CN207990792U - A kind of cabinet air-conditioner and air conditioner - Google Patents

Abstract

A kind of cabinet air-conditioner of the utility model offer and air conditioner, the wherein described cabinet air-conditioner can be set to by suspension on wall (1), the cabinet air-conditioner includes air outlet (4), and the air outlet (4) connects with the wall (1), so that air-flow carries out outlet air by the air outlet (4) along the wall direction of wall (1).It enables to the outlet air position of air-conditioning to improve by the utility model, air-conditioner air outlet is avoided to have the case where furniture stops by influences air quantity, and air outlet is blown along wall, so that the wind sent out can carry out systemic circulation around room, realize Coanda effect, so that room temperature is more uniformly spread, the case where preventing local temperature difference improves indoor comfort degree；Simultaneously because cabinet air-conditioner is arranged by suspension so that its occupancy interior space is smaller, improves interior space utilization rate.

Description

A kind of cabinet air-conditioner and air conditioner

Technical field

The utility model belongs to air-conditioning technical field, and in particular to a kind of cabinet air-conditioner and air conditioner.

Background technology

Existing cabinet-type air conditioner includes round cabinet-type air conditioner and rectangular cabinet-type air conditioner, and the general wall that pastes is positioned on ground, specific mounting means As shown below.But modern architecture an inch of land is an inch of gold, the existing mounting means of cabinet-type air conditioner and position need to occupy larger parlor Corner space about occupies 0.5 ㎡.Existing cabinet-type air conditioner mounting means and position are difficult to that air-flow is made fully to follow in room simultaneously Ring causes room to have local location temperature uneven.

Since cabinet air-conditioner in the prior art there are problems that occupying the interior space and room local location temperature not The technical problems such as equal problem, therefore the utility model research and design goes out a kind of cabinet air-conditioner and air conditioner.

Utility model content

Therefore, the technical problem to be solved by the present invention is to overcome cabinet air-conditioner in the prior art to there is indoor room Between temperature distributing disproportionation defect, to provide a kind of cabinet air-conditioner and air conditioner.

The utility model provides a kind of cabinet air-conditioner comprising：

The cabinet air-conditioner can be set to by suspension on wall, and the cabinet air-conditioner includes air outlet, and the outlet air Mouth connects with the wall, so that air-flow carries out outlet air by the air outlet along the wall direction of wall.

Preferably,

The cabinet air-conditioner can carry out spinning upside down installation, and the air-out direction of the air outlet is equal with the wall Row.

Preferably,

The cabinet air-conditioner, which is hung, is set to wall corner, and the turning of the wall includes the first wall surface and the second wall Face, the cabinet air-conditioner include shell, and the shell includes first side and second side, and the first side and described One wall surface fits, and the second side fits with second wall surface.

Preferably,

The cabinet air-conditioner includes the heat exchanger for being set to the enclosure interior, and the heat exchanger includes straight at least two Section is the first straight section and the second straight section, dog-ear is formed between first straight section and second straight section；The cabinet air-conditioner Enter the wind region include at least two at, for first air inlet region and second air inlet region, and air-flow from it is described first air inlet region into Enter and exchange heat in first straight section, air-flow, which enters from second air inlet region in second straight section, to exchange heat.

Preferably,

The combination for being projected as isosceles triangle and isosceles trapezoid of the shell in the horizontal plane, the first side and institute It states second side and constitutes the waist edges such as two of the isosceles triangle, and the first side waist edge and described first of the isosceles trapezoid Wall surface connect and vertically, the second side waist edge connect with second wall surface and vertical, the air outlet is set to the second side In waist edge.

Preferably,

First side waist edge of the shell is opposite with first straight section, with formed between described first into Wind region, the bottom edge of the isosceles trapezoid is opposite with second straight section, enters the wind region to form described second between.

Preferably,

The projection of the shell in the horizontal plane is square, and the first side and second side composition are described just Two rectangular adjacent and vertical sides, and the third side of the square connects and vertical, described with first wall surface The four side of square connects and vertical with second wall surface, and the air outlet is set on the four side close institute State the position of the second wall surface.

Preferably,

The part of the third side of the square is opposite with first straight section, described to be formed between First air inlet region, the remainder of the third side of the square is opposite with second straight section, with the two it Between formed it is described second air inlet region.

