CN208186592U - Cabinet air-conditioner - Google Patents

Abstract

The utility model discloses a kind of cabinet air-conditioner, and the cabinet air-conditioner includes shell, at least a wind deflector and the first microwell plate and the second microwell plate.Wherein, the shell is equipped with the first air outlet, the second air outlet and the third air outlet being connected to exhaust air flue；The wind deflector is movably installed in first air outlet, is opened with activity or lid closes first air outlet, and the wind deflector is equipped with multiple exhaust vents；First microwell plate is installed on the shell, and covers and close second air outlet；Second microwell plate is installed on the shell, and covers and close the third air outlet.The cabinet air-conditioner of the utility model is able to solve the problem of comfort difference under conventional air-conditioning cabinet-type air conditioner refrigeration mode.

Description

Cabinet air conditioner

Technical Field

The utility model relates to an air conditioner technical field, in particular to cabinet air conditioner.

Background

When the conventional cabinet air conditioner supplies air, the air after heat exchange is blown out through an air outlet by the cross-flow wind wheel, the air outlet flow is concentrated, and the air speed is high. When the user is in the air supply range of the air conditioner, the air outlet flow is directly blown to the user, so that the user is easily uncomfortable, and the comfort is poor. Especially in hot summer, if cold air is directly blown on the body surface of the user for a long time, uncomfortable symptoms such as cold, dizziness or hypodynamia are easily caused to the user, the body health of the user is not facilitated, and especially, diseases such as cold and the like are easily caused to the old, children and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cabinet air conditioner, aim at solving the poor problem of travelling comfort under the conventional cabinet air conditioner refrigeration mode.

In order to achieve the above object, the utility model provides a cabinet air conditioner, cabinet air conditioner includes casing, an at least aviation baffle to and first micropore board and second micropore board. The shell is provided with a first air outlet, a second air outlet and a third air outlet which are communicated with the air outlet duct; the air deflector is movably arranged at the first air outlet so as to movably open or cover the first air outlet, and the air deflector is provided with a plurality of air outlet holes; the first microporous plate is arranged on the shell and covers the second air outlet; the second micropore plate is arranged on the shell, and the third air outlet is covered by the first micropore plate.

Preferably, a first air passing opening communicated with the air outlet duct and the second air outlet and a second air passing opening communicated with the air outlet duct and the third air outlet are further arranged in the shell; the cabinet air conditioner also comprises a first guide plate and a second guide plate, wherein the first guide plate is movably arranged at the first air passing opening so as to movably open or close the first air passing opening; the second guide plate is movably arranged at the second air passing opening to movably open or close the second air passing opening.

Preferably, the cabinet air conditioner further comprises a linkage structure, the linkage structure is connected with the air deflector, the first air deflector and the second air deflector, when the air deflector moves to cover the first air outlet, the linkage structure drives the first air deflector to open the first air passing opening, and the linkage structure drives the second air deflector to open the second air passing opening.

Preferably, the cabinet air conditioner further comprises a driving device, and the driving device is connected with any one or more of the air deflector, the first air deflector and the second air deflector to drive the air deflector, the first air deflector and the second air deflector to move synchronously.

Preferably, the cabinet air conditioner comprises a volute; the first air passing opening is formed in the front end of the volute, and the first guide plate is rotatably connected with the front edge of the first air passing opening, so that the first guide plate can rotate towards the air outlet duct to open the first air passing opening.

Preferably, the cabinet air conditioner comprises a volute tongue; the second air passing opening is formed in the front end of the volute tongue, and the second guide plate is rotatably connected with the second air passing opening so that the first guide plate rotates in the direction back to the air outlet duct to open the second air passing opening.

Preferably, a first air passing cavity communicated with the first air passing opening and the second air passing opening is arranged in the shell, and the first air passing cavity is arranged in a gradually expanding manner in the air outlet direction.

Preferably, a second air passing cavity communicated with the second air passing opening and the third air outlet is arranged in the shell, and the second air passing cavity is arranged in a gradually expanding manner in the air outlet direction.

