CN215597533U - Air conditioner - Google Patents

Abstract

The application relates to household electrical appliances technical field, discloses an air conditioner includes: indoor set, off-premises station, anhydrous humidification module, condense water module and can dismantle coupling mechanism. The detachable connecting mechanism comprises a sliding connecting structure and a locking structure, the water condensing module is connected with the indoor unit in a sliding mode through the sliding connecting structure, and the water condensing module and the indoor unit can be locked through the locking structure. In this application, set up anhydrous humidification module, can collect the steam in the outdoor air to and generate wet hot gas flow, the indoor side sets up the condensate module, can condense wet hot gas flow for the condensate water, supplies with humidification or air washing purification and uses to be connected through dismantling coupling mechanism between condensate module and the indoor set, dismantlement and installation that can be quick.

Description

Air conditioner

Technical Field

The present application relates to the field of household electrical appliances, and for example, to an air conditioner.

Background

At present, along with the progress of society, people not only need to satisfy temperature regulation to the demand that the air conditioner used, still need satisfy humidity control to and the purification to the air, and all need the water of using when humidifying or cleaning the air, often need artificially to add moisture at present stage, and the operation is wasted time and energy like this.

There is the moisture that utilizes no water humidification device to absorb in the outdoor air to the indoor technique of humidifying or collecting moisture and supplying the clean use of air among the correlation technique, adopts this kind of mode can avoid artifical interpolation moisture to waste time and energy's operation, but need set up the device of individual indoor collection moisture alone, need be with the device direct mount of indoor collection moisture on the wall under the most of the circumstances at present, very inconvenient when installing and dismantling.

Therefore, how to conveniently disassemble and assemble the module for collecting indoor moisture becomes a problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides an air conditioner, which is simple in structure, convenient to operate and capable of being rapidly disassembled and assembled.

In some embodiments, an air conditioner includes: indoor set, off-premises station, anhydrous humidification module, condense water module and can dismantle coupling mechanism. The waterless humidifying module is arranged on the outdoor side and comprises a moisture storage assembly and a humidifying assembly, the moisture storage assembly can collect water vapor in outdoor air, and the humidifying assembly can convert the water vapor collected by the moisture storage assembly into hot steam so as to provide wet hot air flow for the indoor unit; the water condensing module is communicated with the anhydrous humidifying module and is configured to condense steam in the wet hot air flow into condensed water; the detachable connecting mechanism comprises a sliding connecting structure and a locking structure, the water condensing module is connected with the indoor unit in a sliding mode through the sliding connecting structure, and the water condensing module and the indoor unit can be locked through the locking structure.

The air conditioner provided by the embodiment of the disclosure can realize the following technical effects:

the air conditioner comprises a conventional indoor unit, an outdoor unit and a waterless humidifying module, can collect water vapor in outdoor air and generate wet hot air flow, the water condensing module is arranged at the indoor side, the wet hot air flow can be condensed into condensed water for humidification or air washing and purification, the water condensing module is connected with the indoor unit through a detachable connecting mechanism, the water condensing module and the indoor unit are longitudinally limited by a sliding connecting structure, then the water condensing module and the indoor unit are locked by a locking mechanism, the positions of the water condensing module and the indoor unit are kept relatively fixed, so that the water condensing module can be fixed with the indoor unit more conveniently and rapidly, and only the locking mechanism needs to be opened when the water condensing module is disassembled, can directly take off the water condensing module through sliding, has simple structure, is convenient to operate, and can be quickly disassembled and assembled.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

fig. 1 is a schematic structural diagram of an air conditioner provided in an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a waterless humidification module provided in an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a water condensing module provided in the embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of another water condensing module provided in the embodiment of the present disclosure;

FIG. 5 is a top view of one condensate module provided by embodiments of the present disclosure;

FIG. 6 is a schematic structural diagram of a water wash module provided in embodiments of the present disclosure;

fig. 7 is a schematic structural diagram of another water condensing module provided in the embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of an air path switching mechanism according to an embodiment of the present disclosure;

fig. 9 is a schematic structural view of the closing baffle closing the first air outlet according to the embodiment of the present disclosure;

fig. 10 is a schematic structural view of the closing baffle closing the second air outlet according to the embodiment of the present disclosure;

fig. 11 is a schematic structural view illustrating a connection between an indoor unit and a water condensing module according to an embodiment of the present disclosure;

fig. 12 is a schematic structural view of a detachable connection mechanism provided in the embodiments of the present disclosure.

