CN220828948U - Condensed water treatment device of air conditioner and air conditioner - Google Patents

Abstract

The utility model relates to a condensed water treatment device of an air conditioner and the air conditioner, and belongs to the technical field of air conditioners. The condensed water treatment device comprises a first water tank, a second water tank, a water dividing device and a water retaining device, wherein the first water tank and the second water tank are arranged side by side and are fixedly arranged, and the upper end of the first water tank is open. The first water tank is communicated with a drain pipe. The water diversion device comprises a water inlet and a first water outlet which is open. The water inlet is communicated with a second water outlet of the water receiving disc. The first water outlet is positioned above the first water tank and the second water tank. By changing the position and/or angle of the first water outlet, the first water outlet may be in fluid connection with the first water tank and the second water tank, respectively. The water retaining device is arranged above the space between the first water tank and the second water tank and below the first water outlet, and at least when the first water outlet moves, water is guided into the first water tank and/or the second water tank. The utility model realizes that the condensed water in the condensed water treatment device can only be injected into two water tanks, thereby achieving the effects of avoiding water leakage of the air conditioner and improving user experience.

Description

Condensed water treatment device of air conditioner and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a condensed water treatment device of an air conditioner and the air conditioner.

Background

The air conditioner is generally provided with a water receiving disc for collecting condensed water below the evaporator, and the condensed water in the water receiving disc is discharged as waste water through a drain pipe. In order to save resources and fully utilize condensed water, the prior art proposes to provide a water outlet and two water tanks, and to selectively inject the condensed water in the water receiving disc into one of the two water tanks for storage or discharge by changing the direction of the water outlet. In this technical scheme, when changing the orientation of delivery port, the comdenstion water is easy from splashing to the clearance between two water tanks, leads to the air conditioner to leak, still can lead to the circuit short circuit when serious, influences user experience.

Disclosure of utility model

In view of the above problems, the present utility model provides a condensate water treatment apparatus for an air conditioner, which at least partially solves the above problems, and aims to solve the problem in the prior art that condensate water is easy to splash down to a gap between two water tanks, resulting in water leakage of the air conditioner, and to achieve the effect that condensate water in the condensate water treatment apparatus can only be injected into the two water tanks, thereby avoiding water leakage of the air conditioner and improving user experience.

Specifically, the utility model provides the following technical scheme:

A condensed water treatment device of an air conditioner includes a water receiving tray and a drain pipe for draining waste water. The condensed water treatment device comprises a first water tank, a second water tank, a water distributing device and a water retaining device, wherein the first water tank and the second water tank are arranged side by side and are fixedly arranged, and the upper end of the first water tank is open. The first water tank is communicated with the drain pipe.

The water diversion device comprises a water inlet and a first water outlet which is open. The water inlet is communicated with a second water outlet of the water receiving disc. The first water outlet is positioned above the first water tank and the second water tank. The water diversion device is configured to form fluid connection with the first water tank and the second water tank respectively by changing the position and/or the angle of the first water outlet.

The water blocking device is arranged above the space between the first water tank and the second water tank and below the first water outlet, so that water flowing out of the first water outlet is guided into the first water tank and/or the second water tank at least when the position and/or the angle of the first water outlet are changed.

Optionally, the water blocking device is provided with a water guiding groove. The two ends of the water guide groove are open and respectively face to the first water tank and the second water tank.

Optionally, the water blocking device is provided with a water guiding groove. One end of the water guide groove is opened and faces to the first water tank or the second water tank.

Optionally, the water retaining device is in a V shape with an upward opening, and the water guide groove is a V-shaped groove. One end of the water guide groove is opened and faces the first water tank.

Optionally, the two ends of the water guide groove are open and respectively face the first water tank and the second water tank. The water retaining device is hinged above the space between the first water tank and the second water tank around a horizontal axis parallel to the cross section of the water guide tank, so that water in the water guide tank is alternatively guided into the first water tank or the second water tank through rotation.

