CN215929782U

CN215929782U - Air conditioner

Info

Publication number: CN215929782U
Application number: CN202121724879.6U
Authority: CN
Inventors: 吴岳权; 李海财; 李蓓; 冼志健
Original assignee: TCL Air Conditioner Zhongshan Co Ltd
Current assignee: TCL Air Conditioner Zhongshan Co Ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2022-03-01
Anticipated expiration: 2031-07-27

Abstract

The embodiment of the application discloses an air conditioner, which comprises a shell, a condenser, an atomizer and a water pan; the condenser and the atomizer are arranged in the air duct of the shell, and the atomizer is positioned between the condenser and the air inlet of the shell; the water receiving disc is connected with the shell and is provided with a water tank which is communicated with a water inlet of the atomizer; the air conditioner also comprises a water tank connected with the shell, and a water outlet of the water tank is communicated with the water tank; or the water outlet of the water tank is communicated with the water inlet of the atomizer; or the water inlet of the atomizer is connected with a water receiving pipe for externally connecting a water source. This application embodiment is through setting up the water tank to with the delivery port of water tank and the water inlet or the basin intercommunication of atomizer, perhaps directly be connected the water inlet and the external water source of atomizer, when the condensate water is not enough in the basin, can utilize water tank or external water source, improve the heat transfer ability of condenser, make and to realize quick refrigeration after the air conditioner starts, improve the whole heat transfer effect of air conditioner.

Description

Air conditioner

Technical Field

The application relates to the field of air conditioners, in particular to an air conditioner.

Background

The window type air conditioner has compact structure and limited space, mainly uses a fixed frequency machine as a main machine, cannot operate at high frequency at the starting time to realize quick refrigeration, and the existing window type air conditioner improves the heat exchange of a condenser by means of beating water by an outdoor water ring by accumulating condensed water generated by an evaporator after operating for a period of time, thereby improving the refrigeration effect of the whole machine, but the process needs longer time and cannot meet the requirement of realizing quick refrigeration after a user starts the machine.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an air conditioner, can solve the unable demand that realizes quick refrigeration after current air conditioner starts.

The embodiment of the application provides an air conditioner, includes:

the air conditioner comprises a shell, a fan and a controller, wherein the shell is provided with an air duct which is provided with an air inlet and an air outlet;

the condenser is arranged in the air duct;

the atomizer is arranged in the air duct, is positioned between the condenser and the air inlet and is provided with a water inlet;

the water receiving disc is connected with the shell and provided with a water tank for collecting water accumulated on the condenser, and the water tank is communicated with a water inlet of the atomizer;

the air conditioner also comprises a water tank connected with the shell, the water tank is provided with a water outlet, and the water outlet of the water tank is communicated with the water tank; or the water outlet of the water tank is communicated with the water inlet of the atomizer; alternatively, the first and second electrodes may be,

the water inlet of the atomizer is connected with a water receiving pipe for externally connecting a water source.

Optionally, in some embodiments of the present application, a height of the water outlet of the water tank relative to the bottom of the housing is greater than a height of the water inlet of the atomizer relative to the bottom of the housing.

Optionally, in some embodiments of the present application, the water tank is mounted on an outer surface of the housing.

Optionally, in some embodiments of the present application, the top of the housing has a mounting plate on which the water tank is mounted.

Optionally, in some embodiments of the present application, a mounting groove is formed in a surface of the mounting plate, the water tank includes a mounting portion, and the mounting portion is mounted in the mounting groove.

Optionally, in some embodiments of the present application, the mounting groove has a first side surface and a second side surface that are oppositely disposed;

the first side surface is convexly provided with a first limiting part, and the mounting part is at least partially positioned between the first limiting part and the bottom surface of the mounting groove; and/or the presence of a gas in the gas,

the protruding spacing portion of second that is equipped with of second side, the installation department is at least partly located the spacing portion of second with between the mounting groove bottom surface.

Optionally, in some embodiments of the present application, at least one end of the mounting groove has a mounting opening, the mounting opening is located between the first side surface and the second side surface, and the mounting portion is slidably inserted into the mounting groove from the mounting opening.