Reference numerals:

100. an indoor unit; 101. a first side surface; 200. an outdoor unit; 300. a water-free humidifying module; 301. a moisture storage assembly; 302. a humidifying assembly; 400. a water condensing module; 401. a housing; 402. a heat exchanger; 403. a water collection tank; 404. a baffle; 410. a water washing module; 411. washing the bin with water; 412. washing the impeller with water; 413. a flow guide part; 420. an air path switching mechanism; 421. an air inlet port; 422. a first air outlet; 423. a second air outlet; 424. a body; 425. a rotating shaft; 426. a closing baffle; 427. a drive motor; 430. a second side surface; 500. a detachable connection mechanism; 501. a sliding connection structure; 502. a locking structure; 503. a support structure; 504. a sliding projection; 505. a sliding groove; 506. a limiting member; 507. a locking member; 508. a first L-shaped structure; 509. a second L-shaped structure; 510. locking the nose; 511. a lock body; 600. and (4) connecting the pipes.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and in the claims, and the above-described drawings of embodiments of the present disclosure, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the present disclosure described herein may be made. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their examples and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art as appropriate.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art according to specific situations.

The term "plurality" means two or more unless otherwise specified.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

As shown in fig. 1-2, an embodiment of the present disclosure provides an air conditioner including: the indoor unit 100, the outdoor unit 200, the waterless humidifying module 300, the water condensing module 400 and the detachable connecting mechanism 500. The waterless humidifying module 300 is disposed at the outdoor side and comprises a moisture storage component 301 and a humidifying component 302, the moisture storage component 301 can collect water vapor in outdoor air, and the humidifying component 302 can convert the water vapor collected by the moisture storage component 301 into hot steam to provide wet hot air flow for the indoor unit 100; the water condensing module 400 is communicated with the anhydrous humidifying module 300 and is configured to condense steam in the wet hot air flow into condensed water; the detachable connection mechanism 500 includes a sliding connection structure 501 and a locking structure 502, the water condensation module 400 is slidably connected to the indoor unit 100 through the sliding connection structure 501, and the water condensation module 400 can be locked to the indoor unit 100 through the locking structure 502.

By adopting the air conditioner provided by the embodiment of the disclosure, the air conditioner comprises a conventional indoor unit 100 and an outdoor unit 200, and is also provided with an anhydrous humidifying module 300 which can collect water vapor in outdoor air and generate wet hot air flow, the indoor side is provided with a water condensing module 400 which can condense the wet hot air flow into condensed water for humidification or air washing purification, the water condensing module 400 is connected with the indoor unit 100 through a detachable connecting mechanism 500, the water condensing module 400 and the indoor unit 100 are longitudinally limited by a sliding connecting structure 501, then the water condensing module 400 and the indoor unit 100 are locked by a locking mechanism, the positions of the two are kept relatively fixed, so that the water condensing module 400 can be more conveniently and rapidly fixed with the indoor unit 100, when the air conditioner is detached, the water condensing module 400 can be directly taken down by sliding only by opening the locking mechanism, simple structure, the operation of being convenient for, dismantlement and installation that can be quick.

Optionally, the anhydrous humidifying module 300 is communicated with the water condensing module 400 through a connection pipe 600. Like this, collect the steam in the outdoor air through anhydrous humidification module 300, and convert the steam of collecting into hot steam, hot steam flows to the water condensing module 400 through connecting pipe 600, thereby provide damp hot gas flow to indoor set 100, and utilize the water condensing module 400 to condense the steam condensation in the damp hot new trend into the condensate water, reach the moisture to the outdoor air current and carry out the purpose of collecting, communicate anhydrous humidification module 300 with water condensing module 400 through connecting pipe 600, not only can make the damp hot gas flow that anhydrous humidification module 300 produced directly flow to water condensing module 400, the air current flows more directly high-efficient, reach the purpose of rapid delivery air current, and the air current is more stable in transmission process, improve the stability of air current flow process.