Preferably,

The shell in the horizontal plane be projected as isosceles triangle and semicircular combination, the first side and described Second side constitutes the waist edges such as two of the isosceles triangle, and the tangentially extending formation in described semicircular one end with it is described First wall surface connects and the first vertical trimming, the semicircular tangentially extending formation of the other end and the second wall surface phase It connects and the second vertical trimming, the air outlet is set in second trimming.

Preferably,

First trimming of the shell is opposite with first straight section, to form first air inlet between Region, the semicircle is opposite with second straight section, enters the wind region to form described second between.

Preferably,

The combination for being projected as an isosceles trapezoid and two right-angled trapeziums of the shell in the horizontal plane, first side Side and the second side constitute the waist edges such as two of the isosceles trapezoid, the on-right angle waist edge of a right-angled trapezium and described the Two wall surfaces connect and vertically, the right angle waist of two right-angled trapeziums coincides and connects with first wall surface and folder at 45 ° Angle, the air outlet are set in the on-right angle waist edge.

Preferably,

The right angle waist of the shell is opposite with first straight section, to form first air inlet between Region, it is opposite with second straight section positioned at the bottom edge of the right-angled trapezium in outside, to form described second between Enter the wind region.

Preferably,

It is projected as an isosceles trapezoid on the shell horizontal plane, the first side and the second side constitute institute State the waist edges such as two of isosceles trapezoid, and the bottom edge positioned at outside of the isosceles trapezoid connect with first wall surface and at The bottom edge positioned at outside of 45 ° of angles and the isosceles trapezoid also connects with second wall surface and angle at 45 °, it is described go out Air port is set to the position on the bottom edge and close to second wall surface.

Preferably,

The bottom edge is opposite with first straight section close to the part of first wall surface, described to be formed between First air inlet region, the stage casing on the bottom edge is opposite with second straight section, enters the wind area to form described second between Domain.

The utility model also provides a kind of air conditioner comprising preceding any one of them cabinet air-conditioner.

A kind of cabinet air-conditioner and air conditioner provided by the utility model have the advantages that：

The cabinet air-conditioner and air conditioner of the utility model, by the way that cabinet air-conditioner can be set to by suspension on wall, institute It includes air outlet to state cabinet air-conditioner, and the air-out direction of the air outlet carries out outlet air along the wall direction of wall, can make It improves, air-conditioner air outlet is avoided to have the case where furniture stops and influences air quantity, and air outlet edge in the outlet air position for obtaining air-conditioning Wall air-supply so that the wind sent out can carry out systemic circulation around room, realize Coanda effect so that room temperature is distributed more The case where being uniform, preventing local temperature difference improves indoor comfort degree；Simultaneously because cabinet air-conditioner is arranged by suspension so that Its occupancy interior space is smaller, improves interior space utilization rate.

Description of the drawings

Fig. 1 is the first installation diagram of the cabinet air-conditioner of the utility model indoors；

Fig. 2 is the second installation diagram of the cabinet air-conditioner of the utility model indoors；

Fig. 3 is the structural schematic diagram of the embodiment 1 of the cabinet air-conditioner of the utility model；

Fig. 4 is the structural schematic diagram of the embodiment 2 of the cabinet air-conditioner of the utility model；

Fig. 5 is the structural schematic diagram of the embodiment 3 of the cabinet air-conditioner of the utility model；

Fig. 6 is the structural schematic diagram of the embodiment 4 of the cabinet air-conditioner of the utility model；

Fig. 7 is the structural schematic diagram of the embodiment 5 of the cabinet air-conditioner of the utility model.

Reference numeral is expressed as in figure：

1, wall；11, the first wall surface；12, the second wall surface；2, heat exchanger；21, the first straight section；22, the second straight section；3, into Wind region；31, the first air inlet region；32, the second air inlet region；4, air outlet；5, fan blade；6, shell；61, first side；62、 Second side；63, the first side waist edge；64, the second side waist edge；65, the bottom edge of isosceles trapezoid；66, third side；67, the 4th side Side；68, semicircle；69, the first trimming；610, the second trimming；611, on-right angle waist edge；612, right angle waist；613, right angle ladder The bottom edge of shape；614, the bottom edge in outside；100, cabinet air-conditioner.

