CN106482260A - Air-conditioner and the control method of air-conditioner - Google Patents

Abstract

The invention discloses the control method of a kind of air-conditioner and air-conditioner, including：Base assembly, base assembly includes bottom bracing frame and air-inlet grille, and the top of bottom bracing frame is provided with necking part, the free end clamping of air-inlet grille and necking part and include a plurality of air intake spoke being spaced apart；Cylinder assembly, cylinder assembly is located on base assembly；Cover assembly, cover assembly is located at the upper end of cylinder assembly；Semiconductor chilling plate, semiconductor chilling plate has cold end and hot junction and semiconductor chilling plate is located in cylinder assembly, and cold end is located in refrigerating channel, and hot junction is located at and heats in passage；Humidification assembly, humidification assembly is located in humidification passage；Fan assembly, fan assembly is located in cylinder assembly.According to the air-conditioner of the present invention, by making the necking part clamping of air-inlet grille and bottom bracing frame top, not only can simplify the connection between air-inlet grille and bottom bracing frame, and can guarantee that the reliability being connected between air-inlet grille and bottom bracing frame.

Description

Air-conditioner and the control method of air-conditioner

Technical field

The present invention relates to household electrical appliance technical field, especially relate to the control method of a kind of air-conditioner and air-conditioner.

Background technology

In correlation technique, desktop air-conditioning includes cylinder assembly, and cylinder assembly is placed on platform by base assembly, cylinder Limit in assembly and heat passage and refrigerating channel, and heat passage and the air inlet of refrigerating channel is respectively provided at cylinder assembly On the wall of side, the outer tube body of cylinder assembly is connected with base assembly.

Content of the invention

It is contemplated that at least solving one of technical problem in correlation technique to a certain extent.For this reason, the present invention carries Go out a kind of air-conditioner, described air-conditioner has the advantages that structure is simple, reliability is high.

The present invention also proposes a kind of control method of air-conditioner, and described control method is applied to above-mentioned air-conditioner.

The present invention also proposes the control method of another kind of air-conditioner, and described control method is applied to above-mentioned air-conditioner.

Air-conditioner according to embodiments of the present invention, including：Base assembly, described base assembly includes bottom bracing frame and enters Style grid, the top of described bottom bracing frame is provided with necking part, the free end clamping of described air-inlet grille and described necking part and Including a plurality of spaced apart air intake spoke；Cylinder assembly, described cylinder assembly is located on base assembly, limit in described cylinder assembly Make the refrigerating channel being spaced apart from each other, heat passage and humidification passage, described cylinder assembly is provided with air inlet, described air inlet With described refrigerating channel, described heat passage and described humidification passage is respectively communicated with, described air-inlet grille is located at described cylinder group The air inlet of part and being connected with described cylinder assembly；Cover assembly, described cover assembly is located at the upper end of cylinder assembly, described Cover assembly have the cold wind outlet connecting with described cold passage and the described hot-blast outlet heating channel connection and with described plus The damp exit of wet channel connection；Semiconductor chilling plate, described semiconductor chilling plate has cold end and hot junction and described quasiconductor Cooling piece is located in cylinder assembly, and described cold end is located in described refrigerating channel, and described hot junction is located at described heating in passage；Plus Wet assembly, described humidification assembly is located in described humidification passage；Fan assembly, described fan assembly is located in described cylinder assembly In order to drive described refrigerating channel, described to heat in passage and described humidification passage gas flowing.

Air-conditioner according to embodiments of the present invention, by making the necking part clamping of air-inlet grille and bottom bracing frame top, The connection between air-inlet grille and bottom bracing frame not only can be simplified, and can guarantee that between air-inlet grille and bottom bracing frame The reliability connecting.Meanwhile, by limiting the refrigerating channel being spaced apart from each other in cylinder assembly, heating passage and humidify logical Road, and freezed by semiconductor chilling plate realization in passage with heating in refrigerating channel and heat, pass through to add in humidification passage Humidification function realized by wet assembly, it is possible to achieve the refrigeration of air-conditioner, heat and humidify three kinds of functions, improves the wide of air-conditioner application General property, improves the comfort level of user simultaneously, meets the use demand of user.

According to some embodiments of the present invention, one of described air-inlet grille and described necking part are provided with grid card Groove, another is provided with the grid card convex being suitable to be adapted with described grid draw-in groove.

In some embodiments of the invention, described grid draw-in groove and described grid card convex are multiple and correspond, Multiple described grid draw-in grooves are spaced apart along the circumferential direction of described necking part.

In some embodiments of the invention, the side wall of the end face of free end of described grid card convex and described grid card convex Between rounding off.

In some embodiments of the invention, described necking part is provided with grid draw-in groove, the upper end of described grid draw-in groove, institute The one end stated on the periphery wall positioned at described necking part of grid draw-in groove is all unlimited, and described air-inlet grille is provided with grid card convex, The lower surface of described grid card convex is offseted with the lower wall of described grid draw-in groove.

According to some embodiments of the present invention, described air-inlet grille also includes：Air intake inner ring, described grid card convex is located at institute State on the internal perisporium of air intake inner ring；Air intake outer ring, be enclosed within outside described air intake outer ring on described air intake inner ring and with described air intake in Circle is spaced apart, and described air intake spoke is connected between described air intake inner ring and described air intake outer ring.

In some embodiments of the invention, a plurality of described air intake spoke includes：A plurality of first sub- spoke, in described air intake In the radially outward direction of inner ring, every described first sub- spoke deviates the radial direction of described air intake inner ring along clockwise direction Direction.

In some embodiments of the invention, in the radially outward direction of described air intake inner ring, adjacent two institutes State the distance between first sub- spoke to be gradually increased.

In some embodiments of the invention, a plurality of described air intake spoke also includes：A plurality of second sub- spoke, described enter In the radially outward direction of wind inner ring, every described second sub- spoke deviates the footpath of described air intake inner ring along direction counterclockwise To direction, described first sub- spoke is interweaved with the described second sub- spoke and is distributed.

In some embodiments of the invention, in the radially outward direction of described air intake inner ring, adjacent two institutes State the distance between second sub- spoke to be gradually increased.

The control method of air-conditioner according to embodiments of the present invention, described air-conditioner is according to arbitrary in claim 1-10 Air-conditioner described in, the outer surface of described cover assembly is provided with control key, limits closing chamber in described cover assembly, described Closing chamber is suitable to hold top cover circuit board, and described top cover circuit board is electrically connected with described control key, and described control key includes power supply On ＆ off switch, cooling and warming on ＆ off switch, humidification on ＆ off switch, described control method comprises the steps：

S1：Trigger described power switch key so that described air-conditioner is energized；

S2：Select described operating modes of air conditioner：When triggering described cooling and warming on ＆ off switch, described air-conditioner is in system Cold and heating mode；When triggering described humidification on ＆ off switch, described air-conditioner is in humidifying mode；

S3：Trigger described power switch key so that described air-conditioner power-off.

In some embodiments of the invention, described control key is also included for controlling described fan assembly operation power big Little speed governing key, when starting described air-conditioner, described fan assembly is operated with the first power, triggers described speed governing key when first When, described fan assembly is operated with the second power, triggers described speed governing key again, and described fan assembly is operated with the 3rd power, Third time triggers described speed governing key, and described fan assembly is with described first power operating.

In some embodiments of the invention, described fan assembly is included for controlling air output in described refrigerating channel Cold wind blower fan, for heating in passage the air-heater of air output described in controlling and being used for controlling wet gas current in described humidification passage The dampness blower fan of dynamic speed, described speed governing key include for control the first speed governing key of described cold wind blower fan, be used for controlling described Second speed governing key of air-heater and the 3rd speed governing key for controlling described dampness blower fan.

In some embodiments of the invention, the outer surface of described cover assembly also has display screen, described display screen with Described top cover circuit board electrical connection, described display screen is used for showing the work state information of described air-conditioner.

In some embodiments of the invention, the outer surface of described cover assembly is provided with touch screen, described touch screen and institute State the electrical connection of top cover circuit board, described control key is the Touch control key being formed on described touch screen.

The control method of air-conditioner according to embodiments of the present invention, described air-conditioner is according to arbitrary in claim 1-10 Air-conditioner described in, described cover assembly is provided with and detects sensing for the stress detecting described cover assembly stressing conditions Device, described electrically connected with described top cover circuit board by force detection sensor, described control method includes：

T1：Tap described cover assembly, described air-conditioner energising for the first time；

T2：Tap described cover assembly for the second time, described air-conditioner selects operational mode；

T3：Third time taps described cover assembly, described air-conditioner power-off.

In some embodiments of the invention, in step T2, step T2 also includes following sub-step：

T21：Tap described cover assembly when for the second time, and when hammer action is to tap one time, described air-conditioner enters system Cold and heating mode；

T22：Tap described cover assembly when for the second time, and when hammer action is continuous percussion twice, described air-conditioner enters Enter humidifying mode；

T23：Tap described cover assembly when for the second time, and when hammer action is continuously to tap three times, described air-conditioner enters Enter refrigeration and heating mode, and humidifying mode.

In some embodiments of the invention, in step T2, step T2 also includes following sub-step：

T21：After tapping described cover assembly for the second time, the rotating speed of described fan assembly is in original state；

T22：Press described cover assembly for the first time, the rotating speed of described fan assembly changes；Press for second described Cover assembly, the rotating speed of described fan assembly returns to original state.

Brief description

Fig. 1 is the perspective view of air-conditioner according to embodiments of the present invention；

Fig. 2 is the front view of air-conditioner according to embodiments of the present invention；

Fig. 3 is the top view of air-conditioner according to embodiments of the present invention；

Fig. 4 is the explosive view of air-conditioner according to embodiments of the present invention；

Fig. 5 is the structural representation of the cylinder assembly of air-conditioner according to embodiments of the present invention；

Fig. 6 is the internal structure schematic diagram of air-conditioner according to embodiments of the present invention；

Fig. 7 is the internal structure schematic diagram of another angle of air-conditioner according to embodiments of the present invention；

Fig. 8 is the profile of air-conditioner according to embodiments of the present invention；

Fig. 9 is the cold wind air duct board of air-conditioner according to embodiments of the present invention and the explosive view of median septum；

Figure 10 is the hot air duct plate of air-conditioner according to embodiments of the present invention and the explosive view of median septum；

Figure 11 is the structural representation of the median septum of air-conditioner according to embodiments of the present invention；

Figure 12 is the structural representation of the assembling seat of air-conditioner according to embodiments of the present invention；

Figure 13 is the semiconductor chilling plate of air-conditioner according to embodiments of the present invention and the structural representation of heat exchanger；

Figure 14 is the structural representation of the humidification assembly of air-conditioner according to embodiments of the present invention；

Figure 15 is the sectional view of the line A-A along along Figure 14；

Figure 16 is the explosive view of the humidification assembly of air-conditioner according to embodiments of the present invention；

Figure 17 is the profile of the cover assembly of air-conditioner according to embodiments of the present invention；

Figure 18 is the structural representation of the cover assembly of air-conditioner according to embodiments of the present invention；

Figure 19 is the structural representation of the lower cover dividing plate of the cover assembly of air-conditioner according to embodiments of the present invention；

Figure 20 is the structural representation of the base assembly of air-conditioner according to embodiments of the present invention；

Figure 21 is the explosive view of the base assembly of air-conditioner according to embodiments of the present invention；

Figure 22 is the enlarged drawing at B in Figure 21；

Figure 23 is the sectional view of air-conditioner according to embodiments of the present invention；

Figure 24 is the enlarged drawing at C in Figure 23.

