CN208442949U - Cabinet air-conditioner - Google Patents

Abstract

The utility model discloses a kind of cabinet air-conditioner, and the cabinet air-conditioner includes shell, the first wind deflector and the second wind deflector；Wherein, the shell is equipped with the first air outlet being connected to exhaust air flue；First wind deflector and the second wind deflector are rotatablely installed respectively on the shell, and are located at the two opposite sides of first air outlet；And first wind deflector and second wind deflector all have the unfolded state and backwards rotation being unfolded to rotation on front side of first air outlet and accommodate the housed state on the shell.The cabinet air-conditioner of the utility model is able to solve the shorter problem of the air supplying distance of conventional air-conditioning cabinet-type air conditioner.

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 outlet airflow after heat exchange is directly blown out forwards through the air outlet by the wind wheel. After the air outlet airflow leaves the air outlet, the air outlet airflow gradually diffuses towards the periphery, and the air speed is reduced rapidly due to the gradually diffused air outlet airflow, so that the air supply distance of the cabinet air conditioner is short, and the requirement of remote air supply of a user is difficult to meet.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cabinet air conditioner aims at solving the shorter problem of cabinet air conditioner air supply distance.

In order to achieve the above object, the present invention provides a cabinet air conditioner, which comprises a casing, a first wind deflector and a second wind deflector; the shell is provided with a first air outlet communicated with the air outlet duct; the first wind shield and the second wind shield are respectively and rotatably arranged on the shell and are respectively positioned at two opposite sides of the first air outlet; and the first wind deflector and the second wind deflector are both provided with an unfolding state which rotates to the front side of the first air outlet and unfolds, and a containing state which reversely rotates and is contained in the shell.

Preferably, the housing is further provided with a second air outlet and a third air outlet which are communicated with the air outlet duct, and the second air outlet and the third air outlet are respectively located on two opposite sides of the first air outlet; the first wind deflector can be rotatably accommodated in the second air outlet to cover the second air outlet; the second air baffle can be rotatably accommodated in the third air outlet to cover the third air outlet.

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 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 in the first air passing opening so as to movably open or close the first air passing air channel; the second guide plate is movably arranged in the second air passing opening to movably open or close the second air passing duct.

Preferably, the cabinet air conditioner further comprises a first linkage and a second linkage; wherein,

the first linkage device is connected with a first wind shield and a first guide plate and used for driving the first guide plate to close the first air passing channel when the first wind shield rotates to the unfolding state; the second linkage device is connected with the second wind baffle and the second guide plate and used for driving the second guide plate to close the second wind passing channel when the second wind baffle rotates to the unfolding state.

Preferably, the cabinet air conditioner further comprises a driving device, and the driving device is connected with the first wind deflector and the second wind deflector to drive the first wind deflector and the second wind deflector to rotate synchronously.

Preferably, the air conditioning indoor unit includes a scroll casing; 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 end 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 air-conditioning indoor unit 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 first guide plate can rotate towards the second air passing opening to open the second air passing opening.

Preferably, the cabinet air conditioner further comprises a first movable door and a second movable door movably mounted on the housing; the first movable door is positioned on one side of the second air outlet far away from the first air outlet so as to open or close the second air outlet and at least part of the first air outlet; the first movable door is positioned on one side of the third air outlet far away from the first air outlet so as to open or close the third air outlet and at least part of the first air outlet.

Preferably, the first wind deflector and the second wind deflector are provided with a plurality of vent holes all through.

Preferably, when the first wind deflector and the second wind deflector are both in an open state, the first wind deflector and the second wind deflector enclose to form an outer air duct in butt joint with the first air outlet; and one end of each ventilation hole facing the outer air duct extends towards the air outlet direction of the outer air duct in a deflection way.

Preferably, when the first wind deflector and the second wind deflector are both in the unfolded state, the cross sections, perpendicular to the vertical direction of the cabinet air conditioner, of the first wind deflector and the second wind deflector are both in a convex arc shape towards the outer air duct.

Preferably, the cabinet air conditioner further includes a plurality of air deflectors rotatably mounted to the first air outlet, and the plurality of air deflectors have an unfolded state in which the air deflectors rotate to be spaced from each other to open the first air outlet, and a wind shielding state in which the air deflectors rotate to be overlapped with each other to cover the first air outlet.

