CN209689036U - Air conditioner - Google Patents

Abstract

The utility model discloses a kind of air conditioners, the air conditioner includes: shell, air duct part and the first fan assembly, air outlet is formed on shell, air outlet includes front air outlet and side air-out mouth, front air outlet is formed in the front surface of shell, side air-out mouth is formed on the side surface of shell, air duct part is located in shell, air duct part limits the first air duct and the second air duct, first air duct is connected to front air outlet and side air-out mouth, second air duct is located in the first air duct and is connected to front air outlet, first fan assembly is located at the lower section in the first air duct and being located at the second air duct.Air conditioner according to the present utility model, the available promotion of blowing range.

Description

Air conditioner

Technical field

The utility model relates to field of refrigeration equipments, more particularly, to a kind of air conditioner.

Background technique

Air conditioner is a kind of equipment for adjusting surrounding air, can suck the air in environment, and to air into The adjusting of trip temperature, humidity, quality etc., is discharged into interior again later, to realize the adjusting to surrounding air.However, related Air conditioner in technology, blowing range are limited, it is difficult to meet the requirement of user.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model exists In proposing a kind of air conditioner, the available promotion of the blowing range of the air conditioner.

According to the air conditioner of the utility model embodiment, comprising: shell is formed with air outlet on the shell, it is described go out Air port includes front air outlet and side air-out mouth, and the front air outlet is formed in the front surface of the shell, the side air-out mouth It is formed on the side surface of the shell；Air duct part, the air duct part are located in the shell, and the air duct part limits first Air duct and the second air duct, first air duct are connected to the front air outlet and the side air-out mouth, the second air duct position It is connected in first air duct and with the front air outlet；With the first fan assembly, first fan assembly is located at described Lower section in first air duct and positioned at second air duct.

According to the air conditioner of the utility model embodiment, the available promotion of blowing range.

In some embodiments of the utility model, the air conditioner further include: the second fan assembly, second blower Component is located at the top of first fan assembly, and second fan assembly is located in second air duct.

In some embodiments of the utility model, second air duct is in the longitudinal direction along linear extension, and described Two fan assemblies are located at the dead astern of the front air outlet and including axial-flow windwheels.

In some embodiments of the utility model, first fan assembly be located at the lower section of the air outlet and including Centrifugal wind wheel.

In some embodiments of the utility model, the front air outlet and the side air-out mouth are respectively positioned on the shell It is more than height center line.

In some embodiments of the utility model, the height center line of the side air-out mouth and the height of the front air outlet Spend the distance between center line is less than the height of the front air outlet 1/2.

In some embodiments of the utility model, the side surface of the shell two sides has been respectively formed on the side air-out Mouthful.

In some embodiments of the utility model, the air duct part includes: back plate, in the back plate have upper opening and Under shed, the upper opening are located at the top of the under shed；Framework, the framework be located at the front side of the back plate and with it is described Upper cavity is limited between back plate, the framework is located at the top of the under shed, the upper opening and the one of the upper cavity Part front and back is opposite, the framework include roof and two side walls so that the upper cavity front side and bottom-open, at least one There is side opening, the front side of the framework is docked with the front air outlet, and the side opening goes out with the side on a side wall Air port docking；Spiral case, the spiral case are located at the front side of the back plate and limit lower chamber, the spiral case between the back plate Positioned at the lower section of the upper opening, a part front and back of the under shed and the lower chamber is opposite, the upper end of the spiral case with The lower end of the framework is connected, so that the lower chamber is connected into first air duct with the upper cavity；Barrel shell, the barrel shell It is located in the framework, the axis of the barrel shell extends along the longitudinal direction and rear end is connected with the upper opening, the barrel shell limit Make second air duct.

In some embodiments of the utility model, the air duct part further include: wind guiding component, the wind guiding component are located at Air-out direction in the framework and for adjusting the front air outlet.

In some embodiments of the utility model, the air duct part further include: wind deflector, the side wind deflector is for opening It closes the side air-out mouth and adjusts the air supply direction of the side air-out mouth.

In some embodiments of the utility model, the air conditioner further include: preceding switch door, the preceding switch door are used for It switchs the front air outlet and is slippingly located at the external front side of the shell.

In some embodiments of the utility model, the air conditioner further includes intelligent detection module, the intelligent measurement Module is for detecting indoor air conditions and/or indoor objects principle condition.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

Fig. 1 is according to the perspective view of the air conditioner of the utility model one embodiment, and each air outlet is opened in figure；

Fig. 2 is another perspective view of air conditioner shown in Fig. 1；

Fig. 3 is the main view of air conditioner shown in Fig. 1；

Fig. 4 is the cross-sectional view of the line A-A along Fig. 3；

Fig. 5 is the cross-sectional view of the line B-B along Fig. 3；

Fig. 6 is an explosive view of air conditioner shown in Fig. 1；

Fig. 7 is the cooperation figure of air duct part ontology and the first fan assembly shown in Fig. 6 and the second fan assembly；

Fig. 8 is an explosive view of air conditioner shown in Fig. 1；

Fig. 9 is the cooperation figure of air duct part ontology and the first fan assembly and the second fan assembly shown in fig. 8；

Figure 10 is the state that each air outlet is turned off in air conditioner shown in Fig. 1；

Figure 11 is the state that each air outlet is turned off in air conditioner shown in Fig. 2；

Figure 12 is the control flow according to the air conditioner of the utility model one embodiment under intelligent fast regulating temperature mode Figure；

Figure 13 is the control stream according to the air conditioner of the utility model one embodiment under the remote air supply pattern of intelligence Cheng Tu；

Figure 14 is the control flow according to the air conditioner of the utility model one embodiment under the air supply pattern of Intelligent partition Figure；

Figure 15 is the subregion schematic diagram according to the air conditioner of the utility model one embodiment；

Figure 16 is the anti-blow-through control according to the air conditioner of the utility model one embodiment under the air supply pattern of Intelligent partition Flow chart processed.