Reference：

Air-conditioner 100,

Base assembly 1,

Bottom bracing frame 11,

Supportive body 111, necking part 1111, collection string holes 1112, grid draw-in groove 1113, location hole 1114, second Support locating dowel 1115, the 3rd support locating dowel 1116, wire hole 1117, embedded groove 1118,

Bottom support chamber 112,

Support baseboard 113, the first support locating dowel 1131,

Air-inlet grille 12,

Air intake inner ring 121, grid card convex 1211,

Air intake outer ring 122,

Air intake spoke 123, the first sub- spoke 1231, the second sub- spoke 1232,

Case ring 13, inner ring embedded division 131,

Outer ring parcel 132, the first profile line segment 1321, the second profile line segment 1322, third round profile section 1323,

Cylinder assembly 2, air inlet 21,

Outer tube body 22, cylinder limiting section 221, mounting groove 222, the second hot-flow flue installation portion 223,

Installation cavity 23,

Median septum 3, cable-through hole 301,

Dividing plate connecting portion 302, diaphragm body 3021, dividing plate locating dowel 3022, dividing plate ribs 3023, floor main body 3024, floor extension 3025, dividing plate escape groove 3026,

First cold air duct installation portion 303, mounting body portion 3031, extension 3032 is installed,

Dividing plate limiting section 304,

Support snap fit 305, snap fit extension 3051, snap fit lobe 3052,

Cold mounting groove 306, installs protuberance 307, current limliting raised line 308, the first positive holding section (positive engaging groove) 309, the first reverse holding section (reversely engaging groove) 310, lid embeded slot 311,

Cold wind air duct board 4,

Duct main portion 41, air channel connecting portion 42, cold wind end air baffle 43, the second cold air duct installation portion 44, system Cold passage 45,

Hot air duct plate 5,

Hot blast end air baffle 51, dividing plate stopper slot 52, the first hot-flow flue installation portion 53, heat passage 54,

Cover assembly 6,

Cold wind outlet 61, hot-blast outlet 62, damp exit 63, the second positive holding section (positive snap fit tabs) 64, Engaging extension 641, snap fit tabs portion 642, the second reverse holding section (reverse snap fit tabs) 65, lid extension 66, Upper cap body 67, top cap connects post 671, wind deflector 672, lower cover dividing plate 68, guiding face 681, lower cover connecting post 682, Positioning boss 683, closing chamber 684, top cover circuit board 69,

Semiconductor chilling plate 7, cold end 71, hot junction 72, heat exchanger 73,

Humidification assembly 8,

Nebulizer base 81, air intake passage 811, import 812, outlet 813, atomizing piece 814, fore-set 815, knob Switch 816, water level detection switch 817, magnetic float 818, dry-reed tube switch 819,

Water tank 82, fog flow channel 821,

Go out mist mouth 83, nozzle 831,

Humidification passage 84,

Cold wind blower fan 91, outlet air end 911,

Air-heater 92,

Assembling seat 93, pedestal base plate 931, assembling hole 9311, air vent 9312, pedestal ribs 932, the first pedestal coaming plate 933, support hole clipping 934, the second pedestal coaming plate 935,

Dampness blower fan 94,

Circuit unit 101, base circuit plate 1011, rechargeable battery 1012,

Anion generator 102, fixing groove 1021,

Temperature and Humidity module 103.

Specific embodiment

Embodiments of the invention are described below in detail, the example of described embodiment is shown in the drawings.Below with reference to The embodiment of Description of Drawings is exemplary it is intended to be used for explaining the present invention, and is not considered as limiting the invention.

In describing the invention it is to be understood that term " " center ", " length ", " on ", D score, " vertical ", " water Flat ", " top ", " bottom ", " interior ", " outward ", " clockwise ", " counterclockwise ", " axial ", " radially ", the orientation of instruction such as " circumferential " or Position relationship is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention and simplifies description, and not It is instruction or the hint device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore not It is understood that as limitation of the present invention.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or hint relative importance Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include at least one this feature.In describing the invention, " multiple " are meant that at least two, such as two, three Individual etc., unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection ", " fixation " etc. Term should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or integral；Can be that machinery connects Connect or electrically connect or can communicate each other；Can be to be joined directly together it is also possible to be indirectly connected to by intermediary, permissible It is the connection of two element internals or the interaction relationship of two elements, limit unless otherwise clear and definite.For this area For those of ordinary skill, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

Below with reference to Fig. 1-Figure 24, air-conditioner 100 according to embodiments of the present invention is described.

As shown in Fig. 1-Figure 24, air-conditioner 100 according to embodiments of the present invention, including base assembly 1, cylinder assembly 2, lid Body assembly 6, semiconductor chilling plate 7, humidification assembly 8 and fan assembly.

Specifically, base assembly 1 includes bottom bracing frame 11 and air-inlet grille 12.The top of bottom bracing frame 11 is (as schemed Top shown in 21) it is provided with necking part 1111, the free end (upper end as shown in figure 21) of air-inlet grille 12 and necking part 1111 Clamping and a plurality of spaced apart air intake spoke 123 of inclusion.The connected mode that clamping connects, simple and reliable, it is easy to save into style Assembly process between grid 12 and necking part 1111, saves installation time, improve production efficiency.

Cylinder assembly 2 is located on base assembly 1, limits the refrigerating channel 45 being spaced apart from each other, heats in cylinder assembly 2 Passage 54 and humidification passage 84, cylinder assembly 2 is provided with air inlet 21, air inlet 21 and refrigerating channel 45, heat passage 54 and plus Wet channel 84 is respectively communicated with, and air-inlet grille 12 is located at the air inlet 21 of cylinder assembly 2 and is connected with cylinder assembly 2.Thus, exist Certain air intake space is limited, air can smoothly pass through air-inlet grille 12 between air-inlet grille 12 and bottom bracing frame 11 Enter into refrigerating channel 45, heat in passage 54 and humidification passage 84, thus the refrigerating function of air-conditioner 100 both can be realized, The heat-production functions of air-conditioner 100 can be realized again, the humidification function of air-conditioner 100 can also be realized, meet the use need of user Ask.

Cover assembly 6 is located at the upper end (upper end as shown in Figure 2) of cylinder assembly 2, and cover assembly 6 has and refrigerating channel The cold wind outlet 61 of 45 connections with heat the hot-blast outlet 62 that passage 54 connect and with humidify the damp exit that passage 84 connects 63.Change thermogenetic cold air in refrigerating channel 45 to heat and in passage 54, change thermogenetic heat by cold wind outlet 61 discharge Gas can be discharged by hot-blast outlet 62, and the fog producing in humidification passage 84 can be discharged by damp exit 63.

Semiconductor chilling plate 7 has cold end 71 and hot junction 72 and semiconductor chilling plate 7 is located in cylinder assembly 2, cold end 71 In refrigerating channel 45, hot junction 72 is located at and heats in passage 54.Thus, it is possible to be made using the cold end 71 of semiconductor chilling plate 7 Cold, the hot junction 72 using semiconductor chilling plate 7 heats, thus realizing refrigeration and the heat-production functions of air-conditioner 100.

Humidification assembly 8 is located in humidification passage 84, and humidification assembly 8 can produce water smoke, thus increasing the humidity in room, carries The comfort level of high user.Fan assembly is located in cylinder assembly 2 in order to drive refrigerating channel 45, to heat passage 54 and humidification passage Gas flowing in 84, is not only easy to refrigerating channel 45 and the heat exchange heating air in passage 54, but also can make refrigerating channel The cold wind that in 45, heat exchange completes smoothly is discharged by cold wind outlet 61, makes the hot blast heating in passage 54 pass through hot-blast outlet 62 Smoothly discharge, so that the water smoke in humidification passage 84 is smoothly discharged by damp exit 63, improve the work effect of air-conditioner 100 Rate, can improve the comfort level of user simultaneously further.

Air-conditioner 100 according to embodiments of the present invention, by making the necking down of air-inlet grille 12 and bottom bracing frame 11 top Portion 1111 clamping, not only can simplify the connection between air-inlet grille 12 and bottom bracing frame 11, and can guarantee that air-inlet grille The reliability being connected between 12 with bottom bracing frame 11.Meanwhile, by limiting the refrigeration being spaced apart from each other in cylinder assembly 2 Passage 45, heat passage 54 and humidification passage 84, and and heat in passage 54 by semiconductor chilling plate 7 refrigerating channel 45 in Realize refrigeration and heat, in humidification passage 84, realize humidification function by humidifying assembly 8, it is possible to achieve the refrigeration of air-conditioner 100, Heat and humidify three kinds of functions, improve the popularity of air-conditioner 100 application, improve the comfort level of user simultaneously, meet user's Use demand.

Further, as shown in Figure 20 and Figure 21, one of air-inlet grille 12 and necking part 1111 are provided with grid card Groove 1113, another is provided with the grid card convex 1211 being suitable to be adapted with grid draw-in groove 1113.Air-inlet grille 12 and necking part 1111 can be attached by way of grid draw-in groove 1113 and grid card convex 1211 cooperation, not only can simplify air-inlet grille Assembly process between 12 and necking part 1111, can also improve simultaneously be connected between air-inlet grille 12 and necking part 1111 can By property.

Specifically, as shown in Figure 20 and Figure 21, grid draw-in groove 1113 and grid card convex 1211 are multiple and correspond, Multiple grid draw-in grooves 1113 are spaced apart along the circumferential direction of necking part 1111.Thus, air-inlet grille 12 He can not only be simplified The structure of necking part 1111, but also the reliability being connected between air-inlet grille 12 and necking part 1111 can be increased.For example, exist In example shown in Figure 21, grid draw-in groove 1113 is four and, lattice uniformly spaced apart along the circumferential direction of necking part 1111 Grid card convex 1211 is four and, four grids uniformly spaced apart along the circumferential direction of the air intake inner ring 121 of air-inlet grille 12 Draw-in groove 1113 corresponds and cooperates with four grid card convexs 1211.

Alternatively, as shown in figure 22, between the side wall of the end face of the free end of grid card convex 1211 and grid card convex 1211 Rounding off.Thus, when air-inlet grille 12 and necking part 1111 clamping, it is easy to grid card convex 1211 and snaps on necking part 1111 Grid draw-in groove 1113 in, thus realizing the connection of air-inlet grille 12 and bottom bracing frame 11.For example, the example shown in Figure 22 In, all excessive using fillet between the side wall of the free end face of grid card convex 1211 and grid card convex 1211.

In some embodiments of the invention, as shown in figure 21, necking part 1111 is provided with grid draw-in groove 1113, grid card One end on the upper end (upper end as shown in figure 21) of groove 1113, the periphery wall positioned at necking part 1111 of grid draw-in groove 1113 is equal Open wide, air-inlet grille 12 is provided with grid card convex 1211, lower surface (lower section as shown in figure 21) dative of grid card convex 1211 The lower wall (lower section as shown in figure 21) of grid draw-in groove 1113 offsets.When air-inlet grille 12 and necking part 1111 clamping, grid Card convex 1211 can snap in grid draw-in groove 1113 from the upper end of grid draw-in groove 1113, and snaps in downwards along the vertical direction up to lattice The lower surface of grid card convex 1211 is offseted with the lower wall of grid draw-in groove 1113.Thus, it is easy to for grid card convex 1211 to snap in grid In draw-in groove 1113, meanwhile, offset can be to grid card convex for the lower wall of the lower surface of grid card convex 1211 and grid draw-in groove 1113 1211 play position-limiting action, improve the reliability being connected between air-inlet grille 12 and necking part 1111.

In some embodiments of the invention, as shown in Figure 20 and Figure 21, air-inlet grille 12 also includes air intake inner ring 121 He Air intake outer ring 122, grid card convex 1211 is located on the internal perisporium of air intake inner ring 121, is enclosed within air intake inner ring outside air intake outer ring 122 It is spaced apart on 121 and with air intake inner ring 121, air intake spoke 123 is connected between air intake inner ring 121 and air intake outer ring 122.One side Air intake inner ring 121 and air intake outer ring 122 can be linked together by face air intake spoke 123, on the other hand, when airflow passes air intake During grid 12, air-inlet grille 12 can be prewhirled to air-flow, improves air quantity and air supplying distance.Wherein, prewhirl and refer to work as air-flow When flowing through air-inlet grille 12, there is this change in the flow direction of air-flow, and is flowed in cylinder assembly 2 in the form of rotating.

Specifically, as shown in Figure 20 and Figure 21, a plurality of air intake spoke 123 includes a plurality of first sub- spoke 1231.In air intake In the radially outward direction of inner ring 121, every first sub- spoke 1231 deviates the footpath of air intake inner ring 121 along clockwise direction To direction.Thus, when airflow passes air-inlet grille 12, air-inlet grille 12 can be prewhirled to air-flow, improves fan assembly Total head, improves air quantity and air supplying distance.

Further, as shown in Figure 20 and Figure 21, a plurality of air intake spoke 123 also includes a plurality of second sub- spoke 1232.? In the radially outward direction of air intake inner ring 121, every second sub- spoke 1232 deviates air intake inner ring 121 along direction counterclockwise Radial direction, the first sub- spoke 1231 and the second sub- spoke 1232 interweave distribution.Thus, a plurality of first sub- spoke 1231 and many The sub- spoke 1232 of bar second limits netted cell structure, and when airflow passes air-inlet grille 12, air-inlet grille 12 can be right Air-flow is further prewhirled, and improves fan assembly total head, improves air quantity and air supplying distance.