Preferably, the air deflector is provided with a plurality of air outlet holes.

Preferably, when any two adjacent air deflectors rotate to be mutually overlapped, the two air deflectors are arranged in a V shape.

The technical scheme of the utility model, through rotate first deep bead and second deep bead respectively on the casing of installation cabinet air conditioner, and be located respectively the double-phase offside of first air outlet to make first deep bead and second deep bead all have to the expansion state that first air outlet front side rotated and launched to and the reverse rotation and accept the accepting state on the casing. When long-distance air supply is needed, the first air baffle and the second air baffle are rotated to the unfolding state, so that the first air baffle and the second air baffle are enclosed to form an outer air duct in butt joint with the first air outlet, and the outer air duct extends forwards. At the moment, the air outlet flow blown forward from the first air outlet is restrained in the outer air duct and blown forward along the outer air duct, so that the air outlet flow is concentrated in air volume, the air speed is kept high, the air flow extrusion acceleration is realized through the distance adjustment between the first air baffle and the second air baffle, the air outlet flow can be blown to a farther position, and the air supply distance is effectively prolonged. When long-distance air supply is not needed, the first air baffle and the second air baffle are rotated to the accommodating state, and the outer air channel is released, so that conventional air supply can be realized.

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 diagram of the internal structure of the air conditioning cabinet of FIG. 1;

FIG. 3 is a schematic structural view of the cabinet air conditioner of FIG. 1 with both dampers in an expanded state;

FIG. 4 is a schematic diagram of the internal structure of the air conditioning cabinet of FIG. 3;

fig. 5 is a schematic structural view of another embodiment of the cabinet air conditioner of the present invention;

fig. 6 is a schematic structural view of another embodiment of the cabinet air conditioner of the present invention;

FIG. 7 is a schematic structural view of the cabinet air conditioner of FIG. 6 with two louvers in an unfolded state;

FIG. 8 is a schematic view of the cabinet air conditioner of FIG. 6 showing one of the directions along which the air holes of the two wind-guard plates penetrate;

FIG. 9 is a schematic view of the second direction of penetration of the air vents of the two wind shields of the air conditioner in FIG. 6;

FIG. 10 is a schematic view of the cabinet air conditioner of FIG. 6 showing one of the first baffles being opened;

fig. 11 is a schematic structural diagram of a second opening manner of the first baffle of the air conditioner in fig. 6;

fig. 12 is a schematic structural diagram of another embodiment of the cabinet air conditioner of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Cabinet air conditioner	60a	First movable door
10	Shell body	60b	Second movable door
				20	Cross flow wind wheel	70a	First guide plate
30	Heat exchanger	70b	Second guide plate
				40	Air deflector	90a	Spiral casing
50a	First wind shield	90b	Volute tongue
				50b	Second wind deflector

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 shorter problem of conventional air conditioner indoor unit air supply distance. 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 the convenience of understanding and explanation, in the accompanying fig. 1 to 12 of the present invention, arrows with dotted lines indicate the rotation direction of the wind wheel and the flow direction of the airflow. 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 and 2, a cabinet air conditioner 100 of the present invention includes a housing 10, a first wind deflector 50a and a second wind deflector 50 b; wherein, the shell 10 is provided with a first air outlet communicated with the air outlet duct; the first wind deflector 50a and the second wind deflector 50b are rotatably mounted on the housing 10, and the first wind deflector 50a and the second wind deflector 50b are respectively located at two opposite sides of the first air outlet; each of the first wind deflector 50a and the second wind deflector 50b has a deployed state (see fig. 2) that is deployed by rotating toward the front side of the first outlet and a stored state (see fig. 1) that is stored in the housing 10 by rotating in the reverse direction.

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, just first air outlet extends along upper and lower direction.

The first wind guard 50a and the second wind guard 50b may be respectively located at upper and lower sides of the first air outlet; of course, the first wind deflector 50a and the second wind deflector 50b may be respectively located at the left and right sides of the first air outlet. Considering that the first outlet extends in a vertical direction to a longer length, the first wind shielding plate 50a and the second wind shielding plate 50b are respectively disposed at the left and right sides of the first outlet, so that the flow guiding effect of the outlet airflow is better, and the left and right sides are preferably disposed.

