CN218495346U - Dehumidifier drainage device and dehumidifier - Google Patents

Abstract

The utility model provides a dehumidifier drainage device and dehumidifier relates to dehumidifier technical field. The utility model discloses a dehumidifier drainage device includes water collector and water collection structure. The water pan is arranged below the evaporator of the dehumidifier and is provided with a water outlet. The water collecting structure comprises a first water collecting chamber and a second water collecting chamber which are formed by connecting parts at intervals, the first water collecting chamber is arranged below a water outlet of the water receiving tray, a first water discharging opening communicated with the outside is formed between the first water collecting chamber, and a second water discharging opening communicated with the outside is formed between the second water collecting chamber. The height of the connecting part is smaller than that of the side wall of the water collecting structure, so that when the liquid level in the first water collecting chamber rises to cross the connecting part, water flows into the second water collecting chamber from the first water collecting chamber and is discharged from the second water outlet. The utility model discloses drainage device has guaranteed that the first drain port of water collection structure still can discharge through the second outlet when taking place to block up, has avoided the first drain port to block up and has caused the comdenstion water outflow, promotes user experience.

Description

Dehumidifier drainage device and dehumidifier

Technical Field

The utility model relates to a dehumidifier technical field especially relates to a dehumidifier drainage device and dehumidifier.

Background

In the existing dehumidifier, a water receiving tray or a water collecting tank is generally arranged at the bottom of an evaporator, and a water outlet or a water drainage pipe is arranged at the water receiving tray or the water collecting tank for drainage. And at the dehumidification in-process of dehumidifier, there is a large amount of impurity inside water collector or the water catch bowl, when directly utilizing the drain pipe to carry out the drainage, appears the risk of jam very easily. For solving this problem among the prior art at present, set up two outlet at water collector or water catch bowl department to set up the filter in one of them drain outlet department, but its two outlet all directly set up in the bottom of water collector or water catch bowl or be close to the position of bottom. When the amount of impurities in the condensed water is large, the risk of clogging the filter plate and the drain port is still large after a long time of accumulation. If when the outlet was blocked up totally, when the unable discharge of water in water collector or the water catch bowl, it spills over from water collector or water catch bowl easily after the increase in water, and then makes the dehumidifier contaminated and spills over to the service environment even from in the dehumidifier, influences the use and experiences.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an object of first aspect is to provide a dehumidifier drainage device, solve among the prior art because of the outlet blocks up and causes rivers to dehumidifier or dehumidifier place environmental impact user experience's problem.

The utility model discloses another aim at of first aspect is to solve the not enough technical problem of drainage ability of dehumidifier.

An object of the second aspect of the present invention is to provide a dehumidifier including the above drainage device.

Particularly, the utility model provides a dehumidifier drainage device, include:

the water receiving tray is positioned below the evaporator of the dehumidifier and is provided with a water outlet;

the water collecting structure is positioned below the water receiving tray and comprises a first water collecting room and a second water collecting room, the first water collecting room and the second water collecting room are formed by connecting parts at intervals, the first water collecting room is arranged below a water outlet of the water receiving tray so as to collect all condensed water at the position of the water receiving tray, a first water discharging opening communicated with the outside is formed in the first water collecting room, and a second water discharging opening communicated with the outside is formed in the second water collecting room;

the height of the connecting part is smaller than that of the side wall of the water collecting structure, so that when the liquid level in the first water collecting chamber rises to exceed the connecting part, water flows from the first water collecting chamber to the second water collecting chamber and is discharged from the second water outlet.

Optionally, the connecting portion is a partition structure vertically arranged in the water collecting structure or a protruding structure extending upward from the bottom of the water collecting structure.

Optionally, the method further comprises:

a filtering structure disposed above the connection portion to filter water flowing from the first collecting space to the second collecting space.

Optionally, the highest point of the first drain opening is lower than the lowest point of the upper surface of the connecting portion.

Optionally, the second water outlet is located at the side of the second water collecting room, and the lowest point of the second water outlet is lower than the lowest point of the upper surface of the connecting part.

Optionally, the second water outlet is located at the bottom of the second water collecting room.