Optionally, in some embodiments of the present application, the air conditioner further includes a connector;

the surface of the mounting part facing the first side surface is provided with a first fixing hole, the position of the first side surface corresponding to the first fixing hole is provided with a second fixing hole, and the connecting piece penetrates through the second fixing hole and is inserted into the first fixing hole to connect the mounting part with the mounting plate; and/or the presence of a gas in the gas,

the surface of the mounting part facing the second side surface is provided with a third fixing hole, the position of the second side surface corresponding to the third fixing hole is provided with a fourth fixing hole, and the connecting piece penetrates through the fourth fixing hole and is inserted into the third fixing hole to connect the mounting part with the mounting plate.

Optionally, in some embodiments of the present application, the air conditioner includes a controller; a first water level detection device is arranged in the water tank and is electrically connected with the controller;

the first water level detection device is used for detecting the water level of the water tank and outputting a first water level signal when the water level of the water tank is greater than or equal to a first preset threshold value;

the controller receives the first water level signal and controls the water tank to supply water to the atomizer or the water tank according to the first water level signal.

Optionally, in some embodiments of the present application, a second water level detection device is disposed in the water tank, and the second water level detection device is electrically connected to the controller;

the second water level detection device is used for detecting the water level of the water tank and outputting a second water level signal when the water level of the water tank is smaller than a second preset threshold value;

and the controller receives the second water level signal and controls the water tank to supply water to the atomizer or the water tank according to the first water level signal and the second water level signal.

Optionally, in some embodiments of the present application, the air conditioner includes a connection pipe, one end of the connection pipe is communicated with the water outlet of the water tank, and the other end of the connection pipe passes through the housing to be communicated with the water inlet of the atomizer; and the connecting pipe is provided with a stop valve for controlling the connection or the closure of the connecting pipe.

Optionally, in some embodiments of the present application, the air conditioner further includes an evaporator, the water pan is located below the evaporator and the condenser, and the water pan receives condensed water generated by the evaporator and collects the condensed water in the water tank.

The air conditioner in the embodiment of the application comprises a shell, a condenser, an atomizer and a water receiving disc, wherein the water receiving disc is provided with a water tank for collecting accumulated water on the condenser; through setting up the water tank of being connected with the casing, and with the delivery port and the basin intercommunication of water tank, perhaps with the delivery port of water tank and the water inlet intercommunication of atomizer, perhaps with the water inlet of atomizer direct with be used for the water receiving pipe connection at external water source, make when the interior condensate water of basin is not enough, can supply water to basin or atomizer through the water tank, or directly through the water receiving pipe in with the leading-in atomizer of external water source, guarantee that there is enough water in the atomizer to atomize and blow to the condenser, thereby improve the heat transfer ability of condenser, make and can realize quick refrigeration after the air conditioner is started, improve the whole heat transfer effect of air conditioner.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic diagram of an internal structure of an air conditioner according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a water tank provided in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a chassis provided in an embodiment of the present application;

fig. 4 is an external structural schematic diagram of an air conditioner according to an embodiment of the present application.

Description of reference numerals:

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the application provides an air conditioner. The details will be described below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

The embodiment of the application provides an air conditioner, which comprises a shell, a condenser, an atomizer and a water pan; the shell is provided with an air duct, the air duct is provided with an air inlet and an air outlet, the condenser and the atomizer are arranged in the air duct, the atomizer is positioned between the condenser and the air inlet, and the atomizer is provided with a water inlet; the water receiving disc is connected with the shell and provided with a water tank for collecting accumulated water on the condenser, and the water tank is communicated with a water inlet of the atomizer; the air conditioner also comprises a water tank connected with the shell, the water tank is provided with a water outlet, and the water outlet of the water tank is communicated with the water tank; or the water outlet of the water tank is communicated with the water inlet of the atomizer; or the water inlet of the atomizer is connected with a water receiving pipe for externally connecting a water source.

As shown in fig. 1 and 4, the air conditioner 10 includes a case 100 for accommodating internal devices required for the air conditioner 10. The housing 100 has an air duct having an air inlet and an air outlet for the indoor and outdoor air to circulate, thereby realizing heat exchange between the indoor and outdoor air.

It should be noted that, both the outdoor side and the indoor side of the air conditioner 10 are provided with air flow ventilation ducts, and the outdoor side air duct is provided with a first air inlet 110 and a first air outlet 111 to realize heat exchange between the outdoor side; the indoor air duct of the air conditioner 10 has a second air inlet 120 and a second air outlet 121 to circulate the indoor air.