Appended drawing reference:

Air conditioner 100；

Shell 1；Front panel 11；Front surface 111；Rear box 12；Side surface 121；

Air outlet 101；Front air outlet 1011；Side air-out mouth 1012；Left side air outlet a1；Right side air-out mouth a2；

Rear surface 122；Air inlet 102；Pedestal 13；Top cover 14；

Air duct part 2；Air duct part ontology 20；First air duct 201；Second air duct 202；

Back plate 21；Upper opening 211；Under shed 212；Upper electric machine support 213；

Framework 22；Upper cavity 220；Roof 221；Side wall 222；Side opening 2221；

Left side opening b1；Right openings b2；

Spiral case 23；Lower chamber 230；Lower electric machine support 231；

Barrel shell 24；Wind guiding component 25；

Side wind deflector 26；Left side wind deflector c1；Right side wind deflector c2；Driving motor 27；

First fan assembly 3；Centrifugal wind wheel 31；First motor 32；

Second fan assembly 4；Axial-flow windwheel 41；Second motor 42；

Heat exchanger 5；Drip tray 6；Electric heater unit 7；Preceding switch door 8；

Left side setting regions Z1；Right side setting regions Z2；Intermediate settings region Z3；Central point o；

First vertical plane S1；Second vertical plane S2；Third vertical plane S3；4th vertical plane S4；5th vertical plane S5.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

Following disclosure provides many different embodiments or example is used to realize the different structure of the utility model.For The disclosure of simplified the utility model, is hereinafter described the component of specific examples and setting.Certainly, they are only and show Example, and purpose does not lie in limitation the utility model.In addition, the utility model can in different examples repeat reference numerals And/or letter.This repetition is for purposes of simplicity and clarity, itself not indicate discussed various embodiments and/or set Relationship between setting.In addition, the example of various specific techniques and material that the utility model provides, but this field is common Technical staff can be appreciated that the applicable property of other techniques and/or the use of other materials.

In the following, describing the air conditioner 100 according to the utility model first aspect embodiment referring to attached drawing 1- Figure 11.

Specifically, it is unlimited according to the concrete type of the air conditioner 100 of the utility model first aspect embodiment, such as can To be splitting indoor air conditioner 100, integral air conditioner 100 etc..As shown in Figure 1, air conditioner 100 may include shell 1, Air outlet 101 is formed on shell 1, air outlet 101 includes front air outlet 1011 and side air-out mouth 1012,1011 shape of front air outlet At in the front surface 111 of shell 1, side air-out mouth 1012 is formed on the side surface 121 of shell 1.It should be noted that shell 1 structure type is unlimited, such as in specific example shown in Fig. 6, and shell 1 may include front panel 11, rear box 12, top cover 14, pedestal 13 etc., front panel 11 limit the front surface 111 of shell 1, and rear box 12 can limit the rear surface 122 of shell 1 With two side surfaces 121 in left and right, two side surfaces 121 in left and right are connected to two between front surface 111 and rear surface 122 Side, wherein front surface 111, rear surface 122, side surface 121 are not limited to plane, can be curved surface etc..

In addition, it should be noted that, it is as described herein it is " preceding " refer to when subscriber station air conditioner 100 front side experience When wind, the side in face of user of air conditioner 100, the side backwards to user of air conditioner 100 is " rear ", the position of air conditioner 100 It is " left side " in the side of user left-hand side, the side positioned at user's right-hand side of air conditioner 100 is " right side ".

As shown in Figure 1 and Figure 4, air conditioner 100 can also include air duct part 2, and air duct part 2 is located in shell 1, and air duct part 2 limit the first air duct 201 and the second air duct 202, and the first air duct 201 connects with front air outlet 1011 and side air-out mouth 1012 It is logical, so that the air-flow in the first air duct 201 can be sent out respectively by side air-out mouth 1012 and front air outlet 1011, the second air duct 202 in the first air duct 201 and the second air duct 202 is connected to front air outlet 1011, so that the air-flow in the second air duct 202 can To be sent out by front air outlet 1011.Wherein, the front end in the second air duct 202 can be concordant with the front end in the first air duct 201 to divide It not being connected to front air outlet 1011, the front end in the second air duct 202 may be located on the rear side of the front end in the first air duct 201, thus The front end in the second air duct 202 can also be first connected to the first air duct 201, then be connected by the first air duct 201 with front air outlet 1011 It is logical.

As shown in Figure 1 and Figure 4, air conditioner 100 can also include the first fan assembly 3, and the first fan assembly 3 is located at first Lower section in air duct 201 and positioned at the second air duct 202, that is to say, that in the work of the first fan assembly 3, the first wind can be made 201 suction airflow of road, and have the ability for making the first air duct 201 blow outward from front air outlet 1011 and side air-out mouth 1012, But whether front air outlet 1011 can blow outward at this time, whether opening state be presented depending on front air outlet 1011 at this time, Whether side air-out mouth 1012 can blow outward at this time, whether opening state be presented depending on side air-out mouth 1012 at this time.

In this way, negative pressure is formed in second air duct 202 when the first air duct 201 is blown outward from front air outlet 1011, thus Second air duct 202 can also blow outward with suction airflow and also from front air outlet 1011, so as to promote front air outlet 1011 Air output；When the first air duct 201 is blown from front air outlet 1011 and side air-out mouth 1012 outward simultaneously, air-conditioning can be increased The whole blowing range of device 100, meets the experience requirements of more users.Moreover, because the first fan assembly 3 is located at the second air duct 202 lower section can reduce the whole thickness in the longitudinal direction of air conditioner 100, so that air conditioner 100 is frivolous Change, reduces the occupied space of air conditioner 100.

