CN106705240A - Cabinet air conditioner - Google Patents

Abstract

The invention discloses a cabinet air conditioner. The cabinet air conditioner comprises a main body which extends up and down. An air duct inner cavity is formed in the main body. The main body comprises a top plate, an air guiding device and a wall plate. A first air outlet communicating with the air duct inner cavity is formed in the top plate. The air guiding device is mounted at the first air outlet. The air guiding device comprises a left air door and a right air door, and the left air door and the right air door are used for guiding air flow blown out of the first air outlet to the left side and the right side correspondingly. The wall plate extends up and down, and the upper end of the wall plate is connected with the top plate. The wall plate comprises a front panel. Two second air outlets which extend up and down and communicate with the air duct inner cavity are formed in the front panel and located in the left side and the right side of the front panel correspondingly. By adoption of the technical scheme, convection of indoor air flow in the vertical direction can be achieved, and convection of the indoor air in the horizontal direction can also be achieved, so that the convection effect is excellent, heat exchange is rapid and uniform, and wind is softer.

Description

Cabinet air-conditioner

Technical field

The present invention relates to air-conditioning technical field, more particularly to a kind of cabinet air-conditioner.

Background technology

The air outlet of existing floor air conditioner cabinet-type air conditioner is arranged on the panel of the top half of fuselage, and heat exchanger is located at machine The inside of half part, and heat exchanger with it is in face air outlet to be obliquely installed；Wind wheel is provided with the latter half of fuselage, when When floor type air-conditioner runs, outside air is imported the inside of cabinet air-conditioner and blows to heat exchanger upwards by wind wheel, with heat exchange Device is blown out after carrying out heat exchange by air outlet.

The air blown out by air outlet can blow out from cabinet-type air conditioner front, so that easily blow-through user, discomfort is caused to user.

The content of the invention

The main object of the present invention is to propose a kind of cabinet air-conditioner, it is intended to make wind sense softer, it is to avoid from air outlet blowout Air blow-through user.

To achieve the above object, cabinet air-conditioner proposed by the present invention is included vertically to the main body for extending, in the main body An air channel inner chamber is formed with, the main body includes top board, air ducting and wallboard, one is offered on the top board with the air channel First air outlet of inner space；The air ducting is installed on first air outlet, the air ducting include being used to by The air-flow blown out by first air outlet corresponds to the left air door and right air door that are oriented to the left and right sides respectively；The wallboard is vertically To extension, the upper end of the wallboard connects the top board, and the wallboard includes front panel, two are offered on the front panel along upper It is lower to extend and with the second air outlet of the air channel inner space, the second air outlet described in two corresponds to be located at before described respectively The left and right sides of plate.

Preferably, one is provided with the top board along preceding rearwardly extending obstruct beam, the obstruct beam goes out described first Air port is divided into the two sub- air ports in left and right, and the left air door and the right air door are correspondingly arranged in the two sub- wind in the left and right respectively Mouthful.

Preferably, it is provided with each described second air outlet vertically to the wind deflector for extending, the wind deflector Upper end and/or lower end rotate with the wallboard and are connected and front and rear can overturn.

Preferably, the air ducting also includes being arranged at multiple wind guide vanes and the motor on the inside of the top board, many Individual wind guide vane edge left and right is to extension, and front and rear to interval setting, the motor is used to drive the multiple wind-guiding Leaf is front and rear to swing.

Preferably, multiple first through hole are offered on the left air door and the right air door.

Preferably, the left air door and the right air door are respectively provided with inner surface and outer surface, the aperture of the first through hole Set in flaring towards the outer surface from the inner surface.

Preferably, an outlet frame is additionally provided with the main body, is provided with described on the upper cover plate of the outlet frame The opening of one air outlet and the air channel inner space, is additionally provided with multiple the positioned at the open circumferential on the upper cover plate One air-vent.

Preferably, first air-vent is bottom-up is obliquely installed in towards the opening.

Preferably, it is further opened with being located at multiple second air-vents on the described first periphery being open on the top board.

Preferably, aperture of the aperture of first air-vent more than second air-vent.

Preferably, first air-vent and second air-vent stagger setting.

Preferably, the lower port of the first air-vent lower port and/or second air-vent is bottom-up in tapered Set.

