CN105864894A - Indoor unit of air conditioner and heat exchange unit - Google Patents

Abstract

The invention provides an indoor unit of an air conditioner. The indoor unit comprises a heat exchange unit and a base (5) used for bearing the heat exchange unit (4), wherein a placing groove (51) is formed in the base (5); the placing groove (51) is provided with a bearing table (52); and drainage grooves are formed in the bearing table (52). According to the indoor unit, condensate water is successfully discharged, so that blocking caused by the situations that ice blocks are generated at the cooperation part of a heat exchange unit body and a bottom frame and sewage accumulates is effectively prevented.

Description

Air conditioner room unit and heat exchange unit

Technical field

The present invention relates to technical field of heat exchange equipment, in particular to a kind of air conditioner room unit and heat exchange unit.

Background technology

In order to ensure the rotation reliability of centrifugal impeller, fit clearance between air duct cover board and centrifugal impeller, can be reserved with, This part air intake allowing for being blowed to centrifugal impeller by the flow-guiding mouth of air duct cover board can be overflow scattered by the fit clearance of the two, Thus cause effective intake to reduce, reduce heat transfer effect and the efficiency of air-conditioner, and easily lead because of air turbulence Cause vibration and noise aggravates.

Additionally, due to leak out, place easily produces condensation, electric component can be formed security threat, thus exist serious Potential safety hazard.And, existing air-conditioner (such as vaporizer) can produce condensed water, if condensed water can not be arranged smoothly Blocking can be produced owing to ice cube and dirty accumulation may be produced if putting.

Summary of the invention

A kind of air conditioner room unit of offer and heat exchange unit are provided, cold to solve in prior art Solidifying water can not the problem of smooth discharge.

To achieve these goals, one aspect of the present invention provides a kind of air conditioner room unit, including heat exchange unit and hold Carrying the base of described heat exchange unit body, described base is formed resettlement groove, described resettlement groove is provided with plummer, Drain tank is offered on described plummer.

Further, heat exchange unit includes heat exchange unit body, boundary frame area, and described boundary frame area is arranged on described heat exchange list The lower section of meta-ontology.

Further, described boundary frame area is provided with multiple osculum.

Further, the plurality of osculum is divided into multiple rows of osculum, the osculum of two adjacent rows to be crisscross arranged.

Further, described boundary frame area is provided with the supporter for supporting described heat exchange unit body.

Further, described supporter is the projection being formed on described boundary frame area.

Further, described plummer is arranged obliquely relative to horizontal direction.

Further, described resettlement groove has the first side wall being oppositely arranged and the second sidewall, and described plummer is with described The first side wall connects, and described loading end is downward-sloping along the direction away from described the first side wall.

Further, described plummer is provided with multiple described drain tank along described heat exchange unit.

Further, described resettlement groove has the first side wall being oppositely arranged and the second sidewall, and described plummer is arranged on On described the first side wall, described plummer is arranged with described second sidewall spacers, described drain tank and described plummer and Interval between described second sidewall communicates.

Further, the supporting vertical plate for carrying described heat exchange unit, described support it are additionally provided with in described resettlement groove Riser is arranged between described second sidewall and described plummer.

Further, described supporting vertical plate includes multiple supporting vertical plate section, two adjacent described supporting vertical plate spacer segments Arrange, and form the circulation path of condensed water.

On the other hand, the invention provides a kind of heat exchange unit, including: heat exchange unit body；Boundary frame area, peace It is contained in the lower section of described heat exchange unit body, described boundary frame area is provided with multiple osculum.

Further, the plurality of osculum is divided into multiple rows of osculum, two adjacent row's osculums to be crisscross arranged.

Further, described boundary frame area is provided with the supporter for supporting described heat exchange unit body.

Further, described supporter is the projection being formed on described boundary frame area.Application technical scheme, Heat exchange unit is carried on base, and described base is formed resettlement groove, and described resettlement groove is provided with plummer, described Offer drain tank on plummer, contribute to realizing the smooth discharge of condensed water.