Alternatively, the connecting tube 600 is made of a spiral-shaped seamed thin-wall tube by rolling a metal strip, and the metal strip is made of galvanized iron or stainless steel and has a circular structure. Therefore, the connecting pipe 600 has better strength and rigidity, and the ventilation resistance of the air flow in the process of flowing in the connecting pipe 600 is small, so that the flowing efficiency of the air flow is improved.

Optionally, the anhydrous humidification module 300 is detachably connected to the outdoor unit 200. Thus, the anhydrous humidification module 300 can be fixed to the outdoor unit 200 more conveniently and quickly, and can be detached quickly and conveniently when needed to be detached independently.

Optionally, the connection manner between the non-water humidifying module 300 and the outdoor unit 200 is the same as the connection manner between the water condensing module 400 and the indoor unit 100. Thus, the installation between the anhydrous humidification module 300 and the outdoor unit 200 is also convenient and fast, and the anhydrous humidification module 300 can be rapidly disassembled and installed.

It is worth mentioning that: the principle of the anhydrous humidifying module 300 is based on the principle of anhydrous humidifying in the prior art, that is, the humidity-adjusting turntable absorbs moisture in outdoor normal-temperature airflow, and along with the rotation of the humidity-adjusting turntable, the humidity-adjusting turntable absorbing the moisture is heated by the heater, so that the moisture in the humidity-adjusting turntable is released to form wet hot airflow, and the wet hot airflow is discharged to the indoor, wherein the moisture storage assembly 301 refers to a part of the humidity-adjusting turntable located in the outdoor normal-temperature airflow, and the humidifying assembly 302 refers to the heater and a part of the humidity-adjusting turntable heated by the heater.

As shown in fig. 3, the water condensing module 400 optionally includes: a housing 401, a heat exchanger 402 and a water collection tank 403. The heat exchanger 402 is disposed in the casing 401 and is communicated with a refrigerant circulation pipeline between the indoor unit 100 and the outdoor unit 200; a water collection sump 403 is provided within the housing 401 and below the heat exchanger 402. Thus, the anhydrous humidifying module 300 collects the water vapor in the outdoor air, and converts the collected water vapor into hot vapor, so as to provide wet hot air flow for the indoor unit 100, the water condensing module 400 positioned in the indoor unit 100 is communicated with the anhydrous humidifying module 300, so that the hot wet air flow generated by the anhydrous humidifying module 300 is sent to the water condensing module 400, the heat exchanger 402 in the water condensing module 400 is utilized to condense the steam in the hot wet fresh air into condensed water, and the water collecting tank 403 is arranged at the lower side of the heat exchanger 402 in the water condensing module 400, so that the condensed water generated on the heat exchanger 402 in the water condensing module 400 can flow downwards and fall into the water collecting tank 403, the purpose of collecting the water in the outdoor air flow is achieved, the collection efficiency of the water in the outdoor air flow is improved, water is better supplied to the air conditioner 100, no manual water is needed to be added into the indoor unit 100, and the use of a user is facilitated, the user experience is improved.

Optionally, the refrigerant circulation pipeline between the indoor unit 100 and the outdoor unit 200 is split, the first connection end is located on the indoor unit 100, the second connection end is located on the water condensing module 400, and the first connection end and the second connection end are connected in an adaptive manner, so that a complete refrigerant circulation pipeline is formed between the indoor unit 100 and the outdoor unit 200 after the first connection end and the second connection end are connected. In this way, when the water condensation module 400 is detached from the indoor unit 100, the refrigerant circulation pipe can be detached, thereby facilitating the detachment between the water condensation module 400 and the indoor unit 100.

Understandably, the first connecting end and the second connecting end are butted in a plugging mode and can be fixed through a bolt structure.

Optionally, the first connecting end and the second adjusting end are both provided with a switch valve. Therefore, before the first connecting end and the second connecting end need to be detached, the switch valve can be closed firstly, the refrigerant leakage is prevented, and the use stability is improved.