The air conditioner 10 includes a condenser 300, and the condenser 300 is installed in the air duct and located in an outdoor side area for exchanging heat with the outdoor side. The heat exchange effect of the condenser 300 directly affects the quick refrigerating capacity of the air conditioner after starting, and the heat exchange capacity of the cold and hot device can be effectively improved through the improvement of the heat exchange mode and the heat exchange structure of the condenser 300, so that the overall heat exchange effect of the air conditioner is improved, and the comfort level of a human body is improved.

The air conditioner 10 further includes an atomizer 400, the atomizer 400 is installed in the air duct, and the atomizer 400 is located between the condenser 300 and the first air inlet 110, that is, the atomizer 400 and the condenser 300 are distributed along the first air inlet 110 toward the first air outlet 111, so that the air outside the room flows toward the condenser 300 through the atomizer 400, and the atomizer 400 has an air inlet. The atomizer 400 is used to atomize water flowing into the atomizer 400, the fan 800 installed in the air duct is driven by the motor 900 to rotate, a pressure difference is formed in the air duct outside the room, and then the atomized water vapor is blown to the condenser 300, so as to improve the heat exchange capability of the condenser 300.

As shown in fig. 3, the air conditioner 10 is provided with a water receiving pan 610, the water receiving pan 610 is connected to the case 100, and the water receiving pan 610 has a water tank 611 for collecting water accumulated on the condenser 300. When the water flowing into the atomizer 400 is atomized by the atomizer 400 to form water vapor, and the water vapor is blown to the condenser 300 by the fan 800, if the water vapor is not completely evaporated, part of the water vapor is condensed into condensed water and flows back to the water tank 611 of the water pan 610, so that water leakage outside the air conditioner 10 due to the fact that accumulated water on the condenser 300 drops randomly is avoided.

Optionally, the water tank 611 on the water receiving tray 610 is communicated with the water inlet of the atomizer 400, and is used for inputting the water in the water tank 611 into the atomizer 400 for atomization, and then blowing the water to the condenser 300, so as to further improve the heat exchange capability of the condenser 300, and thus improve the overall heat exchange effect of the air conditioner 10.

In addition, the water tank 611 is used for collecting condensed water which flows back from the condenser 300, and can also blow the collected condensed water to the condenser 300 again, and the cycle is repeated, so that the utilization rate of the condensed water can be effectively improved while the heat exchange capacity of the condenser 300 is improved, the energy is saved, and the use cost is reduced.

Optionally, the air conditioner 10 further includes a water tank 200 connected to the housing 100, the water tank 200 has a water outlet, and the water outlet of the water tank 200 is communicated with the water tank 611, that is, in the use process of the air conditioner 10, when the condensed water in the water tank 611 is insufficient, water can be supplied into the water tank 611 through the water tank 200, and it is ensured that enough water in the water tank 611 flows into the atomizer 400, so as to ensure the heat exchange capability of the condenser 300.

Optionally, the water outlet of the water tank 200 is communicated with the water inlet of the atomizer 400, i.e. no matter whether enough condensed water is stored in the water tank 611, the water tank 200 can directly supply water to the atomizer 400, thereby avoiding that water cannot be supplied to the atomizer 400 in time due to insufficient water storage amount in the water tank 611, and further ensuring the overall heat exchange effect of the air conditioner 10.

Optionally, a water receiving pipe for externally connecting a water source is connected to the water inlet of the atomizer 400. That is, the air conditioner 10 can be directly connected to an external water source without providing the water tank 200. When the condensed water in the water tank 611 is insufficient, the external water source is directly led into the atomizer 400 through the water receiving pipe, so that the condenser 300 is ensured to have better heat exchange capability in the use process of the air conditioner 10, and the overall heat exchange effect of the air conditioner 10 is improved.

It should be noted that, external water source includes the running water in this application embodiment, or other water sources that are convenient for take at any time, only need guarantee in the use of air conditioner 10 that atomizer 400 has sufficient water source to atomize, guarantee that air conditioner 10's stable heat transfer effect can.