Accompanying drawing explanation

The Figure of description of the part constituting the application is used for providing a further understanding of the present invention, and the present invention shows Meaning property embodiment and explanation thereof are used for explaining the present invention, are not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 shows the decomposition texture schematic diagram of air-conditioner according to embodiments of the present invention；

Fig. 2 shows the perspective view of the drain pan of air-conditioner according to embodiments of the present invention；

Fig. 3 shows the structure for amplifying schematic diagram at the P of Fig. 2；

Fig. 4 shows the main TV structure schematic diagram of the drain pan of air-conditioner according to embodiments of the present invention；

The drain pan that Fig. 5 shows air-conditioner according to embodiments of the present invention and the structural representation of motor being arranged on drain pan Figure；

The drain pan that Fig. 6 shows air-conditioner according to an embodiment of the invention and the knot of centrifugal blower being arranged on drain pan Structure schematic diagram；

Fig. 7 shows the decomposition texture schematic diagram of Fig. 6；

Fig. 7 a shows the structural representation of the centrifugal impeller of the centrifugal blower of air-conditioner according to embodiments of the present invention；

The drain pan that Fig. 8 shows air-conditioner according to embodiments of the present invention and the centrifugal blower being arranged on drain pan decompose knot Structure schematic diagram；

Fig. 9 shows the air duct cover board of air-conditioner according to embodiments of the present invention and the structural representation of electrical appliance kit；

Figure 10 shows the structural representation of the air duct cover board of air-conditioner according to embodiments of the present invention；

Figure 11 shows Figure 10 partial enlargement structural representation；

Figure 12 shows the structural representation of the first cover plate of air-conditioner according to embodiments of the present invention；

Figure 13 shows the structural representation of the second cover plate of air-conditioner according to embodiments of the present invention；

Figure 14 shows the drain pan of air-conditioner according to embodiments of the present invention and the structural representation of air duct cover board；

Figure 15 shows that the drain pan of air-conditioner according to embodiments of the present invention, air duct cover board and centrifugal blower are installed together After structural representation；

Figure 16 shows the sectional structure schematic diagram in Figure 15 at A-A；

Figure 17 shows the structure for amplifying schematic diagram in Figure 16 at M；

Figure 18 shows the partial enlargement structural representation of Figure 16；

Figure 19 shows the vaporizer of air-conditioner according to embodiments of the present invention and the structural representation of base；

Figure 20 shows the sectional structure schematic diagram in Figure 19 at B-B；

Figure 20 a shows the structure for amplifying schematic diagram in Figure 20 at C；

Figure 21 shows the panel body of air-conditioner according to embodiments of the present invention and the decomposition texture schematic diagram of front panel；

Figure 22 shows driving structure and the structural representation of air-inlet grille of air-conditioner according to embodiments of the present invention；

Figure 23 shows the structural representation of air-conditioner (front panel is not released) according to embodiments of the present invention；

Figure 24 shows the structural representation of air-conditioner (front panel is pushed out) according to embodiments of the present invention；

Figure 25 shows the sectional structure schematic diagram of Figure 24；

Figure 26 shows the perspective view of air-conditioner (front panel is pushed out) according to embodiments of the present invention；

Figure 27 shows the flow process of the start step of the embodiment of the control method of air-conditioner according to embodiments of the present invention Schematic diagram；And

Figure 28 shows the schematic flow sheet of the shutdown procedures of the embodiment of the control method of Figure 27.

Wherein, above-mentioned accompanying drawing includes the following drawings labelling:

1, drain pan；11, air channel；11a, the first side wall；11b, the second sidewall；111, the first air channel；112, Two air channels；121, upper air outlet；122, lower air outlet；1211, air outlet on first；1212, air-out on second Mouthful；1221, first time air outlet；1222, second time air outlet；13, electrical appliance kit installation portion；131, electrical appliance kit； 1321, the second cable tray；1322, the 3rd cable tray；1323, the 4th cable tray；133, the first cover plate； 1331, the first connecting portion；1332, the second connecting portion；134, the second cover plate；1341, the 3rd connecting portion；1342、 4th connecting portion；14, motor radiating hole；151, snail tongue on first；152, snail tongue on second；153, first time snail Tongue；154, second time snail tongue；16, wind mechanism is swept；161, wind mechanism is swept on first；162, wind mechanism is swept on second； 163, wind mechanism is swept first time；164, wind mechanism is swept second time；171, upper wind deflector；173, lower wind deflector；181、 Bottom surface, air channel；1821, groove floor is installed；1822, recess sidewall is installed；2, air duct cover board；21, flow-guiding mouth； 24, Anti-air-leakage groove；25, brace rod；211, the first flow-guiding mouth；212, the second flow-guiding mouth；22, the first cabling Passage；221, dividing plate；2211, wiring breach；222, breach is dodged；23, box is driven；24, Anti-air-leakage groove； 25, brace rod；26, riser；3, centrifugal blower；3a, the first centrifugal blower；3b, the second centrifugal blower；31、 Centrifugal impeller；311, wheel hub；3111, air vent；312, keep out the wind convex edge；32, motor pressing cover；321, the first cover Body；322, flange connector；323, reinforcement structure；33, blower motor；313, leaf body plate；314, baffle liner；4、 Vaporizer；5, base；51, resettlement groove；52, plummer；53, supporting vertical plate；54, aqueduct；6, above Plate；61, enterprising air port；62, lower air inlet；63, side air inlet；7, panel body；71, baffle plate holding tank；73、 Air-inlet grille；74, framework；75, drainage screen；76, drive mechanism；81, upper air inlet baffle plate；82, lower air intake gear Plate；9, air outlet guard board；91, upper air outlet guard board；92, lower air outlet guard board；93, motor；94, catching step Face；95, second groove is dodged；96, sealing gasket.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can phases Combination mutually.Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