Preferably, the cabinet air conditioner comprises a first air outlet frame installed at the second air outlet, and the first microporous plate is installed at the first air outlet frame; or, the first micropore plate and the first air outlet frame are integrally formed.

Preferably, the cabinet air conditioner comprises a second air outlet frame installed at the third air outlet, and the second microporous plate is installed at the second air outlet frame; or, the second micropore plate and the second air outlet frame are integrally formed.

Preferably, a plurality of air outlet holes are formed in the first microporous plate and the second microporous plate; in the air outlet direction, the inner end of the air outlet hole on the first microporous plate is arranged in a gradually-reduced shape, and the outer end of the air outlet hole on the first microporous plate is arranged in a gradually-expanded shape; and/or in the air outlet direction, the inner end of the air outlet hole on the second microporous plate is arranged in a gradually reducing shape, and the outer end of the air outlet hole on the second microporous plate is arranged in a gradually expanding shape.

According to the technical scheme of the utility model, through setting up first air outlet, second air outlet and third export on the casing of cabinet air conditioner, and with at least one aviation baffle movable mounting in first air outlet, and cover first micropore board and second micropore board respectively and close second air outlet and third air outlet, thereby state cabinet air conditioner and be in the refrigeration mode, then can cover the aviation baffle with first air outlet, the air-out air current that blows out from the air-out wind channel divides into three air currents, first air current blows to the first air outlet, and blow indoor through the exhaust vent on the aviation baffle; the second air flow is blown to the second air outlet and is blown to the room through the air outlet hole on the first microporous plate; and the third airflow blows to the third air outlet and blows to the room through the air outlet hole on the second microporous plate.

In the process that the air outlet airflow passes through the air outlet, the air outlet airflow passes through the air outlet hole and is scattered, the air speed of the air outlet airflow is reduced, the air outlet airflow is softer, a user cannot feel a wind sense, and the air outlet effect without the wind sense on three sides is achieved. Therefore, the utility model discloses a cabinet air conditioner can ensure under the unchangeable condition of air-out airflow basically, can trilateral reposition of redundant personnel air-out, and for trilateral no wind sense air-out. It is worth mentioning that the air deflector, the first microporous plate and the second microporous plate are matched, so that the non-wind-sensing air outlet area of the cabinet air conditioner is greatly increased, and the non-wind-sensing air outlet range of the cabinet air conditioner can be effectively enlarged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a cabinet air conditioner of the present invention;

FIG. 2 is a schematic view of an air deflector of the air conditioning cabinet of FIG. 1;

FIG. 3 is a schematic view of the conventional outlet air of the air conditioning cabinet of FIG. 1;

fig. 4 is a schematic view of the cabinet air conditioner of fig. 1 with no wind-sensing air output on three sides;

FIG. 5 is a schematic diagram of a structure of the cabinet air conditioner of FIG. 1 illustrating the installation of two micro-perforated plates;

FIG. 6 is a schematic view of the air conditioning cabinet of FIG. 5 with two micro-perforated plates deployed and cooperating with air guides;

FIG. 7 is a schematic view of the cabinet air conditioner of FIG. 1 without wind-induced air on two sides thereof;

fig. 8 is a schematic view of the cabinet air conditioner of fig. 1 without wind-induced air on the other two sides.

The reference numbers illustrate:

the purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a cabinet air conditioner can solve the relatively poor problem of travelling comfort under the conventional cabinet air conditioner refrigeration mode. It should be noted that the cabinet air conditioner can be a round cabinet or a square cabinet. In the following embodiments, all round cabinets are taken as an example for explanation, and the other types of cabinet air conditioners can be designed accordingly.

For ease of understanding and explanation, the dashed arrows in fig. 1 to 8 of the present invention indicate the airflow direction. Also, in the following embodiments, the directions indicated by the coordinate system shown in fig. 1 are taken as references, where the positive direction of the x-axis is front and the negative direction of the x-axis is rear; the positive direction of the y axis is right, and the negative direction of the y axis is left; the positive direction of the z-axis is up and the negative direction of the z-axis is down.