Further, as shown in figure 20, in the radially outward direction of air intake inner ring 121, adjacent two first The distance between sub- spoke 1231 is gradually increased, and in the radially outward direction of air intake inner ring 121, adjacent two second sub The distance between spoke 1232 is gradually increased.Structure and the processing technique of air-inlet grille 12 thus can be simplified, save and produce week Phase, reduce production cost.

For example, in the example shown in Figure 20, air-inlet grille 12 include air intake inner ring 121, air intake outer ring 122 and a plurality of enter Wind spoke 123, air intake spoke 123 includes the first sub- spoke of a plurality of distribution of the circumferential direction uniform intervals along air intake inner ring 121 1231 and a plurality of second sub- spoke 1232, in the radially outward direction of air intake inner ring 121, every first sub- spoke 1231 edge The radial direction of air intake inner ring 121 is deviateed in clockwise direction, every second sub- spoke 1232 along direction counterclockwise deviate into The radial direction of wind inner ring 121, the first sub- spoke 1231 and the second sub- spoke 1232 interweave and are distributed.Due to air intake inner ring 121 Length in circumferential direction is less than the length in the circumferential direction of air intake outer ring 122, when a plurality of first sub- spoke 1231 and a plurality of the Two sub- spokes 1232 along air intake inner ring 121 and air intake outer ring 122 be all evenly spaced distribution when, in the radial direction of air intake inner ring 121 In outwardly direction, the distance between two adjacent first sub- spokes 1231 are gradually increased, adjacent two the second sub- spokes The distance between 1232 are gradually increased.Thus, it is possible to simplify structure and the processing technique of air-inlet grille 12, save the production cycle, Reduce production cost.

In some embodiments of the invention, bottom bracing frame 11 has and supports for the bottom placing circuit unit 101 Chamber 112, circuit unit 101 can control the operation of air-conditioner 100.

Further, as shown in Fig. 4, Fig. 8 and Figure 21 and Figure 22, necking part 1111 and bottom bracing frame 11 rounding off. The aesthetic property of bottom bracing frame 11 thus can be increased.Alternatively, necking part 1111 is located at the middle part of bottom bracing frame 11.By This, not only can improve the aesthetic property of bottom bracing frame 11, and then the aesthetic property of raising air-conditioner 100 further, also may be used simultaneously To improve the reliability that base assembly 1 supports to cylinder assembly 2, prevent from causing air-conditioning due to the weight bias on base assembly 1 The whole machine of device 100 is toppled over, thus improving the reliability of air-conditioner 100 work.

In some embodiments of the invention, as shown in Fig. 4, Fig. 8 and Figure 21 and Figure 22, bottom bracing frame 11 includes supporting Base plate 113 and supportive body 111.Supportive body 111 is connected with support baseboard 113, and supportive body 111 is limited with support baseboard 113 Make bottom support chamber 112, thus, be easy to circuit unit 101 is positioned in bottom support chamber 112.Supportive body 111 upper End has necking part 1111, and air-inlet grille 12 is spaced apart with support baseboard 113.Thus, can limit in the lower section of air-inlet grille 12 Make certain air intake space, air can by this space upwardly through air-inlet grille 12 have respectively entered refrigerating channel 45, Heat in passage 54 and humidification passage 84.

Further, as shown in Fig. 4, Fig. 8 and Figure 21 and Figure 22, support baseboard 113 is provided with the first support locating dowel 1131, supportive body 111 is provided with the second support locating dowel 1115, and first supports locating dowel 1131 and the second support locating dowel 1115 are connected by base connector.Thus, it is possible to support locating dowel 1131, second to support locating dowel 1115 and bottom by first Supportive body 111 and support baseboard 113 are coupled together by seat connector, after supportive body 111 and support baseboard 113 connection The bottom support chamber 112 for placing circuit unit 101 can be limited.Wherein, base connector can be screw etc., first Support and can be provided with screwed hole in locating dowel 1131 and the second support locating dowel 1115, screw can pass through the first support locating dowel It is connected with the second support locating dowel 1115 after screwed hole on 1131, thus realizing supportive body 111 and the company of support baseboard 113 Connect.

Further, as shown in figure 21, first support locating dowel 1131 with second support locating dowel 1115 be multiple And correspond.Thus, it is possible to increase the reliability connecting between supportive body 111 and support baseboard 113.For example, in Figure 21 In shown example, first supports locating dowel 1131 to be four and the circumferential direction uniform intervals distribution along support baseboard 113.Phase Ying Di, second supports locating dowel 1115 to be four and spaced apart along the circumferential direction of supportive body 111.Thus, it is possible to increase The reliability connecting between supportive body 111 and support baseboard 113.

As shown in figure 8, supportive body 111 is provided with multiple the 3rd support locating dowels being suitable to permanent circuit assembly 101 1116, multiple three support locating dowel 1116 spaced apart.Thus, it is possible to support locating dowel 1116 by circuit unit using the 3rd 101 are fixed in bottom support chamber 112.As shown in figure 21, the bottom of supportive body 111 is additionally provided with power line wire hole 1117, One end of power line is electrically connected with circuit unit 101, and the other end of power line is connected with extraneous power supply after being stretched out by wire hole 1117 Connect.

As shown in figure 4, circuit unit 101 includes base circuit plate 1011 and rechargeable battery 1012, base circuit plate 1011 are connected with the 3rd support locating dowel 1116 to realize the fixation of base circuit plate 1011, rechargeable battery 1012 and base electricity Road plate 1011 electrically connects.Air-conditioner 100 can be connected with extraneous power supply by power line to be realized powering to air-conditioner 100 so that sky Adjust device 100 to run, when base circuit plate 1011 assembly is connected with extraneous power supply by power line, rechargeable battery can be given 1012 charge so that the certain electricity of rechargeable battery 1012 memory storage, and air-conditioner 100 can also pass through rechargeable battery 1012 Power to air-conditioner 100 so that air-conditioner 100 runs, thus, be connected with extraneous power supply there is no extraneous power supply or air-conditioner 100 When inconvenient, rechargeable battery 1012 can be adopted to power to realize the operation of air-conditioner 100 to air-conditioner 100, meet user Use demand.

In some embodiments of the invention, as shown in Fig. 4, Fig. 8 and Figure 21-Figure 24, base assembly 1 also includes case ring 13, case ring 13 is embedded on bottom bracing frame 11, and case ring 13 includes inner ring embedded division 131 and outer ring parcel 132, outer ring It is enclosed within inner ring embedded division 131 and is connected with the periphery wall of inner ring embedded division 131 outside parcel 132, inner ring embedded division 131 is embedded On the periphery wall of bottom bracing frame 11, outer ring parcel 132 wraps up the portion perimeter wall of bottom bracing frame 11.Inner ring embedded division 131 can play the effect being connected with bottom bracing frame 11, and it is attractive in appearance that outer ring parcel 132 can play increase bottom bracing frame 11 The effect of property.Thus, not only can increase the reliability being connected between case ring 13 and bottom bracing frame 11, can also increase simultaneously Plus the aesthetic property of base assembly 1.

Specifically, as shown in figure 24, the periphery wall of bottom bracing frame 11 is provided with embedded groove 1118, inner ring embedded division 131 Stretch in embedded groove 1118, embedded groove 1118 is circumferentially extending along bottom bracing frame 11.Thus, it is possible to increase case ring 13 with The fastness connecting between bottom bracing frame 11.

Alternatively, as shown in figure 24, the cross-sectional profiles line of outer ring parcel 132 includes the first round that head and the tail connect each other Profile section 1321, the second profile line segment 1322 and third round profile section 1323, the first profile line segment 1321 and the second profile line segment 1322 rounding ofves, the second profile line segment 1322 and third round profile section 1323 rounding off, the first profile line segment 1321 and Three contour line section 1323 rounding off.Thus, it is possible to make the cross section of outer ring parcel 132 outer contour rounder and more smooth, Thus improving the aesthetic property of outer ring parcel 132, and then improve the aesthetic property of case ring 13.

Wherein, as shown in figure 24, the first profile line segment 1321 is located on the extended surface of upper surface of inner ring embedded division 131. Thus, it is possible to simplify structure and the processing technique of case ring 13, save the production cycle, reduce production cost, at the same time it can also carry The aesthetic property of high case ring 13.On direction from top to bottom, third round profile section 1323 is gradually to away from bottom bracing frame 11 Periphery wall direction tilt.Thus, it is possible to simplify structure and the processing technique of case ring 13, save the production cycle, reduce life Produce cost, at the same time it can also improve the aesthetic property of case ring 13.

In some embodiments of the invention, as shown in figure 24, in bottom bracing frame 11 in the radial direction, inner ring embeds The width in portion 131 is more than the width of outer ring parcel 132.Thus, not only can improve case ring 13 and bottom bracing frame 11 it Between the reliability that connects, but also the aesthetic property of base assembly 1 can be increased.

In some embodiments of the invention, as shown in Fig. 4-Figure 13 and Figure 23, in cylinder assembly 2, it is provided with median septum 3, in Dividing plate 3 is vertical to be arranged in cylinder assembly 2 and limits refrigerating channel 45 with cylinder assembly 2 and heat passage 54, and median septum 3 can With by refrigerating channel 45 with heat passage 54 and be spaced apart, thus ensureing that the refrigeration of air-conditioner 100 and heating is smoothed out, quasiconductor Cooling piece 7 is embedded on median septum 3, and the cold end 71 such that it is able to make semiconductor chilling plate 7 is located in refrigerating channel 45, quasiconductor The hot junction 72 of cooling piece 7 is located at and heats the refrigeration realizing air-conditioner 100 in passage 54 respectively and heat-production functions.Set on median septum 3 There is the dividing plate connecting portion 302 being suitable to be connected with base assembly 1.Median septum 3 can be by dividing plate connecting portion 302 and base assembly 1 Connect, on the one hand cylinder assembly 2 can be fixed on base assembly 1, on the other hand can make that median septum 3 is vertical to be arranged on cylinder To limit refrigerating channel 45 with cylinder assembly 2 and to heat passage 54 in body assembly 2.

In addition, as shown in figure 11, median septum 3 is provided with the cable-through hole 301 passing through for wire.Thus, it is possible to by leading The mains connection of median septum 3 both sides is all connected by line with extraneous power supply, thus ensureing that air-conditioner 100 freezes and heats smooth fortune OK.

As shown in Figure 8 and Figure 11, dividing plate connecting portion 302 includes diaphragm body 3021, and diaphragm body 3021 is from median septum 3 Bottom is extended and is fitted with the upper end of base assembly 1, and diaphragm body 3021 is connected with base assembly 1 by spacer adapter. Thus, it is possible to realize the connection of median septum 3 and base assembly 1, on the one hand cylinder assembly 2 can be fixed on base assembly 1, On the other hand can make that median septum 3 is vertical to be arranged in cylinder assembly 2 to limit refrigerating channel 45 with cylinder assembly 2 and to heat Passage 54.For example, in the example shown in Fig. 8 and Figure 11, dividing plate connecting portion 302 includes diaphragm body 3021, diaphragm body 3021 from the bottom of median septum 3 to side (hot blast side as shown in figure 11) horizontal-extending, the diaphragm body heating passage 54 Fitted with the upper surface of base assembly 1 in 3021 lower surface, and by spacer adapter (such as screw etc.) with base assembly 1 even Connect.

Further, as shown in figure 11, diaphragm body 3021 is provided with dividing plate locating dowel 3022, spacer adapter pass through every Plate locating dowel 3022 is connected with base assembly 1.Because the thickness of diaphragm body 3021 is less, when setting in diaphragm body 3021 After locating dowel, and so that spacer adapter is connected with base assembly 1 after passing through locating dowel, diaphragm body 3021 at this can be increased Thickness, thus strengthening the structural strength of diaphragm body 3021, and then strengthens the reliability being connected between median septum 3 and base assembly 1 Property.

For example, in the example shown in Figure 11 and Figure 21, diaphragm body 3021 is provided with dividing plate locating dowel 3022, and dividing plate is fixed Position post 3022 is provided with the through hole passing through for spacer adapter, and base assembly 1 is provided with and is suitable to location hole corresponding with through hole 1114, spacer adapter is connected with the location hole 1114 on base assembly 1 after the through hole through in dividing plate locating dowel 3022.

Further, as shown in Figure 11 and Figure 21, dividing plate locating dowel 3022 is multiple for be spaced apart, and location hole 1114 is Spaced apart is multiple, and multiple locating dowels are corresponded with multiple location holes 1114.Thus, it is possible to increase median septum 3 and base group The reliability connecting between part 1.For example, in the example shown in Figure 11 and Figure 21, dividing plate locating dowel 3022 be two, two every Plate locating dowel 3022 is spaced apart along the length direction of diaphragm body 3021, and location hole 1114 is two and with two locating dowels one by one Corresponding.