It it is noted that described further below is all exemplary, it is intended to provide further instruction to the application.Unless Otherwise indicated, all technology used herein and scientific terminology have the ordinary skill people with the application art The identical meanings that member is generally understood that.

As shown in Fig. 1, Fig. 9 and Figure 24, the air-conditioner of the present embodiment includes: the drain pan 1 set gradually, centrifugal wind Machine 3, air duct cover board 2, vaporizer 4, panel body 7, front panel 6, upper air inlet baffle plate 81, lower air intake baffle plate 82 And air outlet guard board 9.Above structure will be introduced one by one below.

As shown in Fig. 2 to Fig. 8 and Figure 25, drain pan 1 has the upper side and lower side being oppositely arranged, and drain pan 1 is provided with The air channel 11 extended to downside by upside, air channel 11 has the upper air outlet 121 corresponding to upside and corresponds to down The lower air outlet 122 of side, be provided with at upper air outlet 121 wind deflector 171 and on sweep wind mechanism, lower air outlet 122 Place be provided with lower wind deflector 173 and under sweep wind mechanism.Upper air outlet 121 upwards air-out, lower air outlet 122 goes out downwards Wind.Be provided with at upper air outlet 121 wind deflector 171 and on sweep wind mechanism, be provided with down at lower air outlet 122 and lead Aerofoil 173 and under sweep wind mechanism.So, user can adjust according to actual needs by upper air outlet 121 and/or lower air-out Mouth 122 air-out, and then improve the amplitude to air-out direction regulation, thus improve the comfort level of user.Drain pan 1 On there is motor radiating hole 14, the concrete structure in this motor radiating hole 14 and effect can be described in detail later.

As shown in Figure 9 and Figure 10, air duct cover board 2 has the flow-guiding mouth 21 connected with air channel 11.Air duct cover board 2 Concrete structure and effect can be described in detail later.

As shown in Fig. 1, Fig. 7, Fig. 7 a and Fig. 8, centrifugal blower 3 is arranged in air channel.Centrifugal blower 3 includes wind Dynamo-electric machine 33 and the centrifugal impeller 31 driven by blower motor 33, centrifugal impeller 31 has leaf body plate 313.About from The concrete structure of heart-wind syndrome machine 3 and position relationship can be described in detail later.

As it is shown in figure 1, vaporizer 4 is arranged on the side away from drain pan 1 of centrifugal blower 3.In the present embodiment, steam Send out device 4 cover and set whole flow-guiding mouths 21.Or in other embodiments, each flow-guiding mouth 21 is correspondingly arranged on one Individual vaporizer.