Referring to fig. 1 to 3, a cabinet air conditioner 100 of the present invention includes a housing 10, at least one air guiding plate 40, and a first micro-porous plate 50a and a second micro-porous plate 50 b. Wherein, the shell 10 is provided with a first air outlet, a second air outlet and a third air outlet which are communicated with the air outlet duct; the air deflector 40 is movably arranged at the first air outlet so as to movably open or cover the first air outlet, and the air deflector 40 is provided with a plurality of air outlet holes; the first microporous plate 50a is installed on the housing 10 and covers the second air outlet; the second micro-hole plate 50b is installed on the housing 10 and covers the third air outlet.

Specifically, since the cabinet air conditioner 100 is a circular cabinet, the casing 10 of the cabinet air conditioner 100 is provided in a circular cylindrical shape. In other embodiments, the cabinet air conditioner 100 is a square cabinet, and the housing 10 is disposed in a square cylinder shape. The housing 10 may also be disposed in an oval cylindrical shape, which is not specifically limited, and may be designed according to the actual installation position or the size of the occupied space. The shell 10 comprises a back plate and a face plate, wherein the back plate is provided with an air inlet; the panel is provided with first air outlet, second air outlet and third air outlet, just first air outlet, second air outlet and third air outlet all extend along upper and lower direction, second air outlet and third air outlet are located respectively the double-phase offside of first air outlet. An air outlet duct is formed inside the casing 10, and the air outlet duct is communicated with the air inlet and the first air outlet, the second air outlet and the third air outlet.

Referring to fig. 3, the air guiding plate 40 is movably installed on the first air outlet to movably open or close the first air outlet. The movable installation manner of the air guiding plate 40 may be any one of a rotation installation manner, a sliding installation manner, or a swing installation manner, and is not limited herein. Furthermore, the number of the air deflectors 40 may be one or more, and the number of the air deflectors can be designed according to the actual size of the first air outlet of the cabinet air conditioner 100.

Here, in order to reduce the activity space occupied by the air guiding plate 40 and facilitate installation of the air guiding plate 40, it is preferable that the number of the air guiding plates 40 is plural, and each air guiding plate 40 is elongated and extends upward and downward; the air deflectors 40 are sequentially arranged in the left-right direction and rotatably mounted in the shell 10, so that the air deflectors 40 are in an unfolded state of rotating to be spaced from each other to open the first air outlet and in a closed state of rotating to be overlapped end to end in sequence to cover the first air outlet.

Referring to fig. 4, the first micro-porous plate 50a is installed on the housing 10 to cover the second air outlet. The first micro-porous plate 50a has a plurality of air outlets for the air flow to pass through. The first micro plate 50a may be mounted in any one of a fixed mounting manner, a detachable mounting manner, and a rotating mounting manner, which is not limited herein.

The second micro-hole plate 50b is installed on the housing 10 to cover the third air outlet. The second micro-porous plate 50b is also provided with a plurality of air outlets for the air flow to pass through. The second micro plate 50b may be mounted in any one of a fixed mounting manner, a detachable mounting manner, and a rotating mounting manner, which is not limited herein.

The cabinet air conditioner 100 further comprises a heat exchanger 30 and a cross-flow wind wheel 20 which are installed in the casing 10, when the cross-flow wind wheel 20 works, the cross-flow wind wheel 20 rotates to drive airflow to enter the casing 10 from the air inlet, the airflow and the heat exchanger 30 form outlet airflow after heat exchange, and the outlet airflow is blown to each air outlet from the outlet air duct to realize refrigeration or heating.

When a user needs a no-wind-sense mode, the air deflector 40 can be rotated to a covering state, the air outlet flow blown out from the air outlet duct is divided into three flows, and the first flow is blown to the first air outlet and is blown to the indoor through the air outlet hole on the air deflector 40; the second air flow is blown to the second air outlet and is blown to the room through the air outlet hole on the first microporous plate 50 a; the third air flow blows towards the third air outlet and blows towards the room through the air outlet hole on the second microporous plate 50 b. In the process, the air outlet flow passes through the air outlet hole and is scattered, the air speed of the air outlet flow is reduced and becomes softer, so that a user can not feel the wind, and the effect of no wind sense on three sides is achieved.