As a result, according to the air conditioner of the utility model embodiment 100, since air outlet 101 includes 1011 He of front air outlet Side air-out mouth 1012 promotes user experience so as to increase the whole blowing range of air conditioner 100.

In some embodiments of the utility model, as shown in Figure 1 and Figure 4, air conditioner 100 can also include: the second wind Thermomechanical components 4, the second fan assembly 4 are located at the top of the first fan assembly 3, and the second fan assembly 4 is located in the second air duct 202, That is, in the work of the second fan assembly 4 202 suction airflow of the second air duct can be made, and have and make the second air duct 202 The ability blown outward from front air outlet 1011, but whether front air outlet 1011 can blow outward at this time, depend at this time Whether front air outlet 1011 is presented opening state.As a result, when the first fan assembly 3 does not work but the second fan assembly 4 works When, the effect of preceding air-supply also may be implemented；And when the first fan assembly 3 and the second fan assembly 4 work, it can be further Air-supply effect before increasing.

In some embodiments of the utility model, as shown in Figure 1 and Figure 4, the second air duct 202 is in the longitudinal direction along straight Line extends, and the second fan assembly 4 is located at the dead astern of front air outlet 1011 and including axial-flow windwheel 41.Second air duct as a result, 202 structure is simple, facilitates construction, and the length in the second air duct 202 is short, and flow losses are small, and air-supply effect is good, moreover, the The composition of two fan assemblies 4 is simple, and production cost is low.In addition, it should be noted that, the second fan assembly 4 is in addition to including axis stream It can also include the second motor 42 that driving axial-flow windwheel 41 rotates, in addition, included by the second fan assembly 4 except wind wheel 41 Axial-flow windwheel 41 quantity it is unlimited, can be one or more, moreover, the second fan assembly 4 in addition to include axial-flow windwheel 41, it can also simultaneously include other kinds of wind wheel, such as can also simultaneously include oblique flow wind wheel etc..

Certainly, the utility model is without being limited thereto, and in the other embodiments of the utility model, the second air duct 202 can be with Extend along curve, and the second fan assembly 4 can not also be located at the dead astern of front air outlet 1011, at this point, the second fan assembly 4 Can according to the concrete shape in the second air duct 202 and its at a distance from front air outlet 1011, select suitable wind wheel, do not make here It repeats.

In some embodiments of the utility model, as shown in figure 4, the first fan assembly 3 is located at the lower section of air outlet 101 And including centrifugal wind wheel 31, that is to say, that the first fan assembly 3 not only positioned at the lower section of front air outlet 1011 but also was located at side air-out The lower section of mouth 1012, since centrifugal wind wheel 31 is air inlet through hollow shaft, radial outlet air, thus by the axis of centrifugal wind wheel 31 along level side To or generally horizontal direction be arranged when, centrifugal wind wheel 31 can send out vertically upwards the air-flow transversely entered, to arrive Up to side air-out mouth 1012 and front air outlet 1011.Thus, it is possible to the normal air-supply in the first air duct 201 be realized, moreover, the first blower The composition of component 3 is simple, and production cost is low.Further, since the height of front air outlet 1011 and side air-out mouth 1012 is higher, from And the either preceding outlet air of air conditioner 100 or side air-out, it can satisfy remote air-supply and require.

In addition, it should be noted that, the first fan assembly 3 other than including centrifugal wind wheel 31, can also include driving The first motor 32 that centrifugal wind wheel 31 rotates, in addition, the quantity of centrifugal wind wheel 31 included by the first fan assembly 3 is unlimited, it can To be one or more, moreover, the first fan assembly 3 is in addition to including centrifugal wind wheel 31, can also simultaneously include other types Wind wheel, such as can also simultaneously include the axial-flow windwheel or oblique flow wind wheel etc. positioned at 31 air side of centrifugal wind wheel.

In some embodiments of the utility model, as shown in Figure 1-Figure 3, front air outlet 1011 and side air-out mouth 1012 are equal The height center line L1 or more of shell 1 can be located at.As a result, due to the height of front air outlet 1011 and side air-out mouth 1012 compared with Height, so that the either preceding outlet air of air conditioner 100 or side air-out, can satisfy remote air-supply and require.

In some embodiments of the utility model, as shown in Figure 1-Figure 3, the height center line L3 of side air-out mouth 1012 with The distance between height center line L2 of front air outlet 1011 is less than the 1/2 of the height H of front air outlet 1011.Thus illustrate, side Difference in height between air outlet 1012 and front air outlet 1011 is smaller, so as to simplify the construction in the first air duct 201, so that the One fan assembly 3 can carry out front-outlet and side outlet air near almost identical height.

In some embodiments of the utility model, as shown in Fig. 5-Fig. 6, the side surface 121 of 1 two sides of shell is respectively formed on There is side air-out mouth 1012, that is to say, that be formed with side air-out mouth 1012 on the side surface 121 in the left side of shell 1 and (be denoted as left side to go out Air port a1), it is also formed with side air-out mouth 1012 (being denoted as right side air-out mouth a2) on the side surface 121 on the right side of shell 1, that is, It says, air conditioner 100 not only can Lateral supply but also can Lateral supply to the right to the left.Accordingly, for the setting of air conditioner 100 indoors Position is unlimited, that is to say, that air conditioner 100 is either located at which indoor corner, can guarantee sending for air conditioner 100 Wind is met the requirements.Certainly, the utility model is without being limited thereto, such as in the other embodiments of the utility model, can also only exist Side air-out mouth 1012 is arranged in the side of air conditioner 100.