As shown in Figure 1, Figure 2 shown in 4 and Figure 26, front panel 6 is movably disposed on drain pan 1, and front panel 6 is preferred There is the open position away from drain pan 1 and the closed position near drain pan 1, when front panel 6 is in an open position, Air inlet is formed between front panel 6 and drain pan 1.Wherein, air inlet include enterprising air port 61 and lower air inlet 62 with And it is arranged on the side air inlet 63 between enterprising air port 61 and lower air inlet 62.Further, enterprising air port 61 With lower air inlet 62 is formed between air duct cover board 2 and front panel 6.Preferably, front panel 6 and air duct cover board 2 Position-adjustable ground connect.Due to front panel 6 and air duct cover board 2 position-adjustable be connected, thereby through changing Become the distance between front panel 6 and air duct cover board 2, the size of air inlet can be regulated, so that air-conditioner has list The adjustable feature of intake in bit time, and then optimize the heat exchange reliability of air-conditioner.Front panel 6 sets movably Put on drain pan 1 so that the thickness of air-conditioner reduces so that air-conditioner is the most slim.Certainly, front panel 6 is also Can be fixedly installed on drain pan 1, between front panel 6 and drain pan 1, form air inlet.Panel body 7 include framework and Cover on the drainage screen 75 on framework 74.Be conducive to avoiding impurity to enter air conditioner room unit and hinder air conditioner room unit Normal work, advantageously reduces the probability that air conditioner room unit breaks down.

As shown in figure 24, upper air inlet baffle plate 81 is correspondingly arranged at enterprising air port 61, and is used for blocking or open enterprising Air port 61.Lower air intake baffle plate 82 is correspondingly arranged at lower air inlet 62 and for blocking or open lower air inlet 62.When When air-conditioner is in air-out state, upper air inlet baffle plate 81 blocks enterprising air port 61, when air-conditioner is in lower air-out shape During state, lower air intake baffle plate 82 blocks lower air inlet 62.Owing to being provided with upper air inlet baffle plate 81 and lower air intake baffle plate 82, Thus when carrying out air draft when corresponding exhaust outlet, by closing corresponding air intake baffle plate, can the row of being prevented effectively from Wind refluxes, thus is effectively improved the heat transfer effect of air-conditioner, and can significantly improve the efficiency of air-conditioner, makes air-conditioner Have the advantages that energy consumption is low, runnability is good.Upper air inlet baffle plate 81 and the concrete structure of lower air intake baffle plate 82 and connection Relation can be described in detail later.

As shown in Fig. 9, Figure 16, Figure 18, Figure 25, each air outlet is homogeneously correspondingly provided with pivotable air-out Baffle plate 9, each air outlet guard board 9 has the primary importance dodging air channel 11 and the second position closing corresponding air outlet. User can adjust according to actual needs by which air outlet, improves the amplitude to air-out direction regulation, thus carries The high comfort level of user.In the present embodiment, air outlet guard board includes air outlet guard board 91 and lower air outlet guard board 92, Upper air outlet guard board 91 is correspondingly arranged with upper air outlet 121, and lower air outlet guard board 92 is correspondingly arranged with lower air outlet 122, Upper air outlet guard board 91 can be dodged air outlet 121 by pivot or close upper air outlet 121, lower air outlet guard board 92 Lower air outlet 122 can be dodged by pivoting or close lower air outlet 122.Said structure can be according to user's request Air outlet 121 or lower air outlet 122 in closing.When air-conditioner is in upper air-out state, in this condition, go out under Windshield plate 92 is switched to close the position of lower air outlet 122, and upper air outlet guard board 91 is positioned at dodges air outlet 121 Position, now, air-conditioner is only by the air-out of upper air outlet 121.In like manner, it is also possible to only gone out by lower air outlet 122 Wind or by the air-out simultaneously of upper air outlet 121 and lower air outlet 122.Concrete structure and the connection of air outlet guard board 9 are closed System can be described in detail later.

Concrete structure and the effect in motor radiating hole 14 will be described in detail below.

As shown in Figure 2 and Figure 8, on drain pan 1, the position of corresponding blower motor 33 has motor radiating hole 14.Due to Motor radiating hole 14 is arranged on drain pan 1, namely uses the mode of drain pan 1 side heat radiation to make blower motor 33 Heat energy is discharged by the motor radiating hole 14 on drain pan 1, so that no matter air-conditioner is in heats or refrigeration mode Under, all can ensure that the radiating effect of blower motor 33, eliminate the impact that blower motor 33 is dispelled the heat by patten transformation, Thus it is effectively increased the heat radiation reliability of blower motor 33, it is ensured that the stability of blower motor 33 heat radiation, and then The running temperature making blower motor 33 reduces, work efficiency high, energy consumption is low, service life is long.