The air conditioner 10 in the embodiment of the present application includes a housing 100, a condenser 300, an atomizer 400, and a water pan 610, where the water pan 610 has a water tank 611 for collecting water accumulated on the condenser 300; through setting up the water tank 200 of being connected with casing 100, and with the delivery port and the basin 611 intercommunication of water tank 200, perhaps communicate the delivery port of water tank 200 with the water inlet of atomizer 400, perhaps directly be connected the water inlet of atomizer 400 with the water receiving pipe that is used for external water source, make when the condensate water is not enough in basin 611, can utilize water tank 200 or external water source, guarantee that there is sufficient water to atomize and blow to condenser 300 in the atomizer 400, thereby improve the heat transfer ability of condenser 300, make and can realize quick refrigeration after air conditioner 10 starts.

Optionally, the height of the water outlet of the water tank 200 relative to the bottom of the housing 100 is greater than the height of the water inlet of the atomizer 400 relative to the bottom of the housing 100, that is, the water level in the water tank 200 is higher than the water level of the atomizer 400. When the water outlet of the water tank 200 is communicated with the water inlet of the atomizer 400, the water in the water tank 200 can directly flow into the atomizer 400 through the gravity action of the water tank, and the water pump 613, the motor 900 and other structures are not separately arranged to pump the water in the water tank 200 into the atomizer 400, so that the structure of the air conditioner 10 is simplified, and the production cost of the air conditioner 10 is reduced. Meanwhile, the noise influence caused by the water pump 613 or the motor 900 can be reduced, and the use comfort of the human body is improved.

Wherein, when setting up water tank 200, can set up the position according to air conditioner 10 overall structure design and use convenience and adjust water tank 200 to mutually support with the position that sets up of atomizer 400, its concrete mode of setting does not do the restriction, only needs to guarantee when supplying water to atomizer 400 through water tank 200, and the water in the water tank 200 can flow in atomizer 400 through self gravity can.

Optionally, the water tank 200 is installed on the outer surface of the housing 100, that is, the water inlet of the water tank 200 is directly communicated with the outside, and this structural design is convenient for adding tap water or cold water frozen by the refrigerator directly according to actual conditions when the water stored in the water tank 200 is insufficient, so as to improve the heat exchange effect of the condenser 300.

It should be noted that the water tank 200 is installed at the indoor side of the air conditioner 10, that is, the water inlet of the water tank 200 is located indoors, so that a person can add water into the water tank 200 at any time indoors. Simultaneously, install water tank 200 and also can avoid outdoor weather or dust to cause the influence to the quality of water in the water tank 200 at indoor side, avoid in the water tank 200 too much cause water tank 200 delivery port jam or granule inflow atomizer 400, influence the atomization effect of atomizer 400 to influence condenser 300's heat transfer ability.

Optionally, the top of the housing 100 has a mounting plate 130, and the water tank 200 is mounted on the mounting plate 130. Because the atomizer 400 is installed in the air duct of the casing 100, the installation mode can ensure that the height of the water outlet of the water tank 200 relative to the bottom of the casing 100 is always higher than the height of the atomizer 400 relative to the bottom of the casing 100, namely, the water in the water tank 200 can flow into the atomizer 400 through self gravity without applying additional acting force, thereby simplifying the structure of the air conditioner 10 and reducing the production cost.

Optionally, a mounting groove 131 is formed on the surface of the mounting plate 130, the water tank 200 includes a mounting portion 210, and the mounting portion 210 is mounted in the mounting groove 131. Through the cooperation design of mounting groove 131 with installation department 210 structure, can avoid water tank 200 to take place to rock at the in-process that adds water to guarantee the stability of water tank 200 on mounting panel 130, improve air conditioner 10's life.

Wherein, the installation portion 210 of the water tank 200 can be directly connected to the installation groove 131 or connected via other fixing structures, and only the water tank 200 can be kept stable relative to the installation plate 130 in the use process of the air conditioner 10.

Optionally, the mounting groove 131 has a first side surface 1311 and a second side surface 1312 opposite to each other, wherein the first side surface 1311 is convexly provided with a first limiting portion 1311a, and the mounting portion 210 is at least partially located between the first limiting portion 1311a and the bottom surface of the mounting groove 131. Through protruding first spacing portion 1311a of establishing at first side 1311, can carry out certain spacing to installation department 210 of water tank 200 in mounting groove 131, avoid leading to water tank 200 to drop from mounting groove 131 because the installation is not firm.