Optionally, a third water outlet and a water discharge pipe connected to the third water outlet are arranged at the bottom of the first water collecting chamber, and a water pump is arranged at the water discharge pipe.

Optionally, the third drain opening is smaller in size than the first drain opening.

Optionally, a water tank is further included, the water tank being located below the water collection structure to collect water flowing out of the first drain opening, the second drain opening, and the third drain opening.

Particularly, the utility model also provides a dehumidifier, this dehumidifier includes above dehumidifier drainage device.

This scheme water-collecting structure can set up the below at the water collector to the water-collecting structure is cut apart and is formed between first catchments and the second catchments, and all comdenstions of water collector all enter into first catchments and locate between, by first drain port whole discharge when first drain port drainage is smooth and easy, when first drain port drainage is not smooth and easy, the continuous back of accumulating of water between first catchments flows to between the second catchments from connecting portion top. In this in-process, because connecting portion have certain height, consequently, the impurity of water inside can slowly deposit between first catchments, and then has guaranteed that the first drain outlet of catchment structure still can discharge through the second outlet when taking place to block up, has avoided first drain outlet to block up and has caused the comdenstion water outflow, promotes user experience.

This scheme sets up filtration in the top of connecting portion, and this filtration can effectually block the impurity in the first catchment within a definite time, avoids this impurity along with rivers to the second catchment within a definite time, and then avoids the impurity deposit to cause the jam in second outlet between the second catchment.

This scheme still sets up the third outlet in first catchment room department, and this third outlet department utilizes the water pump to carry out the suction with the water in first catchment room, and then guarantees that the water that gets into in the first catchment room is in time discharged.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic block diagram of a dehumidifier drain according to one particular embodiment of the present invention;

FIG. 2 is a schematic block diagram of a dehumidifier drain according to another specific embodiment of the present invention;

FIG. 3 is a side schematic perspective view of a dehumidifier drain in accordance with a particular embodiment of the present invention;

FIG. 4 is a side schematic perspective view of a dehumidifier drain in accordance with another specific embodiment of the present invention;

FIG. 5 is a schematic perspective side view of a dehumidifier drain according to yet another specific embodiment of the present invention;

fig. 6 is a schematic side view of a connection portion and a filter structure according to yet another specific embodiment of the present invention.

Detailed Description

In the description of the present embodiments, it is to be understood that the terms "length," "width," "height," "upper," "lower," "left," "right," "vertical," "horizontal," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention.

Fig. 1 is a schematic structural view of a drainage device of a dehumidifier according to a specific embodiment of the present invention. Fig. 2 is a schematic structural view of a drainage device of a dehumidifier according to another embodiment of the present invention.

As a specific embodiment of the present invention, as shown in fig. 1 and fig. 2, the present embodiment provides a dehumidifier drain device 100. The drain device 100 may include a drip tray 10 and a water collecting structure 20 located below the drip tray 10. Wherein, the water pan 10 is located below the evaporator of the dehumidifier, and the water pan 10 has a water outlet 11. The water collecting structure 20 may include a first collecting compartment 22 and a second collecting compartment 23 which are formed by a connecting portion 21 at intervals, the first collecting compartment 22 is disposed below the water outlet 11 of the drain pan 10 to collect all condensed water at the drain pan 10, and the first collecting compartment 22 has a first drain port 221 communicating with the outside, and the second collecting compartment 23 has a second drain port 231 communicating with the outside. The height of the connection part 21 is smaller than that of the side wall of the water collecting structure 20 so that when the liquid surface in the first collecting space 22 rises over the connection part 21, water flows from the first collecting space 22 into the second collecting space 23 and is discharged from the second water discharge port 231.

