below with reference to the accompanying drawings. The air conditioner 1000 further includes a base plate 200, the water tank 100 is disposed on the base plate 200, the condensed water generated from the evaporator flows to the base plate 200 and then flows from the base plate 200 to the water tank 100, and the condensed water stored in the water tank 100 may be used to clean a filter brush of the air conditioner 1000. Of course, the condensed water stored in the water tank 100 may be used for other purposes, and the use of the condensed water is not limited too much.

As shown in fig. 1-3, according to the utility model discloses a water tank 100 of air conditioner 1000, including water tank body 110, be equipped with water storage space 111 in the water tank body 110, be equipped with the portion 112 of intaking that communicates with water storage space 111 on the water tank body 110, water tank body 110 still is equipped with exhalant canal 113, exhalant canal 113 and water storage space 111 intercommunication, is equipped with diversion muscle 114 on at least one inner wall of exhalant canal 113.

It can be understood that when there is condensed water on the base plate 200, the condensed water may be guided to the water inlet portion 112 on the tank body 110, for example, the condensed water on the base plate 200 may be guided to the water inlet portion 112 by using a water pump, the condensed water enters the water storage space 111 through the water inlet portion 112, the water storage space 111 may store the condensed water, and the condensed water stored in the water storage space 111 may be used to clean a brush of a filter screen of the air conditioner 1000, for example. The water storage space 111 stores a certain amount of water, for example, water can be discharged from the water outlet channel 113 after the water is full (for example, water can be discharged from the water outlet channel 113 when an overflow phenomenon occurs). Wherein the drained condensed water can be returned to the base pan 200 again. It will of course be appreciated that the drained condensation water may also be drained to other locations, such as directly to the outside.

Referring to fig. 3, the water outlet channel 113 may have an inner wall provided with the diversion rib 114, the water outlet channel 113 may also have a plurality of inner walls provided with the diversion ribs 114, here, the diversion ribs 114 may be rib structures protruding from the inner wall of the water outlet channel 113, when water in the water storage space 111 enters the water outlet channel 113, condensed water flows out of the water outlet channel 113 from the inner wall of the water outlet channel 113 along the diversion ribs 114, thereby preventing the condensed water from directly flowing down away from the inner wall of the water outlet channel 113 and colliding with a water receiving part (e.g., the chassis 200) corresponding to the water outlet channel 113 and generating noise in the flowing process. Furthermore, when the condensed water flows along the water guiding rib 114, the condensed water may rub against the water guiding rib 114, and further the flow velocity is reduced, thereby being beneficial to reducing the noise of the condensed water flowing in the water outlet channel 113, and also reducing the noise of the condensed water colliding with the water receiving component (such as the chassis 200).

Among the correlation technique, the outlet of water tank is the smooth structure of inner wall, and when the water tank inflow was great, the displacement of outlet was corresponding increased, and at this moment, the more each inner wall of edge of comdenstion water flows down, breaks away from the inner wall even and directly lets out from downthehole, and at this moment, the velocity of flow of comdenstion water is very fast, can produce the noise with the collision of water receiving part, influences the quality of air conditioner, and the user is in the noise environment for a long time moreover, influences healthyly.

And according to the utility model discloses water tank 100 of air conditioner 1000 is equipped with diversion muscle 114 through at least one inner wall at exhalant canal 113 for the comdenstion water can follow diversion muscle 114 and flow out exhalant canal 113 from exhalant canal 113's inner wall, from this, can avoid the comdenstion water at the mobile in-process, break away from exhalant canal 113 inner wall direct flow down, and with the water receiving part (for example chassis 200) striking, the noise that corresponds with exhalant canal 113. Furthermore, when the condensed water flows along the water guiding rib 114, the condensed water may rub against the water guiding rib 114, and further the flow velocity is reduced, thereby being beneficial to reducing the noise of the condensed water flowing in the water outlet channel 113, and also reducing the noise of the condensed water colliding with the water receiving component (such as the chassis 200). Thereby improving the product quality of the air conditioner 1000 and ensuring the physical health of the user.

In some embodiments of the present invention, as shown in fig. 3-5, the inner wall of the water outlet channel 113 is provided with a stop protrusion 11321 to reduce the water flow impact. The stopping protrusion 11321 may be formed by an inner wall of the water outlet channel 113 protruding inward toward another inner wall of the water outlet channel 113, and thus when the condensed water flows down, at least a portion of the condensed water may fall onto the stopping protrusion 11321, then flow down from the stopping protrusion 11321, and then flow out of the water outlet channel 113, and the stopping protrusion 11321 may reduce a fall of at least a portion of the condensed water, thereby reducing an impact force of the at least a portion of the condensed water colliding with the water receiving component (e.g., the chassis 200), and also may reduce a speed of the at least a portion of the condensed water flowing down, thereby reducing a noise of the collision between the condensed water and the water receiving component (e.g., the chassis 200.