In some embodiments, the mounting portion 210 of the water tank 200 is partially located between the first position-limiting portion 1311a and the bottom surface of the mounting groove 131, that is, a groove structure corresponding to the first position-limiting portion 1311a is disposed on a surface of the mounting portion 210 facing the first side surface 1311, and the first position-limiting portion 1311a is clamped in the groove to limit the mounting portion 210, so as to prevent the water tank 200 from shaking relative to the mounting plate 130.

In other embodiments, the mounting portion 210 of the water tank 200 is entirely located between the first position-limiting portion 1311a and the bottom surface of the mounting groove 131, wherein the mounting portion 210 can directly abut against the first position-limiting portion 1311a or further fix the mounting portion 210 and the mounting plate 130 through other fixing structures, so as to ensure stability of the water tank 200 during use.

Optionally, a second position-limiting portion 1312a is convexly disposed on the second side surface 1312 of the mounting groove 131, and the mounting portion 210 is at least partially located between the second position-limiting portion 1312a and the bottom surface of the mounting groove 131. The second stopper 1312a is protruded from the second side 1312, so that the mounting portion 210 of the water tank 200 can be stopped in the mounting groove 131 to prevent the water tank 200 from falling off from the mounting groove 131 due to poor mounting.

In some embodiments, the mounting portion 210 of the water tank 200 is partially located between the second position-limiting portion 1312a and the bottom surface of the mounting groove 131, that is, the surface of the mounting portion 210 facing the second side surface 1312 is provided with a groove structure corresponding to the second position-limiting portion 1312a, and the second position-limiting portion 1312a is engaged in the groove structure to limit the mounting portion 210, so as to prevent the water tank 200 from shaking relative to the mounting plate 130.

In other embodiments, the mounting portion 210 of the water tank 200 is entirely located between the second position-limiting portion 1312a and the bottom surface of the mounting groove 131, wherein the mounting portion 210 can directly abut against the second position-limiting portion 1312a or further fix the mounting portion 210 and the mounting plate 130 by other fixing structures, so as to ensure the stability of the water tank 200 during use.

Optionally, the first side surface 1311 of the mounting groove 131 is convexly provided with a first limiting portion 1311a, and the second side surface 1312 is convexly provided with a second limiting portion 1312a, so that both sides of the mounting portion 210 are limited, so that both sides of the water tank 200 are uniformly stressed, and the inclination is avoided, thereby further increasing the stability of the water tank 200 relative to the mounting plate 130.

Optionally, at least one end of the mounting groove 131 has a mounting opening 1313, the mounting opening 1313 is located between the first side surface 1311 and the second side surface 1312, and the mounting portion 210 is slidably inserted into the mounting groove 131 through the mounting opening 1313. Since the first side surface 1311 of the mounting groove 131 is convexly provided with the first stopper 1311a, and the second side surface 1312 is convexly provided with the second stopper 1312a, if the mounting groove 131 is made of a non-elastic material, the mounting portion 210 cannot be directly inserted into the mounting groove 131 from above the mounting groove 131, and therefore, a mounting opening 1313 needs to be formed in the side surface of the mounting groove 131, so that the mounting portion 210 can be directly slid into the mounting groove 131 from the mounting opening 1313, thereby facilitating smooth connection between the water tank 200 and the mounting plate 130.

Optionally, the opposite ends of the mounting groove 131 are provided with mounting ports 1313. On one hand, the mounting part 210 of the water tank 200 can be inserted into the mounting groove 131 in a sliding manner from either end, so that the flexibility of connection between the water tank 200 and the mounting part 210 is improved; on the other hand, when the size of the mounting part 210 of the water tank 200 cannot be completely matched with that of the mounting groove 131 due to an error in precision in the manufacturing process, the mounting part 210 can be inserted in a sliding manner from the mounting port 1313 at one end and partially extends out of the mounting port 1313 at the other end, so that the extension length of the mounting part 210 at the mounting ports 1313 at the two ends is the same, the stress on the water tank 200 is more uniform, and the stability of the water tank 200 is ensured.

Optionally, the air conditioner 10 further includes a connector for connecting the water tank 200 and the mounting plate 130 to further increase stability between the water tank 200 and the mounting plate 130. Wherein the connecting member may be a screw, a pin or other connecting members, so as to ensure effective connection between the water tank 200 and the mounting plate 130.