In this embodiment, the water collecting structure 20 may be disposed below the water collector 10, and the water collecting structure 20 is divided into the first water collecting chamber 22 and the second water collecting chamber 23, all the condensed water of the water collector 10 enters the first water collecting chamber 22, and is discharged completely from the first water discharging port 221 when the water is discharged smoothly at the first water discharging port 221, and when the water is discharged smoothly at the first water discharging port 221, the water in the first water collecting chamber 22 is accumulated continuously and then flows to the second water collecting chamber 23 from above the connecting portion 21. In this process, because connecting portion 21 has certain height, consequently, the inside impurity of water can slowly deposit between first catchment 22, and then has guaranteed that water collection structure 20's first drain 221 still can discharge through second drain 231 when taking place to block up, has avoided first drain 221 to block up and has caused the comdenstion water outflow, promotes user experience.

FIG. 3 is a side schematic perspective view of a dehumidifier drain in accordance with a particular embodiment of the present invention; FIG. 4 is a schematic block diagram of a dehumidifier drain according to another specific embodiment of the present invention; . In general, as shown in fig. 3, all water flowing down from the outlet 11 of the water collection tray enters the first collecting chamber 22, and if the first drain port 221 is not blocked, the first drain port 221 will discharge the water in time. In general, when water in the air condenses to form condensed water upon cooling, impurities such as dust floating in the air are also contained in the condensed water, and the impurities in the condensed water are accumulated when the dehumidifier is used for a long time. And impurities are continuously accumulated or discharged in the first sump 22 along with the condensed water. In a smooth case, the impurities are discharged through the first drain port 221 along with the condensed water, but in some cases, for example, the impurities are deposited on the bottom, and as a plurality of impurities are accumulated, the weight is increased, and the like, the impurities are accumulated in the first collecting chamber 22 after being continuously deposited. In the long-time use process of the dehumidifier, impurities are continuously deposited in the first water collecting chamber 22, and after the impurities are accumulated for a long time, the impurities are continuously increased, so that the first water outlet 221 is blocked with some probability. If the first drainage port 221 is blocked, the water level of the first water collecting chamber 22 will be raised continuously, and if there is no other drainage port, the water will overflow from the upper side of the side wall of the water collecting structure 20 easily, so as to pollute the dehumidifier, or overflow directly on the ground of the environment where the dehumidifier is located, and further affect the use of the user.

In this embodiment, as shown in fig. 4, a second collecting chamber 23 is formed at a side of the first collecting chamber 22, and the second collecting chamber 23 is blocked by a connecting portion 21 having a certain height, so that when the water level of the first collecting chamber 22 is raised to a height higher than the connecting portion 21 after the first drain port 221 in the first collecting chamber 22 is blocked, the water in the first collecting chamber 22 flows to the second collecting chamber 23 from the top of the connecting portion 21. In the second water collecting compartment 23 of this embodiment, a second water discharge port 231 is provided therein, and water introduced into the second water collecting compartment 23 is discharged through the second water discharge port 231. Since the connection part 21 has a certain height, most of the impurities in the first collecting compartment 22 are blocked by the connection part 21 in the first collecting compartment 22, so that the impurities introduced into the second collecting compartment 23 are less likely to be blocked and the second water discharge port 231 is less likely to be blocked. Therefore, when the first drain port 221 is blocked, the water in the first collecting chamber 22 is drained through the second drain port 231. In addition, in this embodiment, after the first water discharge port 221 in the first water collecting chamber 22 is blocked, the water entering the water collecting structure 20 is discharged through the second water discharge port 231 of the second water collecting chamber 23, so that the water in the water collecting structure 20 is prevented from overflowing the water collecting structure 20 due to the blockage of the first water discharge port 221 in the first water collecting chamber 22 to pollute the environment where the dehumidifier or the dehumidifier is located.

As a specific embodiment of the present invention, the connecting portion 21 of the present embodiment is a partition structure vertically disposed in the water collecting structure 20 (as shown in fig. 1-3) or a protruding structure extending upward from the bottom of the water collecting structure 20 (as shown in fig. 5).

Specifically, as one specific example, the water collecting structure 20 of the present embodiment is a housing, the connecting portion 21 is a partition, and the water collecting structure 20 is partitioned by the partition to form a first water collecting compartment 22 and a second water collecting compartment 23 which are arranged side by side. The height of the partition is lower than the height of the side walls of the water collecting structure 20 so that the water in the first water collecting compartment 22 does not overflow from the side walls of the water collecting structure 20 while flowing to the second water collecting compartment 23 from above the partition.