Referring to fig. 3 and 4, an air outlet duct communicating the air inlet and the first air outlet is formed inside the housing 10. The cabinet air conditioner 100 further includes a heat exchanger 30 and a cross-flow wind wheel 20 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 exchange heat to form outlet airflow, and the outlet airflow is blown to the first air outlet from the outlet air duct and then blown to the indoor through the first air outlet.

The technical scheme of the utility model, through rotating first deep bead 50a and second deep bead 50b respectively on the casing 10 of installation cabinet air conditioner 100, and be located respectively the double-phase offside of first air outlet to make first deep bead 50a and second deep bead 50b all have to first air outlet front side rotates and the expansion state of expansion to and reverse rotation and accept the accepting state on the casing 10. When long-distance air supply is needed, the first wind shield 50a and the second wind shield 50b are rotated to the unfolded state (as shown in fig. 4), so that the first wind shield 50a and the second wind shield 50b enclose and form an outer air duct butted with the first air outlet, and the outer air duct extends forwards. At the moment, the outlet air flow blown out forwards from the first air outlet is restrained in the outer air duct and blown out forwards along the outer air duct, so that the air quantity of the outlet air flow is concentrated, the air speed is kept high, the outlet air flow can be blown to a farther position, and the air supply distance is effectively prolonged; moreover, the air flow can be extruded by adjusting the distance between the first wind deflector and the second wind deflector to accelerate the air flow, when the air supply is not needed to be carried out in a long distance, the first wind deflector 50a and the second wind deflector 50b are rotated to be in a containing state (as shown in fig. 3), and the outer air channel is released, so that the conventional air supply can be realized.

Referring to fig. 3 to 5, in this embodiment, in order to enlarge the air outlet range of the cabinet air conditioner 100, the panel of the casing 10 is further provided with a second air outlet and a third air outlet which are communicated with the air outlet duct, and the second air outlet and the third air outlet are respectively located on two opposite sides of the first air outlet. The first wind deflector 50a is rotatably received in the second air outlet to cover the second air outlet; the second wind blocking plate 50b is rotatably received in the third wind outlet to cover the third wind outlet.

Specifically, the first wind deflector 50a is rotatably mounted at a position between the first air outlet and the second air outlet, so that the first wind deflector 50a rotates to open or close the second air outlet, that is, the second air outlet serves as a receiving position of the first wind deflector 50 a. The second wind deflector 50b is rotatably mounted between the first wind outlet and the third wind outlet, so that the second wind deflector 50b rotates to open or close the third wind outlet, that is, the third wind outlet serves as a receiving position for the first wind deflector 50 a.

Referring to fig. 3, when a user needs to supply air in a conventional manner, the first air baffle 50a and the second air baffle can be respectively accommodated in the second air outlet and the second air outlet, so that the second air outlet is covered by the first air baffle 50a, the third air outlet is covered by the second air baffle 50b, only the first air outlet is opened, and the air outlet flow is supplied to the room from the first air outlet in a conventional manner.

Referring to fig. 4, when the air supply distance needs to be extended, the first air baffle 50a and the second air baffle 50b can be unfolded, and the first air baffle 50a and the second air baffle 50b are matched to form an outer air duct butted with the first air outlet, at this time, the air outlet flow is constrained in the outer air duct, and the distance of blowing the air out forward is longer.

Referring to fig. 5, when a user needs to extend the large-area outlet air, the first wind shield 50a and the second wind shield 50b may be unfolded, the first air outlet and the second air outlet are opened, the outlet air flow blown out from the outlet air duct is divided into three air flows, and the three air flows are respectively blown out from the first air outlet, the second air outlet and the third air outlet, so that three sides of the cabinet air conditioner 100 are exhausted.

Referring to fig. 4 to 5, when the cabinet air conditioner 100 stops working, in order to prevent impurities such as dust in the environment from falling into the casing 10 from the air outlet, 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.