Optionally, the heat exchanger 402 is an evaporator. Thus, because the evaporator has the effect of refrigerating, the water vapor can be condensed when meeting cold, and therefore, the evaporator is utilized to condense the moisture in the airflow.

Optionally, the evaporator surface is provided with vertically downward guiding channels. Like this, because the evaporimeter has cryogenic effect, vapor meets cold and can condense to utilize the evaporimeter to condense the moisture in the air current, the water droplet of condensing on the evaporimeter under the effect of guiding gutter can flow along the guiding gutter downward, is convenient for collect the water droplet, improves water droplet collection efficiency.

Optionally, the diversion trench is provided in plurality, and the plurality of diversion trenches are arranged side by side. Like this, the water droplet that makes the evaporimeter surface condense all can improve water droplet moving speed through the guiding gutter downflow, is convenient for collect the water droplet fast.

Optionally, the water condensing module 400 further comprises: a baffle 404. The baffle 404 is obliquely arranged right below the heat exchanger 402, and the water collecting tank 403 is arranged below the lower end of the baffle 404. Like this, can carry out the water conservancy diversion to the condensate water that flows down on heat exchanger 402 through setting up guide plate 404, make the inflow water catch bowl 403 that the condensate water can be better to can concentrate the collection to the condensate water through setting up guide plate 404, make water catch bowl 403 needn't set up under heat exchanger 402, be convenient for use the condensate water of collecting in water catch bowl 403, make overall structure more reasonable.

Optionally, the baffle 404 is spaced a set distance from the heat exchanger 402. Thus, the condensed water generated on the surface of the heat exchanger 402 can drip on the guide plate 404, and the heat exchanger 402 can be prevented from blocking the flow of the condensed water dripping on the guide plate 404 by setting the set distance between the guide plate 404 and the heat exchanger 402, so that the condensed water can smoothly flow under the guide of the guide plate 404, and the collection efficiency of the condensed water is improved.

Optionally, the angle of inclination of the baffle 404 is greater than or equal to 5 ° and less than or equal to 10 °. Like this, set up the inclination of guide plate 404 at more than or equal to 5, and be less than or equal to between 10, make the inclination of guide plate 404 be in within the reasonable scope, can enough promote the speed that the water droplet flows on guide plate 404, can prevent again that the inclination of guide plate 404 from setting up too big, occupy the inner space of the structure of congealing, or the undersize of the inclination setting of guide plate 404, the water droplet can't freely slide, reduces the water droplet collection efficiency.

Optionally, the baffle 404 is arc-shaped or V-shaped. Like this, set up guide plate 404 into arc or V-arrangement, when the water droplet that the evaporimeter surface condenses falls on guide plate 404, the water droplet can assemble on guide plate 404 to the water droplet flow velocity after assembling promotes greatly, thereby has improved the flow velocity of water droplet on guide plate 404, promotes the collection efficiency to the water droplet, and concentrates more to the collection of moisture.

As shown in fig. 4-6, a water wash module 410 is optionally provided within the water collection tank 403. Like this, can clean the air current of flowing through washing module 410, to the tiny particle that exists in the air current, like the smoke and dust, can go into lung particulate matter, the seamless viscidity filtering effect of adoption water can be better to through setting up washing module 410, can clear away the dust in the air, will blow in indoor through the air current that purifies, promoted the purifying power to the air current, and washing module 410 utilizes physics to filter, can not produce other pollutants, environmental protection more.

Optionally, the water wash module 410 includes: a water washing bin 411 and a water washing impeller 412. The washing bin 411 is arranged on the upper side of the water collecting tank 403; the washing impeller 412 is disposed in the washing chamber 411, and partially extends into the water collection tank 403. Like this, can directly utilize the water in the water catch bowl 403 to wash the air current that flows through to set up washing impeller 412, can cut the rotation with the air current and bring the aquatic into, make air and water carry out comprehensive contact, thereby utilize the water in the water catch bowl 403 to filter the air current better, clear away the dust in the air, will pass through the air current of purification and insufflate indoor, promoted the purification performance to the air current. It will be appreciated that the water wash impeller 412 is driven by a drive motor.