The technical scheme of the utility model, through set up first air outlet, second air outlet and third export on cabinet air conditioner 100's casing 10 to with at least one aviation baffle 40 movable mounting in first air outlet to and cover first micropore board 50a and second micropore board 50b respectively and close second air outlet and third air outlet, thereby at cabinet air conditioner 100 during operation, can with at least one aviation baffle 40 covers and closes first air outlet, certainly the air-out air current that the air-out wind channel blew out blows to indoor through the exhaust vent on aviation baffle 40, first micropore board 50a and second micropore board 50b respectively, reaches trilateral no wind-sensing air-out effect (see aforementioned analysis in detail), realizes no wind-sensing mode.

As can be seen from the above analysis, the utility model discloses a cabinet air conditioner 100 can ensure under the unchangeable condition of air-out airflow basically, can realize trilateral reposition of redundant personnel air-out, and for trilateral no wind sense air-out. It should be noted that the cooperation of the air deflector 40, the first microporous plate 50a and the second microporous plate 50b greatly increases the non-wind-sensing air outlet area of the cabinet air conditioner 100, and further effectively enlarges the non-wind-sensing air outlet range of the cabinet air conditioner 100.

Referring to fig. 4, in the present embodiment, the installation manner of the first micro via plate 50a and the second micro via plate 50b is not particularly limited. Here, the cabinet air conditioner 100 includes a first air-out frame (not shown) installed at the second air outlet, and the first micro via plate 50a is installed at the first air-out frame; or, the first micro-porous plate 50a and the first air outlet frame are integrally formed. Similarly, the cabinet air conditioner 100 includes a second air-out frame installed at the third air outlet, and the second micro-perforated plate 50b is installed at the second air-out frame (not shown); or, the second micro-porous plate 50b and the second air outlet frame are integrally formed. For convenience of production and installation, preferably, the first micro-porous plate 50a is integrally formed with the first air outlet frame; the second micro-perforated plate 50b and the second air outlet frame are integrally formed.

Referring to fig. 5 and 6, it is apparent that the installation manner of the first micro plate 50a and the second micro plate 50b is not limited thereto. In other embodiments, the first micro-porous plate 50a and the second micro-porous plate 50b may be respectively rotatably mounted on two opposite sides of the first air outlet, and both the first micro-porous plate 50a and the second micro-porous plate 50b have an unfolding state of being rotated to the front side of the first air outlet to unfold, and a covering state of being reversely rotated to respectively cover the second air outlet and the third air outlet.

When the first micro-perforated plate 50a and the second micro-perforated plate 50b are both in the unfolded state, the first micro-perforated plate 50a and the second micro-perforated plate 50b enclose and form an outer air duct butted with the first air outlet, and the outer air duct effectively prolongs the air supply distance of the first air outlet. Particularly, when the outlet airflow is blown out forwards from the outer air duct, the windward side and the leeward side of the first microporous plate 50a and the second microporous plate 50b have air pressure difference, so that the air on the leeward side of the first microporous plate 50a and the second microporous plate 50b is sucked into the outer air duct from the air outlet holes on the microporous plates, the sucked air is mixed with the outlet airflow, the air supply amount is increased, the mixed outlet airflow is softer, and a better non-wind effect is achieved.

Referring to fig. 5 and 6, according to the above embodiment, in the air outlet direction, the inner end of the air outlet hole of the first micro plate 50a is disposed in a tapered shape, and the outer end thereof is disposed in a tapered shape. And/or, in the air outlet direction, the inner end of the air outlet hole on the second microporous plate 50b is arranged in a gradually reducing shape, and the outer end of the air outlet hole is arranged in a gradually expanding shape.

Specifically, in the air outlet direction, the inner ends of the air outlet holes of the first microporous plate 50a or the second microporous plate 50b are arranged in a tapered shape, so that the wind resistance of the inner ends of the air outlet holes is small, and the air outlet holes are favorable for flowing the outlet air; and in the air outlet direction, the outer end of the air outlet hole is arranged in a gradually expanding shape, which is favorable for guiding the air outlet flow to be outwards diffused along the outer end of the air outlet hole and be timely blown out. Therefore, the wind-out of the second air outlet without wind sense can be realized, and the air output quantity passing through the air outlet holes can be increased.