Specific implementation mode

As shown in figs. 1-7, the utility model provides a kind of cabinet air-conditioner comprising：

The cabinet air-conditioner can be set on wall 1 by suspension, and the cabinet air-conditioner includes air outlet 4, and it is described go out Air port 4 connects with the wall 1, so that air-flow carries out outlet air by the air outlet 4 along the wall direction of wall 1.

By the way that cabinet air-conditioner suspension to be set on wall, the cabinet air-conditioner includes air outlet, and the air outlet Air-out direction carries out outlet air along the wall direction of wall, and the outlet air position of cabinet air-conditioner is enabled to improve, air-conditioning is avoided to go out Air port has furniture to stop the case where influence air quantity that and air outlet is blown along wall so that the wind sent out can be around Room carries out systemic circulation, realizes Coanda effect so that and room temperature is more uniformly spread, the case where preventing local temperature difference, Improve indoor comfort degree；Simultaneously because cabinet air-conditioner is arranged by suspension so that its occupancy interior space is smaller, improves Interior Space Between utilization rate.

The utility model designs a kind of novel floor standing air-conditioner structure；Cabinet-type air conditioner can be rotated up and down according to room layout and hang up Installation；It solves the problems, such as to occupy installation space；Solve the problems, such as that room local location temperature is uneven simultaneously；Improve comfort.

Preferably,

The cabinet air-conditioner can carry out spinning upside down installation, and (Fig. 1 is positive installation, and Fig. 2 is after the cabinet-type air conditioner of Fig. 1 reverses Installation), the air-out direction of the air outlet is parallel with the wall.Cabinet air-conditioner can be overturn and be installed in this way, keep it suitable Answer performance stronger, and air outlet direction is parallel with wall that Coanda effect can be better achieved so that the wind sent out around It room and carries out systemic circulation, improve indoor temperature distribution uniformity coefficient, improve indoor comfort degree.

Preferably, the cabinet air-conditioner, which is hung, is set to 1 corner of wall, and the turning of the wall includes the first wall surface 11 and second wall surface 12, and first wall surface 11 is mutually perpendicular to second wall surface 12, the cabinet air-conditioner includes shell 6, the shell 6 includes first side 61 and second side 62, and the first side 61 and first wall surface 11 fit, The second side 62 fits with second wall surface 12.

Cabinet air-conditioner is hung on into wall corner, can further save the interior space of occupancy, by first side with The fitting of first wall surface, second side are bonded with the second wall surface, can further decrease cabinet-type air conditioner and gap between the walls, reduce cabinet-type air conditioner Occupied space, Fig. 1 and Fig. 2 are the scheme of installation of the novel floor standing air-conditioner structure of application, which can root It is rotated up and down installation according to the layout in user room, while making to hang up on corner, solving existing cabinet-type air conditioner must put It is placed on ground, occupies ground very large space, while disclosure satisfy that the various demands of user, after the completion of avoiding room finish, The air outlet of air-conditioning has the blocking of other furniture to influence air quantity.And the air-conditioning hangs the corner for being installed on room, outlet air up Mouth is blown along wall, and the wind then sent out can carry out systemic circulation around room, realize Coanda effect, it can be achieved that room There is no local temperature differences.

Preferably,

The cabinet air-conditioner includes being set to heat exchanger 2 (preferably evaporator) inside the shell 6 and fan blade 5 is (excellent It is selected as through-flow fan blade), the heat exchanger 2 includes straight section at least two, is the first straight section 21 and the second straight section 22, and described first is straight Dog-ear is formed between section 21 and second straight section 22；The air inlet region 3 of the cabinet air-conditioner include at least two at, be first into Region 32 is entered the wind in wind region 31 and second, and air-flow enters in first straight section 21 from first air inlet region 31 and changed Heat, air-flow, which enters from second air inlet region 32 in second straight section 22, to exchange heat.

This is the further preferred embodiment of the cabinet-type air conditioner of the utility model, is set at least two air inlet Region can further increase the incoming air area of cabinet air-conditioner, to further increase air-out volume so that air outlet edge It wall, form Coanda effect, achieve the purpose that, to large area cycle blowing in room, to improve and stablize uniformly distributed property.