Forming air channel 11 in drain pan in the present invention 1, air-conditioner also includes for by the shell of blower motor 33 and wind The motor pressing cover 32 of road 11 isolation, motor pressing cover 32 is located at the outside of blower motor 33 and is connected with drain pan 1. Owing to using motor pressing cover 32 to be located at the outside of blower motor 33, namely blower motor 33 is entered with air channel 11 Row isolation, so that blower motor 33 will not be impacted by the temperature of air channel 11 endogenous wind, and by drain pan 1 Motor radiating hole 14 ensure that the heat radiation reliability of blower motor 33, thus ensure that blower motor 33 running temperature Stability.

In the preferred implementation shown in Fig. 8, motor pressing cover 32 includes the first cover body 321 and flange connector 322, First cover body 321 be located in the outside of the shell of blower motor 33, and it is convex that the opening of the first cover body 321 is provided with connection Edge 322,1 face of flange connector 322 and drain pan coordinates.Owing to being provided with the first cover body 321, thus ensureing blower fan While motor 33 can be stably mounted on drain pan 1, also effectively blower motor 33 is isolated with air channel 11, thus Ensure that the operational reliability of blower motor 33.Owing to being provided with flange connector 322, hereby it is ensured that first cover body 321 Connection reliability with drain pan 1.Simultaneously as 1 face of flange connector 322 and drain pan coordinates, thus increase two The contact area of person, the stress effectively reducing local is concentrated.

Preferably, motor pressing cover 32 also includes that reinforcement structure 323, reinforcement structure 323 are arranged on the first cover body 321. Owing to being provided with reinforcement structure 323 on the first cover body 321, thus improve motor pressing cover 32 overall construction intensity, It is effectively increased the dependability of motor pressing cover 32.

As shown in Figure 8, reinforcement structure 323 includes one or more reinforcement, reinforcement along the center of cover body to first The opening of cover body 321 extends, and a plurality of reinforcement is intervally installed.Certainly, reinforcement can also set ringwise Put on the first cover body 321.

In a not shown preferred implementation, air-conditioner also includes blower motor fixed support, and blower motor is solid Fixed rack is crimped on the outside of blower motor 33 and is connected with drain pan 1, and blower motor fixed support has the first ventilation Structure.Owing to having motor radiating hole 14 on drain pan 1, even if thus wind in air channel 11 is by the first aeration structure Blower motor 33 can produce impact, now the heat on blower motor 33 also can be dissipated to by motor radiating hole 14 In external environment condition, thus ensure that heat radiation reliability and the multiformity of radiating mode of blower motor.Particularly in refrigeration Under pattern, blower motor 33 can be lowered the temperature by the cold wind in air channel 11, thus avoids blower motor 33 overheated, protects Operation stability and the reliability of blower motor 33 are demonstrate,proved.

Preferably, air-conditioner also includes that the second cover body, the second cover body can be rotatably set on blower motor fixed support, Second cover body has the second aeration structure, and the second cover body has the first operating position and the second operating position, when the second cover When body is in the first operating position, the first aeration structure and the second aeration structure connect and make air channel 11 and blower motor 33 connections；When the second cover body is in the second operating position, the first aeration structure and the second aeration structure be crisscross arranged with Air channel 11 is made to isolate with blower motor 33.Owing to being provided with second cover body with the second aeration structure, thereby through Change the operating position of the second cover body, it is possible to achieve the State Transferring that blower motor 33 is isolated with air channel 11 or connected, Thus when air-conditioner is in different patterns, the radiating mode of blower motor 33 can be controlled selectively.

Specifically, air-conditioner has two kinds of mode of operations and includes refrigeration mode and heating mode, when air-conditioner is in system During chill formula, the second cover body is in the first operating position；When air-conditioner is in heating mode, the second cover body is in Two operating positions.

When air-conditioner is in refrigeration mode, now blower motor 33 can be played cooling by the cold wind in air channel 11 Effect, thus by the way of the heat radiation of drain pan 1 side and cold wind heat radiation combine, it is ensured that blower motor 33 is in normally Running status.

When air-conditioner is in heating mode, now the hot blast in air channel 11 can improve the temperature of blower motor 33 further Degree, is now accomplished by isolating blower motor 33 with air channel 11, it is to avoid the hot blast impact on blower motor 33, thus Blower motor 33 is made only to be dispelled the heat by the motor radiating hole 14 on drain pan 1, to ensure that blower motor 33 is just in Often running status.