Referring to fig. 7 and 8, in this embodiment, in order to realize the switching of the air outlet among the first air outlet, the second air outlet and the third air outlet, so as to achieve the effect of supplying air to different directions, a first air passing opening communicating the air outlet duct and the second air outlet, and a second air passing opening communicating the air outlet duct and the third air outlet are further disposed inside the casing 10. Cabinet air conditioner 100 further includes a first baffle 70a and a second baffle 70 b; the first air guide plate 70a is movably installed in the first air passing opening to movably open or close the first air passing opening; the second baffle 70b is movably installed in the second air passing opening to movably open or close the second air passing opening.

Particularly, through first baffle 70a and second baffle 70b, user's alternative closes second air outlet and third air outlet to realize that first air outlet, second air outlet and third air outlet switch the air-out. For example, when only the first baffle 70a closes the second outlet, air can be discharged from both sides of the first outlet and the third outlet; when the second guide plate 70b closes the third air outlet, air can be discharged from both sides of the first air outlet and the second air outlet; when the first guide plate 70a closes the second air outlet and the second guide plate 70b closes the third air outlet, only the first air outlet can be used for air outlet. The first baffle 70a and the second baffle 70b are not limited in the manner of installation.

Referring to fig. 7 and 8, for the first baffle 70a, the movable installation manner of the first baffle 70a may be a rotating installation or a sliding installation. The cabinet air conditioner comprises a volute 90a and a volute tongue 90b, and the volute 90a and the volute tongue 90b are enclosed to form the air outlet duct. Preferably, the first air passing opening is disposed at a front end of the scroll 90a, and the first baffle plate 70a is rotatably connected to the front end of the first air passing opening, so that the first baffle plate 70a can rotate towards the air outlet duct to open the first air passing opening.

Specifically, the second air outlet is located at one side of the first air outlet and is adjacent to the front end of the scroll 90 a. The first baffle plate 70a is rotatably connected with the front edge 1a of the first air passing opening, so that when the first baffle plate 70a rotates towards the air outlet duct and the first air passing opening is opened, the first baffle plate 70a guides the air flow in the air outlet duct into the first air passing opening, and the air flow is blown out from the second air outlet.

Referring to fig. 7 and 8, for the second baffle 70b, the movable installation manner of the second baffle 70b may also be a rotating installation or a sliding installation. Preferably, the cabinet air conditioner includes a volute tongue 90 b; the second air passing opening is formed in the front end of the volute tongue 90b, and the second flow guide plate 70b is rotatably connected with the second air passing opening, so that the first flow guide plate 70a rotates towards the third air outlet to open the second air passing opening.

Specifically, the third air outlet is located at the other opposite side of the first air outlet and is adjacent to the front end of the volute tongue 90 b. The second air deflector 70b is rotatably connected to the front end of the second air passing opening, so that when the second air deflector 70b rotates towards the air outlet duct and the second air passing opening is opened, the second air deflector 70b guides the air flow in the air outlet duct into the second air passing opening, and the air flow is blown out from the third air outlet.

Referring to fig. 7 and 8, in the present embodiment, a first air passing cavity communicating the first air passing opening and the second air outlet is disposed in the casing 10, and when the first air passing opening is opened by the first guide plate 70a, the air outlet flow sequentially passes through the first air passing opening, the first air passing cavity, and the second air outlet and blows into the room. In order to enlarge the air outlet range of the second air outlet, preferably, the first air passing cavity is arranged in a gradually expanding shape in the air outlet direction, so that the outlet air flow is radially blown out to the second air outlet at the expanded end of the first air passing cavity in the process of blowing the outlet air flow through the first air passing cavity, the outlet air angle of the second air outlet is enlarged, and the air outlet range of the left side of the cabinet air conditioner 100 is effectively enlarged.