Referring to fig. 4 and 5, based on the above embodiment, in order to effectively extend the air supply distance of the first air outlet, when the first air baffle 50a and the second air baffle 50b are both in the unfolded state, the cross sections of the first air baffle 50a and the second air baffle 50b, which are perpendicular to the vertical direction of the cabinet air conditioner 100, are both in a convex arc shape protruding toward the outer air duct. By the arrangement, the rear end of the outer air duct is gradually reduced, and the front end of the outer air duct is gradually expanded, so that the air flow is favorably blown forwards to a farther position by flowing along the wall, and is radially and forwards diffused at the tail end of the outer air duct, and the air supply range is expanded.

Referring to fig. 6 and 7, a plurality of vent holes are formed through each of the first wind deflector 50a and the second wind deflector 50 b. When the first wind shield 50a and the second wind shield 50b are in a covering state, the outlet air flow passes through the vent holes on the first wind shield 50a and the second wind shield 50b and is scattered, the air speed of the outlet air flow is reduced and becomes softer, so that a user can not feel the wind, and further the second air outlet and the third air outlet can be exhausted without the wind,

please refer to fig. 8, it should be mentioned that when the first wind deflector 50a and the second wind deflector 50b are in the unfolded state, the airflow blown out from the first air outlet blows out forward along the outer air duct, and during this process, there is an air pressure difference between the windward side and the leeward side of the first wind deflector 50a and the second wind deflector 50b, so that the air on the leeward side of the first wind deflector 50a and the leeward side of the second wind deflector 50b is sucked into the outer air duct from the vent holes on the wind deflectors, and this part of the sucked air is mixed with the outlet airflow, thereby effectively increasing the air output.

Referring to fig. 8, the ventilation holes of the first wind deflector 50a and the second wind deflector 50b can be vertically penetrated. Referring to fig. 9, the ventilation holes of the first wind-guard 50a and the second wind-guard 50b may also be obliquely arranged; specifically, when the first wind deflector 50a and the second wind deflector 50b are both in the unfolded state, one end of each of the ventilation holes facing the outer air duct extends obliquely toward the air outlet direction of the outer air duct. Therefore, air on the leeward surfaces of the first wind deflector 50a and the second wind deflector 50b is sucked into the outer air duct from the vent holes on the wind deflectors, and air flow in the outer air duct is difficult to leak to the leeward surfaces of the first wind deflector and the second wind deflector.

Referring to fig. 10, correspondingly, when the first wind deflector 50a and the second wind deflector 50b are both in a closed state, the outer ends of the ventilation holes are inclined towards a direction departing from the first air outlet, so that the air outlet angle is wider, and the air supply range is favorably expanded.

Referring to fig. 10, in view of the above-mentioned embodiment, in order to switch and adjust the air outlets of the first air outlet, the second air outlet, and the third air outlet, in this embodiment, 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 disposed inside the housing 10; cabinet air conditioner 100 further includes a first baffle 70a and a second baffle 70b, first baffle 70 a; the first air guide plate 70a is movably installed in the first air passing opening to movably open or close the first air passing duct; the second air deflector 70b is movably installed in the second air passage to movably open or close the second air passage.

Specifically, the air output of the second air outlet and the third air outlet can be correspondingly adjusted by adjusting the opening degrees of the first flow guide plate 70a and the second flow guide plate 70 b; when the first air passing opening is completely closed by the first guide plate 70a and the second air passing opening is completely closed by the second guide plate 70b, almost all air flow in the air outlet duct blows to the first air outlet, so that the air outlet amount of the first air outlet is concentrated, and the air supply distance for supplying air forwards is greatly increased.

Referring to fig. 10, it is worth mentioning that, by adjusting the opening degrees of the first flow guiding plate 70a and the second flow guiding plate 70b, the user can selectively close the second air outlet and the third air outlet, so as to realize the switching of the air outlet of the first air outlet, the second air outlet and the third air outlet. 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. 10, in the present embodiment, the movable installation manner of the first baffle 70a may be a rotating installation or a sliding installation. The indoor unit of the 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 air deflector 70a is rotatably connected to the front end of the first air passing opening, so that when the first air deflector 70a rotates towards the air outlet duct and the first air passing opening is opened, the first air deflector 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.