As a result, by increasing separately side air-out mouth 1012 in the two sides of shell 1 so that the front side of air conditioner 100, left side, Right side can outlet air, so as to further promote the whole blowing range of air conditioner 100.In addition, working as air conditioner 100 simultaneously When having front air outlet 1011, left side air outlet a1, right side air-out mouth a2, air conditioner 100 can have following seven kinds of outlet air moulds Formula, so as to meet different actual demands, and energy-saving effect is more preferable.

First air-out mode, 1011 outlet air of front air outlet, left side air outlet a1 not outlet air, right side air-out mouth a2 not outlet air； Second air-out mode, 1011 not outlet air of front air outlet, left side air outlet a1 outlet air, right side air-out mouth a2 not outlet air；Third outlet air Mode, 1011 not outlet air of front air outlet, left side air outlet a1 not outlet air, right side air-out mouth a2 outlet air；4th air-out mode, it is preceding go out 1011 outlet air of air port, left side air outlet a1 outlet air, right side air-out mouth a2 not outlet air；5th air-out mode, front air outlet 1011 go out Wind, left side air outlet a1 not outlet air, right side air-out mouth a2 outlet air；6th air-out mode, 1011 not outlet air of front air outlet, left side go out Air port a1 outlet air, right side air-out mouth a2 outlet air；7th air-out mode, 1011 outlet air of front air outlet, left side air outlet a1 outlet air, the right side Side air-out mouth a2 outlet air.

In some embodiments of the utility model, as shown in Fig. 6-Fig. 9, air duct part 2 may include: air duct part ontology 20, air duct part ontology 20 includes: back plate 21, framework 22, spiral case 23 and barrel shell 24, in back plate 21 there is upper opening 211 to open under Mouth 212, upper opening 211 are located at the top of under shed 212, and framework 22 is located at 21 front side of back plate and limits between back plate 21 Cavity 220, framework 22 are located at the top of under shed 212, and upper opening 211 is opposite with a part front and back of upper cavity 220, thus on The projection of opening 211 along the longitudinal direction is located in upper cavity 220, and framework 22 includes roof 221 and two side walls 222, to make Front side and the bottom-open of upper cavity 220 are obtained, there is side opening 2221, the front side of framework 22 is with before at least one side wall 222 Air outlet 1011 docks, and side opening 2221 is docked with side air-out mouth 1012.

Spiral case 23 is located at the front side of back plate 21 and limits lower chamber 230 between back plate 21, and spiral case 23 is located at upper opening A part front and back of 211 lower section, under shed 212 and lower chamber 230 is opposite, thus the projection of under shed 212 along the longitudinal direction In lower chamber 230, the upper end of spiral case 23 is connected with the lower end of framework 22, so that lower chamber 230 is connected into upper cavity 220 First air duct 201, barrel shell 24 are located in framework 22, and the axis of barrel shell 24 extends along the longitudinal direction and rear end and 211 phase of upper opening Even, barrel shell 24 limits the second air duct 202.

One air-flow can enter frame out of under shed 212 entrance spiral case 23, then up from the bottom of framework 22 as a result, Body 22 (i.e. the first air duct 201 can be entered the wind under shed 212), rear portion pass through the outflow of the front side of framework 22, Jin Erke Flowed out with the side opening 2221 for realizing from the air-supply of front air outlet 1011, on the side wall 222 that another part pass through framework 22, It may be implemented to blow from the side air-out mouth 1012 of shell 1.Another strand of air-flow can enter barrel shell 24 (i.e. second from upper opening 211 Air duct 202 can be entered the wind from upper opening 211), it flows out and then may be implemented from the front end of barrel shell 24 and the front side of framework 22 later From the air-supply of front air outlet 1011.

In some embodiments of the utility model, as shown in fig. 6, air duct part 2 can also include: wind guiding component 25, example Such as, wind guiding component 25 may include multiple horizontal blinds and/or multiple perpendicular blinds, and wind guiding component 25 is located in framework 22 and for adjusting Save the air-out direction of front air outlet 1011.As a result, by the way that on air duct part 2, air conditioner is can be improved in the assembly of wind guiding component 25 100 whole modularized designs, improve the disassembly efficiency of air conditioner 100.Certainly, the utility model is without being limited thereto, such as at this In the other embodiments of utility model, wind guiding component 25 can also be mounted on shell 1 etc..In addition, it should be noted that, leading Wind component 25 can manually control adjusting, can also be adjusted with Electronic control, when 25 Electronic control of wind guiding component is adjusted, air conditioner 100 can also include the drive motor (not shown go out) that driving wind guiding component 25 moves.

In some embodiments of the utility model, as shown in fig. 6, air duct part 2 can also include: side wind deflector 26, side Wind deflector 26 is located at side opening 2221, and side wind deflector 26 for switch-side air outlet 1012 and adjusts side air-out mouth 1012 Air supply direction.It is set as a result, by the way that the whole modularization of air conditioner 100 on air duct part 2, can be improved in the assembly of side wind deflector 26 Meter improves the disassembly efficiency of air conditioner 100, in addition, side wind deflector 26 not only can be used for switch-side air outlet 1012 but also can use Simplify the entirety of air conditioner 100 in the air-out direction for adjusting side air-out mouth 1012 so as to enrich the function of side wind deflector 26 Structure.