Optionally, as shown in fig. 2, a first fixing hole 211 is formed in a surface of the mounting portion 210 facing the first side surface 1311, a second fixing hole 1311b is formed in a position of the first side surface 1311 corresponding to the first fixing hole 211, and a connecting member passes through the second fixing hole 1311b and is inserted into the first fixing hole 211 to connect the mounting portion 210 and the mounting plate 130.

When the connecting piece is a screw, a thread is arranged in the first fixing hole 211, and the screw can be screwed out of the first fixing hole 211 only by rotating the screw in the opposite direction, so that the water tank 200 can be conveniently detached and cleaned or replaced, and the normal use of the water tank 200 is ensured.

Optionally, a third fixing hole is formed in a surface of the mounting portion 210 facing the second side surface 1312, a fourth fixing hole is formed in a position of the second side surface 1312 corresponding to the second fixing hole 1311b, and a connecting member passes through the fourth fixing hole and is inserted into the third fixing hole to connect the mounting portion 210 and the mounting plate 130.

When the connecting piece is a screw, the third fixing hole is internally provided with threads, and the screw can be screwed out of the third fixing hole only by rotating the screw in the opposite direction, so that the water tank 200 can be conveniently detached and cleaned or replaced, and the normal use of the water tank 200 is ensured.

Optionally, the air conditioner 10 includes a controller, a first water level detecting device 220 is disposed in the water tank 200, and the first water level detecting device 220 is electrically connected to the controller. In the use process of the air conditioner 10, the controller can control the water supply mode of the water tank 200 according to the detection result of the first water level detection device 220 to ensure the overall heat exchange effect of the air conditioner 10.

The first water level detecting device 220 is configured to detect a water level of the water tank 200, and output a first water level signal when the water level of the water tank 200 is greater than or equal to a first preset threshold; the controller receives the first water level signal and controls the water tank 200 to supply water to the atomizer 400 or the water bath 611 according to the first water level signal.

It should be noted that, when the water level of the water tank 200 is greater than or equal to the first preset threshold, it indicates that the water stored in the water tank 200 is sufficient at this time, and water can be supplied to other devices through the water tank 200, so as to improve the heat exchange capability of the condenser 300; the first water level signal indicates that the water tank 200 is in a sufficient water amount state.

When the water outlet of the water tank 200 is communicated with the water inlet of the atomizer 400, the controller controls the water tank 200 to directly supply water to the atomizer 400 according to the received first water level signal, so that the water in the water tank 200 flows into the atomizer 400 to be atomized, and then is blown to the condenser 300 by the fan 800, thereby improving the heat exchange capacity of the condenser 300 and improving the overall heat exchange effect of the air conditioner 10.

When the water outlet of the water tank 200 is communicated with the water tank 611, the controller controls the water tank 200 to directly supply water to the water tank 611 according to the received first water level signal, and after the water amount in the water tank 611 is sufficient, the water is guided into the atomizer 400 by the water tank 611 to be atomized, and then is blown to the condenser 300 by the fan 800, so that the heat exchange capacity of the condenser 300 is improved, and the overall heat exchange effect of the air conditioner 10 is improved.

When the water level of the water tank 200 is lower than the first preset threshold, it indicates that the water amount in the water tank 200 is insufficient, and water amount needs to be manually supplemented, at this time, tap water or ice water frozen by a refrigerator or the like may be added into the water tank 200 according to actual use requirements, so as to ensure that the water amount in the water tank 200 is sufficient, and thus the water tank 200 can supply water to the atomizer 400 or the water tank 611 at any time.

Optionally, a second water level detecting device 612 is disposed in the water tank 611, and the second water level detecting device 612 is electrically connected to the controller. In the use process of the air conditioner 10, the controller can control the water supply mode of the water tank 611 according to the detection result of the second water level detection device 612, so as to ensure the overall heat exchange effect of the air conditioner 10.

The second water level detecting device 612 is configured to detect the water level of the water tank 611, and output a second water level signal when the water level of the water tank 611 is less than a second preset threshold; the controller receives the second water level signal and controls the water tank 200 to supply water to the atomizer 400 or the water bath 611 according to the first water level signal and the second water level signal.