Technical scheme, by opening up the first air outlet on the top board of cabinet air-conditioner, is in set in the first air outlet Two air doors in left and right are put, and two second air outlets are set on the wallboard of cabinet air-conditioner, so that by adjusting two air doors in left and right, Most of air-flow can be blowed to top from the first air outlet, remaining fraction air-flow is blown out by the second air outlet, from the second air-out Mouthful outflow air-flow velocity it is slower, will not blow-through user, indoor air flow not only can be in upward and downward convection current in addition, can also be in water Put down to convection current, so that convection effects are preferably, heat exchange is very fast, and more uniform, wind sense is softer.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Structure according to these accompanying drawings obtains other accompanying drawings.

Fig. 1 is the structural representation of cabinet air-conditioner first embodiment of the present invention；

Fig. 2 is the explosive view of cabinet air-conditioner in Fig. 1；

Fig. 3 is the flow graph after air-flow is blown out by cabinet air-conditioner in Fig. 1；

Fig. 4 is the assembling structure schematic diagram of the embodiment after the top board of cabinet air-conditioner in Fig. 1 and left and right two air doors assembling；

Fig. 5 is the structural representation at another visual angle of assembling structure of two air doors of top board and left and right in Fig. 4；

Fig. 6 illustrates for the assembling structure of another embodiment after the top board of cabinet air-conditioner in Fig. 1 and left and right two air doors assembling Figure；

Fig. 7 is two sectional views of air door in left and right in Fig. 6；

Fig. 8 is the structural representation of the embodiment for being mountable to the outlet frame in Fig. 1 in cabinet air-conditioner；

Fig. 9 is the structural representation of cabinet air-conditioner second embodiment of the present invention；

Figure 10 is the partial structural diagram of the upper cover plate with an embodiment of top board of cabinet air-conditioner in Fig. 9；

Figure 11 is the partial structural diagram of the upper cover plate with another embodiment of top board of cabinet air-conditioner in Fig. 9.

Drawing reference numeral explanation：

Label	Title	Label	Title
				10	Main body	11	Shell
111	Top board	1110	First cavity
				1111	Second air-vent	112	Base plate
113	Wallboard	113a	Front panel
				113b	Backboard	12	First air outlet
12a	Sub- air port	13	Second air outlet
				14	Air ducting	14a	Left air door
14b	Right air door	14c	Wind guide vane
				141	First through hole	14d	Motor
15	Intercept beam	16	Wind deflector
				20	Outlet frame	21	Upper cover plate
210	Opening	211	First air-vent
				30	Blower fan	40	Heat exchanger

The realization of the object of the invention, functional characteristics and advantage will be described further referring to the drawings in conjunction with the embodiments.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of creative work is not made it is all its His embodiment, belongs to the scope of protection of the invention.

If it is to be appreciated that related in the embodiment of the present invention directionality indicate (such as up, down, left, right, before and after ...), Then directionality indicate to be only used for explain relative position relation between each part under a certain particular pose (as shown in drawings), Motion conditions etc., if the particular pose changes, directionality indicates also correspondingly to change therewith.

If in addition, relating to the description of " first ", " second " etc. in the embodiment of the present invention, being somebody's turn to do " first ", " second " etc. Description be only used for describing purpose, and it is not intended that indicating or implying its relative importance or implicit indicate indicated skill The quantity of art feature.Thus, " first " is defined, at least one spy can be expressed or be implicitly included to the feature of " second " Levy.In addition, the technical scheme between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy Based on enough realizations, when the combination appearance of technical scheme is conflicting or cannot realize it will be understood that the knot of this technical scheme Conjunction does not exist, not within the protection domain of application claims yet.

The present invention proposes a kind of cabinet air-conditioner.

Referring to Figures 1 and 2, cabinet air-conditioner includes main body 10, and main body 10 can be set in cube, or cylindric Set.The outer surface of main body 10 is general by top board 111, base plate 112, and the wallboard between top board 111 and base plate 112 113 are constituted.Wherein, wallboard 113 has panel 113a facing forward, the backboard 113b relative with panel 113a, and connection panel The side plate (it is of course also possible to only there was only panel 113a and backboard 113b) of 113a and backboard 113b, here, panel 113a, the back of the body Plate 113b and side plate can be integrally formed, or split is set.Heat exchanger 40 and blower fan are provided with main body 10 30, the air inlet entered for extraneous air is provided with wallboard 113, air is changed into main body 10 is interior by air inlet with heat exchanger 40 After heat, air-flow is blowed into top by blower fan 30, and blown out by air outlet.