As shown in figure 11, dividing plate connecting portion 302 also includes dividing plate ribs 3023, dividing plate ribs 3023 respectively with every Plate 3, diaphragm body 3021 connect.Dividing plate ribs 3023 can strengthen between median septum 3 and diaphragm body 3021 connect can By property, thus after diaphragm body 3021 is connected with base assembly 1, can improve and be connected between median septum 3 and base assembly 1 Reliability.For example, in the example depicted in fig. 11, dividing plate connecting portion 302 includes dividing plate ribs 3023, dividing plate ribs 3023 Cross section be formed generally as right angled triangle, two right-angle sides of dividing plate ribs 3023 respectively with diaphragm body 3021 and in every Plate 3 connects to strengthen the reliability being connected between diaphragm body 3021 and median septum 3.

Further, as shown in figure 11, dividing plate ribs 3023 is multiple for be spaced apart.For example, showing shown in Figure 11 In example, dividing plate ribs 3023 is two and, two dividing plate ribs spaced apart along the length direction of diaphragm body 3021 3023 two ends being located at the length direction of diaphragm body 3021 respectively.Thus can strengthen further diaphragm body 3021 with every The reliability connecting between plate 3, thus after diaphragm body 3021 is connected with base assembly 1, can improve median septum 3 and base The reliability connecting between assembly 1.

Further, as shown in figure 11, dividing plate ribs 3023 includes floor main body 3024 and floor extension 3025. Floor main body 3024 is connected with median septum 3, diaphragm body 3021 respectively and is connected between median septum 3 and diaphragm body 3021 with increasing Reliability.Floor extension 3025 is located at the upper end of floor main body 3024, and the free end end face of floor extension 3025 is formed For arcwall face.Floor extension 3025 can strengthen the structural strength of dividing plate ribs 3023, one end of floor extension 3025 It is connected with median septum 3, the reliability being connected between median septum 3 and diaphragm body 3021 can be strengthened, simultaneously by floor extension 3025 free end is formed as cambered surface, can prevent wedge angle during assembling, on floor extension 3025 for the air-conditioner 100 Other parts are damaged at position.

In addition, as shown in figure 11, diaphragm body 3021 is provided with dividing plate escape groove 3026, and dividing plate escape groove 3026 can supply Wire passes through.In example shown in for example in Figure 11, Figure 21 and Figure 23, diaphragm body 3021 is provided with dividing plate escape groove 3026, Base assembly 1 is provided with collection string holes 1112 corresponding with escape groove, and wire can pass through collection string holes 1112 He in base assembly 1 Extend into after dividing plate escape groove 3026 to heat in passage 54 and be connected with mains connection, through dividing plate escape groove 3026 wire also It is connected with the mains connection in refrigerating channel 45 after the cable-through hole 301 on median septum 3 can be passed through.

In some embodiments of the invention, as shown in Fig. 4, Fig. 6-Fig. 9, fan assembly includes cold wind blower fan 91, cylinder There is in assembly 2 cold wind air duct board 4, the cold wind lateral spacing of cold wind air duct board 4 and median septum 3 makes refrigerating channel 45, cold wind air channel The cold wind air intake of plate 4 and the outlet air end 911 of cold wind blower fan 91 overlap and are directed to refrigeration with the air-flow blowing out cold wind blower fan 91 In passage 45.Air-flow can be entered in cylinder assembly 2 by air inlet 21, and is directed to air-flow in the presence of cold wind blower fan 91 In refrigerating channel 45, air-flow carries out heat exchange in refrigerating channel 45, and the cold wind that heat exchange completes is from cold wind outlet 61 discharge.

Further, as shown in figure 9, cold wind air duct board 4 is formed in one, part and inclusion duct main portion 41 and air channel connect Socket part 42, duct main portion 41 is located at side (cold wind side as shown in Figure 9) and the up/down perforation of median septum 3, duct main The upper end (upper end as shown in Figure 9) in portion 41 is relative with cold wind outlet 61, and air channel connecting portion 42 is connected to duct main portion 41 He Between cold wind blower fan 91.The structure of cold wind air duct board 4 thus can be simplified and be easy to going out of cold wind air duct board 4 and cold wind blower fan 91 Wind end 911 overlaps, and simultaneously facilitates air-flow and carries out heat exchange in the refrigerating channel 45 that duct main portion 41 is limited with median septum 3, Be conducive to improving the work efficiency of air-conditioner 100.

Alternatively, as shown in figure 9, on from cold wind blower fan 91 to the direction in duct main portion 41, by air channel connecting portion 42 The cross-sectional area of the refrigerating channel 45 limiting is gradually increased.For example, in the example depicted in fig. 9, limited by air channel connecting portion 42 The cross-sectional area of the lower end of refrigerating channel 45 made is little, and upper end cross-sectional area is big, and on bottom-up direction, cross section Amass and be gradually increased.Lower end cross-sectional area is little, and the outlet air end 911 being easy to air channel connecting portion 42 and cold wind blower fan 91 overlaps with by cold wind The air-flow of blower fan 91 blowout is directed in refrigerating channel 45, and upper end cross-sectional area is gradually increased, beneficial to air-flow in refrigerating channel 45 Interior heat exchange.

Wherein, as shown in figure 9, cold wind blower fan 91 is centrifugal blower.Certainly, the invention is not restricted to this, cold wind blower fan 91 is also It can be axial flow blower.

As shown in Fig. 6 and Fig. 9, median septum 3 is provided with the first cold air duct installation portion 303, and cold wind air duct board 4 is provided with and the The second cold air duct installation portion 44 that one cold air duct installation portion 303 is adapted.Thus, it is possible to pass through the first cold air duct installation portion 303 With the second cold air duct installation portion 44, cold wind air duct board 4 is fixed on the cold wind side of median septum 3.

Further, as shown in figure 9, the first cold air duct installation portion 303 includes mounting body portion 3031 and installs extension 3032, mounting body portion 3031 is suitable to be connected with the second cold air duct installation portion 44, installs extension 3032 and is located at mounting body portion 3031 lower section, and be connected with mounting body portion 3031.Cold wind air duct board 4 can pass through mounting body portion 3031 and the second cold wind Road installation portion 44 is connected with median septum 3, installs extension 3032 and can play the work strengthening mounting body portion 3031 structural strength With thus strengthening the reliability being connected between cold wind air duct board 4 and median septum 3.

Further, extend downwardly out as shown in figure 9, installing extension 3032 from the one end in mounting body portion 3031. When cold wind air duct board 4 is connected with median septum 3, the second cold air duct installation portion 44 is located at the top in mounting body portion 3031, installs Extension 3032 extends downwardly out from the one end in mounting body portion 3031, on the one hand can avoid to the second cold air duct installation portion 44 Connection with mounting body portion 3031 produces to be interfered, and on the other hand, can strengthen the structural strength in mounting body portion 3031, prevent Mounting body portion 3031 structural strength is not enough and be deflected downwardly.

Alternatively, installing extension 3032 length is L1, and the length of median septum 3 is L2, L1 and L2 meets：L1≥0.5L2. Thus, it is possible to improve the stiffening effect installing the structural strength to mounting body portion 3031 for the extension 3032, thus improving second The reliability being connected between cold air duct installation portion 44 and mounting body portion 3031, so improve cold wind air duct board 4 and median septum 3 it Between connect reliability.

In some embodiments of the invention, as shown in Fig. 6, Fig. 8 and Fig. 9, cold wind air duct board 4 is provided with cold wind end air-flow Dividing plate 43, cold wind end air baffle 43 is located at the outside of refrigerating channel 45 and is fitted tightly with the internal perisporium of cylinder assembly 2.By This, can prevent the cold wind flowing out from refrigerating channel 45 upper end from flowing downward outside refrigerating channel 45, make from refrigerating channel 45 The cold wind of interior outflow smoothly by cold wind outlet 61 outflow, improves the air quantity of air-conditioner 100.Second cold air duct installation portion 44 On cold wind end air baffle 43.Thus it is easy to the connection of cold wind air duct board 4 and median septum 3.

For example, in the example depicted in fig. 9, cold wind air duct board 4 and median septum 3 limit refrigerating channel 45, vertically On direction, the cross section of refrigerating channel 45 be shaped as rectangle, cold wind end air baffle 43 be located at refrigerating channel 45 outside And fit tightly with the internal perisporium of cylinder assembly 2, the big build of shape of cold wind end air baffle 43 becomes circular arc, cold wind end gas The circular arc side wall of stream dividing plate 43 is fitted tightly with the internal perisporium of cylinder assembly 2, and cold wind end air baffle 43 is provided with for holding Receive the holding tank of cold wind air duct board 4, the internal perisporium of holding tank is fitted tightly with the periphery wall of cold wind air duct board 4.

As shown in figure 9, being additionally provided with anion generator 102 in refrigerating channel 45, anion generator 102 passes through fixing groove 1021 are fixed on median septum 3, and its brush is arranged on the air outlet of cold wind air duct board 4.Anion generator 102 is a kind of life Become the device of negative aeroion.The aerial content of anion is a key factor determining air quality quality, air In containing appropriate anion can not only efficiently dedusting, sterilizing, purify air, the oxygen molecule of in the air can also be activated simultaneously And form oxygen carrying anion, enliven air molecule, improve human lung's function, enhance metabolism, strengthen resistances against diseases, adjust Central nervous system, makes one in high spirits, dynamic etc..

In addition, as shown in figure 9, cold wind blower fan 91 is threadeded with median septum 3.Threaded connected mode is simple, even Connect reliability.

As shown in Fig. 5, Fig. 9, Figure 10 and Figure 23, the internal perisporium of cylinder assembly 2 is provided with cylinder limiting section 221, median septum 3 It is provided with dividing plate limiting section 304, cylinder limiting section 221 is suitable to only support with dividing plate limiting section 304.Thus, when cylinder assembly 2 is sheathed When median septum 3 outside, the dividing plate limiting section 304 on median septum 3 is only supported with the cylinder limiting section 221 on cylinder assembly 2, thus The spacing of median septum 3 and cylinder assembly 2 can be realized.For example, in the example shown in Figure 23, cylinder limiting section 221 is only against On the upper surface of dividing plate limiting section 304, when median septum 3 is fixed on base assembly 1, cylinder assembly 2 can pass through median septum 3 It is fixed on base assembly 1.

Further, as shown in figure 5, the internal perisporium of cylinder assembly 2 is provided with cylinder mounting groove 222, median septum 3 is embedded In cylinder mounting groove 222, thus, it is possible to increase the reliability that cylinder assembly 2 is connected with median septum 3, prevent median septum 3 in cylinder Shake in assembly 2 it is ensured that median septum 3 is vertical is arranged in cylinder assembly 2.The side wall of cylinder mounting groove 222 is configured to Cylinder limiting section 221.For example, in the example shown in Fig. 5, Fig. 9, Figure 10 and Figure 23, when median septum 3 is embedded in mounting groove 222 When interior, the lower surface of side wall of mounting groove 222 is only supported with the upper surface of dividing plate limiting section 304.Cylinder assembly 2 thus can be simplified Structure and processing technique, save the production cycle, reduce production cost.

Further, as shown in figure 23, cylinder mounting groove 222 be two, and the relative two side wall of median septum 3 with Corresponding two cylinder mounting grooves 222 coordinate.Thus, it is possible to increase the reliability being connected between median septum 3 and cylinder assembly 2, Prevent median septum 3 from rocking in cylinder assembly 2 it is ensured that median septum 3 is vertical is arranged in cylinder assembly 2, thus improving air-conditioner 100 reliability of structures.

As shown in Fig. 9, Figure 10 and Figure 23, dividing plate limiting section 304 is formed as strip, T-shaped or I type.Thus, it is possible to increase The multiformity of the structure of dividing plate limiting section 304.For example, in the example shown in Figure 23, dividing plate limiting section 304 is formed as I type, every Plate limiting section 304 includes three parts, the upper surface of the substantially horizontally extending crossbeam positioned at upper end and cylinder limiting section Fit to play spacing effect to cylinder assembly 2 in 221 lower surface, positioned at the substantially horizontally extending crossbeam of lower end And be located at the middle crossbeam substantially vertically extending and can be pointed to the crossbeam of upper end and play the effect of structural strengthening.