It should be noted that, when the water level of the water tank 611 is smaller than the second preset threshold, it indicates that the water stored in the water tank 611 is insufficient, the water tank 611 cannot directly supply water to the atomizer 400, and the atomizer 400 cannot atomize water in the water tank 611, so that the heat exchange effect of the condenser 300 is affected. The second water level signal indicates that the water tank 611 is in an insufficient water state.

Wherein, when the water outlet of the water tank 200 is communicated with the water inlet of the atomizer 400, the controller needs to control the water tank 200 to supply water to the atomizer 400 according to the received first water level signal and the second water level signal at the same time, so that the water in the water tank 200 flows into the atomizer 400 to be atomized, and then is blown to the condenser 300 by the fan 800, thereby improving the heat exchange capacity of the condenser 300 and improving the overall heat exchange effect of the air conditioner 10.

When the water outlet of the water tank 200 is communicated with the water tank 611, the controller controls the water tank 200 to supply water to the water tank 611 according to the received first water level signal and the second water level signal, the water tank 611 guides the water into the atomizer 400 for atomization after the water amount in the water tank 611 is sufficient, and then the water is blown to the condenser 300 by the fan 800, so that the heat exchange capacity of the condenser 300 is improved, and the overall heat exchange effect of the air conditioner 10 is improved.

Optionally, the second water level detecting device 612 is configured to detect the water level of the water tank 611, and output a third water level signal when the water level of the water tank 611 is greater than or equal to a second preset threshold; the controller receives the third water level signal and controls the water tank 611 to supply water to the atomizer 400 according to the third water level signal.

It should be noted that, when the water level of the water tank 611 is greater than or equal to the second preset threshold, it indicates that the water stored in the water tank 611 is sufficient, and water can be directly supplied to the atomizer 400 through the water tank 611, so as to improve the heat exchange capability of the condenser 300; the third level signal indicates that the water tank 611 is in a sufficient water level state.

Optionally, in this embodiment of the present application, a return pipe can be connected between the water tank 611 and the water inlet of the water tank 200, that is, when the second water level detecting device 612 detects that the water level in the water tank 611 is greater than or equal to a third preset threshold, a fourth water level signal is output; the controller receives the fourth water level signal and controls the water tank 611 to supply water to the water tank 200 according to the fourth water level signal.

It should be noted that, when the water level in the water tank 611 is greater than or equal to the third preset threshold, it indicates that the water stored in the water tank 611 is excessive, and the water in the water tank 611 needs to be partially input into the water tank 200 for storage, so as to avoid water leakage of the air conditioner 10 caused by overflow of the water in the water tank 611, and facilitate discharge of the condensed water generated by the air conditioner 10.

Optionally, the air conditioner 10 further includes a connection pipe 700, one end of the connection pipe 700 is communicated with a water outlet of the water tank 200, and the other end of the connection pipe 700 passes through the housing 100 and is communicated with a water inlet of the atomizer 400, that is, the water tank 200 conveys water from the inside of the water tank 200 to the atomizer 400 through the connection pipe 700, and then the water is atomized by the atomizer 400 and blown to the condenser 300 by the fan 800, so as to improve the heat exchange capacity of the condenser 300 and improve the heat exchange effect of the air conditioner 10.

Optionally, a stop valve 710 is disposed on the connection pipe 700, and the stop valve 710 is used to control the connection pipe 700 to be turned on or off, so as to control the water tank 200 to supply water to the atomizer 400 or the water tank 611 or to be turned off, so as to control the source of water in the atomizer 400, thereby ensuring the heat exchange capability of the condenser 300 and improving the utilization efficiency of water. The stop valve 710 may be a solenoid valve or a manual control valve, and only needs to effectively control the connection or the disconnection of the connection pipe 700.

It should be noted that, if the stop valve 710 is an electromagnetic valve, when the first water level detecting device 220 in the water tank 200 detects that the water level of the water tank 200 is greater than or equal to a first preset threshold, a first water level signal is output; when the second water level detection device 612 in the water tank 611 detects that the water level of the water tank 611 is smaller than a second preset threshold, outputting a second water level signal; the controller receives the first and second water level signals and controls the cut-off valve 710 to be opened according to the first and second water level signals so that the water tank 200 supplies water to the atomizer 400 or the water bath 611.