With reference to fig. 3-5, according to the utility model discloses a few embodiments, diversion rib 114 is including establishing first guide rib 1141 on backstop bellying 11321's roof, first guide rib 1141 is guide rivers down, from this, after condensate flows to backstop bellying 11321, can follow first guide rib 1141 and flow to the play water end of outlet channel 113, first guide rib 1141 can play the effect of drainage, avoid the condensate water not have the flow path on backstop bellying 11321 and collision each other produces the noise, also can reduce the flow velocity of condensate water on backstop bellying 11321, further noise reduction. It is also possible to prevent condensed water from accumulating on the top of the stopper boss 11321.

In some embodiments of the present invention, as shown in fig. 3 to 5, the outlet channel 113 includes a first channel 1131 and a second channel 1132, in the flowing direction of the water flow, the first channel 1131 is located upstream of the second channel 1132, at least one inner wall of the first channel 1131 extends obliquely inward in the direction toward the second channel 1132, thereby, when the condensed water flows out, the condensed water enters the water inlet end of the outlet channel 113 from the water storage space 111, flows to the first channel 1131 from the water inlet end of the outlet channel 113, in the first channel 1131, at least part of the condensed water can flow down along the inner wall surface of the oblique extension to flow to the second channel 1132, and flows out of the outlet channel 113 from the second channel 1132, here, the inner wall surface of the oblique extension of the first channel 1131 can reduce the drop of at least part of the condensed water, thereby reducing the impact force of at least part of the collision with the water receiving component (such as the chassis 200), the velocity of at least a portion of the condensed water flowing down the water may also be reduced, thereby reducing the noise of the condensed water impinging on the water receiving component (e.g., the chassis 200).

In some specific examples, as shown in fig. 3, the stopping protrusion 11321 may be formed in the second channel 1132, and an inclined inner wall surface of the first channel 1131 is connected to an inner wall surface where the protrusion stopping portion of the second channel 1132 is located, the condensed water enters the water inlet end of the water outlet channel 113 from the water storage space 111, flows from the water inlet end of the water outlet channel 113 to the first channel 1131, at least a portion of the condensed water may flow down along the inclined inner wall surface in the first channel 1131 and flow to the second channel 1132, in the second channel 1132, at least a portion of the condensed water may fall onto the stopping protrusion 11321 first, the condensed water flowing onto the stopping protrusion 11321 may flow along the first guiding rib 1141 to the water outlet end of the water outlet channel 113, where a second guiding rib 1142 may be provided on a portion of the water outlet channel 113 between the first guiding rib 1141 and the water outlet end of the water outlet channel 113, and the condensed water may flow out of the water outlet channel 113 along the second guiding rib 1142, of course, the second guiding rib 1142 may be disposed on the other wall surface in the first channel 1131, except for the inclined inner wall surface, and the second guiding rib 1142 may be disposed on the other wall surface in the second channel 1132, except for the inner wall surface on which the protrusion stopper is disposed. Any one or combination of the above arrangements can reduce the velocity of at least part of the condensed water flowing down, thereby reducing the noise of the condensed water colliding with the water receiving part (e.g., the chassis 200).

As a possible case, as shown in fig. 4 to 5, when the amount of the condensed water entering the outlet channel 113 from the water storage space 111 is small, the condensed water is concentrated on the portion of the outlet channel 113 close to the water storage space 111, that is, the region a in fig. 5, and when the amount of the condensed water entering the outlet channel 113 from the water storage space 111 is large, the condensed water spreads to the portion outside the region a and spreads to the region B, so that the condensed water preferentially flows down from the side wall of the outlet channel 113 close to the water storage space 111 and the side wall having the stopper protrusion 11321 when entering the outlet channel from the water storage space 111, and the side wall close to the water storage space 111 and the side wall having the stopper protrusion 11321 may be provided with the water guide ribs 114.

With reference to fig. 6-7, according to some embodiments of the present invention, a plurality of water diversion ribs 114 are disposed on each inner wall of the water outlet channel 113, so that the drainage effect of the water diversion ribs 114 can be further enhanced, so that as much condensed water as possible flows down along the water diversion ribs 114 instead of directly leaking down from the water outlet channel 113, and the friction between the water diversion ribs 114 and the water flow can be increased, and the water flow speed can be reduced, thereby reducing the noise generated by the collision between the condensed water and the water receiving component (e.g., the chassis 200).