Optionally, the water diversion device comprises a connecting pipe and a steering device. The inlet of the connecting pipe is the water inlet. The connecting tube comprises a flexible section and the first water outlet connected with the flexible section. The steering device is configured to drive the first water outlet to change position and/or angle so that the first water outlet is in fluid connection with the first water tank and the second water tank, respectively.

Optionally, the steering device comprises a steering head, a driving part and a transmission part. The steering head is fixedly connected to the second water outlet. The driving part is a motor and is in transmission connection with the steering head. One end of the transmission part is in transmission connection with an output shaft of the motor, and the other end of the transmission part is in transmission connection with the steering head so as to drive the steering head to rotate.

Optionally, a third water outlet is formed in the side wall, close to the first water tank, of the second water tank, and the third water outlet is a preset distance from the bottom of the second water tank. The third water outlet extends into or is inserted into the first water tank.

Optionally, the upper ends of the first water tank and the second water tank are flush.

Optionally, the first water tank has a smaller volume than the second water tank.

Optionally, the driving part is an electric push rod, and the moving end of the electric push rod is fixedly connected with the steering head.

Optionally, the steering head is sleeved at the second water outlet.

Optionally, the steering clamp is arranged outside the second water outlet.

Optionally, the first water tank and the second water tank are disposed adjacent. The first tank and the second tank share at least a portion of a side wall.

On the other hand, the application also discloses an air conditioner which comprises a water receiving disc, a drain pipe for draining wastewater and a condensed water treatment device of the air conditioner.

Optionally, the air conditioner further comprises a humidifying device, and the second water tank is configured to provide humidifying water for the humidifying device.

Optionally, the air conditioner further comprises a cleaning device, and the second water tank is configured to provide cleaning water for the cleaning device.

Optionally, the air conditioner further comprises a cooling device, wherein the cooling device is configured to pump water in the second water tank and spray the water onto the condenser.

The application provides a condensed water treatment device, wherein a water blocking device is arranged above a space between a first water tank and a second water tank, the position and/or the angle of a first water outlet of a water dividing device are changed, and the water blocking device can block water splashed towards a gap between the first water tank and the second water tank on the water blocking device and guide the water into the first water tank and/or the second water tank. Therefore, the condensed water in the condensed water treatment device can only be injected into the two water tanks, and the effects of avoiding water leakage of the air conditioner and improving user experience are achieved.

Further, the application provides an air conditioner which is provided with a condensed water treatment device and a humidifying device. When humidification is needed, the steering device is controlled, so that condensed water flows into the second water tank, the humidifying device can convert the condensed water in the second water tank into water vapor, and the effect that a user can humidify air without adding water is achieved.

Further, the application provides an air conditioner which is provided with a condensed water treatment device and a cleaning device. When the air conditioner needs to be cleaned, the steering device is controlled, so that condensed water flows into the second water tank, and the cleaning device can utilize the condensed water in the second water tank to perform cleaning work, so that the effect that the air conditioner can be cleaned without adding water by a user is achieved.

Further, the application provides an air conditioner which is provided with a condensed water treatment device and a cooling device. When the condenser needs to be cooled, the steering device is controlled, so that condensed water flows into the second water tank, and the cooling device can spray low-temperature condensed water in the second water tank onto the condenser, thereby achieving the effects of reducing the temperature of the condenser and saving the energy consumption of the air conditioner.

The above, as well as additional objectives, advantages, and features of the present utility model will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present utility model when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the utility model 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 will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

Fig. 1 is a schematic configuration view of a condensate water treatment apparatus of an air conditioner and an air conditioner according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of a condensate water treatment apparatus according to one embodiment of the present utility model illustrating a first water outlet fluidly connected to a second water tank;

FIG. 3 is a schematic cross-sectional view of a condensate water treatment apparatus according to one embodiment of the present utility model illustrating a first water outlet fluidly connected to a first water tank;

FIG. 4 is a schematic structural view of a condensate water treatment apparatus according to one embodiment of the present utility model with parts hidden;

Fig. 5 is a schematic block diagram of an air conditioner according to an embodiment of the present utility model.