In some embodiments of the invention, as shown in figure 9, dividing plate limiting section 304 is multiple and is respectively positioned on median septum 3 Edge.The position-limiting action to cylinder assembly 2 for the median septum 3 thus can be increased.For example in the example depicted in fig. 9, median septum 3 Relative two side wall on all include two dividing plate limiting sections 304 and be located at the cold wind side of median septum 3 and hot blast side, peace respectively Tankage 222 includes two side walls, when median septum 3 is embedded in mounting groove 222, the lower surface of two side walls of mounting groove 222 Only support with the upper surface of two dividing plate limiting sections 304 respectively.

In some embodiments of the invention, as shown in Fig. 4, Fig. 6-Fig. 8 and Figure 10-Figure 12, fan assembly includes hot blast Blower fan 92, has hot air duct plate 5 in cylinder assembly 2, the hot blast lateral spacing of hot air duct plate 5 and median septum 3 is made and heated passage 54, air-heater 92 is located at and heats in passage 54 to drive air flow direction hot-blast outlet 62.Air-flow can be entered by air inlet 21 In cylinder assembly 2, and in the presence of air-heater 92, air-flow is directed to and heats in passage 54, air-flow is heating in passage 54 Carry out heat exchange, the hot blast that heat exchange completes is discharged from hot-blast outlet 62.

As shown in Fig. 7, Figure 10-Figure 12, fan assembly also includes assembling seat 93, assembling seat 93 and median septum 3 Clamping, air-heater 92 is embedded on assembling seat 93, and hot air duct plate 5 is connected with the upper end of assembling seat 93.Thus, Air-heater 92 can be connected with median septum 3 so that air-heater 92 is fixed on median septum 3, simultaneously by assembling seat 93 Hot air duct plate 5 is connected with the upper end of assembling seat 93, and the air-flow flowing out in air-heater 92 can be made to smoothly enter system To carry out heat exchange in the passage of heat 54.

Further, as shown in Figure 10-Figure 12, one of assembling seat 93 and median septum 3 are provided with support snap fit 305, another is provided with the support hole clipping 934 being adapted with support snap fit 305.Thus, assembling seat 93 and median septum 3 can Assembling seat 93 and the clamping of median septum 3 are realized with the cooperation by support snap fit 305 and support hole clipping 934, simultaneously permissible Simplify the structure of median septum 3 and assembling seat 93.

Further, as shown in Figure 10-Figure 12, support snap fit 305 and support hole clipping 934 are multiple and one a pair Should.The reliability being connected between assembling seat 93 and median septum 3 thus can be increased.For example, showing shown in Figure 10-Figure 12 In example, median septum 3 is provided with two spaced apart support snap fits 305, and assembling seat 93 is provided with two and support snap fit 305 One-to-one support hole clipping 934, two support hole clippings 934 are respectively provided on the relative two side wall of assembling seat 93, When assembling seat 93 and median septum 3 clamping, two support snap fits 305 are respectively clamped in two support hole clippings 934.

As shown in figure 11, support snap fit 305 includes snap fit extension 3051 and snap fit lobe 3052.Snap fit extension 3051 one end is connected with median septum 3, and snap fit lobe 3052 is located at the other end of snap fit extension 3051, snap fit lobe 3052 are adapted to extend into support hole clipping 934.Thus, it is possible to by stretching to snap fit lobe 3052 in support hole clipping 934 Realize the connection of median septum 3 and assembling seat 93.For example, in the example depicted in fig. 11, support snap fit 305 includes snap fit and prolongs Extending portion 3051 and snap fit lobe 3052, the direction that snap fit extension 3051 is directed away from median septum 3 extends and snap fit extension 3051 one end is connected with median septum 3, and snap fit lobe 3052 is located at the other end of snap fit extension 3051, snap fit lobe The 3052 direction projections being located remotely from each other towards two support snap fits 305 are when median septum 3 is connected with assembling seat 93, permissible Support snap fit 305 on median septum 3 is stretched in support hole clipping 934 from the inside of assembling seat 93.

Wherein, as shown in Figure 10, air-heater 92 is axial flow blower.Axial flow blower air quantity is big, can improve air-conditioner 100 Work efficiency, improve air-conditioner 100 air output, improve user comfortableness.Certainly, the invention is not restricted to this, hot blast wind Machine 92 can also be centrifugal blower.In addition, air-heater 92 is multiple, thus can further improve air quantity, improve user Comfortableness.For example, in the example depicted in fig. 10, air-heater 92 is two.

As shown in Figure 10, heat and in passage 54, be additionally provided with Temperature and Humidity module 103, Temperature and Humidity module 103 is passed through Threaded fastener is connected on median septum 3, and is located at the air inlet of air-heater 92.Temperature and Humidity module 103 can be examined Survey the humiture heating in passage.

As shown in figure 12, assembling seat 93 includes 931, two the first pedestal coaming plates 933 of pedestal base plate and the second pedestal Coaming plate 935.One end of pedestal base plate 931 is offseted with median septum 3, and pedestal base plate 931 has the wind being suitable to install air-heater 92 Machine installing hole 9311, thus, it is possible to air-heater 92 is arranged on assembling seat 93.Be additionally provided with pedestal base plate 931 with The relative air vent 9312 of the air inlet of air-heater 92, thus, facilitates airflow in air-heater 92.Two the first pedestals Coaming plate 933 is located at the two ends of pedestal base plate 931 respectively, and two the first pedestal coaming plates 933 all with median septum 3 clamping to realize wind Machine mounting seat 93 and the connection of median septum 3, meanwhile, the first pedestal coaming plate 933 can play position-limiting action to air-heater 92.The Two pedestal coaming plates 935 are located at one end away from median septum 3 of pedestal base plate 931, and the second pedestal coaming plate 935 is folded in two the Between one pedestal coaming plate 933, the second pedestal coaming plate 935 can play further position-limiting action to air-heater 92.

As shown in figure 12, pedestal base plate 931 is provided with pedestal ribs 932, and pedestal ribs 932 is offseted with median septum 3. One side pedestal ribs 932 can play the effect of structural strengthening, another aspect pedestal ribs 932 to assembling seat 93 The end face away from median septum 3 can play further position-limiting action to air-heater 92.

Alternatively, as shown in figure 12, air-heater 92 is threadeded with pedestal base plate 931.Threaded mode is simple Reliable, the reliability being connected between air-heater 92 and pedestal base plate 931 can be improved.For example, in the example depicted in fig. 12, Pedestal base plate 931 is provided with the assembling hole 9311 for installing air-heater 92.

As shown in Fig. 4, Fig. 8, Figure 10, Figure 11 and Figure 13, median septum 3 is provided with cold mounting groove 306 of insertion, quasiconductor Cooling piece 7 can pass through cold mounting groove 306, so that its cold end 71 is located in refrigerating channel 45, hot junction 72 is located at and heats passage In 54, the perisporium of cold mounting groove 306 is provided with installation protuberance towards the side (hot blast side as shown in figure 11) of median septum 3 307, the circumferential direction installing protuberance 307 along cold mounting groove 306 extends, and installing protuberance 307 can be to semiconductor chilling plate 7 To support and spacing effect.Two heat exchangers 73 of semiconductor chilling plate 7 are located at the both sides of median septum 3 respectively, thus may be used To increase in refrigerating channel 45 and to heat the efficiency of heat exchange in passage 54, with the side wall installing protuberance 307 homonymy on median septum 3 It is provided with current limliting raised line 308, current limliting raised line 308 is spaced apart and is located at the top installing protuberance 307, current limliting with installing protuberance 307 Raised line 308 is folded between median septum 3 and corresponding heat exchanger 73.Current limliting raised line 308 can stop air-flow in median septum 3 He Flow through between corresponding heat exchanger 73, make as much as possible air-flow after corresponding heat exchanger 73 carries out heat exchange more upwards Flow out, improve the efficiency of heat exchange.

It should be noted that the heat exchanger 73 being located in refrigerating channel 45 is during work, surface may be produced Raw frosting or condensation etc., when frost in the heat exchanger 73 in refrigerating channel 45, can shut down and carry out defrost Process.The lower section of the heat exchanger 73 in refrigerating channel 45 can be provided with drip tray, and the bottom of drip tray can be provided with leads Flow tube, one end of mozzle is connected with drip tray, and the other end of mozzle can be connected with the water tank 82 in humidification assembly 8, system The condensed water producing during heat exchanger defrost in cold passage 45 and the condensation producing in process of refrigerastion or condensed water To flow downwardly in drip tray along heat exchanger 73, the condensed water collected in drip tray can humidify assembly 8 along mozzle runner In interior water tank 82.Not only achieve the recycling of resource, and can avoid mozzle is drawn the outside of air-conditioner 100, Not only simplify the structure of cylinder assembly 2, also add the aesthetic property of air-conditioner 100.

As shown in Figure 8 and Figure 11, median septum 3 is provided with cold mounting groove 306 of square insertion, cold mounting groove 306 The side wall towards hot blast side be provided with installation protuberance 307, install protuberance 307 along cold mounting groove 306 circumferential direction extend, Current limliting raised line 308 is additionally provided with the side wall towards hot blast side of median septum 3, current limliting raised line 308 with install protuberance 307 be spaced apart and Horizontally extending, current limliting raised line 308 is located at the top installing protuberance 307 and is folded in the heat friendship of median septum 3 and hot blast side Between parallel operation 73.Current limliting raised line 308 can stop that air-flow flows through between median septum 3 and corresponding heat exchanger 73, as far as possible So that air-flow is flowed upwards out after corresponding heat exchanger 73 carries out heat exchange again, improve heat exchange efficiency, simultaneously permissible Improve the temperature of the hot blast of hot-blast outlet 62, improve the comfortableness of user.

Further, as shown in Figure 8 and Figure 11, the cross section of current limliting raised line 308 is formed as square, circular or oval. Thus, it is possible to increase the structure diversity of current limliting raised line 308, certainly, the shape not limited to this of current limliting raised line 308, as long as can Realize stopping that air-flow flows up in the gap between plate 3 and corresponding heat exchanger 73 along the septum.For example, shown in Fig. 8 Example in, the cross section of current limliting raised line 308 be shaped as rectangle.

Further, as shown in figure 11, the length of current limliting raised line 308 is identical with the width of corresponding heat exchanger 73. Thus, it is possible to increase the stop effect that current limliting raised line 308 flows up to air-flow between median septum 3 and corresponding heat exchanger 73 Really, further improve the heat exchange efficiency between air-flow and corresponding geothermal heat exchanger 73.

In some embodiments of the invention, as shown in Fig. 4, Fig. 7 and Figure 10, hot air duct plate 5 is provided with hot blast end gas Stream dividing plate 51, the fitting tightly positioned at the outside heating passage 54 and with the internal perisporium of cylinder assembly 2 of hot blast end air baffle 51. Thus, it is possible to prevent the hot blast from heating the outflow of passage 54 upper end from flowing downward outside passage 54 heating, make from heating passage The hot blast flowing out in 54 is smoothly flowed out by hot-blast outlet 62, improves the air quantity of air-conditioner 100.

Further, as illustrated in fig. 7 and fig. 10, hot blast end air baffle 51 is provided with the dividing plate limit installing humidification assembly 8 Position groove 52.For example, in the example shown in Fig. 7 and Figure 10, hot air duct plate 5 is provided with hot blast end air baffle 51, hot blast end Air baffle 51 is divided into two parts and is located at the relative both sides of hot air duct plate 5, two parts hot blast end air baffle 51 respectively Between limit dividing plate stopper slot 52, dividing plate stopper slot 52 be located at hot air duct plate 5 the side away from median septum 3, humidification group Part 8 can snap in dividing plate stopper slot 52, to realize humidifying the spacing of assembly 8, and after sheathed upper shell assembly 2, you can real Now humidify the fixation of assembly 8.

Alternatively, as shown in Fig. 5 and Figure 10, hot blast end air baffle 51 is provided with the first hot-flow flue installation portion 53, cylinder It is provided with the second hot-flow flue installation portion 223 being adapted with the first hot-flow flue installation portion 53 in assembly 2.Thus, it is possible to pass through first Hot-flow flue installation portion 53 and the second hot-flow flue installation portion 223 coordinate the connection realizing hot blast end air baffle 51 and cylinder assembly 2, Thus realizing hot air duct plate 5 and the connection of cylinder assembly 2, and then realize the fixation of hot air duct plate 5.

Wherein, as shown in Fig. 5 and Figure 10, the first hot-flow flue installation portion 53 and the second hot-flow flue installation portion 223 are multiple And correspond.Thus, it is possible to increase the reliability being connected between hot blast end air baffle 51 and cylinder assembly 2, thus increasing The reliability being connected between hot air duct plate 5 and cylinder assembly 2.For example, in the example shown in Fig. 5 and Figure 10, the first hot blast Road installation portion 53 is two and is located at the both sides of hot blast end air baffle 51 respectively at the position of median septum 3, cylinder assembly 2 Be provided with two with the corresponding second hot-flow flue installation portion 223 of the first hot-flow flue installation portion 53.