In embodiments of the present invention, reference picture 3 in the lump, cabinet air-conditioner is included vertically to the main body 10 for extending, the master An air channel inner chamber is formed with body 10.The shell 11 of the main body 10 includes top board 111, air ducting 14 and wallboard 113, described First air outlet 12 of one and the air channel inner space is offered on top board 111.The air ducting 14 is installed on described One air outlet 12, the air ducting 14 includes that the air-flow for being used to be blown out by first air outlet 12 corresponds to a guiding left side respectively The left air door 14a and right air door 14b of right both sides.The wallboard 113 is vertically to extension, the upper end connection institute of the wallboard 113 State top board 111, the wallboard 113 includes front panel 113a, offered on the front panel 113a two vertically to extend and with Second air outlet 13 of the air channel inner space, the second air outlet 13 described in two is corresponded to positioned at the front panel 113a's respectively The left and right sides.

Specifically, reference picture 3, are typically provided with an outlet frame 20 (such as Fig. 8), the upper lid of outlet frame 20 in the inner chamber of air channel Plate 21 is provided with opening 210.When blower fan 30 runs, air-flow enters by flowing upwardly toward outlet frame 20 after the heat exchange of heat exchanger 40 On the one hand the air-flow of outlet frame 20 is directly over opening 210 and is blown out from the first air outlet 12, on the other hand by the second air outlet 13 Outflow.To the driving direction of air-flow it is upward due to blower fan 30, thus, after air-flow enters outlet frame 20, by the first air outlet 12 directly blowout can substantially reduce air-flow outflow resistance (prior art is to stop by outlet frame 20, blows out air-flow 90 ° of Angulation changes, air-flow that also will be straight up changes over the air-flow that level blows out) so that refrigeration is more preferably.In addition, Because the flow velocity of air-flow in the vertical direction is more anxious, the air pressure of air channel inner chamber is of a relatively high, therefore, a part of air-flow can be from second Air outlet 13 slowly flows out.

When cabinet air-conditioner runs, the air door of left and right two is opened, after being blown out upwards from the air-flow of the blowout of the first air outlet 12, The air of indoor top half cools down rapidly (air-flow flowed out from the first air outlet 12 is flowed to upper left side and upper right side), The air flows upwards of indoor the latter half, so that the air of interior forms circulation, the air of indoor top half and lower half There is heat exchange in the air for dividing.In addition, from two second air outlet 13 blowout air-flow velocity it is slower, will not blow-through user, but Due to the presence of the second air outlet 13, it is a low-temperature receiver, the sky of indoor the latter half that the vicinity of two the second air outlets 13 becomes Gas also can occur heat exchange with the cold air convection near the second air outlet 13.Therefore, in the first air outlet 12 and the second air-out Under mouthfuls 13 collective effect, cabinet air-conditioner not only will not blow-through user, and after cabinet air-conditioner operation, indoor air flow not only may be used With in upward and downward convection current, can also be in level to convection current, so that convection effects are preferably, heat exchange is very fast, and wind sense is soft.

Here, when the first air outlet 12 opens larger, the air-flow of the outflow of the second air outlet 13 is less, and this is to level to gas The convection current of stream is unfavorable.By overturning left air door 14a and right air door 14b, to adjust the air-out area of the first air outlet 12, and then user The ratio of the throughput blown out by the first air outlet 12 and the throughput blown out by the second air outlet 13 can be adjusted, so that room Interior air-flow convection effects are more preferably.For example, when left and right air door 14b is opened completely, the throughput blown out by the first air outlet 12 is accounted for The 80% of total amount, the throughput blown out by the second air outlet 13 accounts for the 20% of total amount.By overturning two air doors in left and right, make first The effective area of air outlet 12 is the half of original area, and its air output is changed into 60%, the air-flow blown out by the second air outlet 13 Total amount accounts for 40%.Such that it is able to be adjusted to airflow convection effect, and upward and downward airflow convection effect to level, room can be made Interior air-flow convection current is evenly.