Detailed Description

A condensed water treating device of an air conditioner and an air conditioner according to an embodiment of the present utility model will be described with reference to fig. 1 to 5. In the description of the present embodiment, it should be understood that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature, i.e. one or more such features. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. When a feature "comprises or includes" a feature or some of its coverage, this indicates that other features are not excluded and may further include other features, unless expressly stated otherwise.

Unless specifically stated or limited otherwise, the terms "disposed," "mounted," "connected," "secured," "coupled," and the like should be construed broadly, as they may be connected, either permanently or removably, or integrally; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. Those of ordinary skill in the art will understand the specific meaning of the terms described above in the present utility model as the case may be.

Furthermore, in the description of the present embodiments, a first feature "above" or "below" a second feature may include the first and second features being in direct contact, or may include the first and second features not being in direct contact but being in contact through another feature therebetween. That is, in the description of the present embodiment, the first feature being "above", "over" and "upper" the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature. A first feature "under", "beneath", or "under" a second feature may be a first feature directly under or diagonally under the second feature, or simply indicate that the first feature is less level than the second feature.

In the description of the present embodiment, a description referring to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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 utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Fig. 1 is a schematic structural view of a condensate water treatment apparatus of an air conditioner and an air conditioner according to an embodiment of the present utility model, as shown in fig. 1, and in combination with fig. 2 to 5, the present utility model provides a condensate water treatment apparatus of an air conditioner, the air conditioner including a water pan 2 and a drain pipe for draining waste water. The condensate water treatment apparatus 1 includes a first tank 14 and a second tank 15 which are fixedly disposed side by side and open at the upper end, a water dividing device 11, and a water blocking device 12. The first tank 14 communicates with a drain pipe. The water dividing means 11 comprises a water inlet 111 and a first water outlet 112 which is open. The water inlet 111 is communicated with the second water outlet 4 of the water receiving disc 2. The first water outlet 112 is located above the first water tank 14 and the second water tank 15. The water distribution device 11 is configured to bring the first water outlet 112 into fluid connection with the first water tank 14 and the second water tank 15, respectively, by changing the position and/or the angle of the first water outlet 112. The water blocking device 12 is disposed above the first water tank 14 and the second water tank 15 and below the first water outlet 112, so as to guide water flowing out from the first water outlet 112 into the first water tank 14 or the second water tank 15 at least when the position or the angle of the first water outlet 112 is changed.

In this embodiment, the first water tank 14 and the second water tank 15 are both fixedly disposed on the air conditioner, the first water tank 14 is used for discharging water out of the air conditioner, and the second water tank 15 is used for storing condensed water for recycling the condensed water. The first water outlet 112 may be disposed at an intermediate position between the first water tank 14 and the second water tank 15 and higher than the first water tank 14 and the second water tank 15. The first water outlet 112 is approximately vertically downward and is laterally movable or swingable by a small amount so that condensed water flowing out of the connection pipe 113 can flow into the first water tank 14 and the second water tank 15, respectively. The first water outlet 112 may be provided at other positions on the upper sides of the first and second water tanks 14 and 15, and the first water outlet 112 may be inclined or horizontally provided, and condensed water flowing out of the connection pipe 113 forms a parabolic track under gravity and inertia. The condensate finally flows into the first water tank 14 and/or the second water tank 15 by a small lateral rotation through the first water outlet 112.

The first water tank 14 and the second water tank 15 are arranged side by side, the first water tank 14 and the second water tank 15 may be arranged adjacently or at intervals as required, and even if they are arranged adjacently, a certain gap is inevitably formed between the first water tank 14 and the second water tank 15, and when they are arranged at intervals, the gap is larger. As the first outlet 112 changes position or angle, it will be disconnected from fluid connection with one of the tanks and then in fluid connection with the other tank. When the first water outlet 112 moves, water is easily flown into or splashed into a gap between the first water tank 14 and the second water tank 15, resulting in water leakage of the air conditioner.