The utility model discloses an in some embodiments, interval between the adjacent leading water muscle 114 is not more than 4mm, from this, can provide the water conservancy diversion for as much comdenstion water as possible, simultaneously for interval between the adjacent leading water muscle 114 is reasonable, and then can avoid colliding between the stranded comdenstion water between the adjacent leading water muscle 114 and produce the noise.

According to some embodiments of the present invention, as shown in fig. 3, the first plane F1 where the water inlet end of the water outlet channel 113 is located is lower than the second plane F2 where the water outlet end of the water inlet portion 112 is located. It can be understood that the condensed water flows from the water outlet end of the water inlet portion 112 to the water storage space 111, the plane of the water outlet end of the water inlet portion 112 is the second plane F2, and the condensed water can flow from the water inlet portion 112 to the water storage space 111 without passing through the second plane F2; the condensed water flows from the water storage space 111 to the water outlet channel 113, the plane where the water inlet end of the water outlet channel 113 is located is the first plane F1, and the condensed water can flow from the water storage space 111 to the water outlet channel 113 without passing through the first plane F1. The first plane F1 is lower than the second plane F2, so that after the water storage space 111 is full of water, the excessive condensed water overflows from the water outlet channel 113, then the water part 112 flows the condensed water into the water storage space 111, and the overflow of the condensed water is facilitated, so that the situation that the water storage space 111 is full of water and overflows all around can be avoided.

Further, the height difference between the first plane F1 and the second plane F2 is not less than 3mm, so that the first plane F1 is lower than the second plane F2 by a sufficient distance, the water in the water storage space 111 can be smoothly discharged from the water outlet channel 113 after being full, and the water in the water storage space 111 can be prevented from overflowing.

In some embodiments of the present invention, the minimum opening cross-sectional area of the water inlet portion 112 is smaller than the opening cross-sectional area of the water outlet channel 113, so that after the water in the water storage space 111 is full, the water outlet amount of the water outlet channel 113 can be larger than the water inlet amount of the water inlet portion 112, and the water in the water storage space 111 can be prevented from overflowing.

In some embodiments of the present invention, as shown in fig. 4, the bottom wall of the water tank body 110 is provided with a drain 115, it can be understood that the drain 115 can be opened or closed, when the water tank body 110 needs to store water, the drain 115 is closed, and the condensed water is stored in the water storage space 111; when the condensed water in the water storage space 111 is polluted by using the condensed water, the drain outlet 115 can be opened to drain the polluted condensed water out of the drain outlet 115.

According to the embodiment of the present invention, the air conditioner 1000 comprises a base plate 200 and a water tank 100, the water tank 100 is the water tank 100 as described above, and the water tank 100 is disposed on the base plate 200. The condensed water generated from the evaporator flows toward the base pan 200 and then flows from the base pan 200 toward the water tank 100, and the condensed water stored in the water tank 100 can wash the filter brush of the air conditioner 1000. Of course, the condensed water stored in the water tank 100 may be used for other purposes, and the use of the condensed water is not limited too much.

According to the utility model discloses air conditioner 1000 is equipped with diversion muscle 114 through at least one inner wall at exhalant canal 113 for the comdenstion water can follow diversion muscle 114 and flow out exhalant canal 113 from exhalant canal 113's inner wall, from this, can avoid the comdenstion water at the mobile in-process, break away from exhalant canal 113 inner wall direct flow down, and with the water receiving part (for example chassis 200) striking, the noise emission that correspond with exhalant canal 113. Furthermore, when the condensed water flows along the water guiding rib 114, the condensed water may rub against the water guiding rib 114, and further the flow velocity is reduced, thereby being beneficial to reducing the noise of the condensed water flowing in the water outlet channel 113, and also reducing the noise of the condensed water colliding with the water receiving component (such as the chassis 200). Thereby improving the product quality of the air conditioner 1000 and ensuring the physical health of the user.

As shown in fig. 8-9, the base 200 may include a base body 210 and a guiding rib 220, wherein the water tank 100 is adapted to be disposed on the base body 210, the base body 210 has a water receiving area 211 opposite to the water outlet end of the water outlet channel 113, the water receiving area 211 has a water receiving bottom wall 2111 and a water receiving side wall 2112 disposed around the water receiving bottom wall 2111; the guide rib 220 is arranged in the water receiving area 211, and the guide rib 220 is arranged on the water receiving side wall 2112.