In addition, it should be noted that, side wind deflector 26 can manually control adjusting, can also adjust with Electronic control, work as side When 26 Electronic control of wind deflector is adjusted, air conditioner 100 can also include the driving motor 27 that driving side wind deflector 26 moves.Example Such as, driving motor 27 can also be installed, driving motor 27 is rotated for driving side wind deflector 26, thus on realizing on air duct part 2 It states the switch of side air-out mouth 1012 and adjusts the air supply direction of side air-out mouth 1012.Certainly, the utility model is without being limited thereto, such as In the other embodiments of the utility model, side wind deflector 26 can also be mounted on shell 1 etc..Further, it is also possible to respectively Wind guide strip and switch gate etc. are set and realize that the closing of side air-out mouth 1012 and air-out direction are adjusted.

Such as in some embodiments of the utility model, as shown in figure 5, the left side of framework 22 can have left side opening B1, the right side of framework 22 can have right openings b2, left side wind deflector c1, right openings b2 can be set at the opening b1 of left side Right side wind deflector c2 can be set in place, and left side wind deflector c1 can be used for switching left side air outlet a1 and adjust left side air outlet a1 Air-out direction, right side wind deflector c2 can be used for switching right side air-out mouth a2 and adjusts the air-out direction of right side air-out mouth a2.

Such as in some embodiments of the utility model, as shown in Fig. 1 and Figure 10, before air conditioner 100 can also include: Switch gate 8, preceding switch door 8 are used to switch front air outlet 1011 and are slippingly located at the external front side of shell 1.Thus, it is possible to Regulate and control whether front air outlet 1011 blows using preceding switch door 8.Further, since preceding switch door 8 is located at the external front side of shell 1, So as to avoid preceding switch door 8 from occupying 1 inner space of shell, the compactedness of 100 internal structure of air conditioner is improved.This certain reality With novel without being limited thereto, in the other embodiments of the utility model, the inside of shell 1 can also be arranged in preceding switch door 8, this In repeat no more.

In addition, revolving speed or the pass of the second fan assembly 4 can be reduced when current switch door 8 is closed (as shown in Figure 10) The second fan assembly 4 is closed, to reduce windage, and when current switch door 8 and side wind deflector 26 are turned off, can also be reduced simultaneously The revolving speed of one fan assembly 3 closes the first fan assembly 3, to reduce windage.

Path through-hole (not shown go out) can also be set in some embodiments of the utility model, on preceding switch door 8, with When preceding switch door 8 closes front air outlet 1011, the calm sense air-supply in side is realized.In addition, also can be set on side wind deflector 26 Path through-hole (not shown go out), in 26 close side air outlet 1012 of side wind deflector, to realize that the calm sense in side is blown.

In some embodiments of the utility model, as shown in figures 4 and 9, air duct part 2 can also include: upper motor branch Frame 213, upper electric machine support 213 are located in back plate 21 and opposite with the front and back of upper opening 211, and the second fan assembly 4, which is installed on, to be powered on Machine support 213, for example, second motor 42 can be installed when the second fan assembly 4 includes axial-flow windwheel 41 and the second motor 42 On upper electric machine support 213, axial-flow windwheel 41 be may be mounted on the second motor 42.Thus, it is possible to simply and effectively realize The installation of two fan assemblies 4, and the whole modularized design of air conditioner 100 can be improved, improve the dismounting effect of air conditioner 100 Rate.

In some embodiments of the utility model, as shown in figs. 4 and 7, air duct part 2 can also include: lower motor branch Frame 231, lower electric machine support 231 are located on spiral case 23 and opposite with the front and back of under shed 212, and the first fan assembly 3 is installed on lower electricity Machine support 231, for example, first motor 32 can be installed when the first fan assembly 3 includes centrifugal wind wheel 31 and first motor 32 On lower electric machine support 231, centrifugal wind wheel 31 be may be mounted in first motor 32.Thus, it is possible to simply and effectively realize The installation of one fan assembly 3, and the whole modularized design of air conditioner 100 can be improved, improve the dismounting effect of air conditioner 100 Rate.

In some embodiments of the utility model, air conditioner 100 further includes intelligent detection module, and intelligent detection module is used In detect indoor air conditions (such as air themperature, air humidity, air quality) and/or indoor objects principle condition (such as people with The distance between air conditioner 100, the height of people, people and relative bearing of air conditioner 100 etc.).As a result, air conditioner 100 can To have the remote air supply pattern of the intelligent fast regulating temperature mode according to this paper second aspect embodiment, intelligence, Intelligent partition is sent Wind mode.Wherein it is possible to detect the intelligent detection module of indoor air conditions and can detecte the intelligence of indoor objects principle condition The specific structure and working principle of energy detection module are well known to those skilled in the art, such as temperature sensor, humidity sensor Device, infrared sensor etc., therefore do not repeat.

In addition, the air conditioner 100 according to the utility model embodiment there can also be other, brief Jie will be below It continues.

As shown in Figure 2 and Figure 4, the air inlet 102 of air conditioner 100 can be formed in the rear surface 122 of shell 1, air-conditioning The heat exchanger 5 of device 100 can be located in shell 1 and between air duct part 2 and air inlet 102, in this way, the air-flow outside shell 1 It can be entered in shell 1 by air inlet 102, then pass through the heat exchange of heat exchanger 5, from 211 He of upper opening on air duct part 2 Under shed 212 respectively enters the second air duct 202 and the first air duct 201.

Thus, it is possible to which zooming out air inlet 102 arrives the distance between air outlet 101, so as to avoid asking for return air short circuit Topic so as to simplify complete machine structure, reduces assembly difficulty, reduces production moreover, heat exchanger 5 to be located to the upstream of air duct part 2 Cost.Certainly, the utility model is without being limited thereto, in the other embodiments of the utility model, heat exchanger 5 can also be located at wind The downstream of road part 2, such as be located between the front side of framework 22 and front air outlet 1011, and be located at the side opening 2221 of framework 22 Between side air-out mouth 1012.