In the present embodiment, the water blocking device 12 is provided above between the first water tank 14 and the second water tank 15. The water blocking device 12 may be provided on one side wall of the first water tank 14 or the second water tank 15, or may be provided on other parts of the air conditioner. The water blocking device 12 completely covers the gap between the first water tank 14 and the second water tank 15 in a range near the lower side of the first water outlet 112 in the horizontal plane projection, and preferably, both ends of the water blocking device 12 can extend above the first water tank 14 and the second water tank 15, respectively. When the first water outlet 112 of the water diversion device 11 changes position or angle, the water blocking device 12 can shield the water splashed toward the gap between the first water tank 14 and the second water tank 15 from the upper surface of the water blocking device 12 and guide the water into the first water tank 14 and/or the second water tank 15. Therefore, the condensed water in the condensed water treatment device 1 can only be injected into two water tanks, and the effects of avoiding water leakage of the air conditioner and improving user experience are achieved.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1-4, the water deflector 12 is provided with a water guide groove 121. The water guide groove 121 is open at both ends and faces the first water tank 14 and the second water tank 15, respectively. In the present embodiment, the water blocking device 12 is disposed obliquely along the direction of the water guiding groove 121, that is, one opening of the water guiding groove 121 is inclined downward toward one water tank and the other opening is inclined upward toward the other water tank. Thus, water is introduced into one tank at the same time in the water guide groove 121.

In some embodiments of the condensate water treatment apparatus of the present utility model, the water deflector 12 is provided with a water guide groove 121. The water guide groove 121 is open at one end and faces the first water tank 14 or the second water tank 15. In this embodiment, the end of the water guide groove 121 remote from the opening thereof is provided with a blocking plate to guide all the water collected by the water blocking device 12 to a desired water tank.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1-4, the water deflector 12 is V-shaped with an opening facing upward, and the water guide groove 121 is a V-shaped groove. The water guide groove 121 is open at one end and faces the first water tank 14. The V-shaped water tank is in the form of a common water guide tank 121, and has the advantages of simple structure, good water guide effect and low production cost.

In this embodiment, the water guide groove 121 is opened at one end and is inclined downward toward the first water tank 14, and water is introduced into the first water tank 14 and then discharged through a drain pipe. In this way, when the second water tank 15 is not in use, it is ensured that condensed water does not flow into or splash into the second water tank 15, thereby causing water to stay in the second water tank 15 for a long time, causing the second water tank 15 to become damp or even moldy.

In some embodiments of the condensate water treatment apparatus of the present utility model, the water deflector 12 is U-shaped with an upwardly opening water guide 121 being a U-shaped trough.

In some embodiments of the condensate water treatment apparatus of the present utility model, the water guide groove 121 is open at both ends and faces the first water tank 14 and the second water tank 15, respectively. The water blocking device 12 is hinged above between the first water tank 14 and the second water tank 15 about a horizontal axis parallel to the cross section of the water guide tank 121 to guide water of the water guide tank 121 into either the first water tank 14 or the second water tank 15 by rotation.

In this embodiment, the water blocking device 12 may be hinged to one side wall of the first water tank 14 or the second water tank 15 through a rotation shaft, that is, the water blocking device 12 forms a seesaw-like structure, and the water guiding groove 121 may guide water into the water tank corresponding to the opening at the lower position. This is so arranged that the user can autonomously select how to treat the condensed water.

In particular, when the steering device 115 fails and cannot move or rotate, the water blocking device 12 can still work normally, and water is alternatively introduced into a desired water tank by rotating.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1-4, the water diversion apparatus 11 includes a connecting tube 113 and a turning device 115. The inlet of the connection pipe 113 is the water inlet 111. The connection pipe 113 includes a flexible section and a first water outlet 112 connected to the flexible section. The steering device 115 is configured to drive the first water outlet 112 to change position and/or angle such that the first water outlet 112 is in fluid connection with the first water tank 14 and the second water tank 15, respectively.

In this embodiment, the connection pipe 113 may be a flexible pipe as a whole, or may be a flexible pipe in one portion and a non-flexible pipe in the other portion. The flexible tube facilitates a change in position and/or angle of the first water outlet 112. The first outlet 112 may be a flexible tube or a non-flexible tube, preferably a non-flexible tube, to ensure that it is in fluid connection with the first tank 14 or the second tank 15 accurately.