Referring to fig. 7 and 8, in the present embodiment, a second air passing cavity communicating the second air passing opening and the third air outlet is disposed in the casing 10, and when the second air passing opening is opened by the second flow guiding plate 70b, the air outlet flow sequentially passes through the second air passing opening and the third air outlet of the second air passing cavity and blows into the room. In order to enlarge the air outlet range of the third air outlet, preferably, the second air passing cavity is arranged in a gradually expanding manner in the air outlet direction, so that the outlet air flow is radially blown out to the third air outlet at the flaring end of the second air passing cavity in the process of blowing the outlet air flow through the second air passing cavity, the outlet air angle of the third air outlet is enlarged, and the outlet air range of the right side of the cabinet air conditioner 100 is effectively enlarged.

Referring to fig. 3 and 4, based on any of the above embodiments, it is considered that the user switches between the no-wind-feeling mode and the extended-blowing-distance mode more often; when a user needs a no-wind-sense mode, in order to ensure increased air volume, a plurality of air deflectors are usually required to be rotated to a covering state, and a first air deflector and a second air deflector are opened at the same time; when a user needs to extend the air supply distance mode, the air deflectors need to be rotated to the unfolded state, and the first air deflector and the second air deflector are closed at the same time. In contrast, if a rotating structure is respectively disposed corresponding to the air deflector 40 and the first and second air deflectors 70a and 70b, the rotating structures inevitably increase the occupied space, resulting in an increase in the volume of the cabinet air conditioner 100 and an increase in the cost. Moreover, the user often uses the first air outlet to perform conventional air outlet or three-side no-wind-sensing air outlet, and only the second air outlet or the third air outlet performs single-side air outlet less.

Therefore, to avoid this situation, it is preferable that the cabinet air conditioner 100 further includes a linkage structure, the linkage structure connects the air deflector 40 and the first air deflector 70a, the second air deflector 70b, and the linkage structure is configured to drive the first air deflector 70a to open the first air passing opening and drive the second air deflector 70b to open the second air passing opening when the air deflector 40 moves to cover the first air outlet. As for the specific structure of the linkage structure, it is common in the market at present, and there are many types, which are not listed here.

When a user needs a large non-wind-sensing air outlet surface, the air deflectors 40 are rotated to a cover-closed state, in the process, the linkage structure drives the first air guide plate 70a to open the first air passing opening and drives the second air guide plate 70b to open the second air passing opening, and the second air outlet and the third air outlet are communicated with the air outlet duct, so that three-surface non-wind-sensing air outlet is realized.

When a user needs to refrigerate quickly or supply air remotely, the air deflectors 40 are rotated to an unfolded state, in the process, the linkage structure drives the first air guide plate 70a to close the first air passing opening and drives the second air guide plate 70b to close the second air passing opening, air outlet flow is only blown out from the first air outlet, conventional air outlet is achieved, the air outlet amount is large and concentrated, the air supply distance is far, and quick refrigeration can be achieved.

Referring to fig. 3 and 4, in the present embodiment, the cabinet air conditioner 100 further includes a driving device (not shown) connected to any one or more of the air guiding plate 40, the first air guiding plate 70a and the second air guiding plate 70b to drive the air guiding plate 40, the first air guiding plate 70a and the second air guiding plate 70b to move synchronously.

Preferably, the driving device is connected to the air guiding plate 40 to drive the air guiding plate 40 to move, and the air guiding plate 40 drives the first air guiding plate 70a and the second air guiding plate 70b to move through the linkage structure. The air deflector 40, the first air deflector 70a and the second air deflector 70b are driven to move only by one driving device, so that the number of the driving devices is greatly reduced, and the cost of the cabinet air conditioner 100 is further reduced.

Referring to fig. 3 and 4, based on any of the above embodiments, the cabinet air conditioner 100 further includes a first movable door 60a and a second movable door 60b movably mounted on the casing 10; the first movable door 60a is located at a side of the second outlet far from the first outlet, so as to open or close the second outlet and at least a part of the first outlet; the first movable door 60a is located at a side of the third air outlet away from the first air outlet, so as to open or close the third air outlet and at least a part of the first air outlet.