Technical scheme by opening up the first air outlet 12 on the top board 111 of cabinet air-conditioner, in the first air-out Mouth 12 sets two second air outlets 13 in two air doors in setting left and right on the wallboard 113 of cabinet air-conditioner, so as to pass through regulation Two air doors in left and right, can blow to cabinet air-conditioner top by most of air-flow from the first air outlet 12, and remaining fraction air-flow is by the Two air outlets 13 blow out, and the air-flow velocity from the outflow of the second air outlet 13 is slower, will not blow-through user.Other indoor air flow is not only Can be in upward and downward convection current, can also be in level to convection current, so that convection effects are preferably, heat exchange is very fast, and more uniform, wind sense is more It is soft.

When reference picture 4, left air door 14a and right air door 14b close the first air outlet 12, spacing therebetween can not mistake Greatly can not be too small.If the two spacing is excessive, then the wind effect of air door of left and right two will weaken (fraction from the two Between blow out).If the two spacing is too small, then when the air door of left and right two overturns, easily interfere, so as to cause left and right Two air doors can not be all overturn to precalculated position, influence wind effect.In the present embodiment, to solve the above problems, the top One is provided with plate 111 along preceding rearwardly extending obstruct beam 15, first air outlet 12 is divided into a left side by the obstruct beam 15 The right side two sub- air port 12a, the left air door 14a and the right air door 14b are correspondingly arranged in the two sub- air ports in the left and right respectively 12a.So, on the one hand, be also impossible to interfere between left air door and right air door；On the other hand, even if two air doors in left and right Interfered with obstruct beam in upset, simply one of air doors of left and right two may interfered with obstruct beam 15, the air door of left and right two It is relatively low with the possibility for intercepting the interference of beam 15.

Here, the air door of left and right two can be rotated with the inwall of the first air outlet 12 be connected, can also be with the obstruct beam 15 It is hinged.Certainly, in order that left and right two wind effects and rotating effect of air door more preferably, preferably left and right two air doors with intercept beam 15 are hinged.

Reference picture 5, in the presence of two air doors in left and right, air-flow is directed to the left and right sides.In order that the angle of air-flow blowout Degree is wider, and scope is bigger, and in the present embodiment, the air ducting 14 also includes being arranged at the multiple of the inner side of the top board 111 Wind guide vane 14c and motor 14d, multiple wind guide vane 14c along left and right to extension, it is described and front and rear to interval setting Motor 14d is used to drive the multiple wind guide vane 14c front and rear to swing.In this way, in the presence of wind guide vane 14c, it is left Air-flow can be oriented to left front and left back by air door 14a, and air-flow can be oriented to right front and right back by right air door 14b.When During wind guide vane 14c sustained oscillations, multiple directions can be not only flowed to from the air-flow of the blowout of the first air outlet 12, but also can become Change, so that the scope of air flow direction is bigger, beneficial to the convection current of room air.

In one embodiment, reference picture 1 and Fig. 3, in order to the air-flow for blowing out the second air outlet 13 is oriented to wide range, More balanced with improving indoor air flow convection current, evenly, be provided with each described second air outlet 13 vertically to extension Wind deflector 16, the upper end and/or lower end of the wind deflector 16 and the wallboard 113 rotate and are connected and front and rear can overturn.Here, being Be easy to automatically control wind deflector 16 and overturn, motor can be installed in wallboard 113 inwall, the upper end of motor connection wind deflector 16 or Lower end, so that the upset in the second air outlet 13 of wind deflector 16 is driven, and then, after air-flow is derived by two air doors, air-flow blowout Scope is wider.

Reference picture 6, when air-flow blows to two air doors in left and right, is stopped by two air doors of left and right, on the one hand can cause wind-force Impaired, on the other hand, impact of the air-flow to two air doors of left and right can also produce noise.In the present embodiment, on the air door of left and right two Offer multiple first through hole 141.In this way, two air doors of left and right stop that the effective area of air-flow is reduced, windage can be substantially reduced, The noise produced by the air door of gas shock or so two is also accordingly reduced.

Additionally, air-flow blow to left and right two air doors when, the air door of left and right two outer surface (air door has inner surface and outer surface, When two air doors of left and right close the first air outlet 12, down, outer performance is upward for inner surface) condensed water can be produced, if do not located Reason, condensed water can be flowed into the inner chamber of air channel, blown out by the first air outlet 12 in turn, cause unfavorable to user.Due to first logical The presence in hole 141, is stopped by air door, and a part of airflow direction changes (such as with level to angle in 45 °), another part Air-flow is passed from first through hole 141, so that, the air themperature of the outer surface of the air door of left and right two is relatively low, outside the air door of left and right two Surface will not produce condensed water.