In this embodiment, the steering device 115 may have two operable positions, which may be formed by a change in position, or a change in angle, or both. At these two locations, condensed water may flow into the first tank 14 and the second tank 15, respectively. In other embodiments of the present utility model, the steering device 115 may have three or more operable positions, and the condensate water treatment apparatus 1 is provided with a third water tank, a fourth water tank, etc. correspondingly, and the steering device 115 selectively flows condensate water into a desired water tank by driving the first water outlet 112.

The steering device 115 may have power and the air conditioner may automatically adjust the treatment method of the condensed water according to a user's instruction or need. The steering device 115 may be unpowered, requiring manual operation, and the user operates the steering device 115 autonomously.

In actual use, when the user does not need to repeatedly use the condensed water, the steering device 115 is controlled such that the first water outlet 112 is fluidly connected to the first water tank 14, and the condensed water is discharged through the first water tank 14. The condensed water is prevented from entering the second water tank 15, and the second water tank 15 is prevented from storing the condensed water for a long time to generate damp and mildew. When the user needs to utilize the condensed water, the steering device 115 is controlled such that the first water outlet 112 is fluidly connected to the second water tank 15, and the condensed water is injected into the second water tank 15. At this time, the humidification module, the cleaning module, the cooling module and other functional modules of the air conditioner can use the condensed water in the second water tank 15 to perform corresponding operations.

In some embodiments of the condensate water treatment apparatus of the present utility model, the steering device 115 may have three or more operable positions, the condensate water treatment apparatus 1 being correspondingly provided with a third water tank, a fourth water tank, etc., the steering device 115 selectively flowing condensate water into a desired water tank by driving the first water outlet 112. Compared with the technical scheme of arranging the three-way valve in the prior art, the condensed water treatment device 1 provided by the utility model can freely increase or reduce the quantity of the water tanks into which condensed water flows, and is more flexible and universal in use.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1-4, the steering device 115 includes a steering head 1151 and a drive 1152. The diverter head 1151 is fixedly coupled to the first water outlet 112. The driving portion 1152 has power, and the driving portion 1152 is in transmission connection with the steering head 1151. In this embodiment, the driving part 1152 may include a rotary motor, a linear motor, an electric push rod, and the like. The air conditioner may control the driving part 1152 to automatically operate to change the position and/or angle of the steering head 1151, thereby changing the position and/or angle of the first water outlet 112. The steering head 1151 is fixedly connected with the first water outlet 112, as shown in fig. 2, the steering head 1151 may be sleeved on the first water outlet 112, or the steering head 1151 may be clamped on the outer side of the first water outlet 112, or may be connected with the first water outlet 112 in a plugging manner.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1-4, the steering device 115 further includes a transmission 1153. The driving part 1152 is a motor, one end of the transmission part 1153 is in transmission connection with an output shaft of the motor, and the other end of the transmission part 1153 is in transmission connection with the steering head 1151 so as to drive the steering head 1151 to rotate. In this embodiment, the steering device 115 changes the angle of the first water outlet 112 by rotating. The transmission 1153 may be a transmission rod, one end of which is fixedly connected to the output shaft of the motor, and the other end of which is fixedly connected to the steering head 1151. In use, the output shaft of the motor rotates through an angle and the steering head 1151 rotates therewith, thereby rotating the first water outlet 112 through an angle and changing the flow direction of the condensate therein. The transmission 1153 may also be a gear assembly, and the transmission 1153 is geared to both the output shaft of the motor and the steering head 1151. Compared with the transmission rod, when the transmission part 1153 is a gear assembly, the reduction ratio of the motor can be changed by changing the number of teeth of the gear assembly, so that the steering head 1151 can be conveniently and accurately controlled, and the angle of the first water outlet 112 can be accurately controlled.