Alternatively, the first hot-flow flue installation portion 53 and the second hot-flow flue installation portion 223 clamping or threaded.For example, exist In example shown in Fig. 5 and Figure 10, the first hot-flow flue installation portion 53 and the second hot-flow flue installation portion 223 are equipped with screwed hole, First hot-flow flue installation portion 53 and the second hot-flow flue installation portion 223 pass through threaded fastener (such as bolt) and connect.Thus, it is possible to Simplify the first hot-flow flue installation portion 53 and the connected mode of the second hot-flow flue installation portion 223.

In some embodiments of the invention, as shown in Fig. 4, Fig. 7, Fig. 8, Figure 15 and Figure 16, humidification assembly 8 includes being atomized Device base 81 and water tank 82.Nebulizer base 81 is connected with base assembly 1, to realize the fixation of nebulizer base 81.Water tank 82 Removably clamping is connected respectively with cylinder assembly 2, nebulizer base 81, limits fog flow channel 821, mist in water tank 82 One end of flow of air passage 821 is connected with the atomizing piece 814 on nebulizer base 81, the other end of fog flow channel 821 with Damp exit 63 connects.The fog producing in nebulizer base 81 can flow to damp exit 63 by fog flow channel 821 To humidify to air.Fan assembly includes dampness blower fan 94, and dampness pathogenic wind is located on nebulizer base 81 to drive fog Air flow direction damp exit 63 in flow channel 821.

For example, in the example shown in Figure 15 and Figure 16, nebulizer base 81 is provided with air intake passage 811, air intake passage 811 one end is connected with dampness blower fan 94, and the other end is connected with fog flow channel 821, and dampness blower fan 94 is by air from import 812 are blown into air intake passage 811, and from outlet 813 blowout, fog stream in water tank 82 for the water smoke that atomizing piece 814 is produced Dynamic passage 821 is discharged from damp exit 63.The water yield in nebulizer base 81 can back down rotary switch 816 by fore-set 815 On the effluent switch automatic watering with spring, nebulizer base 81 is furnished with water level detection switch 817, when water level reduces, magnetic Property float 818 in company with liquid level reduce, dry-reed tube switch 819 disconnects, and prevents dry combustion method.

Further, as shown in figure 15, fog flow channel 821 is along straight-line extension.Thus, it is possible to make fog faster Flow to damp exit 63 and discharge.Meanwhile, structure and the processing technique of fog flow channel 821 can be simplified, save and produce week Phase, reduce production cost.

Alternatively, nebulizer base 81 and base assembly 1 clamping.Thus, it is possible to simplify nebulizer base 81 and base group Connection between part 1, is easy to the installation of nebulizer base 81.Certainly, the invention is not restricted to this, nebulizer base 81 and base group Part 1 can pass through base securing member clamping.

In some embodiments of the invention, as shown in Fig. 8, Figure 15 and Figure 16, humidification assembly 8 also includes mist mouth 83, Go out the upper end that mist mouth 83 is located at fog flow channel 821, go out open at its lower end and the upper end with fog flow channel 821 of mist mouth 83 Relatively, go out at least part of roof closing of mist mouth 83, side wall opens wide to be configured to nozzle 831, nozzle 831 and damp exit 63 relatively.Thus, the fog in fog flow channel 821 can flow to dampness by going out the nozzle 831 on mist mouth 83 side wall Outlet 63, improves the ejection effect of fog.

Further, as shown in Fig. 8 and Figure 16, on the direction towards nozzle 831, go out the appearance of the roof of mist mouth 83 Face is gradually inclined upwardly.Thus, after fog knocks out the roof of mist mouth 83, can smoothly flow to nozzle 831, be easy to mist Fog in flow of air passage 821 is flowed to nozzle 831 and is sprayed by damp exit 63, improves the fog stream of nozzle 831 Amount.

In some embodiments of the invention, as shown in Fig. 4, Fig. 6-Fig. 8, air inlet 21 is one, and part air inlet 21 is relative with refrigerating channel 45, and part air inlet 21 is relative with heating passage 54, and part air inlet 21 is relative with humidification passage 84. For example, in the example depicted in fig. 8, air inlet 21 is one and is located between base assembly 1 and cylinder assembly 2, part air intake Mouthfuls 21 relative with refrigerating channel 45, and part air inlet 21 is relative with heating passage 54, part air inlet 21 and humidify passage 84 phase Right, the air entering air inlet 21 is partly in refrigerating channel 45, is partly into and heats in passage 54, some Can enter in humidification passage 84 and participate in work.Thus, it is possible to simplify structure and the processing technique of air-conditioner 100, save and produce In the cycle, reduce production cost.

In some embodiments of the invention, as Figure 1-Figure 5, cylinder assembly 2 includes integrally formed outer tube body 22, outer tube body 22 has an installation cavity 23 of up/down perforation, the upper and lower ends of outer tube body 22 respectively with cover assembly 6 and base Assembly 1 connects.Thus, it is possible to simplify structure and the processing technique of cylinder assembly 2, save the production cycle, reduce production cost.

Further, the lower end of outer tube body 22 and base assembly 1 clamping.Snap fit is simple and reliable, is easy to outer tube originally Connection between body 22 and base assembly 1, and can ensure that the reliability being connected between outer tube body 22 and base assembly 1.Tool Body ground, one of the lower end of outer tube body 22 and base assembly 1 be provided with clamping protuberance, and another is provided with convex with institute clamping The Access Division that portion offsets.Thus, outer tube body 22 and base assembly 1 can be realized even by the clamping of clamping protuberance and Access Division Connect, connect between outer tube body 22 and base assembly 1 such that it is able to simplify.

Further, clamping protuberance extends along the circumferential direction of outer tube body 22.Correspondingly, Access Division is along base assembly 1 Circumferential direction extend.Thus, it is possible to increase the reliability being connected between outer tube body 22 and base assembly 1.

Alternatively, as shown in Fig. 1, Fig. 3 and Fig. 5, outer tube body 22 is formed as cylinder, thus can increase cylinder assembly 2 Aesthetic property.Certainly, the invention is not restricted to this, outer tube body 22 may be formed as square tube etc..

In some embodiments of the invention, the upper end of outer tube body 22 and cover assembly 6 clamping.Thus, it is possible to realize The fixation of cover assembly 6, can simplify the connection between outer tube body 22 and cover assembly 6 simultaneously, be easy to outer tube body 22 with The clamping of cover assembly 6.

As shown in Fig. 6-Figure 11, Figure 17-Figure 18, median septum 3 is provided with the first positive holding section (positive card as described below Close groove 309) and the first reverse holding section (reverse engaging groove 310 as described below), cover assembly 6 with first is just provided with Fit to the second positive holding section (positive snap fit tabs 64 as described below) that holding section is adapted with the first reverse holding section phase The the second reverse holding section (reverse snap fit tabs 65 as described below) joined, the first positive holding section and the second positive engaging position In the side of median septum 3, the first reverse holding section and the second reverse holding section are located at the opposite side of median septum 3.Thus, lid group Part 6 can also be by the engaging with the second forward direction holding section of the first positive holding section, and the first reverse holding section and second anti- Realize the connection of cover assembly 6 and median septum 3 to the engaging of holding section, thus realizing the fixation of cover assembly 6.

Specifically, as shown in Fig. 6-Figure 11, Figure 17-Figure 18, in the first positive holding section and the second positive holding section one Individual be formed as positive snap fit tabs 64, another is formed as positive engaging groove 309, and the first reverse holding section and second is reversely blocked One of conjunction portion is formed as reverse snap fit tabs 65, and another is formed as reversely engaging groove 310, positive snap fit tabs 64 convex Play direction contrary with the protrusion direction of reverse snap fit tabs 65.For example, in the example as shown in Fig. 6-Figure 11, Figure 17-Figure 18, First positive holding section is formed as positive engaging groove 309, and the second positive holding section is formed as positive snap fit tabs 64, and first is anti- Be formed as reversely engaging groove 310 to holding section, the second reverse holding section is formed as reverse snap fit tabs 65, and positive engaging is convex Rise 64 protrusion direction contrary with the protrusion direction of reverse snap fit tabs 65, when cover assembly 6 and median septum 3 carry out clamping, First cover assembly 6 can be placed the top with cylinder assembly 2, then rotation cover assembly 6 is so that positive snap fit tabs 64 are blocked Enter in positive engaging groove 309, so that reverse snap fit tabs 65 is snapped in reverse engaging groove 310, be easy to the installation of cover assembly 6 And fixation.

Further, as shown in figure 18, the shape of positive snap fit tabs 64 and reverse snap fit tabs 65, size all same. Thus, it is easy to simplified processing process, the structure of two kinds of shape sizes need not be processed, can save the production cycle, reduce and produce into This.

Further, as shown in Fig. 8, Figure 17 and Figure 18, positive snap fit tabs 64 include, and engage extension 641 and card Close lobe 642.One end of engaging extension 641 is connected with cover assembly 6, and snap fit tabs portion 642 is located at engaging extension 641 Free end, and snap fit tabs portion 642 is suitable to snap in positive engaging groove 309.For example, in the example shown in Figure 17, One end of engaging extension 641 is connected with cover assembly 6, and the other end of engaging extension 641 extends downwardly, snap fit tabs portion 642 free ends being located at engaging extension 641 and the bearing of trend in snap fit tabs portion 642 and the extension side engaging extension 641 To vertical, snap fit tabs portion 642 is suitable to be fastened in positive engaging groove 309.Thus, it is easy to median septum 3 and cover assembly 6 Engaging, and the reliability being connected between median septum 3 and cover assembly 6 can be improved.

Alternatively, as shown in Fig. 6-Figure 11, positive engaging groove 309 and reverse engaging groove 310 be in being formed at every Through hole on plate 3.Correspondingly, positive snap fit tabs 64 and reverse snap fit tabs 65 are both formed on cover assembly 6.Thus, may be used To simplify structure and the processing technique of median septum 3, save the production cycle, reduce production cost.Be conducive to positive engaging convex simultaneously Play 64 to snap in positive engaging groove 309, and reverse snap fit tabs 65 snap in reverse engaging groove 310.

In some embodiments of the invention, as shown in Figure 11, Figure 17, Figure 18 and Figure 23, the upper end of median septum 3 has lid Body embeded slot 311, the lower end of cover assembly 6 has the lid extension being suitable to be spaced apart cold wind outlet 61 and hot-blast outlet 62 66, lid extension 66 chimeric with lid embeded slot 311 so that cover assembly 6 to be divided into cold wind side and hot blast side.Lid is fitted together to Groove 311 can avoid median septum 3 and the lower surface of cover assembly 6 to interfere, simultaneously lid embeded slot 311 and lid extension 66 chimeric cover assembly 6 being played support and spacing effect.

As shown in Figure 11 and Figure 23, on direction from bottom to up, the width of lid embeded slot 311 is gradually increased.Thus, Median septum 3 and the lower surface of cover assembly 6 not only can be avoided to interfere, and the two side of lid embeded slot 311 is permissible Cooperation cover assembly 6 limits cold wind outlet 61, hot-blast outlet 62 and damp exit 63.

Further, as shown in Figure 11 and Figure 23, on direction from bottom to up, the width of lid embeded slot 311 On two side walls be all directed away from direction each other.Thus, it is possible to make the width of lid embeded slot 311 be gradually increased, Median septum 3 and the lower surface of cover assembly 6 not only can be avoided to interfere, and the two side of lid embeded slot 311 is permissible Cooperation cover assembly 6 limits cold wind outlet 61, hot-blast outlet 62 and damp exit 63.

In some embodiments of the invention, as shown in Fig. 2, Figure 17 and Figure 22, the periphery wall of cover assembly 6 is provided with ring Shape air outlet (set of cold wind outlet 61 as described below, hot-blast outlet 62 and damp exit 63), lid extension 66 and in Round wind outlet is divided into cold wind outlet 61, hot-blast outlet 62 by dividing plate 3.Thus, it is possible to avoid cold wind outlet 61 and hot blast to go out Mouth 62 is too small, and wind-out range is concentrated, and uncomfortable blowing feeling is made us in Local cooling generation, and the air outlet air-supply of annular is uniform, raising Comfort.