As shown in Figure 5 and Figure 6, air conditioner 100 can also include drip tray 6 and electric heater unit 7, and drip tray 6, which is located at, to be changed Water of the bottom of hot device 5 to drip for accepting heat exchanger 5, electric heater unit 7 can be arranged adjacent to heat exchanger 5, and it is auxiliary to play electricity The effect of heat, in this way, on the one hand can heat by the heating circulation of heat exchanger 5 to air, on the other hand may be used in season in severe winter To be heated by electric heater unit 7 to air, to further increase heat exchange efficiency.

In the following, describing the assembly of the air conditioner 100 according to one specific embodiment of the utility model referring to attached drawing 6 and Fig. 8 Method.

Air conditioner 100 include: shell 1, air duct part 2, the first fan assembly 3, the second fan assembly 4, heat exchanger 5 (such as Evaporator), drip tray 6 and electric heater unit 7 (such as electric heating tube).Wherein, shell 1 includes rear box 12, front panel 11, bottom Seat 13, top cover 14.Wherein, air duct part 2 includes air duct part ontology 20, wind guiding component 25, side wind deflector 26, is used for driving side wind-guiding The driving motor 27 that plate 26 rotates.When assembly, pedestal 13 can be first mounted on to the bottom of rear box 12, then by drip tray 6 It is mounted on the inner surface of rear box 12, is then mounted on heat exchanger 5 on the inner surface of rear box 12 and is located at drip tray 6 Electric heater unit 7 is mounted on the front side on rear box 12 and being located at heat exchanger 5 again later, driving motor 27, side is led by top Aerofoil 26, wind guiding component 25 are mounted on air duct part ontology 20, then air duct part 2 is mounted on rear box 12 and is located at electric heating Top cover 14 is then mounted on the top of rear box 12 by the front side of device 7, then front panel 11 is mounted on to the front end of rear box 12 .

In addition, it should be noted that, the arrow containing digital " 1 " in Fig. 4-Fig. 5 indicates the air-flow trend in the first air duct 201, Arrow containing digital " 2 " in Fig. 4-Fig. 5 indicates the air-flow trend in the second air duct 202.

In the following, describing the air conditioner 100 and control method according to the utility model second aspect embodiment referring to attached drawing.

In the second aspect embodiment of the utility model, air conditioner 100 may include: shell 1；Before shell 1 Front air outlet 1011 on surface 111；Left side air outlet a1 on the side surface 121 in 1 left side of shell；It is right positioned at shell 1 Right side air-out mouth a2 on the side surface 121 of side；Pass through front air outlet 1011, left side air outlet a1, right side air-out mouth a2 air-supply The first fan assembly 3；The second fan assembly 4 blown by front air outlet 1011；Before switching front air outlet 1011 Switch gate 8；For switching the left side wind deflector c1 of left side air outlet a1；For switching the right side wind deflector of right side air-out mouth a2 c2。

It, can be real with reference to the utility model first aspect according to the air conditioner 100 of the utility model second aspect embodiment The air conditioner 100 applied designs, that is to say, that can be with as long as having the air conditioner 100 of the first aspect embodiment of upper section feature As the air conditioner 100 of second aspect embodiment, therefore, identical component uses identical appended drawing reference.But this is practical new Type is without being limited thereto, can be also configured to other according to the air conditioner 100 of the utility model second aspect embodiment and meets upper section knot The other shapes of structure feature, do not repeat here.

According to the air conditioner 100 of the utility model second aspect embodiment, air conditioner 100 has intelligent fast regulating temperature mould At least one of formula, intelligence remote air supply pattern, Intelligent partition air supply pattern, in the following, describing the control of each mode respectively Method processed.

(1) about intelligent fast regulating temperature mode

As shown in figure 12, after the starting of intelligent fast regulating temperature mode, control method is comprising steps of judge environment temperature (i.e. Air themperature outside air conditioner 100) and the absolute value of difference of temperature set by user whether to be greater than preset difference value (such as pre- If difference can for 5 DEG C~10 DEG C, but not limited to this), if it is, illustrate current indoor temperature and set temperature difference compared with Greatly, at this point, then controlling preceding switch door 8 opens front air outlet 1011, left side wind deflector c1 opening left side air outlet a1, right side wind-guiding Plate c2 opens right side air-out mouth a2, the first fan assembly 3 and the second fan assembly 4 and works.

That is, judging whether the difference of environment temperature and set temperature is larger, such as under intelligent fast regulating temperature mode Fruit differs greatly, then opens the air outlet 101 of front side and two sides, while controlling two fan assemblies and working, and increases room Interior amount of air circulation achievees the purpose that Quick uniform temperature adjustment.

In a preferable example under this mode, the second fan assembly 4 may include axial-flow windwheel 41 and the second motor 42, the first fan assembly 3 may include centrifugal wind wheel 31 and first motor 32, can be with after the starting of intelligent fast regulating temperature mode The revolving speed for controlling the second motor 42 is 1000rpm~1100rpm, and the revolving speed for controlling first motor 32 is 500rpm~550rpm (but the utility model is without being limited thereto).Two fan assemblies powerful can blow as a result, so as to more efficiently add Big indoor air circulation amount, achievees the purpose that Quick uniform temperature adjustment.

(2) about the remote air supply pattern of intelligence

As shown in figure 13, after the remote air supply pattern starting of intelligence, control method is comprising steps of judge whether there is target The distance between object and air conditioner 100 are less than pre-determined distance (such as pre-determined distance can be 8m~10m, but not limited to this), such as Fruit is no, then illustrate it is indoor per family apart from air conditioner 100 farther out, at this point it is possible to control preceding switch door 8 open front air outlet 1011, wind deflector c1 in left side closes left side air outlet a1, right side wind deflector c2 closes right side air-out mouth a2, the first fan assembly 3 It works with the second fan assembly 4.Herein, it should be noted that object refers to lived people, and but not limited to this, Object can also be set as other objects or life entity as needed.