As shown in Figures 2 and 3, motor radiating hole 14 is in mounting hole or circle.When motor radiating hole 14 is in mounting hole Time, compared with circular motor radiating hole 14, it is possible to effectively increase motor radiating hole 14 offers area, thus carries The radiating effect in high motor radiating hole 14.

Certainly, motor radiating hole 14 may be arranged as polygon, oval or irregular geometry etc..

In the preferred implementation shown in Fig. 2 and Fig. 3, motor radiating hole 14 is multiple, multiple motor radiating holes 14 being provided at circumferentially spaced along blower motor 33, and the major diameter in the motor radiating hole 14 in kidney-shaped is along blower motor 33 Be radially arranged.Owing to motor radiating hole 14 is multiple, it is thus possible to be effectively improved the radiating efficiency of blower motor 33, Ensure the heat radiation reliability of air-conditioner.When the major diameter in the motor radiating hole 14 in kidney-shaped sets along the radial direction of blower motor 33 When putting, can not only ensure that area of dissipation is sufficient, the radiating effect homogeneity also making blower motor 33 is good, it is to avoid wind Dynamo-electric machine 33 hot-spot, thus improve the operational reliability of blower motor 33.

Preferably, air-conditioner also includes centrifugal impeller 31, and the wheel hub 311 of centrifugal impeller 31 is tied in enclosed arc Structure, the wheel hub 311 of centrifugal impeller 31 is located at the outside of blower motor 33 to reduce air channel 11 and blower motor 33 Connection area.Owing to the wheel hub 311 of centrifugal impeller 31 is in enclosed arcuate structure, thereby through centrifugal impeller The buffer action of self of 31, it is possible to reduce air channel 11 and the connection area of blower motor 33, thus reduce air channel 11 The temperature of the endogenous wind impact on blower motor 33, it is ensured that the operational reliability of blower motor 33.

Certainly, another preferred embodiment in, air-conditioner also includes centrifugal impeller 31, centrifugal impeller 31 Wheel hub 311 has air vent 3111.Owing to the wheel hub 311 of centrifugal impeller 31 has air vent 3111, thus increase The connection area of air channel 11 and blower motor 33, when air-conditioner is in refrigeration mode, the cold wind in air channel 11 is also Blower motor 33 can be played the effect of cooling, thus improve the heat radiation reliability of blower motor 33.

Concrete structure and the effect of air duct cover board 2 will be described in detail below.

As it is shown in figure 9, the side towards drain pan 1 of air duct cover board 2 is provided with the riser of the side extension along air channel 11 26, riser 26 overlaps with the sidewall in air channel 11.Riser 26 overlaps with the sidewall in air channel 11 and abuts, and is used for preventing There is the problem leaked out in air channel 11.The side away from drain pan 1 of the air duct cover board 2 in the present invention is provided with for supporting The brace rod 25 of vaporizer.Owing to being provided with brace rod 25, hereby it is ensured that the installation reliability of vaporizer, and increase Vaporizer and the contact area of air duct cover board 2, be prevented effectively from vaporizer and rock, vibrate, improve setting of vaporizer Put stability and operational reliability.As shown in Figure 14 and Figure 16, brace rod 25 is positioned at the middle part of air duct cover board 2.Excellent Selection of land, supports gold 25 between two flow-guiding mouths 21.Owing to heavier mass, the volume of vaporizer are relatively big, thus Brace rod 25 is set at the middle part of air duct cover board 2 and can strengthen air channel while ensureing the placement reliability of vaporizer The overall construction intensity of cover plate 2, thus improve operational reliability and the stability of air-conditioner.

Concrete structure and the position relationship of centrifugal blower 3 will be described in detail below.

As shown in Fig. 4 to Fig. 7, Figure 16, Figure 17, drain pan 1 has bottom surface, air channel 181 and installs centrifugal blower 3 Installation groove, bottom surface, air channel 181 be positioned at install groove outer circumferential, blower motor 33 be arranged on installation groove in, Leaf body plate 313 is higher than or flushes in bottom surface, air channel 181.