Optionally, a flow guide part 413 is disposed at the top of the water washing bin 411, and the flow guide part 413 is inclined towards the water washing impeller 412. Therefore, the air can be guided to the washing impeller 412, so that the air flowing into the washing bin 411 flows to the washing impeller 412, the air flowing into the washing bin 411 can be completely acted by the washing impeller 412, the air is cut and rotated by the rotating washing impeller 412 and is brought into the water, the air is filtered by the water in the washing bin 411, the air is prevented from escaping through a gap between the top of the washing bin 411 and the washing impeller 412, the air is directly discharged without being washed, and the air purifying capacity is improved.

As shown in fig. 7-10, optionally, the water condensing module 400 further includes: the air path switching mechanism 420 is disposed at one side of the heat exchanger 402 and the water washing module 410, and includes an air inlet port 421, a first air outlet 422 and a second air outlet 423, the air inlet port 421 is communicated with the anhydrous humidification module 300, the first air outlet 422 faces the heat exchanger 402, the second air outlet 423 is communicated with the water washing bin 411 of the water washing module 410, and when the first air outlet 422 is opened, the second air outlet 423 is in a closed state; when the second outlet 423 is opened, the first outlet 422 is in a closed state. In this way, the air path switching mechanism 420 can control the flow direction of the air flow, so that the air flow can be condensed by the heat exchanger 402 or cleaned by the water cleaning module 410, thereby better meeting the user's requirements.

Optionally, the air path switching mechanism 420 further includes: a body 424, a shaft 425, a closure 426, and a drive motor 427. The rotating shaft 425 is arranged in the body 424 and can rotate relative to the body 424; the sealing baffle 426 is connected to the rotating shaft 425 to seal the first air outlet 422 or the second air outlet 423, and the driving motor 427 is disposed on the main body 424, connected to the rotating shaft 425 to drive the rotating shaft 425 to rotate. Thus, the rotating shaft 425 is driven to rotate by the driving motor 427, so that the rotating shaft 425 drives the closed baffle 426 to rotate, the closed baffle 426 is in a state of closing the first outlet or the second outlet 423, when the closed baffle 426 closes the second outlet 423, the hot and humid air flowing into the body 424 flows into the heat exchanger 402 through the first outlet 422, so that all the hot and humid air flows into the heat exchanger 402 through the first outlet 422, and steam in the hot and humid air is condensed into condensed water by the heat exchanger 402, when the closed baffle 426 closes the first outlet 422, the hot and humid air flowing into the body 424 flows into the water washing bin 411 through the second outlet 423, and all the hot and humid air flows into the water washing bin 411 through the second outlet 423, so that the air is filtered by the water in the water washing bin 411, dust in the air is removed, and the purified air is blown into the room, through set up in body 424 and can seal first air outlet 422 or seal closure baffle 426 of second air outlet 423, make anhydrous humidification module 300 cooperate with washing storehouse 411 and filter the air, the purification ability to the air has been promoted, and anhydrous humidification module 300 cooperatees with heat exchanger 402, utilize the produced condensate water of heat exchanger 402 to provide washing water in the washing storehouse 411, convenience of customers uses, improve user's experience, utilize mechanical drive, the drive process is more stable, it drives closure baffle 426 rotation process's stability to promote pivot 425.

Optionally, the closed baffle 426, the first air outlet 422 and the second air outlet 423 are all rectangular, and the first air outlet 422 and the second air outlet 423 have the same size and are smaller than the closed baffle 426. Therefore, the sealing baffle 426 can completely seal the first air outlet 422 or the second air outlet 423, airflow is prevented from flowing out through a gap between the sealing baffle 426 and the first air outlet 422 or between the sealing baffle 426 and the second air outlet 423, and the sealing performance is improved.