When the second water level detecting device 612 in the water tank 611 detects that the water level of the water tank 611 is greater than or equal to the second preset threshold, a third water level signal is output, and the controller receives the third water level signal and controls the stop valve 710 to close according to the third water level signal, so that the water tank 200 stops supplying water to the atomizer 400 or the water tank 611, and the water tank 611 directly supplies water to the atomizer 400.

It should be noted that the water receiving tray 610 is provided with a water pump 613, a water inlet of the water pump 613 is inserted into the water tank 611, when the controller controls the water tank 611 to directly supply water to the atomizer 400 according to the third water level signal, the controller controls the water pump 613 to be turned on, and the water pump 613 pumps the water in the water tank 611 into the atomizer 400, so as to atomize the atomizer 400 and improve the heat exchange capacity of the condenser 300.

Optionally, the air conditioner 10 further includes an evaporator 500, and the evaporator 500 is disposed near the second air inlet 120. That is, the evaporator 500 is disposed at an indoor side, and an indoor air duct is formed at the indoor side, so as to exchange heat with indoor air and improve indoor heat exchange efficiency.

Wherein, the water collector 610 is located the below of evaporimeter 500 and condenser 300 for receive the comdenstion water that evaporimeter 500 produced, and collect in basin 611, make the comdenstion water that evaporimeter 500 produced in the heat transfer process can be used for the atomizing of atomizer 400, improve the heat transfer effect of condenser 300, can avoid comdenstion water accumulation too much on the water collector 610 and spill over, can also improve the utilization ratio of comdenstion water, the energy saving reduces use cost.

Optionally, in the embodiment of the present disclosure, the air conditioner 10 includes a base plate 600, a water pan 610 is disposed on the base plate 600, and a water tank 611 on the water pan 610 is formed below the condenser 300; the water receiving tray 610 further includes a water guide tray, which is located below the evaporator 500 and is used for receiving the condensed water generated by the evaporator 500, and meanwhile, the water guide tray is communicated with the water tank 611, so that the condensed water generated by the evaporator 500 flows into the water tank 611 along the water guide tray, and the condensed water is prevented from forming accumulated water on the water guide tray.

Wherein, form basin 611 in condenser 300 below, both be favorable to the collection of comdenstion water, also be convenient for with the water suction in the basin 611 to the atomizer 400 in, avoid the too complicated atomization effect that influences atomizer 400 of connected mode between basin 611 and the atomizer 400 to guarantee condenser 300's heat transfer ability, improve air conditioner 10's whole heat transfer effect.

The air conditioner provided by the embodiment of the present application is described in detail above, and the principle and the implementation of the present application are explained herein by applying a specific example, and the description of the above embodiment is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An air conditioner, characterized in that the air conditioner comprises:

the condenser is arranged in the air duct;

2. The air conditioner of claim 1, wherein a height of the water outlet of the water tank relative to the bottom of the housing is greater than a height of the water inlet of the atomizer relative to the bottom of the housing.

3. The air conditioner according to claim 2, wherein the water tank is mounted on an outer surface of the case.

4. The air conditioner according to claim 3, wherein the top of the case has a mounting plate, and the water tank is mounted on the mounting plate.

5. The air conditioner of claim 4, wherein the surface of the mounting plate is provided with a mounting groove, and the water tank comprises a mounting portion mounted in the mounting groove.

6. The air conditioner of claim 5, wherein the mounting groove has a first side and a second side disposed opposite to each other;

7. The air conditioner of claim 6, wherein the mounting slot has a mounting opening at least one end, the mounting opening being located between the first side surface and the second side surface, the mounting portion being slidably inserted into the mounting slot from the mounting opening.

8. The air conditioner according to claim 6 or 7, further comprising a connector;

9. The air conditioner of claim 1, wherein the air conditioner includes a controller; a first water level detection device is arranged in the water tank and is electrically connected with the controller;

10. The air conditioner according to claim 9, wherein a second water level detecting device is provided in the water tank, the second water level detecting device being electrically connected to the controller;

11. The air conditioner according to claim 1, comprising a connection pipe having one end communicating with the water outlet of the water tank and the other end communicating with the water inlet of the atomizer through the housing; and the connecting pipe is provided with a stop valve for controlling the connection or the closure of the connecting pipe.

12. The air conditioner of claim 1, further comprising an evaporator, wherein the water pan is positioned below the evaporator and the condenser, and wherein the water pan receives condensed water generated by the evaporator and collects the condensed water in the water tank.