Please refer to fig. 11, it should be mentioned that the first air deflector 70a can also be rotatably connected to the front end or the rear end of the first air passing opening, so that the first air deflector 70a can rotate towards the second air outlet to open the first air passing opening. At this time, because the air pressure outside the second air outlet is higher and the air pressure near the first air passing opening is lower, the second air outlet is switched to be the air return opening, that is, the air outside the casing 10 enters the air outlet duct from the second air outlet, and this part of air is mixed with the air outlet flow, and the mixed air flow is softer and the temperature is more balanced. The mixed air flow is respectively blown out from the first air outlet and the third air outlet at the front end of the air outlet duct.

Referring to fig. 10 and 11, 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. 9 and 10, based on any of the above embodiments, it is considered that, when a user usually selects a single air outlet to send air remotely, the other two air outlets are usually required to be closed; or when the user selects the large-range non-wind-sensing air supply, the air outlets are required to be opened simultaneously. If a rotating structure is respectively arranged corresponding to the first wind deflector 50a, the second wind deflector 50b, and the first wind deflector 70a and the second wind deflector 70b, the structures need to be opened or closed one by one, and the control operation is complicated. And the multiple rotating structures inevitably increase the occupied space, which results in an increase in the size and cost of the cabinet air conditioner 100.

Therefore, to avoid this situation, in the present embodiment, the cabinet air conditioner 100 further includes a first linkage and a second linkage; the first linkage device is connected with the first wind shield 50a and the first air deflector 70a, and is used for driving the first air deflector 70a to close the first air passing channel when the first wind shield 50a rotates to the unfolding state; the second linkage device is connected to the second wind deflector 50b and the second wind deflector 70b, and the second linkage device is used for driving the second wind deflector 70b to close the second wind passing channel when the second wind deflector 50b rotates to the unfolded state. The specific structures of the first linkage and the second linkage are common in the market at present, and the types of the first linkage and the second linkage are more, which is not illustrated here.

When a user needs to refrigerate quickly or supply air remotely, the first air baffle 50a and the second air baffle 50b are rotated to the unfolded state, in the process, the first air passing opening is closed by driving the first air baffle 70a through the first linkage device, and the second air passing opening is closed by driving the second air baffle 70b through the second linkage device, so that the air is discharged from the first air outlet with large air volume, and the air supply distance of the cabinet air conditioner 100 is effectively increased.

When a user needs a large air supply range, the first air baffle 50a and the second air baffle 50b are rotated to a containing state, in the process, the first linkage device drives the first air baffle 70a to open the first air passing opening, the second linkage device drives the second air baffle 70b to open the second air passing opening, and partial air outlet flows are respectively blown out indoors through only the ventilation holes in the first air baffle 50a and the second air baffle 50b, so that the second air outlet and the third air outlet can be exhausted without wind sense. At this time, the plurality of air deflectors 40 can also rotate to cover the first air outlet, and part of the outlet air flow is blown out to the indoor through the vent holes on the funny air deflector 40, so that the non-wind-sensing outlet air at the first air outlet is realized, and further the non-wind-sensing outlet air at three sides of the cabinet air conditioner 100 is realized.

Referring to fig. 12, based on any of the above embodiments, the cabinet air conditioner 100 further includes a plurality of air deflectors 40 rotatably mounted at the first air outlet, and the plurality of air deflectors 40 have an unfolding state rotating to be spaced from each other to open the first air outlet and a wind shielding state rotating to be overlapped with each other to cover 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. The air deflectors 40 may be sequentially arranged along the vertical direction, or may be sequentially arranged along the horizontal direction. Specifically, the air deflectors 40 are rotatably mounted to the first air outlet and are sequentially arranged in the left-right direction.

In addition, in order to realize the non-wind-sensing air outlet mode of the first air outlet, an air outlet is formed through the air deflector 40. When a user needs the first air outlet to output air without wind sensation, the air deflector 40 is rotated to the wind shielding state, the output air flow is blown out from the air outlet hole in the air deflector 40, the air speed is reduced and becomes soft, and therefore the wind-out without wind sensation is achieved.