In some embodiments of the condensate water treatment apparatus of the present utility model, the driving portion 1152 is an electric push rod, and a moving end of the electric push rod is fixedly connected to the steering head 1151. In this embodiment, the steering device 115 changes the position of the first water outlet 112 by means of displacement. The movable end of the electric push rod can have two displacement positions, which respectively correspond to two fluid connections of the first water outlet 112 with the first water tank 14 and the second water tank 15.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 2 to 3, a third water outlet 17 is provided on a side wall of the second water tank 15 adjacent to the first water tank 14, the third water outlet 17 being a predetermined distance from the bottom of the second water tank 15. The third water outlet 17 extends into or is inserted into the first water tank 14. Preferably, the preset distance is the height of the second water tank 15, that is, the third water outlet 17 is at the top of the second water tank 15. In this embodiment, the third water outlet 17 is configured to drain the excessive condensed water in the second water tank 15, so as to avoid overflow of the condensed water in the second water tank 15 from other positions. By providing the third water outlet 17, the excessive condensed water can be automatically discharged, and a water level sensor is not additionally arranged in the second water tank 15, so that the total cost of the air conditioner is saved.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 1, a fourth water outlet 18 is provided at the bottom of the first water tank 14, the fourth water outlet 18 being for connection to a drain pipe. By providing the fourth water outlet 18 at the bottom of the first water tank 14, water flowing into the first water tank 14 can be discharged at any time, so that accumulation and storage of water in the first water tank 14 are avoided, and the first water tank 14 is prevented from mildewing.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 2-3, the first tank 14 has a smaller volume than the second tank 15. In this embodiment, the first water tank 14 is only used for receiving the condensed water injected from the first water outlet 112, and then discharging the condensed water. As long as the pipe diameters of the connection pipe 113, the third water outlet 17 and the drain pipe are reasonably set so that the discharge flow rate of the first water tank 14 is greater than the injection flow rate, the first water tank 14 can be made to peel off the water storage function. Since the first water tank 14 does not need to store water, only a smaller volume is needed, and the space occupation is reduced, so that the volume of the condensate water treatment apparatus 1 is reduced, or the second water tank 15 has a larger volume to store more condensate water under the condition that the whole space of the condensate water treatment apparatus 1 is unchanged.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 2-3, the upper ends of the first tank 14 and the second tank 15 are flush. In this manner, the first outlet 112 may be facilitated to be in fluid connection with either tank.

In some embodiments of the condensate water treatment apparatus of the present utility model, as shown in fig. 2-3, the first tank 14 and the second tank 15 are disposed adjacent. The first tank 14 and the second tank 15 share at least part of the side wall. Thus, the material cost of the water tank can be saved.

In some embodiments of the condensate water treatment apparatus of the present utility model, the first water tank 14 is disposed within the second water tank 15.

In some embodiments of the air conditioner of the present utility model, as shown in fig. 1, the air conditioner includes a water pan 2 and a drain pipe for draining waste water, and further includes the condensed water treating device 1 of the air conditioner described above.

In some embodiments of the air conditioner of the present utility model, as shown in fig. 5, the air conditioner further includes a humidifying device 5, and the second water tank 15 is configured to supply humidifying water to the humidifying device 5. In this embodiment, the humidifying device 5 can extract the condensed water in the second water tank 15 to convert the condensed water into moisture, so that the condensed water can be fully utilized to avoid or reduce the manual addition of humidifying water by a user. In other embodiments of the air conditioner of the present utility model, a user may manually add humidification water into the second water tank 15 to satisfy the humidification demand when the amount of condensed water is insufficient.

In some embodiments of the air conditioner of the present utility model, as shown in fig. 5, the air conditioner further includes a washing device 6, and the second water tank 15 is configured to supply washing water to the washing device 6. In this embodiment, the cleaning device 6 may extract the condensed water in the second water tank 15, and spray the condensed water to the evaporator, the condenser or other components to clean the same.

In some embodiments of the air conditioner of the present utility model, as shown in fig. 5, the air conditioner further includes a cooling device 7, and the cooling device 7 is configured to pump water in the second water tank 15 and spray the water onto the condenser. In this embodiment, the cooling device 7 may extract the condensed water in the second water tank 15, spray the condensed water onto the condenser, and fully utilize the cold energy of the condensed water to cool the condenser.