Further, since the presence of first through hole 141, the air-flow blown out by the first air outlet 12 by after two air doors of left and right, A part of air-flow flows through first through hole 141, a part of air-flow with vertically to blowout in a certain angle so that, air-flow blowout Angle it is wider, the convection current of indoor air flow and heat exchange are evenly.

On the basis of a upper embodiment, reference picture 7 in the lump, it is contemplated that, after air-flow passes through first through hole 141, if Air-flow velocity is more anxious, then the air of surrounding can rapidly flow to the outer surface of two air doors of left and right, and also not etc. the temperature of upper surface is not cold But, condensed water has just been formd.In the present embodiment, in order to further avoid upper surface from forming condensed water, described first leads to The aperture in hole 141 is set towards the outer surface from the inner surface in flaring.Because this flaring of first through hole 141 sets Put, even if the flow velocity that air-flow enters first through hole 141 is larger, reduced rapidly from the air-flow velocity of the second through hole outflow, so that can With rapid covering to the outer surface of two air doors of left and right, the temperature of the outer surface cools down rapidly, is difficult to form condensed water.

Reference picture 8, typically outlet frame 20 is provided with the inner chamber of air channel, in the present embodiment, the outlet frame 20 it is upper One towards the opening 210 of first air outlet 12 is provided with cover plate 21, is additionally provided with the upper cover plate 21 positioned at described Be open multiple first air-vents 211 on 210 peripheries.Here, the resistance in view of the corresponding upper cover plate 21 in the periphery of opening 210 to air-flow Power is larger, in this way, when air-flow blows upwards, the noise of generation is larger.After setting the first air-vent 211, upper cover plate 21 is to air-flow Resistance is reduced, and the noise produced by gas shock air door is also correspondingly reduced.

Furthermore, in order that the air-flow in outlet frame 20 at utmost flows to the first air outlet 12, so as to reduce wind Resistance, to improve the efficiency of cabinet air-conditioner, first air-vent 211 is bottom-up to be obliquely installed in towards the opening 210.

Reference picture 9, in a further preferred embodiment, it is contemplated that from after the blowout of the first air-vent 211, fraction is or not air-flow Directly can be blown out from the first air outlet 12, therefore, vortex can be formed between upper cover plate 21 and top board 111, so that on the one hand meeting Produce noise.To solve this problem, in the present embodiment, it is further opened with being located at the described first opening 210 on the top board 111 Periphery multiple second air-vents 1111.So, on the one hand, the setting of the first air-vent 211 and the second air-vent 1111, can To substantially reduce windage loss, the efficiency of cabinet air-conditioner is improved.On the other hand, the noise for being produced in main body 10, by upper cover plate 21 and the obstruct of top board 111, it is finally relatively low from the noise that main body 10 sends.

Reference picture 10, forms one first cavity 1110 between upper cover plate 21 and top board 111, the noise produced in the inner chamber of air channel By after upper cover plate 21, noise components are absorbed, lower noise, first cavity 1110 is being entered by the first air-vent 211 Afterwards, by first cavity 1110, each side wall is absorbed, and be reduce further, therefore is finally spread out of by the second air-vent 1111 Noise it is relatively small.In order that the noise reduction of the upper cover plate 21 and top board 111 is more preferably, first air-vent 211 with Second air-vent 1111 in settings of staggering (in upper cover plate 21 towards being in setting of staggering on the direction of top board 111), to avoid Noise by the second air-vent 1111 directly by outlet frame 20 into directly being spread out of after the first cavity 1110, and then so that noise reduction More preferably.

In addition, reference picture 11, above-mentioned first air-vent 211 has two ports, and one of them is be close to top board 111 upper Port, another port is the lower port relative with upper port, in order that upper cover plate 21 to the assimilation effect of noise more preferably, Yu Benshi Apply in example, the lower port of first air-vent 211 is bottom-up in tapered setting.Equally, above-mentioned second air-vent 1111 With two ports, in order that top board 111 to the assimilation effect of noise more preferably, the lower port of second air-vent 1111 is under It is in upwards tapered setting.