That is, under the remote air supply pattern of intelligence, when detect in room owner all apart from air-conditioning position compared with When remote, then the air outlet 101 of the opening of air outlet 101 of front side, two sides is closed, while controlling two fan assemblies and working, So as to achieve the purpose that overlength distance air-supply temperature adjustment, meet the experience of remote subscriber.

In a preferable example under this mode, the second fan assembly 4 may include axial-flow windwheel 41 and the second motor 42, the first fan assembly 3 may include that centrifugal wind wheel 31 and first motor 32 can after the remote air supply pattern starting of intelligence With control the second motor 42 revolving speed be 1000rpm~1100rpm, and control first motor 32 revolving speed be 500rpm~ 550rpm (but the utility model is without being limited thereto).Two fan assemblies powerful can blow as a result, so as to more added with Effect ground extends air supplying distance, achievees the effect that overlength distance is blown.

(3) about Intelligent partition air supply pattern

As shown in figure 14, Intelligent partition air supply pattern starting after, control method include following three steps (i.e. step A, Step B, step C) at least one of, herein, it should be noted that when control method simultaneously include above-mentioned steps A, step B, In step C at least two when, while including the steps that progress can be synchronized.

Step A: setting regions Z1 whether there is object on the left of judgement, if so, control left side wind deflector c1 opens a left side Side air-out mouth a1, the work of the first fan assembly 3, if not, control left side wind deflector c1 closes left side air outlet a1.Thus it says It is bright, it when left side setting regions Z1 has user, can control left side air outlet a1 outlet air, used when left side setting regions Z1 does not have When family, it can control left side air outlet a1 and stop outlet air.In addition, it should be noted that, in this step A, when control left side is led When aerofoil c1 closes left side air outlet a1, if by the shutdown of the first fan assembly 3 or reduction of speed, depend on front air outlet 1011 at this time With right side air-out mouth a2 whether outlet air, if at least one outlet air in front air outlet 1011 and right side air-out mouth a2 at this time, It, can be by the first blower fan group if front air outlet 1011 and right side air-out mouth a2 are turned off without adjusting the first fan assembly 3 The shutdown of part 3 or reduction of speed.

Step B: setting regions Z2 whether there is object on the right side of judgement, if so, control right side wind deflector c2 opens the right side Side air-out mouth a2, the work of the first fan assembly 3, if not, control right side wind deflector c2 closes right side air-out mouth a2.Thus it says It is bright, it when right side setting regions Z2 has user, can control right side air-out mouth a2 outlet air, used when right side setting regions Z2 does not have When family, it can control right side air-out mouth a2 and stop outlet air.In addition, it should be noted that, in this step B, when control right side is led When aerofoil c2 closes right side air-out mouth a2, if by the shutdown of the first fan assembly 3 or reduction of speed, depend on front air outlet 1011 at this time With left side air outlet a1 whether outlet air, if at least one outlet air in front air outlet 1011 and left side air outlet a1 at this time, It, can be by the first blower fan group if front air outlet 1011 and left side air outlet a1 are turned off without adjusting the first fan assembly 3 The shutdown of part 3 or reduction of speed.

Step C: intermediate settings region Z3 is judged with the presence or absence of object, if so, control preceding switch door 8 opens preceding outlet air Mouth at least one of the 1011, first fan assembly 3 and the second fan assembly 4 work, if not, control preceding switch door 8 is closed Front air outlet 1011.Thus illustrate, when intermediate settings region Z3 has user, can control 1011 outlet air of front air outlet, in the middle Between setting regions Z3 do not have user when, can control front air outlet 1011 stop outlet air.In addition, it should be noted that, at this In step C, when controlling the closing front air outlet 1011 of preceding switch door 8, the second fan assembly 4 can be simultaneously closed off, to reduce wind Resistance, but be depending on left side air outlet a1 and right side air-out mouth a2 at this time whether by the shutdown of the first fan assembly 3 or reduction of speed at this time No outlet air, if at least one outlet air in the air outlet a1 and right side air-out mouth a2 of left side at this time, without adjusting the first blower Component 3 can be by the shutdown of the first fan assembly 3 or reduction of speed if left side air outlet a1 and right side air-out mouth a2 are turned off.

As a result, under the air supply pattern of Intelligent partition, the effect of zoned air may be implemented, reach fixed point (point refers to place) and send Wind temperature adjustment, it is more energy saving.For example, when detecting that user is at the two sides of air conditioner 100 in room, it can be by centre air vent 101 close, and the air outlet 101 of two sides is opened, and can achieve fixed point (point refers to place) air-supply temperature adjustment, energy conservation at this time.

In a preferable example under this mode, as shown in figure 15, each setting regions can be divided as follows: cross air conditioner 100 central point o makees the first vertical plane S1 extended to front, and the central point o for crossing air conditioner 100 makees to front-left extension Second vertical plane S2, the central point o for crossing air conditioner 100 make the third vertical plane S3 extended to left front, cross in air conditioner 100 Heart point o makees the 4th vertical plane S4 extended to front-right, and the central point o for crossing air conditioner 100 makees to erect to the 5th of right front extension Face S5 directly, wherein the region between the second vertical plane S2 and third vertical plane S3 is left side setting regions Z1, third vertical plane S3 Region between the 5th vertical plane S5 is intermediate settings region Z3, the region between the 4th vertical plane S4 and the 5th vertical plane S5 For right side setting regions Z2.Thus, it is possible to have preferable zoned air effect.Wherein, third vertical plane S3 and first is vertical Angle between the S1 of face can be 40 °~50 °, such as 40 °, 45 °, 50 ° etc., between the 5th vertical plane S5 and the first vertical plane S1 Angle can be 40 °~50 °, such as 40 °, 45 °, 50 ° etc..Certainly, without being limited thereto.