Optionally, the rotating shaft 425 is located at a connection position of an inner side surface of the body 424 where the first air outlet 422 is located and an inner side surface of the body 424 where the second air outlet 423 is located, the rotating shaft 425 is connected to one side of the sealing baffle 426, the sealing baffle 426 seals the first air outlet 422 in a case of the first position, and the sealing baffle 426 seals the second air outlet 423 in a case of the second position. Thus, by arranging the rotating shaft 425 connected with one side of the sealing baffle 426 at the joint of the two inner sides of the body 424, the rotating shaft 425 can be positioned between the first air outlet 422 and the second air outlet 423, so that the sealing baffle 426 is positioned between the first air outlet 422 and the second air outlet 423, when the rotating shaft 425 drives the sealing baffle 426 to rotate, the sealing baffle 426 is convenient for sealing the first air outlet 422 or the second air outlet 423, so that when the sealing baffle 426 seals the first air outlet 422, the second air outlet 423 is in an open state, the anhydrous humidifying module 300 is matched with the washing bin 411 to filter air, the air purifying capacity is improved, when the second air outlet 423 is sealed, the first air outlet 422 is in an open state, the anhydrous humidifying module 300 is matched with the heat exchanger 402, and the condensed water generated by the heat exchanger 402 is used for providing cleaning water to the washing bin 411, the user can use the method conveniently, and the user experience is improved.

Optionally, the first air outlet 422 and the second air outlet 423 have the same size (hereinafter, the first air outlet 422 and the second air outlet 423 are collectively referred to as air outlets), and the width of the blocking plate 426 is greater than or equal to the width of the air outlet and is less than or equal to the width of the housing 401. Thus, the width of the sealing baffle 426 is set to be greater than or equal to the width of the air outlet and smaller than or equal to the width of the shell 401, so that the width of the sealing baffle 426 is within a reasonable range, and the air outlet can be completely sealed by the sealing baffle 426 under the condition that the air outlet is sealed by the sealing baffle 426, thereby improving the sealing performance.

Optionally, a sealing gasket is disposed on the side of the sealing baffle 426 blocking the air outlet. Thus, when the closing flap 426 closes the air outlet, the air flow can be prevented from passing through the gap between the closing flap 426 and the air outlet, and the sealing performance can be further improved.

As shown in fig. 11 to 12, optionally, the casing of the indoor unit 100 is provided with a first side surface 101, the casing 401 of the water condensing module 400 is provided with a second side surface 430, the first side surface 101 and the second side surface 430 have the same size, and the first side surface 101 and the second side surface 430 are connected by a detachable connection mechanism 500. Thus, after the indoor unit 100 and the water condensing module 400 are assembled, a compact whole body is formed to reduce the occupied space, and on the other hand, the connection between the two connection surfaces with the same size is more stable after the two connection surfaces are butted, so that the indoor unit can be better hidden in the structure and is more attractive.

Optionally, the first side 101 is a left side of a casing of the indoor unit 100, and the second side 430 is a right side of the water condensation module 400, or the first side 101 is a right side of the casing of the indoor unit 100, and the second side 430 is a left side of the water condensation module 400. Therefore, the water condensing module 400 is butted with the indoor unit 100 in a left-right arrangement mode, and normal air inlet and outlet of the indoor unit 100 are not affected.

Optionally, the detachable connection mechanism 500 further comprises: a support structure 503. The supporting structure 503 is partially fixedly connected to the indoor unit 100, and the rest protrudes out of one side of the indoor unit 100, so as to support the water condensation module 400. Like this, through the shell at indoor set 100 with congeal water module 400 and be connected the back, usable bearing structure 503 fixes congealing water module 400, makes the connection between congealing water module 400 and the indoor set 100 more stable, reduces detachable connection structure's atress to only need with indoor set 100 and wall carry out fixed connection can, need not to congeal water module 400 again with wall fixed connection, the further dismantlement and the installation of congealing water module 400 of being convenient for.

Optionally, the supporting structure 503 is a cross bar structure, a part of the cross bar structure is fixedly connected to the bottom of the indoor unit 100, and the rest of the cross bar structure is located at the bottom of the water condensation module 400 to support the water condensation module 400 when the water condensation module 400 is combined with the indoor unit 100. Like this, can be better support through the horizontal pole structure to congealing water module 400, improve the stability that congeals water module 400 and indoor set 100 and be connected, better keep congealing the stability of water module 400 position. Wherein the cross bar structure can be provided with one or more, and the supporting effect can be improved through a plurality of cross bar structures.