As shown in Fig. 2, Figure 17 and Figure 22, round wind outlet is multiple and spaced apart along the axis direction of cylinder assembly 2. Thus, it is possible to increase the uniformity of air-supply further, improve comfort.For example, in the example shown in Figure 22, annular goes out Air port is two, and spaced apart along the axis direction of cylinder assembly 2, and underlying round wind outlet is by two adjacent wind-guidings Plate 672 limits, and round wind outlet above is limited with cover assembly 6 by wind deflector 672, wind deflector 672 by with Lid extension 66 clamping realization and the connection of cover assembly 6.

Alternatively, as shown in Fig. 2, Figure 17 and Figure 22, cover assembly 6 includes upper cap body 67 and lower cover dividing plate 68.Upper lid Main body 67 is located at the upper end of cylinder assembly 2, and the outer surface of upper cap body 67 has control key, and round wind outlet is located at lid master On body 67, lower cover dividing plate 68 is located at hot blast side and is located at the lower section of upper cap body 67, and lower cover dividing plate 68 is limited with upper cap body 67 Go out closing chamber 684, closing chamber 684 is suitable to hold top cover circuit board 69, top cover circuit board 69 is electrically connected with control key.Top cover circuit Plate 69 is placed in closing chamber 684, can prevent top cover circuit board 69 from making moist and damaging, and control key is with top cover circuit board 69 even Connect, the refrigeration of air-conditioner 100 can be controlled, heat and humidify.

Further, as shown in Figure 17 and Figure 22, the part surface of closing chamber 684 is configured to guiding face 681, guiding face 681 are suitable to guide air-flow to flow out from hot-blast outlet 62.Thus, it is possible to make successfully to arrange from the hot blast heating outflow in passage 54 Go out, improve the hot blast rate of air-conditioner 100.For example, in the example shown in Figure 17, the close circular hot air outlet of lower cover dividing plate 68 62 side wall is formed as inclined-plane, i.e. guiding face 681, and this guiding face 681 can play the effect of wind deflector, makes from heating passage 54 The hot blast of interior outflow is smoothly discharged out by hot-blast outlet 62.Further, as shown in figure 17, guiding face 681 and hot blast go out The part internal perisporium of mouth 62 is concordant.Thus, it is more convenient for guiding air-flow to flow out from hot-blast outlet 62.

Alternatively, as shown in Figure 18 and Figure 19, upper cap body 67 is connected by threaded fastener with lower cover dividing plate 68.By This, not only can simplify the connected mode of upper cap body 67 and lower cover dividing plate 68, but also can ensure that upper cap body 67 with The fastness connecting between lid dividing plate 68.

Specifically, as shown in Figure 18 and Figure 19, upper cap body 67 is provided with top cap and connects post 671, and lower cover dividing plate 68 sets Have and connect the corresponding lower cover connecting post 682 of post 671 with top cap, threaded fastener connects top cap and connects post 671 and lower cover connecting post 682.Thus, not only can simplify the connected mode of upper cap body 67 and lower cover dividing plate 68, but also can ensure that upper cap body The fastness being connected between 67 with lower cover dividing plate 68.For example, in the example shown in Figure 18 and Figure 19, top cap connects post 671 He Lower cover connecting post 682 is two and corresponds, thus, it is possible to be connected between increase upper cap body 67 and lower cover dividing plate 68 Fastness.

In addition, as shown in figure 19, lower cover dividing plate 68 is additionally provided with multiple for positioning the spaced apart of top cover circuit board 69 Positioning boss 683.Thus, it is possible to be fixed on top cover circuit board 69 in closing chamber 684, prevent top cover circuit board 69 from shaking Dynamic, thus ensureing the reliability of top cover circuit board 69 work.For example, in the example shown in Figure 19, lower cover dividing plate 68 is provided with Three spaced apart positioning boss 683, top cover circuit board 69 can be fixed in closing chamber 684 for positioning boss 683.

As shown in Fig. 8, Figure 15 and Figure 16, logical in air intake space between air-inlet grille 12 and bottom bracing frame 11 for the air Cross air-inlet grille 12 to enter inside cylinder assembly 2.In cylinder assembly 2, partial air enters in cold wind blower fan 91, in cold wind wind In the presence of machine 91, improve the pressure of gas, and gas is expelled in refrigerating channel 45, enter the gas in refrigerating channel 45 Carry out heat exchange with the heat exchanger 73 being located in refrigerating channel 45 and form cold wind air-flow, the cold wind air-flow of formation flows up By cold wind outlet 61 discharge on cover assembly 6；In cylinder assembly 2, partial air passes through logical on assembling seat 93 Air holes 9312 enters the pressure in the presence of air-heater 92, improving gas in air-heater 92, and gas is expelled to system In the passage of heat 54, enter the gas heating in passage 54 with being located at the heat exchanger 73 heating in passage 54 and carry out heat exchange shape Become hot-air flow, the hot-blast outlet 62 that the hot-air flow of formation flows upwards through on cover assembly 6 is discharged；Partial air passes through Dampness blower fan 94 enters in air intake passage 811, and from outlet 813 blowout, the water smoke that atomizing piece 814 is produced is in water tank 82 Fog flow channel 821 discharge from damp exit 63.

It should be noted that the damp exit 63 on cover assembly 6 is same outlet with hot-blast outlet 62, from nozzle The damp exit 63 (i.e. hot-blast outlet 62) that the water smoke of 831 ejections passes through annular is discharged.

Below with reference to Fig. 1-Figure 24 description according to the air-conditioner 100 of one specific embodiment of the present invention, described below simply Exemplary it is intended to be used for explaining the present invention, and be not considered as limiting the invention.

As shown in Fig. 1-Figure 24, air-conditioner 100 according to embodiments of the present invention, including base assembly 1, cylinder assembly 2, lid Body assembly 6, semiconductor chilling plate 7, humidification assembly 8 and fan assembly.

Base assembly 1 includes bottom bracing frame 11 and air-inlet grille 12.Bottom bracing frame 11 includes support baseboard 113 and props up Support main body 111.The top (top as shown in figure 21) of supportive body 111 is provided with necking part 1111, air-inlet grille 12 and necking down Free end (upper end as shown in figure 21) clamping in portion 1111.The connected mode that clamping connects, simple and reliable, it is easy to save air intake Assembly process between grid 12 and necking part 1111, saves installation time, improve production efficiency.

Wherein, necking part 1111 is provided with four grid draw-in grooves 1113, four grid draw-in grooves 1113 and along necking part 1111 Circumferential direction uniformly spaced apart, air-inlet grille 12 is provided with four grid card convexs 1211, four grid card convexs 1211 and Circumferential direction along the air intake inner ring 121 of air-inlet grille 12 is uniformly spaced apart and corresponds with four grid draw-in grooves 1113 And cooperate.

In addition, it is all excessive using fillet between the side wall of the free end face of grid card convex 1211 and grid card convex 1211.Lattice On the upper end (upper end as shown in figure 21) of grid draw-in groove 1113, the periphery wall positioned at necking part 1111 of grid draw-in groove 1113 one End is all unlimited, and air-inlet grille 12 is provided with grid card convex 1211, the lower surface (lower section as shown in figure 21) of grid card convex 1211 Offset with the lower wall (lower section as shown in figure 21) of grid draw-in groove 1113.When air-inlet grille 12 and necking part 1111 clamping, Grid card convex 1211 can snap in grid draw-in groove 1113 from the upper end of grid draw-in groove 1113, and snaps in downwards straight along the vertical direction Lower surface to grid card convex 1211 is offseted with the lower wall of grid draw-in groove 1113.Thus, it is easy to snap in grid card convex 1211 In grid draw-in groove 1113.

Air-inlet grille 12 includes air intake inner ring 121, air intake outer ring 122 and a plurality of spaced apart air intake spoke 123.Grid card On convex 1211 internal perisporiums being located at air intake inner ring 121, be enclosed within air intake inner ring 121 outside air intake outer ring 122 and with air intake inner ring 121 Be spaced apart, every air intake spoke 123 is prewhirled to the air-flow entering into air inlet 81221 and air intake spoke 123 be connected to into Between wind inner ring 121 and air intake outer ring 122.

Wherein, a plurality of air intake spoke 123 includes a plurality of first sub- spoke 1231 and a plurality of second sub- spoke 1232.In air intake In the radially outward direction of inner ring 121, every first sub- spoke 1231 deviates the footpath of air intake inner ring 121 along clockwise direction To direction, every second sub- spoke 1232 deviates the radial direction of air intake inner ring 121, the first sub- spoke along direction counterclockwise 1231 and second sub- spoke 1232 interweave distribution, and the distance between two adjacent the first sub- spokes 1231 are gradually increased, phase The distance between two adjacent second sub- spokes 1232 are gradually increased.Thus, when airflow passes air-inlet grille 12, air-inlet grille 12 further can be prewhirled to air-flow, improve air quantity and air supplying distance.The structure of air-inlet grille 12 can be simplified simultaneously And processing technique, save the production cycle, reduce production cost.

Cylinder assembly 2 is located on base assembly 1, limits the refrigerating channel 45 being spaced apart from each other, heats in cylinder assembly 2 Passage 54 and humidification passage 84, cylinder assembly 2 is provided with air inlet 21, air inlet 21 and refrigerating channel 45, heat passage 54 and plus Wet channel 84 is respectively communicated with, and air-inlet grille 12 is located at the air inlet 21 of cylinder assembly 2 and is connected with cylinder assembly 2.Thus, exist Certain air intake space is limited, air can smoothly pass through air-inlet grille 12 between air-inlet grille 12 and bottom bracing frame 11 Enter into refrigerating channel 45, heat in passage 54 and humidification passage 84, thus the refrigerating function of air-conditioner 100 both can be realized, The heat-production functions of air-conditioner 100 can be realized again, the humidification function of air-conditioner 100 can also be realized, meet the use need of user Ask.

Cover assembly 6 is located at the upper end (upper end as shown in Figure 2) of cylinder assembly 2, and cover assembly 6 has and refrigerating channel The cold wind outlet 61 of 45 connections with heat the hot-blast outlet 62 that passage 54 connect and with humidify the damp exit that passage 84 connects 63.Change thermogenetic cold air in refrigerating channel 45 to heat and in passage 54, change thermogenetic heat by cold wind outlet 61 discharge Gas can be discharged by hot-blast outlet 62, and the fog producing in humidification passage 84 can be discharged by damp exit 63.

Semiconductor chilling plate 7 has cold end 71 and hot junction 72 and semiconductor chilling plate 7 is located in cylinder assembly 2, cold end 71 In refrigerating channel 45, hot junction 72 is located at and heats in passage 54.Thus, it is possible to be made using the cold end 71 of semiconductor chilling plate 7 Cold, the hot junction 72 using semiconductor chilling plate 7 heats, thus realizing refrigeration and the heat-production functions of air-conditioner 100.

Humidification assembly 8 is located in humidification passage 84, and humidification assembly 8 can produce water smoke, thus increasing the humidity in room, carries The comfort level of high user.Fan assembly is located in cylinder assembly 2 in order to drive refrigerating channel 45, to heat passage 54 and humidification passage Gas flowing in 84, is not only easy to refrigerating channel 45 and the heat exchange heating air in passage 54, but also can make refrigerating channel The cold wind that in 45, heat exchange completes smoothly is discharged by cold wind outlet 61, makes the hot blast heating in passage 54 pass through hot-blast outlet 62 Smoothly discharge, so that the water smoke in humidification passage 84 is smoothly discharged by damp exit 63, improve the work effect of air-conditioner 100 Rate, can improve the comfort level of user simultaneously further.

The control method of air-conditioner 100 according to embodiments of the present invention is described below with reference to Fig. 1-Figure 24.

Air-conditioner 100 according to embodiments of the present invention is above-mentioned air-conditioner 100, and the outer surface of cover assembly 6 is (as Fig. 1 institute The roof of the cover assembly 6 showing) it is provided with control key, limit closing chamber 684 in cover assembly 6, closing chamber 684 is suitable to hold top Lid circuit board 69, top cover circuit board 69 is electrically connected with control key, and control key includes power switch key, cooling and warming on ＆ off switch and adds Wet on ＆ off switch.

The control method of air-conditioner 100 comprises the steps：

S1：Triggering power switch key；

S2：Select air-conditioner 100 operational mode：When triggering cooling and warming on ＆ off switch, air-conditioner 100 is in refrigeration and makes Heat pattern；When triggering humidification on ＆ off switch, air-conditioner 100 is in humidifying mode；

S3：Triggering power switch key is so that described air-conditioner power-off.

User can open required function, when user needs cooling and warming according to demand after starting air-conditioner 100 The cooling and warming on ＆ off switch of air-conditioner 100 during function, can be triggered；When user needs humidification function, air-conditioner can be triggered 100 humidification on ＆ off switch.