Air-conditioner includes drain pan 1 and centrifugal blower 3.It is provided with the air channel coordinated with centrifugal blower 3 on drain pan 1 and goes out Air port, centrifugal blower 3 is arranged in air channel.The air-conditioner of the present embodiment uses centrifugal blower 3, this centrifugal blower 3 For the through-flow fan blade of prior art, relatively thin in the size of the thickness direction of air-conditioner, so can be effectively Reduce the thickness of air-conditioner.Meanwhile, drain pan 1 has the installation groove installing centrifugal blower 3, above-mentioned installation groove Setting can reduce the thickness of air-conditioner further so that air-conditioner is the most slim.In this application, centrifugal wind Machine 3 has leaf body plate 313, and drain pan 1 has the bottom surface, air channel 181 being positioned at installation groove outer circumferential, leaf body plate 313 Protrude from bottom surface, air channel 181.Centrifugal blower 3 wind when air-out outwards can blow out on leaf body plate 313, leaves leaf Wind after body plate 313 can arrive bottom surface, air channel 181, and leaf body plate 313 protrudes from bottom surface, air channel 181 and makes leaf body plate 313 Less to the resistance of above-mentioned wind, and then ensure that air-conditioner can reach bigger air output.As shown in the above, The air-conditioner of the application is effectively guaranteed air output while solving thickness problem so that Consumer's Experience is more preferably.

In embodiment one, groove is installed and includes groove floor 1821 being installed and recess sidewall 1822 being installed, install recessed Groove sidewall 1822 is by installing the extension gradually expanded on the direction of bottom surface, groove floor 1821 to air channel 181.Above-mentioned knot Structure makes out wind resistance less, and then better ensures that air output.

As shown in figure 17, in embodiment one, bus and the installation groove floor 1821 of recess sidewall 1822 is installed Between angle α at an acute angle.Said structure is easy to processing and fabricating, is installed and overhaul, and said structure ensure that simultaneously Less to going out wind resistance.

Above-mentioned acute angle is preferably in the range of 40 ° to 50 °.As shown in figure 17, in the present embodiment, install Bus and the angle α installed between groove floor 1821 of recess sidewall 1822 are 45 °, and this angle makes simple, Easily realize, and be conducive to the guiding of air flowing is formed cushioning effect.

As shown in Figure 15 and Figure 16, in embodiment one, the diameter of groove floor 1821 is installed more than centrifugal blower 3 External diameter.Which ensure that centrifugal blower 3 makees gyration swimmingly in the space at its place.

As shown in figure 15, in embodiment one, air channel is set to two, and two air channels are arranged side by side, simultaneously and air channel Corresponding centrifugal blower 3 is also configured as two.The setting of the centrifugal blower 3 of two air channels and correspondence.So on the one hand Ensure that air output, on the other hand, the increase that takes up room of air-conditioner is few.Certainly, air channel and centrifugal blower 3 Can be arranged as required to be three or more than three.

As shown in Figure 1 and Figure 7, it is preferable that blower fan is centrifugal blower.Centrifugal blower includes: baffle liner 314；Leaf Body plate 313, and baffle liner 314 interval arrange, leaf body plate 313 is formed to baffle liner 314 direction protrude convex Rising, the protruding interior motor that formed accommodates chamber；Multiple fan blades, are installed between baffle liner 314 and leaf body plate 313, many Individual fan blade is along projection circumferentially.

The middle part of leaf body plate 313 forms the projection protruded to baffle liner 314, forms opening and be positioned at leaf body plate in projection Motor on the surface back to baffle liner 314 of 313 accommodates chamber, and multiple fan blades are arranged in protruding circumference equably, Motor is placed between baffle liner 314 and leaf body plate 313, reduces the thickness of air conditioner room unit, further Ground, reduces the space shared by air-conditioning.

Upper air inlet baffle plate 81 and the concrete structure of lower air intake baffle plate 82 and annexation will be described in detail below.

As shown in Figure 23 to Figure 25, specifically, upper air inlet baffle plate 81 and lower air intake baffle plate 82 have following work State: when upper air outlet 121 and the 122 equal air-out of lower air outlet, upper air inlet baffle plate 81 and 82 points of lower air intake baffle plate Do not block enterprising air port 61 and lower air inlet 62；And/or when only going up air outlet 121 air-out, only upper air inlet baffle plate 81 Block enterprising air port 61；And/or when only descending air outlet 122 air-out, only descend air intake baffle plate 82 to block lower air inlet 62.

Herein it should be noted that prevent air draft backflow while, in addition it is also necessary to ensure that air-conditioner has enough air intakes Amount, can reduce heat transfer effect and the efficiency of air-conditioner the most equally.Therefore, the air-conditioner in the present invention is only in upper air-out Just upper air inlet baffle plate 81 and lower air intake baffle plate 82 are simultaneously closed off, otherwise when mouth 121 and the 122 equal air-out of lower air outlet Can optionally turn off the air intake baffle plate corresponding with air draft.And when upper air outlet 121 and lower air outlet 122 are equal When being closed, need to rely on side air inlet 63 to ensure air intake.