As another specific example, the connection part 21 of the present embodiment may be a convex structure extending from the bottom of the water collecting structure 20. This water collecting structure 20 is formed 22 and the second catchments within a definite time by connecting portion 21 specifically, because of connecting portion 21 is protruding structure, and the below is a recess, and consequently this water collecting structure 20 can utilize the support joint in the bottom of this connecting portion 21, and then installs and support water collecting structure 20.

Specifically, the purpose of the connection portion 21, whether it is a partition structure or a boss structure, is to allow a height of a member between the first and second collecting compartments 22 and 23 to make the water level too high and to prevent impurities in the water from directly flowing to the second collecting compartment 23.

Fig. 6 is a schematic side view of a connection portion and a filter structure according to yet another specific embodiment of the present invention. Specifically, the tops of the connecting portions 21 of the present embodiment may or may not be at the same level. When the top of the connection part 21 is at the same level (fig. 1-5), when the water level of the first collecting chamber 22 reaches the height of the top of the connection part 21, the water in the first collecting chamber 22 flows to the second collecting chamber 23 directly from above. When the top of the connecting portion 21 is not at a horizontal plane (fig. 6), in one embodiment, the top of the connecting portion 21 may be configured to be arc-shaped, and the two ends of the connecting portion 21 connected to the side walls of the water collecting structure 20 are high, and the height is low at a position close to the middle. This allows the water level to flow from the first water collecting compartment 22 to the second water collecting compartment 23 when the water level reaches the intermediate level. Specifically, the top of the connecting portion 21 may also be formed in a wave shape, or a groove recessed toward the bottom, or other shapes.

As another specific example, when the top of the connection part 21 has a certain thickness (a dimension extending from the first sump 22 to the second sump 23), the top thereof may form a slope configured such that the height adjacent to the first sump 22 is lower than the height adjacent to the second sump 23. The slope may also further increase the deposition of impurities in the water.

As a specific embodiment of the present invention, as shown in fig. 6, the dehumidifier drain 100 of the present embodiment may further include a filtering structure 24. The filtering structure 24 may be provided above the connection portion 21 to filter the water flowing from the first sump 22 to the second sump 23.

Specifically, since the water introduced into the water collecting structure 20 from the drip tray 10 contains some impurities, the impurities are mostly deposited on the bottom of the first water collecting compartment 22 after slowly settling in the first water collecting compartment 22. Some impurities may be suspended in the water or float above the water, so that the water flowing from the first water collecting chamber 22 to the second water collecting chamber 23 may also contain corresponding impurities. In this embodiment, the filtering structure 24 is disposed above the connecting portion 21, and the filtering structure 24 can effectively block impurities in the first water collecting compartment 22, so as to prevent the impurities from flowing to the second water collecting compartment 23 along with water and further depositing on the second water collecting compartment 23 to block the second water outlet 231.

In particular, the filtering structure 24 may be a mesh filter, the mesh having a small mesh size, which may block most of the impurities and floaters.

As another example, the filter structure 24 may be a layer of filter cotton, water may flow through the filter cotton, and impurities may be completely blocked by the filter cotton. The entire filter structure 24 may extend from above the connecting portion 21 to a position above the entire water collecting structure 20, or may be lower than the height of the side wall of the water collecting structure 20.

As a specific embodiment of the present invention, the highest point of the first drain port 221 of the present embodiment is lower than the lowest point of the upper surface of the connecting portion 21. Specifically, since the first drain port 221 of the first collecting room 22 in the present embodiment needs to be preferentially drained, if the first drain port 221 is blocked, water needs to enter the second collecting room 23 and be drained through the second drain port 231. Therefore, the first drain port 221 needs to have a height lower than the lowest point of the upper surface of the connection portion 21 in this embodiment. If the first drain port 221 is provided at the bottom of the first collecting chamber 22, the height does not need to be compared excessively. On the other hand, if the first drain port 221 is provided at the side wall position of the first collecting chamber 22, it is preferable that the height of the highest point of the first drain port 221 is lower than the height of the lowest point of the connecting portion 21 so that the water in the first collecting chamber 22 is preferentially drained from the first drain port 221. If the first drain port 221 is provided at the side wall of the first collecting compartment 22, the height of the lowest point of the first drain port 221 is equal to or lower than the height of the bottom, so that the water in the first collecting compartment 22 can be smoothly and rapidly discharged.