It should be noted that triggering may refer to pressing type pressing keys or touches touch in the form of touching Screen.Also, it should be noted cooling and warming on ＆ off switch can be opened it is also possible to only open according to demand with humidification on ＆ off switch simultaneously One of.

In some embodiments of the invention, control key is also included for controlling fan assembly to run the speed governing of watt level Key, when starting air-conditioner 100, fan assembly is operated with the first power, and when triggering speed governing key first, fan assembly is with second Power operates, and triggers speed governing key again, fan assembly operate with the 3rd power, and third time triggers speed governing key, and fan assembly is with the One power operating.User can adjust the air output of air-conditioner 100 according to demand by adjusting the operation power of fan assembly And fog-supplying amount.

Specifically, fan assembly include for control air output in refrigerating channel 45 cold wind blower fan 91, for control system In the passage of heat 54, the air-heater 92 of air output and the dampness blower fan 94 for controlling humidification passage 84 endogenous dampness flow of air speed, adjust Fast key is included for controlling the first speed governing key of cold wind blower fan 91, for controlling the second speed governing key of air-heater 92 and being used for Control the 3rd speed governing key of dampness blower fan 94.User can adjust refrigerating capacity by adjusting the power that runs of cold wind blower fan 91 Size, adjusts the size of heating capacity, is adjusted by adjusting dampness blower fan 94 by adjusting the operation power of air-heater 92 The size of fog-supplying amount, thus meet the use demand of user.

In some embodiments of the invention, the outer surface of cover assembly 6 also has display screen, display screen and top cover circuit Plate 69 electrically connects, and display screen is used for showing the work state information of air-conditioner 100.Display screen can show current air-conditioner 100 Open function, when air-conditioner 100 open refrigeration and heat-production functions when, the icon that display screen represents this function is highlighted, when When humidification function opened by air-conditioner 100, the icon that display screen represents this function is highlighted, and display screen can also show currently The state of the operation power of cold wind blower fan 91, air-heater 92 and dampness blower fan 94, for example, when cold wind blower fan 91 is with the first work( When rate is run, display screen represents cold wind blower fan 91 run the icon of power numeral 1 will be shown later, when cold wind blower fan 91 is with the During two Power operations, the icon that display screen represents cold wind blower fan 91 operation power will be shown later numeral 2, when cold wind blower fan 91 During with three Power operations, the icon that display screen represents cold wind blower fan 91 operation power will be shown later numeral 3.

In some embodiments of the invention, the outer surface of cover assembly is provided with touch screen, touch screen and top cover circuit board Electrical connection, control key is the Touch control key being formed on the touchscreen.When the position of certain function is represented on touch-control touch screen, you can real The now operation of this function.

The control method of air-conditioner 100 in accordance with another embodiment of the present invention is described below with reference to Fig. 1-Figure 24.

Air-conditioner 100 according to embodiments of the present invention is above-mentioned air-conditioner 100, and cover assembly 6 is provided with for detection lid Body assembly 6 stress by force detection sensor, electrically connected with top cover circuit board 69 by force detection sensor, control method includes：

T1：Tap cover assembly 6 for the first time, air-conditioner 100 is energized；

T2：Tap cover assembly 6 second, air-conditioner 100 selects operational mode；

T3：Third time taps cover assembly 6, air-conditioner 100 power-off.

Thus, it is possible to realize the control to air-conditioner 100 by way of tapping cover assembly 6, this control mode is simple, It is easy to operate.It should be noted that by step T1 to step T2, or step T2 to step T3 when, adjacent tap twice when Between interval need to be more than specific time t, time t can be 1s.Also, it should be noted the percussion to cover assembly 6 each time Can be only to tap, or continuous tap twice or how under, and when continuously tapping, the time interval tapping every time need to be less than special Fix time t, and time t can be 1s.

Further, in step T2, step T2 also includes following sub-step：

T21：When second taps cover assembly 6, and when hammer action is to tap one time, air-conditioner 100 enter refrigeration and Heating mode；

T22：When second percussion cover assembly 6, and when hammer action is continuous percussion twice, air-conditioner 100 enters and adds Wet model；

T23：When second taps cover assembly 6, and when hammer action is continuously to tap three times, air-conditioner 100 enters system Cold and heating mode, and humidifying mode.

Thus, it is possible to realize the different operational modes of air-conditioner 100 according to the continuous number of times tapping.

Alternatively, in step T2, step T2 can also include following sub-step：

T21：When tapping cover assembly 6 second, the rotating speed of fan assembly is in original state；

T22：Pressing cover assembly 6 for the first time, the rotating speed of fan assembly changes；Second pressing cover assembly 6, wind The rotating speed of thermomechanical components returns to original state.

Thus, it is possible to by pressing cover assembly 6, realize the control to the rotating speed of fan assembly in air-conditioner 100.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the spy describing with reference to this embodiment or example Point is contained at least one embodiment or the example of the present invention.In this manual, to the schematic representation of above-mentioned term not Identical embodiment or example must be directed to.And, the specific features of description, structure, material or feature can be in office Combine in an appropriate manner in one or more embodiments or example.Additionally, in the case of not conflicting, the skill of this area The feature of the different embodiments described in this specification or example and different embodiment or example can be tied by art personnel Close and combine.

Although embodiments of the invention have been shown and described above it is to be understood that above-described embodiment is example Property it is impossible to be interpreted as limitation of the present invention, those of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (18)

1. a kind of air-conditioner is it is characterised in that include：

Base assembly, described base assembly includes bottom bracing frame and air-inlet grille, and the top of described bottom bracing frame is provided with contracting Cervical region, the free end clamping of described air-inlet grille and described necking part and include a plurality of air intake spoke being spaced apart；

Cylinder assembly, described cylinder assembly is located on base assembly, limits the refrigeration being spaced apart from each other in described cylinder assembly Passage, heat passage and humidification passage, described cylinder assembly is provided with air inlet, described air inlet and described refrigerating channel, described Heat passage and described humidification passage be respectively communicated with, described air-inlet grille be located at described cylinder assembly air inlet and with described Cylinder assembly connects；

Cover assembly, described cover assembly is located at the upper end of cylinder assembly, and described cover assembly is had and connected with described cold passage Cold wind outlet and the described hot-blast outlet heating channel connection and the damp exit with described humidification channel connection；

Semiconductor chilling plate, described semiconductor chilling plate has cold end and hot junction and described semiconductor chilling plate is located at cylinder assembly Interior, described cold end is located in described refrigerating channel, and described hot junction is located at described heating in passage；

Humidification assembly, described humidification assembly is located in described humidification passage；

Fan assembly, described fan assembly is located in described cylinder assembly in order to drive described refrigerating channel, described to heat passage With gas flowing in described humidification passage.

2. air-conditioner according to claim 1 is it is characterised in that on one of described air-inlet grille and described necking part It is provided with grid draw-in groove, another is provided with the grid card convex being suitable to be adapted with described grid draw-in groove.

3. air-conditioner according to claim 2 it is characterised in that described grid draw-in groove and described grid card convex be multiple And correspond, multiple described grid draw-in grooves are spaced apart along the circumferential direction of described necking part.

4. air-conditioner according to claim 2 is it is characterised in that the end face of free end of described grid card convex and described lattice Rounding off between the side wall of grid card convex.

5. air-conditioner according to claim 2 is it is characterised in that described necking part is provided with grid draw-in groove, described grid One end on the upper end of draw-in groove, the periphery wall positioned at described necking part of described grid draw-in groove is all unlimited, on described air-inlet grille It is provided with grid card convex, the lower surface of described grid card convex is offseted with the lower wall of described grid draw-in groove.

6. air-conditioner according to claim 1 is it is characterised in that described air-inlet grille also includes：

Air intake inner ring, described grid card convex is located on the internal perisporium of described air intake inner ring；

Air intake outer ring, is enclosed within outside described air intake outer ring on described air intake inner ring and is spaced apart with described air intake inner ring, and described enter Wind spoke is connected between described air intake inner ring and described air intake outer ring.

7. air-conditioner according to claim 6 is it is characterised in that a plurality of described air intake spoke includes：

A plurality of first sub- spoke, in the radially outward direction of described air intake inner ring, every described first sub- spoke is along up time The radial direction of described air intake inner ring is deviateed in the direction of pin.

8. air-conditioner according to claim 7 is it is characterised in that in the radially outward direction of described air intake inner ring, The distance between two adjacent described first sub- spokes are gradually increased.

9. air-conditioner according to claim 7 is it is characterised in that a plurality of described air intake spoke also includes：

A plurality of second sub- spoke, in the radially outward direction of described air intake inner ring, every described second sub- spoke is along the inverse time The radial direction of described air intake inner ring is deviateed in the direction of pin, and described first sub- spoke is interweaved with the described second sub- spoke and is distributed.

10. air-conditioner according to claim 9 is it is characterised in that in the radially outward direction of described air intake inner ring, The distance between two adjacent described second sub- spokes are gradually increased.

A kind of 11. control methods of air-conditioner are it is characterised in that described air-conditioner is according to any one of claim 1-10 institute The air-conditioner stated, the outer surface of described cover assembly is provided with control key, limits closing chamber in described cover assembly, described closing Chamber is suitable to hold top cover circuit board, and described top cover circuit board is electrically connected with described control key, and described control key includes on and off switch Key, cooling and warming on ＆ off switch, humidification on ＆ off switch,

Described control method comprises the steps：

S1：Trigger described power switch key so that described air-conditioner is energized；

S2：Select described operating modes of air conditioner：When trigger described cooling and warming on ＆ off switch when, described air-conditioner be in refrigeration and Heating mode；When triggering described humidification on ＆ off switch, described air-conditioner is in humidifying mode；

S3：Trigger described power switch key so that described air-conditioner power-off.

The control method of 12. air-conditioners according to claim 11 is it is characterised in that described control key is also included for controlling Make the speed governing key that described fan assembly runs watt level, when starting described air-conditioner, described fan assembly is with the first power Operating, when triggering described speed governing key first, described fan assembly is operated with the second power, triggers described speed governing key, institute again State fan assembly to operate with the 3rd power, trigger described speed governing key for the third time, described fan assembly is with described first power operating.

The control method of 13. air-conditioners according to claim 12 is it is characterised in that described fan assembly is included for controlling Make the cold wind blower fan of air output in described refrigerating channel, for heating in passage the air-heater of air output described in controlling and being used for Control the dampness blower fan of described humidification passage endogenous dampness flow of air speed,

Described speed governing key is included for controlling the first speed governing key of described cold wind blower fan, for controlling the second of described air-heater Speed governing key and the 3rd speed governing key for controlling described dampness blower fan.

The control method of 14. air-conditioners according to claim 11 it is characterised in that the outer surface of described cover assembly also There is display screen, described display screen is electrically connected with described top cover circuit board, described display screen is used for showing the work of described air-conditioner Make status information.

The control method of 15. air-conditioners according to claim 11 is it is characterised in that the outer surface of described cover assembly sets There is touch screen, described touch screen is electrically connected with described top cover circuit board, described control key is to be formed at touching on described touch screen Control key.

A kind of 16. control methods of air-conditioner are it is characterised in that described air-conditioner is according to any one of claim 1-10 institute The air-conditioner stated, described cover assembly be provided with for detect described cover assembly stressing conditions by force detection sensor, institute State and electrically connected with described top cover circuit board by force detection sensor, described control method includes：

T1：Tap described cover assembly, described air-conditioner energising for the first time；

T2：Tap described cover assembly for the second time, described air-conditioner selects operational mode；

T3：Third time taps described cover assembly, described air-conditioner power-off.

The control method of 17. air-conditioners according to claim 16 is it is characterised in that in step T2, step T2 is also wrapped Include following sub-step：

T21：Tap described cover assembly when for the second time, and when hammer action is to tap one time, described air-conditioner enter refrigeration and Heating mode；

T22：Tap described cover assembly when for the second time, and when hammer action is continuous percussion twice, described air-conditioner enters and adds Wet model；

T23：Tap described cover assembly when for the second time, and when hammer action is continuously to tap three times, described air-conditioner enters system Cold and heating mode, and humidifying mode.

The control method of 18. air-conditioners according to claim 16 is it is characterised in that in step T2, step T2 is also wrapped Include following sub-step：

T21：After tapping described cover assembly for the second time, the rotating speed of described fan assembly is in original state；

T22：Press described cover assembly for the first time, the rotating speed of described fan assembly changes；Press described lid for the second time Assembly, the rotating speed of described fan assembly returns to original state.