(4) about the anti-blow-through of intelligence

As shown in figure 16, under the air supply pattern of Intelligent partition, the effect of the anti-blow-through of intelligence can also be realized, however, it is desirable to Illustrate, can not also include anti-blow-through rate-determining steps according to the Intelligent partition air supply pattern of the utility model embodiment.It is anti- The rate-determining steps of blow-through are specific as follows.

In step, when there are whether when object, then judge left side setting regions Z1 by judgement left side setting regions Z1 Mesh in the presence of height lower than setting height (such as setting height can be 1.3m~1.5m, such as 1.4m, and but not limited to this) Object is marked, if it is, control left side wind deflector c1 closes left side air outlet a1, if it is not, then control left side wind deflector c1 is opened Left side air outlet a1, the work of the first fan assembly 3.

In stepb, when there are whether when object, then judge right side setting regions Z2 by judgement right side setting regions Z2 Mesh in the presence of height lower than setting height (such as setting height can be 1.3m~1.5m, such as 1.4m, and but not limited to this) Object is marked, if it is, control right side wind deflector c2 closes right side air-out mouth a2, if it is not, then control right side wind deflector c2 is opened Right side air-out mouth a2, the work of the first fan assembly 3；

In step C, when judging intermediate settings region Z3, there are whether when object, then judge intermediate settings region Z3 Mesh in the presence of height lower than setting height (such as setting height can be 1.3m~1.5m, such as 1.4m, and but not limited to this) Object is marked, if it is, control preceding switch door 8 closes front air outlet 1011, if it is not, then control preceding switch door 8 opens preceding outlet air Mouth at least one of the 1011, first fan assembly 3 and the second fan assembly 4 work.

That is, then judging that the object is in the presence of finding that some setting regions has a lower height of object Child then stops the air-supply of air outlet 101 in the region in order to avoid air-flow blow-through child, straight so as to reach preventing child The effect blown especially in cooling mode can achieve the effect of preventing child cold wind blow-through.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with It can be combined in any suitable manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field Technical staff can by the feature of different embodiments or examples described in this specification and different embodiments or examples into Row combination and combination.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (12)

1. a kind of air conditioner characterized by comprising

Shell is formed with air outlet on the shell, and the air outlet includes front air outlet and side air-out mouth, the front air outlet It is formed in the front surface of the shell, the side air-out mouth is formed on the side surface of the shell；

Air duct part, the air duct part are located in the shell, and the air duct part limits the first air duct and the second air duct, and described One air duct is connected to the front air outlet and the side air-out mouth, second air duct be located in first air duct and with institute State front air outlet connection；With

First fan assembly, first fan assembly are located at the lower section in first air duct and being located at second air duct.

2. air conditioner according to claim 1, which is characterized in that further include:

Second fan assembly, second fan assembly are located at the top of first fan assembly, second fan assembly It is located in second air duct.

3. air conditioner according to claim 2, which is characterized in that prolong in the longitudinal direction along straight line in second air duct It stretches, second fan assembly is located at the dead astern of the front air outlet and including axial-flow windwheel.

4. air conditioner according to claim 1, which is characterized in that first fan assembly is located under the air outlet Just and including centrifugal wind wheel.

5. air conditioner according to claim 1, which is characterized in that the front air outlet and the side air-out mouth are respectively positioned on institute State the height center line of shell or more.

6. air conditioner according to claim 1, which is characterized in that the height center line of the side air-out mouth and it is described it is preceding go out The distance between the height center line in air port is less than the 1/2 of the height of the front air outlet.

7. air conditioner according to claim 1, which is characterized in that the side surface of the shell two sides has been respectively formed on described Side air-out mouth.

8. air conditioner according to claim 1, which is characterized in that the air duct part includes:

Back plate, has upper opening and under shed in the back plate, and the upper opening is located at the top of the under shed；

Framework, the framework are located at the front side of the back plate and limit upper cavity between the back plate, and the framework is located at A part front and back of the top of the under shed, the upper opening and the upper cavity is opposite, and the framework includes roof and two A side wall so that the upper cavity front side and bottom-open, there is at least one described side wall side opening, the framework Front side is docked with the front air outlet, and the side opening is docked with the side air-out mouth；

Spiral case, the spiral case are located at the front side of the back plate and limit lower chamber between the back plate, and the spiral case is located at A part front and back of the lower section of the upper opening, the under shed and the lower chamber is opposite, the upper end of the spiral case with it is described The lower end of framework is connected, so that the lower chamber is connected into first air duct with the upper cavity；

Barrel shell, the barrel shell are located in the framework, the axis of the barrel shell extend along the longitudinal direction and rear end with it is described on open Mouth is connected, and the barrel shell limits second air duct.

9. air conditioner according to claim 8, which is characterized in that the air duct part further include:

Wind guiding component, the wind guiding component are located at the air-out direction in the framework and for adjusting the front air outlet.

10. air conditioner according to claim 8, which is characterized in that the air duct part further include:

Side wind deflector, the side wind deflector are used to switch the side air-out mouth and adjust the air supply direction of the side air-out mouth.

11. air conditioner according to claim 1, which is characterized in that the air conditioner further include:

Preceding switch door, the preceding switch door is for before switching the front air outlet and being slippingly located at the outside of the shell Side.

12. air conditioner described in any one of -11 according to claim 1, which is characterized in that the air conditioner further includes intelligent inspection Module is surveyed, the intelligent detection module is for detecting indoor air conditions and/or indoor objects principle condition.