Specifically, the first movable door 60a and the second movable door 60b are movably mounted on the outer wall surface of the housing 10, and the first movable door 60a and the second movable door 60b are both arc-shaped to match the outer shape of the housing 10. The first movable door 60a and the second movable door 60b move oppositely, and can close the first air outlet, the second air outlet and the third air outlet; the first movable door 60a and the second movable door 60b move back to back, and the first outlet, the second outlet and the third outlet can be opened.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (11)

1. A cabinet air conditioner, characterized in that, cabinet air conditioner includes:

the air conditioner comprises a shell, wherein a first air outlet, a second air outlet and a third air outlet which are communicated with an air outlet duct are arranged on the shell;

the air deflector is movably arranged at the first air outlet so as to movably open or cover the first air outlet, and a plurality of air outlet holes are formed in the air deflector in a penetrating manner;

the first microporous plate is arranged on the shell and covers the second air outlet; and

and the second microporous plate is arranged on the shell and covers the third air outlet.

2. The cabinet air conditioner as claimed in claim 1, wherein a first air passing opening communicating the outlet air duct and the second air outlet, and a second air passing opening communicating the outlet air duct and the third air outlet are further provided inside the housing; the cabinet air conditioner further comprises:

the first air guide plate is movably arranged at the first air passing opening so as to movably open or close the first air passing opening; and

and the second guide plate is movably arranged at the second air passing opening so as to movably open or close the second air passing opening.

3. The cabinet air conditioner of claim 2, further comprising a linkage structure, wherein the linkage structure connects the air deflector, the first air deflector and the second air deflector, and when the air deflector moves to cover the first air outlet, the linkage structure drives the first air deflector to open the first air vent, and the linkage structure drives the second air deflector to open the second air vent.

4. The cabinet air conditioner of claim 3, further comprising a driving device, wherein the driving device is connected to any one or more of the air deflector, the first air deflector and the second air deflector to drive the air deflector, the first air deflector and the second air deflector to move synchronously.

5. The cabinet air conditioner of any one of claims 2-4, wherein the cabinet air conditioner includes a volute; the first air passing opening is formed in the front end of the volute, and the first guide plate is rotatably connected with the front edge of the first air passing opening, so that the first guide plate can rotate towards the air outlet duct to open the first air passing opening.

6. A cabinet air conditioner as recited in any one of claims 2 through 4 wherein said cabinet air conditioner includes a volute tongue; the second air passing opening is formed in the front end of the volute tongue, and the second guide plate is rotatably connected with the second air passing opening so that the second guide plate rotates towards the direction deviating from the air outlet duct to open the second air passing opening.

7. The cabinet air conditioner according to any one of claims 2 to 4, wherein a first air passing chamber communicating the first air passing opening and the second air passing opening is provided in the casing, and the first air passing chamber is arranged in a gradually expanding manner in an air outlet direction.

8. The cabinet air conditioner according to any one of claims 2 to 4, wherein a second air passing chamber communicating the second air passing opening and the third air outlet is provided in the casing, and the second air passing chamber is arranged in a gradually expanding manner in an air outlet direction.

9. The cabinet air conditioner of any one of claims 1 to 4, wherein the cabinet air conditioner comprises a first air-out frame mounted at the second air outlet, and the first micro-perforated plate is mounted at the first air-out frame; or, the first micropore plate and the first air outlet frame are integrally formed.

10. The cabinet air conditioner of any one of claims 1 to 4, wherein the cabinet air conditioner comprises a second air-out frame mounted at the third air outlet, and the second micro-perforated plate is mounted at the second air-out frame; or, the second micropore plate and the second air outlet frame are integrally formed.

11. The cabinet air conditioner of any one of claims 1 to 4, wherein each of the first and second perforated plates has a plurality of air outlets; wherein,

in the air outlet direction, the inner end of the air outlet hole on the first microporous plate is arranged in a gradually reducing shape, and the outer end of the air outlet hole on the first microporous plate is arranged in a gradually expanding shape; and/or the presence of a catalyst in the reaction mixture,

in the air outlet direction, the inner end of the air outlet hole on the second microporous plate is arranged in a gradually reducing shape, and the outer end of the air outlet hole on the second microporous plate is arranged in a gradually expanding shape.