It can be understood that the water receiving area 211 may be configured to receive condensed water flowing out from the water outlet channel 113 of the water tank 100, the water receiving bottom wall 2111 is configured to receive the condensed water, and the water receiving sidewall 2112 may enclose and block the condensed water so that a portion of the condensed water is retained in the water receiving area 211, in some specific examples, an opening is provided on the water receiving sidewall 2112, and the condensed water may flow out of the water receiving area 211 through the opening. The water receiving side walls 2112 may also provide support for the guide ribs 220.

When the condensed water flows down from the water outlet channel 113 of the water tank 100, more condensed water flows down along the inner side wall of the water outlet channel 113, the water receiving side wall 2112 is closer to the inner side wall of the water outlet channel 113, the guiding rib 220 arranged on the water receiving side wall 2112 can effectively decompose the flowing condensed water, and the formation of a puddle on the water receiving bottom wall 2111 is reduced; the guiding ribs 220 can also guide the condensed water more efficiently, the guiding ribs 220 guide the condensed water to reduce noise caused by collision between the condensed water and a puddle on the water receiving bottom wall 2111, and the puddle on the water receiving bottom wall 2111 is formed by that the condensed water is not discharged in time when flowing down; moreover, in the process that the condensate water flows down along the guide rib 220, the condensate water rubs with the guide rib 220, and then the speed of the condensate water flowing down can be reduced, so that the noise of the condensate water falling on the water receiving bottom wall 2111 can be further reduced. Thereby improving the product quality of the air conditioner 1000 and ensuring the physical health of the user.

According to some embodiments of the present invention, referring to fig. 9, the chassis 200 further comprises a plurality of splash posts 230, the plurality of splash posts 230 being spaced apart on the water receiving bottom wall 2111. It can be appreciated that the splashproof post 230 can be for protruding the columnar structure of receiving water diapire 2111, and the splashproof post 230 can provide the buffering for the comdenstion water that flows to receiving water region 211, makes the comdenstion water fall on the splashproof post 230 earlier, then flows to receiving water diapire 2111 from the splashproof post 230, for example can flow down along the splashproof post 230, flow on receiving water diapire 2111, from this, can reduce the comdenstion water and the puddle striking on receiving water diapire 2111 and the noise that sends. A plurality of splashproof posts 230 interval sets up on water receiving diapire 2111 and can provide the buffering for more comdenstion water, further reduces the comdenstion water and the puddle striking on the water receiving diapire 2111 and the noise that sends.

With reference to fig. 9, in some embodiments of the present invention, the distance between each two adjacent splash posts 230 is less than or equal to 4mm, where the distance between each two adjacent splash posts 230 is less than or equal to 4mm, which means that the distance between each two adjacent splash posts 230 is less than or equal to 4mm in the left-right direction; it can also be understood that, in the front-back direction, the distance between every two adjacent splash posts 230 is less than or equal to 4 mm; it is also understood that the two adjacent splashboards 230 are spaced apart by a distance of 4mm or less in both the left-right and front-rear directions. Based on the utility model discloses the people carries out a large amount of experiments and knows, the comdenstion water droplet that flows down from the exhalant canal 113 of water tank 100 is mostly greater than 4mm, with spacing distance less than or equal to 4mm between every two adjacent splashproof posts 230, can make the comdenstion water droplet that flows down from the exhalant canal 113 of water tank 100 all have splashproof post 230 to do the buffering, and then can reduce the probability that the water droplet is direct and the pool that receives on the water diapire 2111 strikes to can the noise reduction.

As shown in fig. 11-12, according to some embodiments of the present invention, the height of splash column 230 can be greater than 2mm, it can be understood that, after water receiving bottom wall 2111 receives water for a period of time, water receiving bottom wall 2111 can form a puddle, and the puddle has a depth, splash column 230 highly be greater than 2mm can make splash column 230 highly be greater than the depth of puddle, therefore, the comdenstion water can contact with splash column 230 earlier when flowing to water receiving bottom wall 2111 from water tank 100, then flow to the puddle along splash column 230, and then can avoid the comdenstion water to directly take place to strike with the puddle and produce the noise.