As a specific embodiment of the present invention, the second water outlet 231 of the present embodiment is located at a side portion of the second water collecting compartment 23. When second drain opening 231 is located at the side of second collecting compartment 23, the height of the lowest point of second drain opening 231 is less than the height of the lowest point of the upper surface of connecting portion 21. Therefore, the water entering the second water collecting chamber 23 can be smoothly discharged from the second water outlet 231, and the water level in the water collecting structure 20 is prevented from being too high due to the fact that the water level of the second water collecting chamber 23 is higher than the lowest point of the connecting part 21.

As another specific example, second water discharge opening 231 of this embodiment is located at the bottom of second water collecting compartment 23. In this embodiment, the second water discharge opening 231 is disposed at the bottom of the second water collecting compartment 23, so that water entering the second water collecting compartment 23 can be discharged from the second water discharge opening 231 in time.

As a specific embodiment of the present invention, as shown in fig. 2 to 5, a third drainage port 222 and a drainage pipe 223 connected to the third drainage port 222 are disposed at the bottom of the first water collecting chamber 22 of the present embodiment, and a water pump 224 is disposed at the drainage pipe 223.

Specifically, in the present embodiment, a third water outlet 222 is further disposed at the first water collecting compartment 22, and the third water outlet 222 uses a water pump 224 to pump the water in the first water collecting compartment 22, so as to ensure that the water entering the first water collecting compartment 22 is discharged in time.

In the present embodiment, the first collecting compartment 22 includes a first drain port 221 and a third drain port 222. The first drain port 221 directly drains water, and the third drain port 222 sucks water in the first collecting chamber 22 by the water pump 224 to increase the rate of drainage. When the dehumidification efficiency of the dehumidifier is high and the air humidity is high and the drainage speed of the first drainage port 221 is insufficient, the water pump 224 may be turned on to suck the water in the first water collecting compartment 22. When the humidity of the air is normal, the water in the first water collecting compartment 22 is not much, and the increase is slow, the water pump 224 may be turned off, and at this time, the water is discharged only through the first water discharge port 221. After a long time, when the water level in the first water collecting chamber 22 rises to the height of the connecting part 21 due to the blockage of the water pump 224 or the first water discharge port 221 by impurities, the water is discharged from the second water discharge port 231 of the second water collecting chamber 23, so that the water collecting structure 20 at the full water position of the water collecting structure 20 due to the blockage is avoided.

As a specific embodiment of the present invention, the third water outlet 222 of the present embodiment is preferably disposed at the bottom of the first water collecting compartment 22, and the size of the third water outlet 222 is smaller than that of the first water outlet 221. The purpose of the third water outlet 222 being smaller than the first water outlet 221 is to enable the water pump 224 to effectively generate negative pressure when pumping, so that the water in the first water collecting compartment 22 is discharged through the third water outlet 222.

As a specific embodiment of the present invention, as shown in fig. 2 to 5, the dehumidifier drain apparatus 100 of the present embodiment may further include a water tank 30, and the water tank 30 is located below the water collecting structure 20 to collect water flowing out from the first drain hole 221, the second drain hole 231, and the third drain hole 222.

Specifically, the first drain port 221, the second drain port 231 and the third drain port 222 of the present embodiment are connected with drain pipes, and the ends of the drain pipes face the water tank 30, so that the water finally flowing out of the water collecting structure 20 is drained into the water tank 30. The water tank 30 is generally disposed outside the dehumidifier and allows water therein to be poured at any time so as to continuously receive water discharged from the water collecting structure 20.