Optionally, the sliding connection structure 501 includes: one of the sliding protrusion 504 and the sliding groove 505 is disposed on the indoor unit 100, and the other is disposed on the condensate module 400, and the cross sections of the sliding protrusion 504 and the sliding groove 505 are arc-shaped. Thus, the water condensing module 400 can slide in one direction relative to the indoor unit 100 through the matching of the sliding protrusion 504 and the sliding groove 505, and can limit the sliding in other directions, and the cross sections of the sliding protrusion 504 and the sliding groove 505 are both set to be arc-shaped, so that the sliding protrusion 504 and the sliding groove 505 can be more conveniently and quickly butted.

Optionally, the arc radian of the cross section of the sliding protrusion 504 and the sliding groove 505 is greater than or equal to 180 degrees and less than or equal to 270 degrees. Thus, under the condition that the arc of the cross section of the sliding protrusion 504 and the sliding groove 505 is 180 degrees, the sliding protrusion 504 and the sliding groove 505 can be buckled and slid but do not have a limiting function, and can be detached conveniently, and under the condition that the arc of the cross section of the sliding protrusion 504 and the sliding groove 505 is greater than 180 degrees and less than or equal to 270 degrees, the sliding protrusion 504 and the sliding groove 505 can slide relatively, and the sliding protrusion 504 can be limited in the sliding groove 505 to slide, so that the connection stability between the sliding protrusion 504 and the sliding groove 505 is improved.

Optionally, a magnet piece is arranged in the sliding protrusion 504 or the sliding groove 505. In this way, the magnetic attraction can be used to further facilitate the abutting of the sliding protrusion 504 and the sliding groove 505, and the assembling and installation of the water condensation module 400 and the indoor unit 100 can be facilitated.

Optionally, the locking structure 502 comprises: a retaining member 506 and a locking member 507. The limiting member 506 is disposed on a first side of a contact surface between the indoor unit 100 and the water condensing module 400; the locking member 507 is disposed on a second side of a contact surface between the indoor unit 100 and the water condensation module 400, and the second side is opposite to the first side. Thus, after the water condensation module 400 and the casing 401 of the indoor unit 100 slide to the position where the contact surfaces thereof are overlapped, the limiting member 506 can limit the relative position between the water condensation structure and the indoor unit 100, and the locking member 507 can lock the position between the water condensation module 400 and the indoor unit 100, and the limiting member 506 and the sliding connection structure 501 are matched to limit the movement of the water condensation module 400, so that the water condensation module 400 can be stably connected with the casing 401 of the indoor unit 100, and only the locking member 507 needs to be released during disassembly, and the water condensation module 400 is slid to separate the limiting member 506, so that the water condensation module 400 can be conveniently disassembled.

Optionally, the limiting member 506 includes: a first L-shaped structure 508 and a second L-shaped structure 509. One side of the first L-shaped structure 508 is vertically connected to the first side 101 of the indoor unit 100, and the other side is parallel to the first side 101 of the indoor unit 100; one side of the second L-shaped structure 509 is vertically connected to the second side 430 of the water condensation module 400, and the other side is parallel to the second side 430 of the water condensation module 400 and can be matched with the first L-shaped structure 508 for buckling. In this way, the first L-shaped structure 508 and the second L-shaped structure 509 are engaged with each other, so that the position between the water condensation module 400 and the indoor unit 100 can be limited, and the water condensation module 400 and the indoor unit 100 can be better connected.

Optionally, the direction in which the first L-shaped structure 508 and the second L-shaped structure 509 are engaged is the same as the direction in which the sliding connection structure 501 slides. Thus, the water condensation module 400 can be naturally fastened with the indoor unit 100 through the stopper 506 along the sliding direction of the sliding connection structure 501, and the installation is more convenient.