Embodiment 1

The specific preferred embodiment of the first of the utility model is referring to Fig. 3, it is preferable that the shell 6 is in the horizontal plane The combination for being projected as isosceles triangle and isosceles trapezoid, the first side 61 and the second side 62 constitute the isosceles The waist edges such as two of triangle, and the first side waist edge 63 of the isosceles trapezoid connect with first wall surface 11 and it is vertical, the Two side waist edges 64 connect and vertical with second wall surface 12, and the air outlet 4 is set in the second side waist edge 64.

The combination of isosceles triangle and isosceles trapezoid in this way enables to air outlet from perpendicular with the second wall surface The second side waist edge position blowout so that the air-flow of blowout is vertical with the second side waist edge, it is then parallel with the second wall surface and It is blown out to the right along the second wall surface, ensures that the wind of air outlet blowout along the second wall surface and is parallel to the second wall surface in this way so that The Coanda effect of generation becomes apparent, so that the wind of blowout more large area so that indoor temperature distribution is more uniformly distributed, and is relaxed Adaptive is more preferable.

Preferably,

First side waist edge 63 of the shell 6 is opposite with first straight section 21, described to be formed between First air inlet region 31, the bottom edge 65 of the isosceles trapezoid are opposite, described to be formed between with second straight section 22 Second air inlet region 32.This be the embodiments of the present invention 1 air inlet part preferred constructive form, to formed from institute It states at the first opposite side waist edge of the first straight section and is carried out at two from the bottom edge of the isosceles trapezoid opposite with second straight section Air inlet improves incoming air area, improves heat exchange efficiency, improves indoor temperature and is evenly distributed with property, comfort improves.

It includes two that region 3 is entered the wind in Fig. 3, and one is parallel to the first wall surface 11, the other is being in the first wall surface 11 45 ° and on the bottom edge of the isosceles trapezoid of shell 6, and the air-out direction of air outlet 4 is then parallel to the second wall surface 12, with outlet air Mouth 4 is in 90 degree, and primary structure form is to be combined to be formed by isosceles triangle and isosceles trapezoid, and can guarantee air intake foot in this way Enough, outlet air can be recycled along wall 1.

The mounting surface size of complete machine is identical between different embodiments, is the isosceles triangle in figure, and embodiment 1 into The position of air outlet and size are then the isosceles trapezoids illustrated in figure, then are that air outlet is located on the position of isosceles trapezoid, and into Air port and air outlet are orthogonal, and air-flow will not resorption.

Embodiment 2

Second of specific preferred embodiment of the utility model is referring to Fig. 4, it is preferable that the shell 6 is in the horizontal plane Projection be square, the first side 61 and the second side 62 constitute two of the square it is adjacent and vertical Side, and the third side 66 of the square connects with first wall surface 11 and the four side 67 of vertical, the described square Connect with second wall surface 12 and vertical, the air outlet 4 is set on the four side 67 close to second wall surface 12 position.

Square structure in this way enables to air outlet from the position of the four side perpendicular with the second wall surface Blowout so that the air-flow of blowout is vertical with four side, then parallel with the second wall surface and blown out to the right along the second wall surface, Ensure that the wind of air outlet blowout along the second wall surface and is parallel to the second wall surface in this way so that the Coanda effect of generation is more bright It is aobvious, so that the wind of blowout more large area so that indoor temperature distribution is more uniformly distributed, and comfort is more preferable.

Preferably,

The part of the third side 66 of the square is opposite with first straight section 21, to be formed between First air inlet region 31, the remainder of the third side 66 of the square and second straight section 22 with respect to, To form second air inlet region 32 between.This is the preferred knot of the air inlet part of the embodiments of the present invention 2 Configuration formula, to formed from the part of the third side opposite with first straight section (left section) and from second straight section It is entered the wind at (right section) two at the remainder of opposite third side, improves incoming air area, improve heat exchange efficiency, improve room Interior temperature distribution equalizing, comfort improve.

Its structure type can be square in Fig. 4.Region 3 is entered the wind in Fig. 4 is parallel to the first wall surface 11, and air outlet 4 air-out direction is then parallel to the second wall surface 12, is in 90 degree with air outlet 4.