In some embodiments of the air conditioner of the present utility model, as shown in fig. 5, the second water outlet 4 is provided at the lowest point of the bottom of the water pan 2. No valve is arranged at the second water outlet 4. Thus, condensed water flows out of the water receiving tray 2 rapidly, long-time storage in the water receiving tray 2 is avoided, and the water receiving tray 2 is prevented from mildewing.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the utility model have been shown and described herein in detail, many other variations or modifications of the utility model consistent with the principles of the utility model may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the utility model. Accordingly, the scope of the present utility model should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. The condensed water treatment device of the air conditioner is characterized in that the air conditioner comprises a water receiving disc and a drain pipe for draining waste water; the condensed water treatment apparatus includes:

The first water tank and the second water tank are fixedly arranged side by side, the upper end of the first water tank is open, and the first water tank is communicated with the drain pipe;

The water diversion device comprises a water inlet and a first water outlet which is open; the water inlet is communicated with a second water outlet of the water receiving disc; the first water outlet is positioned above the first water tank and the second water tank; the water diversion device is configured to form fluid connection with the first water tank and the second water tank respectively by changing the position and/or the angle of the first water outlet;

The water retaining device is arranged above the space between the first water tank and the second water tank and below the first water outlet, so that water flowing out of the first water outlet is guided into the first water tank and/or the second water tank at least when the position and/or the angle of the first water outlet are changed.

2. The condensate water treatment apparatus as claimed in claim 1, wherein the water deflector is provided with a water guiding trough;

The two ends of the water guide groove are open and respectively face the first water tank and the second water tank; or alternatively

One end of the water guide groove is opened and faces to the first water tank or the second water tank.

3. The condensate water treatment apparatus as claimed in claim 2, wherein,

The water retaining device is in a V shape with an upward opening, and the water guide groove is a V-shaped groove;

one end of the water guide groove is opened and faces the first water tank.

4. The condensate water treatment apparatus as claimed in claim 1, wherein,

The water retaining device is provided with a water guide groove; the two ends of the water guide groove are open and respectively face the first water tank and the second water tank;

The water retaining device is hinged above the space between the first water tank and the second water tank around a horizontal axis parallel to the cross section of the water guide tank, so that water in the water guide tank is alternatively guided into the first water tank or the second water tank through rotation.

5. The condensate water treatment apparatus as claimed in claim 1, wherein the water diversion apparatus comprises:

The inlet of the connecting pipe is the water inlet; the connecting pipe comprises a flexible section and the first water outlet connected with the flexible section;

And a steering device configured to drive the first water outlet to change position and/or angle so that the first water outlet is in fluid connection with the first water tank and the second water tank respectively.

6. The condensate water treatment apparatus as claimed in claim 5, wherein the steering device comprises:

the steering head is fixedly connected to the second water outlet;

The driving part is a motor and is in transmission connection with the steering head; and

A transmission part; one end of the transmission part is in transmission connection with an output shaft of the motor, and the other end of the transmission part is in transmission connection with the steering head so as to drive the steering head to rotate.

7. The condensate water treatment apparatus as claimed in claim 1, wherein,

A third water outlet is formed in the side wall, close to the first water tank, of the second water tank, and the third water outlet is a preset distance from the bottom of the second water tank; the third water outlet extends into or is inserted into the first water tank; and/or

The upper ends of the first water tank and the second water tank are flush.

8. The condensate water treatment apparatus of claim 1 wherein the first water tank has a smaller volume than the second water tank.

9. An air conditioner comprising a water receiving tray and a drain pipe for draining waste water, and further comprising the condensate water treatment apparatus of an air conditioner according to any one of claims 1 to 8.

10. The air conditioner according to claim 9, wherein,

The air conditioner further includes a humidifying device, the second water tank being configured to supply humidifying water to the humidifying device; and/or

The air conditioner further includes a washing device, the second water tank being configured to supply washing water to the washing device; and/or

The air conditioner further comprises a cooling device, wherein the cooling device is configured to pump water in the second water tank and spray the water onto the condenser.