In some embodiments of the present invention, referring to fig. 8 and 10, the chassis body 210 is provided with a water storage region 212, the water storage region 212 may be formed as a water tank structure, or may be other structures capable of storing condensed water, the condensed water generated by the evaporator of the air conditioner 1000 may flow into the water storage region 212, and at the water storage region 212, the condensed water flows into the water tank 100, and overflows from the water outlet channel 113 after the water tank 100 is full of water, and flows into the water receiving region 211. The chassis 200 further comprises outer water guide ribs 240 spaced apart to define a water passage 241, one end of the water passage 241 is communicated with the water receiving region 211, and the other end of the water passage 241 is communicated with the water storage region 212. Thus, the condensed water in the water receiving region 211 returns to the water storage region 212 through the water passage 241, and a circulating flow of the condensed water is formed. The arrangement of the outer water guide ribs 240 can facilitate the formation of the water passing channel 241, and provide guidance for the condensed water, so that the condensed water can flow along the outer water guide ribs 240, and the condensed water can be prevented from flowing in a non-directional manner and colliding with each other to make a sound.

In some specific examples, in conjunction with fig. 10, the outer water guiding ribs 240 on each side of the water passing channel 241 may be discontinuous, thereby avoiding other structures on the bottom plate 200, and the outer water guiding ribs 240 may cooperate with other structures to confine the condensed water in the water passing channel 241. When there is no interference of other structures on the chassis 200, the outer water guide ribs 240 on each side of the water passage 241 may extend continuously.

As shown in fig. 11 and 13, according to some embodiments of the present invention, the height H of the outside water guiding rib 240 is greater than 6mm, so that the water flow can be effectively limited in the water passing channel 241, and the problem of water inlet damage of other parts on the chassis 200 caused by the condensed water overflowing the water passing channel 241 and flowing to other parts of the chassis 200 can be avoided as much as possible.

In some embodiments of the present invention, referring to fig. 8 and 10, the chassis 200 further includes at least one water diversion rib 250, the water diversion rib 250 is located in the water passing channel 241 to separate the water passing channel 241 into a plurality of sub flow channels 251, and each sub flow channel 251 is respectively communicated with the water receiving region 211 and the water storage region 212. It can be understood that the water passing channel 241 defined only by the outer water guide ribs 240 is wide, multiple strands of condensed water in the water passing channel 241 can collide with each other to make a sound, meanwhile, circuitous vortexes can occur when water flows in the wide water passing channel 241 to generate bubbles, and flowing water sounds like "cheer" and "cheer" can be generated along with the bubbles breaking, after the water passing channel 241 is divided into multiple sub-channels 251, the condensed water can be dispersed, so that the multiple strands of condensed water respectively flow down from different sub-channels 251, the water distribution ribs 250 can provide guidance for the condensed water, so that the condensed water can flow from the water receiving area 211 to the water storage area 212 along the water distribution ribs 250, noise generated by the multiple strands of condensed water colliding with each other can be avoided, and meanwhile, the multiple strands of condensed water can also be prevented from having circuit.

According to some embodiments of the utility model, as shown in fig. 11 and fig. 13, the height h of the water diversion rib 250 is 1.5 ~ 3mm, from this, the water diversion rib 250 can play the effect of better dispersed rivers.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A water tank of an air conditioner, comprising:

the water tank comprises a water tank body, wherein a water storage space is arranged in the water tank body, a water inlet part communicated with the water storage space is arranged on the water tank body, the water tank body is further provided with a water outlet channel, the water outlet channel is communicated with the water storage space, and at least one inner wall of the water outlet channel is provided with a water diversion rib.

2. The water tank of an air conditioner as claimed in claim 1, wherein a stopper protrusion is provided on an inner wall of the outlet passage to reduce water flow momentum.

3. The water tank of an air conditioner as claimed in claim 2, wherein the water guide rib includes a first guide rib provided on a top wall of the stopper boss, the first guide rib guiding the water flow downward.

4. The water tank of an air conditioner as claimed in claim 1, wherein said water outlet passage includes a first passage and a second passage, said first passage being located upstream of said second passage in a flow direction of water flow, at least one inner wall of said first passage extending obliquely inwardly in a direction toward said second passage.

5. The water tank of an air conditioner as claimed in claim 1, wherein a plurality of said water guide ribs are provided on each inner wall of said outlet passage.

6. A water tank of air conditioner according to claim 5, characterized in that the interval between the adjacent water guiding ribs is not more than 4 mm.

7. The water tank of the air conditioner as claimed in claim 1, wherein a first plane on which a water inlet end of the water outlet passage is located is lower than a second plane on which a water outlet end of the water inlet portion is located.

8. The water tank of an air conditioner as claimed in claim 7, wherein a height difference between the first plane and the second plane is not less than 3 mm.

9. A water tank of an air conditioner according to any one of claims 1 to 8, wherein a drain outlet is provided at a bottom wall of the water tank body.

10. An air conditioner, comprising:

a chassis;

a water tank according to any one of claims 1 to 9, the water tank being provided on the chassis.

Images