Embodiment 3

The third specific preferred embodiment of the utility model is referring to Fig. 5, it is preferable that the shell 6 is in the horizontal plane Be projected as isosceles triangle and semicircular combination, the first side 61 and the second side 62 constitute the isosceles three The angular waist edges such as two, and described semicircle 68 one end it is tangentially extending formation connect with first wall surface 11 simultaneously it is vertical The first trimming 69, the tangentially extending formation of the semicircular other end connects and vertical second with second wall surface 12 Trimming 610, the air outlet 4 are set in second trimming 610.

Isosceles triangle in this way and semicircular composite structure enable to air outlet mutually to hang down from the second wall surface The position of the second straight trimming is blown out so that the air-flow of blowout is vertical with the second trimming, then and edge parallel with the second wall surface It the second wall surface to blow out to the right, ensures that the wind of air outlet blowout along the second wall surface and is parallel to the second wall surface in this way so that production Raw Coanda effect becomes apparent, so that the wind of blowout more large area so that indoor temperature distribution is more uniformly distributed, comfortably Property is more preferable.

Preferably,

First trimming 69 of the shell 6 is opposite with first straight section 21, to form described the between One air inlet region 31, described semicircle 68 enter the wind area relatively, to form described second between with second straight section 22 Domain 32.This be the embodiments of the present invention 3 air inlet part preferred constructive form, to formed from first straight section At the first opposite trimming (left section) and from being entered the wind at (stage casing) two from the semi-circular portion opposite with second straight section, Incoming air area is improved, heat exchange efficiency is improved, indoor temperature is improved and is evenly distributed with property, comfort improves.

Its structure type can be formed by isosceles triangle and half of circular combination in Fig. 5.Region 3 is entered the wind along arc point Cloth and in the first trimming 69 and semicircle 68 of shell 6, and the air-out direction of air outlet 4 is then parallel to the second wall surface 12.

Embodiment 4

The specific preferred embodiment of the 4th kind of the utility model is referring to Fig. 6, it is preferable that the shell 6 is in the horizontal plane The combination for being projected as an isosceles trapezoid and two right-angled trapeziums, the first side 61 and the second side 62 constitute institute State the waist edges such as two of isosceles trapezoid, the on-right angle waist edge 611 of a right-angled trapezium connect with second wall surface 12 and it is vertical, The right angle waist 612 of two right-angled trapeziums coincides and connects with first wall surface 11 and angle at 45 °, the air outlet 4 It is set to the on-right angle waist edge 611.

The composite structure of an isosceles trapezoid and two right-angled trapeziums in this way enables to air outlet from second The position of the perpendicular on-right angle waist edge of wall surface is blown out so that the air-flow of blowout is vertical with on-right angle waist edge, then with the second wall Face is parallel and is blown out to the right along the second wall surface, ensures that the wind of air outlet blowout along the second wall surface and is parallel to second in this way Wall surface so that the Coanda effect of generation becomes apparent, so that the wind of blowout more large area so that indoor temperature distribution is more To be uniform, comfort is more preferable.

Preferably,

The right angle waist 612 of the shell 6 and first straight section 21 are opposite, to form described the between One air inlet region 31, the bottom edge 613 and second straight section 22 that are located at the right-angled trapezium in outside be opposite, between Form second air inlet region 32.This is the preferred constructive form of the air inlet part of the embodiments of the present invention 4, to shape At the opposite right angle waist of first straight section described in Cheng Congyu (left section) and from the bottom of the right-angled trapezium opposite with second straight section It is entered the wind at side (stage casing) two, improves incoming air area, improve heat exchange efficiency, improved indoor temperature and be evenly distributed with property, comfort improves.

Its structure type can be combined and be formed by isosceles trapezoid, two right-angled trapeziums in Fig. 6.Air inlet 3 one, region be with First wall surface 11 is at 45 °, the other is on the bottom edge 613 of the right-angled trapezium with the first wall surface 11 in 45 ° and positioned at shell 6, And the air-out direction of air outlet 4 is then parallel to the second wall surface 12.

Embodiment 5

The specific preferred embodiment of the 5th kind of the utility model is referring to Fig. 7, it is preferable that on 6 horizontal plane of the shell It is projected as an isosceles trapezoid, the first side 61 and the second side 62 constitute two isosceles of the isosceles trapezoid Side, and the bottom edge 614 positioned at outside of the isosceles trapezoid connects with first wall surface 11 and angle at 45 ° and described etc. The trapezoidal bottom edge 614 positioned at outside of waist also connects with second wall surface 12 and angle at 45 °, the air outlet 4 are set to (i.e. side of the cabinet-type air conditioner far from wall) and the position of close second wall surface 12 on the bottom edge 614 in the outside.