The specific structure and principle of the drainage device 100 of the specific embodiment include:

a water pan 10 is arranged below an evaporator of the dehumidifier, and all condensed water at the evaporator can drip to the water pan 10. A water outlet 11 is arranged at the water receiving tray 10, and a water collecting structure 20 is arranged below the water outlet 11. The water collecting structure 20 is partitioned by the connecting portion 21 into a first water collecting compartment 22 and a second water collecting compartment 23, and the first water collecting compartment 22 receives all water from the drip tray 10. The first drain port 221 and the third drain port 222 are provided in the first collecting compartment 22. The first drain port 221 naturally drains the water in the first collecting compartment 22. The third drain port 222 is connected to a water pump 224, so that the water pump 224 pumps water in the first collecting chamber 22. When the humidity of the air is high and the water needs to be drained quickly, the water pump 224 can be turned on to quickly pump the water in the first water collecting chamber 22. When the water pump 224 is turned off, the third drain port 222 is closed, and the water in the first collecting compartment 22 needs to be drained from the first drain port 221. After the drainage apparatus 100 is used for a long time, the first and third drainage ports 221 and 222 may be clogged by foreign substances deposited in the first sump 22. This causes the water level in first sump room 22 to rise continuously. When the water level rises above the connection portion 21, the water flows from above the connection portion 21 to the second water collecting compartment 23, and the water is discharged from the second water discharge port 231 of the second water collecting compartment 23 to the water collecting structure 20. Still set up filtration 24 in the top of connecting portion 21, water flows to the in-process between the second catchment from first catchment 22, filtration 24 can filter the impurity of aquatic, and then make the impurity in the water that flows to the second catchment 23 less, and then avoided long-term use to cause the jam of second outlet 231, make the dehumidifier of this embodiment all can guarantee that the water in the catchment structure 20 can not flow from catchment structure 20 lateral wall but by the drain pipe drainage to water tank 30 when using for a long time, promote the user and use the experience of dehumidifier.

As a specific embodiment of the present invention, the present embodiment further provides a dehumidifier, which may include the above dehumidifier drainage device 100.

In the description of the present embodiments, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "specifically," or "some examples," or the like, means that a particular feature, structure, 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.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A dehumidifier drain, comprising:

the water receiving tray is positioned below the evaporator of the dehumidifier and is provided with a water outlet;

the water collecting structure is positioned below the water receiving tray and comprises a first water collecting room and a second water collecting room, the first water collecting room and the second water collecting room are formed by connecting parts at intervals, the first water collecting room is arranged below a water outlet of the water receiving tray so as to collect all condensed water at the water receiving tray, a first water discharging port communicated with the outside is formed in the first water collecting room, and a second water discharging port communicated with the outside is formed in the second water collecting room;

the height of the connecting part is smaller than that of the side wall of the water collecting structure, so that when the liquid level in the first water collecting chamber rises to exceed the connecting part, water flows from the first water collecting chamber to the second water collecting chamber and is discharged from the second water outlet.

2. The dehumidifier drain of claim 1,

the connecting part is a partition plate structure vertically arranged in the water collecting structure or a protruding structure extending upwards from the bottom of the water collecting structure.

3. Dehumidifier drain device according to claim 1 or 2,

further comprising:

a filtering structure disposed above the connection portion to filter water flowing from the first collecting space to the second collecting space.

4. Dehumidifier drain device according to claim 1 or 2,

the highest point of the first drainage port is lower than the lowest point of the upper surface of the connecting part.

5. The dehumidifier drain of claim 1,

the second water outlet is positioned on the side part of the second water collecting room, and the height of the lowest point of the second water outlet is smaller than that of the lowest point of the upper surface of the connecting part.

6. The dehumidifier drain of claim 1,

the second water outlet is positioned at the bottom of the second water collecting room.

7. Dehumidifier drain device according to claim 1 or 2,

the bottom of the first water collecting room is provided with a third water outlet and a water discharging pipe connected with the third water outlet, and the water discharging pipe is provided with a water pump.

8. A dehumidifier drain according to claim 7,

the third drain opening is smaller in size than the first drain opening.

9. A dehumidifier drain according to claim 7,

further comprising a water tank located below the water collection structure to collect water flowing out of the first, second, and third drain openings.

10. A dehumidifier comprising a dehumidifier drain as claimed in any of claims 1 to 9.

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