Referring to fig. 12, in order to enhance the non-wind effect of the first outlet, when any two adjacent air deflectors 40 rotate to overlap each other, the two air deflectors 40 may be arranged in a V shape. Accordingly, the plurality of air deflectors 40 are arranged in a W-shape or M-shape. At this time, the air flow passing through the first air guiding plate 40 collides with the air flow passing through the second air guiding plate 40 to be dispersed, so that the outlet air flow is softer, and the non-wind effect is better. Moreover, the air outlet flow passes through the position of the second air deflector 40 and is staggered in the front-back direction in sequence, and a plurality of strands of air flow are mixed to reduce the air speed and frequency, so that the air outlet is softer, and the air outlet noise can be reduced.

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 (14)

1. A cabinet air conditioner, comprising:

the shell is provided with a first air outlet communicated with the air outlet duct; and the number of the first and second groups,

the first wind shield and the second wind shield are rotatably arranged on the shell and are respectively positioned at two opposite sides of the first air outlet; and the first wind deflector and the second wind deflector have a deployed state of rotating to the front side of the first air outlet and deploying, and a housed state of reversely rotating and housing on the housing.

2. The cabinet air conditioner according to claim 1, wherein the panel of the housing further has a second air outlet and a third air outlet, which are communicated with the air outlet duct, and the second air outlet and the third air outlet are respectively located at two opposite sides of the first air outlet; and,

the first wind shield can be rotatably accommodated in the second air outlet so as to cover the second air outlet;

the second air baffle can be rotatably accommodated in the third air outlet to cover the third air outlet.

3. The cabinet air conditioner according to claim 2, 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 provided inside the housing; the cabinet air conditioner further comprises:

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

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

4. The cabinet air conditioner of claim 3, further comprising a first linkage and a second linkage; wherein,

the first linkage device is connected with a first wind shield and a first guide plate and used for driving the first guide plate to close the first air passing channel when the first wind shield rotates to the unfolding state;

the second linkage device is connected with the second wind baffle and the second guide plate and used for driving the second guide plate to close the second wind passing channel when the second wind baffle rotates to the unfolding state.

5. The cabinet air conditioner of claim 4, further comprising a drive coupled to the first and second louvers to drive the first and second louvers to rotate in unison.

6. A cabinet air conditioner as recited in any one of claims 3 through 5, 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 end 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.

7. A cabinet air conditioner as recited in any one of claims 3 through 5 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 first guide plate can rotate towards the second air passing opening to open the second air passing opening.

8. The cabinet air conditioner of any one of claims 2-5, further comprising a first movable door and a second movable door movably mounted to the housing; wherein,

the first movable door is positioned on one side of the second air outlet far away from the first air outlet so as to open or close the second air outlet and at least part of the first air outlet;

the first movable door is positioned on one side of the third air outlet far away from the first air outlet so as to open or close the third air outlet and at least part of the first air outlet.

9. The cabinet air conditioner according to any one of claims 1 to 5, wherein a plurality of ventilation holes are formed through each of the first and second air deflectors.

10. The cabinet air conditioner of claim 9, wherein when the first air baffle and the second air baffle are both in an open state, the first air baffle and the second air baffle enclose an outer air duct abutting the first air outlet; and one end of each ventilation hole facing the outer air duct extends towards the air outlet direction of the outer air duct in a deflection way.

11. The cabinet air conditioner according to claim 10, wherein when the first and second wind deflectors are in the unfolded state, cross sections of the first and second wind deflectors perpendicular to the vertical direction of the cabinet air conditioner are each in a convex arc shape protruding toward the outer air duct.

12. The cabinet air conditioner of any one of claims 1-5, further comprising a plurality of louvers rotatably mounted to the first outlet, the louvers having an open configuration rotated to a spaced apart configuration to open the first outlet, and a wind blocking configuration rotated to an overlapping configuration to close the first outlet.

13. The cabinet air conditioner of claim 12, wherein the air deflector has a plurality of air outlet holes therethrough.

14. The cabinet air conditioner of claim 13, wherein when any two adjacent deflectors rotate to overlap each other, the two deflectors are arranged in a V-shape.