An isosceles trapezoidal structure in this way, enables to air outlet from the isosceles with the second wall surface angle at 45 ° The position on the bottom edge in trapezoidal outside is blown out so that the air-flow of blowout and the base vertical in outside but with the second wall surface folder at 45 ° Angle is blown out along the second wall surface to the right, also can moderately ensure the wind of air outlet blowout in this way along the second wall surface, So that the Coanda effect generated becomes apparent (although the effect that effect is not parallel to the second wall surface is good), so that blowout is more For the wind of large area so that indoor temperature distribution is more uniformly distributed, and comfort is more preferable.

Preferably,

The bottom edge 614 in the outside is opposite with first straight section 21 close to the part of first wall surface 11, with two Form first air inlet region 31 between person, the stage casing on the bottom edge 614 in the outside and second straight section 22 be opposite, with Therebetween second air inlet region 32 is formed.This is the preferred structure shape of the air inlet part of the embodiments of the present invention 5 Formula, to formed from the bottom edge in the outside opposite with first straight section from the part of first wall surface (left section) and from It is entered the wind at the stage casing two on the bottom edge in the outside opposite with second straight section, improves incoming air area, improved heat exchange efficiency, carry High indoor temperature is evenly distributed with property, and comfort improves.

Its structure type can be formed by isosceles trapezoid in Fig. 7.It enters the wind region 3 and the first wall surface 11 is at 45 °, and be located at On the bottom edge in the outside of shell 6, and air outlet 4 and the second wall surface 12 are in 45 °, are parallel to air inlet region 3.

The utility model also provides a kind of air conditioner comprising preceding any one of them air conditioner indoor unit.Enable to sky It adjusts the outlet air position of cabinet-type air conditioner to improve, air-conditioner air outlet is avoided to have the case where furniture stops and influences air quantity, and air outlet edge Wall air-supply so that the wind sent out can carry out systemic circulation around room, realize Coanda effect so that room temperature is distributed more The case where being uniform, preventing local temperature difference improves indoor comfort degree；Simultaneously because cabinet air-conditioner is arranged by suspension so that Its occupancy interior space is smaller, improves interior space utilization rate.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.The above is only the preferred embodiment of the utility model, it is noted that for the art For those of ordinary skill, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, These improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (15)

1. a kind of cabinet air-conditioner, it is characterised in that：Including：

The cabinet air-conditioner can be set to by suspension on wall (1), and the cabinet air-conditioner includes air outlet (4), and it is described go out Air port (4) connects with the wall (1), so that air-flow is gone out by the air outlet (4) along the wall direction of wall (1) Wind.

2. cabinet air-conditioner according to claim 1, it is characterised in that：

The cabinet air-conditioner can carry out spinning upside down installation, and the air-out direction of the air outlet is parallel with the wall.

3. cabinet air-conditioner according to claim 1 or 2, it is characterised in that：The cabinet air-conditioner, which is hung, is set to wall (1) turning of corner, the wall includes the first wall surface (11) and the second wall surface (12), the cabinet air-conditioner include shell (6), the shell (6) includes first side (61) and second side (62), and the first side (61) and first wall Face (11) fits, and the second side (62) fits with second wall surface (12).

4. cabinet air-conditioner according to claim 3, it is characterised in that：

The cabinet air-conditioner includes being set to the internal heat exchanger (2) of the shell (6), and the heat exchanger (2) includes at least two Locate straight section, is the first straight section (21) and the second straight section (22), shape between first straight section (21) and second straight section (22) At dog-ear；The air inlet region (3) of the cabinet air-conditioner includes at least two, for the first air inlet region (31) and the second air inlet region (32), and air-flow enters in first straight section (21) from first air inlet region (31) and exchanges heat, and air-flow is from described the Two air inlets region (32), which enter in second straight section (22), to exchange heat.