Optionally, the locking member 507 includes: a lock nose 510 and a lock body 511. The locking nose 510 is arranged on the water condensing module 400; the lock body 511 is provided on the indoor unit 100. Thus, the locking nose 510 can be locked in the locking body 511 with the combination of the water condensation module 400 and the indoor unit 100, thereby locking the water condensation module 400 and the indoor unit 100. It can be understood that the lock body 511 may adopt a conventional push latch, the lock nose 510 is locked by pushing the lock body 511 once, and the lock nose 510 is unlocked by pushing the lock body 511 again, or the lock body 511 is a latch, the latch includes a retractable latch portion, an inclined surface is provided on the latch portion, when the lock nose 510 contacts the inclined surface, a pushing force is provided to retract the latch portion into the lock body 511, after the lock nose 510 continues to move towards the inner side of the lock body 511 and is separated from the latch portion, the latch portion pops out under the action of a spring to lock the lock nose 510, when the limit on the lock nose 510 needs to be released, the latch portion can be released from the lock nose 510 by only pulling the latch portion into the lock body 511.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. An air conditioner comprising: an indoor unit (100) and an outdoor unit (200); it is characterized by also comprising:

the waterless humidifying module (300) is arranged at the outdoor side and comprises a moisture storage assembly (301) and a humidifying assembly (302), the moisture storage assembly (301) can collect water vapor in outdoor air, and the humidifying assembly (302) can convert the water vapor collected by the moisture storage assembly (301) into hot steam so as to provide wet hot air flow for the indoor unit (100);

a water condensing module (400) in communication with the non-aqueous humidifying module (300) configured to condense steam in the wet hot gas stream into condensed water;

the detachable connecting mechanism (500) comprises a sliding connecting structure (501) and a locking structure (502), the water condensation module (400) is connected with the indoor unit (100) in a sliding mode through the sliding connecting structure (501), and the water condensation module (400) is locked with the indoor unit (100) through the locking structure (502).

2. The air conditioner of claim 1, wherein the non-water humidifying module (300) is detachably connected with the outdoor unit (200).

3. The air conditioner according to claim 1, wherein the water condensing module (400) comprises:

a housing (401);

a heat exchanger (402) disposed in the casing (401) and communicated with a refrigerant circulation pipeline between the indoor unit (100) and the outdoor unit (200);

and the water collecting tank (403) is arranged in the shell (401) and is positioned below the heat exchanger (402).

4. The air conditioner according to claim 3, wherein the water condensing module (400) further comprises:

and the guide plate (405) is obliquely arranged right below the heat exchanger (402), and the water collecting tank (403) is arranged below the lower end of the guide plate (405).

5. The air conditioner according to claim 3, wherein a washing module (410) is provided in the water collection tank (403).

6. The air conditioner according to claim 5, wherein the water washing module (410) comprises:

a washing bin (411) arranged on the upper side of the water collecting tank (403);

and the washing impeller (412) is arranged in the washing bin (411), and part of the washing impeller extends into the water collecting tank (403).

7. The air conditioner according to claim 1, characterized in that the casing of the indoor unit (100) is provided with a first side surface (101), the casing (401) of the water condensing module (400) is provided with a second side surface (430), the first side surface (101) and the second side surface (430) have the same size, and the first side surface (101) and the second side surface (430) are connected through the detachable connection mechanism (500).

8. The air conditioner according to any one of claims 1 to 7, wherein the detachable connection mechanism (500) further comprises:

and a support structure (503), wherein part of the support structure is fixedly connected with the indoor unit (100), and the rest part of the support structure protrudes out of one side of the indoor unit (100) and can support the water condensation module (400).

9. The air conditioner according to any one of claims 1 to 8, wherein the sliding coupling structure (501) comprises: the water condensing module comprises a sliding protrusion (504) and a sliding groove (505), wherein one of the sliding protrusion and the sliding groove is arranged on the indoor unit (100), the other one of the sliding protrusion and the sliding groove is arranged on the water condensing module (400), and the cross sections of the sliding protrusion (504) and the sliding groove (505) are arc-shaped.

10. The air conditioner according to any one of claims 1 to 8, wherein the locking structure (502) comprises:

a limiting member (506) disposed on a first side of a contact surface between the indoor unit (100) and the water condensation module (400);

and the locking piece (507) is arranged on a second side edge of a contact surface of the indoor unit (100) and the water condensation module (400), and the second side edge is opposite to the first side edge.

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