Although noise can successively enter outlet frame 20 and above-mentioned first cavity 1110.Noise passes through by outlet frame 20 After one-level noise reduction, the noise of a part can be filtered, then another partial noise is filtered by above-mentioned first cavity 1110.Here, Aperture in view of the first air-vent 211 crosses conference and causes air molecule vibrating effect in the first cavity 1110 not good, noise reduction effect Fruit is also bad.Therefore, in one embodiment, the aperture d of first air-vent 211₁3mm is less than or equal to more than 0.In addition, such as Really the aperture of the first air-vent 211 is too small, air-flow be difficult to through, so, the aperture of the first air-vent 211 is in 1.5mm to 2.5mm It is better embodiment.Equally, the aperture d of the second air-vent 1111₂Unsuitable excessive, the aperture d of the second air-vent 1111₂More than 0 Less than or equal to 2mm；Certain d₂It is not easy to too small, the aperture d of the second air-vent 1111 herein₂It is preferably implementation in 1mm to 1.5mm Mode.It should be noted that the aperture d of first air-vent 211₁It is greater than the aperture d of second air-vent 1111₂.This Because, after the upper cover plate 21 of outlet frame 20 is filtered, remaining noise is relatively small, the aperture d of the second air-vent 1111₂ There is no need to be made larger, be made the larger vibrating effect that can influence air in the first cavity 1110 on the contrary.

The preferred embodiments of the present invention are the foregoing is only, the scope of the claims of the invention is not thereby limited, it is every at this Under the inventive concept of invention, the equivalent structure transformation made using description of the invention and accompanying drawing content, or directly/use indirectly It is included in scope of patent protection of the invention in other related technical fields.

Claims (12)

1. a kind of cabinet air-conditioner, including an air channel inner chamber is vertically formed with the main body to the main body for extending, its feature exists In the main body includes：

Top board, offers first air outlet of one and the air channel inner space on the top board；

Air ducting, is installed on first air outlet, and the air ducting includes being used to be blown out by first air outlet Air-flow respectively correspond to be oriented to the left and right sides left air door and right air door；

Wallboard, vertically to extension, the upper end of the wallboard connects the top board, and the wallboard includes front panel, it is described before Offered on plate two vertically to extend and with the second air outlet of the air channel inner space, described in two second air outlet difference Correspondence is positioned at the left and right sides of the front panel.

2. cabinet air-conditioner as claimed in claim 1, it is characterised in that is provided with the top board along preceding rearwardly extending resistance Every beam, first air outlet is divided into the two sub- air ports in left and right, the left air door and the right air door point by the obstruct beam The two sub- air ports in the left and right are not correspondingly arranged in.

3. cabinet air-conditioner as claimed in claim 1, it is characterised in that the air ducting also includes being arranged in the top board Multiple wind guide vanes and motor of side, multiple wind guide vanes along left and right to extension, and front and rear to interval setting, the drive Dynamic motor is used to drive the multiple wind guide vane front and rear to swing.

4. cabinet air-conditioner as claimed in claim 1, it is characterised in that be provided with vertically at each described second air outlet To the wind deflector for extending, the upper end and/or lower end of the wind deflector and the wallboard rotate and are connected and front and rear can overturn.

5. cabinet air-conditioner as claimed in claim 1, it is characterised in that offered on the left air door and the right air door many Individual first through hole.

6. cabinet air-conditioner as claimed in claim 5, it is characterised in that the left air door and the right air door are respectively provided with inner surface And outer surface, the aperture of the first through hole is set towards the outer surface from the inner surface in flaring.

7. cabinet air-conditioner as claimed in claim 1, it is characterised in that be additionally provided with an outlet frame in the main body, it is described go out It is provided with first air outlet and the opening of the air channel inner space on the upper cover plate of wind frame, is also set on the upper cover plate It is equipped with multiple first air-vents positioned at the open circumferential.

8. cabinet air-conditioner as claimed in claim 7, it is characterised in that first air-vent is bottom-up to be opened in described in Mouth is obliquely installed.

9. cabinet air-conditioner as claimed in claim 7, it is characterised in that be further opened with being located at the described first opening on the top board Periphery multiple second air-vents.

10. cabinet air-conditioner as claimed in claim 9, it is characterised in that the aperture of first air-vent is more than described second The aperture of air-vent.

11. cabinet air-conditioners as claimed in claim 9, it is characterised in that first air-vent is wrong with second air-vent Open up and put.

12. cabinet air-conditioners as claimed in claim 9, it is characterised in that the first air-vent lower port and/or described second The lower port of air-vent is bottom-up in tapered setting.