5. cabinet air-conditioner according to claim 4, it is characterised in that：

The combination for being projected as isosceles triangle and isosceles trapezoid of the shell (6) in the horizontal plane, the first side (61) The waist edges such as two of the isosceles triangle, and the first side waist edge of the isosceles trapezoid are constituted with the second side (62) (63) connect with first wall surface (11) and vertical, the second side waist edge (64) connect and vertical with second wall surface (12), The air outlet (4) is set on the second side waist edge (64).

6. cabinet air-conditioner according to claim 5, it is characterised in that：

When including the first straight section (21) and when the second straight section (22), first side waist edge (63) of the shell (6) with it is described First straight section (21) enters the wind region (31) relatively, to form described first between, the bottom edge (65) of the isosceles trapezoid Region (32) are entered the wind with second straight section (22) relatively, to form described second between.

7. cabinet air-conditioner according to claim 4, it is characterised in that：

The projection of the shell (6) in the horizontal plane is square, the first side (61) and the second side (62) structure At two adjacent and vertical sides of the square, and the third side (66) of the square and first wall surface (11) Connect and the four side (67) of vertical, the described square connects with second wall surface (12) and vertical, the air outlet (4) It is set to the position close to second wall surface (12) on the four side (67).

8. cabinet air-conditioner according to claim 7, it is characterised in that：

When including the first straight section (21) and when the second straight section (22), the part of the third side (66) of the square and institute The first straight section (21) is stated relatively, to form first air inlet region (31), the third of the square between The remainder of side (66) is opposite with second straight section (22), enters the wind region to form described second between (32)。

9. cabinet air-conditioner according to claim 4, it is characterised in that：

The shell (6) in the horizontal plane be projected as isosceles triangle and semicircular combination, the first side (61) and The second side (62) constitutes the waist edges such as two of the isosceles triangle, and the one end of semicircle (68) is tangentially prolonged It stretches to be formed and connect with first wall surface (11) and vertical the first trimming (69), the semicircular other end are tangentially extending Formation is connected with second wall surface (12) and vertical the second trimming (610), the air outlet (4) are set to described second and cut On side (610).

10. cabinet air-conditioner according to claim 9, it is characterised in that：

When including the first straight section (21) and when the second straight section (22), first trimming (69) of the shell (6) and described the One straight section (21) enters the wind region (31) relatively, to form described first between, the semicircle (68) and described second Straight section (22) is opposite, enters the wind region (32) to form described second between.

11. cabinet air-conditioner according to claim 4, it is characterised in that：

The combination for being projected as an isosceles trapezoid and two right-angled trapeziums of the shell (6) in the horizontal plane, first side Side (61) and the second side (62) constitute the waist edges such as two of the isosceles trapezoid, the on-right angle waist edge of a right-angled trapezium (611) connect with second wall surface (12) and vertical, two right-angled trapeziums right angle waists (612) coincide and with it is described First wall surface (11) connects and angle at 45 °, and the air outlet (4) is set on the on-right angle waist edge (611).

12. cabinet air-conditioner according to claim 11, it is characterised in that：

When including the first straight section (21) and when the second straight section (22), the right angle waist (612) of the shell (6) and described the One straight section (21) relatively, to form first air inlet region (31) between, is located at the right-angled trapezium in outside Bottom edge (613) is opposite with second straight section (22), enters the wind region (32) to form described second between.

13. cabinet air-conditioner according to claim 4, it is characterised in that：

It is projected as an isosceles trapezoid, the first side (61) and the second side on shell (6) horizontal plane (62) waist edges such as two of the isosceles trapezoid are constituted, and the bottom edge (614) positioned at outside of the isosceles trapezoid and described the One wall surface (11) connect and the bottom edge (614) positioned at outside of angle at 45 ° and the isosceles trapezoid also with second wall surface (12) connect and angle at 45 °, the air outlet (4) are set on the bottom edge (614) in the outside and close to second walls The position in face (12).

14. cabinet air-conditioner according to claim 13, it is characterised in that：

When including the first straight section (21) and when the second straight section (22), the bottom edge (614) in the outside is close to first wall surface (11) part relatively, region (31) is entered the wind to form described first between with first straight section (21), described outer The stage casing on the bottom edge (614) of side is opposite with second straight section (22), enters the wind region to form described second between (32)。

15. a kind of air conditioner, it is characterised in that：Including the cabinet air-conditioner described in any one of claim 1-14.