Upper air inlet baffle plate 81 and lower air intake baffle plate 82 are arranged between front panel 6 and air duct cover board 2 turningly.By In being provided with turnover upper air inlet baffle plate 81 and lower air intake baffle plate 82 between front panel 6 and air duct cover board 2, because of And by controlling upper air inlet baffle plate 81 and lower air intake baffle plate 82 duty, preventing back of different air-out mode can be met Wind requirement.

As shown in figure 22, the air-conditioner of the present embodiment also includes that drive mechanism 76, front panel 6 are driven with drive mechanism 76 Being dynamically connected, front panel 6 is released forward to form above-mentioned air inlet by drive mechanism 76.Due to by by front panel 6 Release forward and can form above-mentioned air inlet, thus optimize the air inlet/outlet pattern of air-conditioner.The both sides of panel body 7 set It is equipped with the arrangement portion protruded to the direction of drain pan 1, arrangement portion is provided with for accommodating drive mechanism 76.To be used for putting The arrangement portion putting drive mechanism 76 is set to the form to drain pan 1 protrusion, advantageously reduces the thickness of air conditioner room unit, It is sufficiently used space.

Preferably, the first side of upper air inlet baffle plate 81 is pivotably connected with front panel 6 or air duct cover board 2, upper air inlet Second side of baffle plate 81 is free side.Due to upper air inlet baffle plate 81 pivotly with front panel 6 and/or air duct cover board 2 Connect, thus improve Reliability of Microprocessor and the storage reliability of upper air inlet baffle plate 81.And at upper air inlet baffle plate 81 When collapsed state is not kept out the wind, upper air inlet baffle plate 81 can be close to air duct cover board 2 or front panel 6 is arranged, with by upper Air inlet 61 is dodged out, thus ensure that the air intake reliability of air-conditioner.

Similarly, the annexation of lower air intake baffle plate 82 and front panel 6 and/or air duct cover board 2 and upper air inlet baffle plate 81 Similar with the annexation of front panel 6 and/or air duct cover board 2, do not repeat.

In a specific embodiment, the first side of upper air inlet baffle plate 81 is pivotably connected with air duct cover board 2, front The surface towards air duct cover board 2 side of panel 6 have air intake seal structure, the second side of upper air inlet baffle plate 81 with enter Wind seals sealing structure and coordinates.The air intake coordinated due to the second side seal being provided with upper air inlet baffle plate 81 seals knot Structure, hereby it is ensured that the anti-air-return reliability of upper air inlet baffle plate 81, thus avoid because of the reflux problem caused of leaking out.When So, on front panel 6, the position of corresponding lower air intake baffle plate 82 can also be provided with above-mentioned air intake and seal structure.

Preferably, air intake sealing structure includes that air intake seals convex stupefied or air intake sealing station terrace.When air intake seals structure it is Air intake seals convex stupefied or air intake sealing station terrace, seals convex stupefied or air intake sealing station when upper air inlet baffle plate 81 is overlapped on air intake Time on terrace, not only can play the effect of sealing, also upper air inlet baffle plate 81 can be played spacing, the effect of backstop, from And be prevented effectively from upper air inlet baffle plate 81 and be moved through position, further increase the Reliability of Microprocessor of upper air inlet baffle plate 81.

In another specific embodiment, the first side of upper air inlet baffle plate 81 is pivotably connected with front panel 6, and on Second side of air intake baffle plate 81 can overturn to air duct cover board 2 side.Owing to front panel 6 belongs to action component, thus by upper On air intake baffle plate 81 plate forward-mounted 6, total quality and the action burden of front panel 6 can be increased.

As shown in figure 21, in order to improve the storage reliability of upper air inlet baffle plate 81, the air duct cover board 2 in the present invention Having baffle plate holding tank 71 towards the surface of front panel 6 side, upper air inlet baffle plate 81 can be accommodated in baffle plate holding tank 71 In.Owing to air duct cover board 2 is provided with the baffle plate holding tank 71 for receiving upper air inlet baffle plate 81, thus work as upper air inlet Baffle plate 81 is packed up when dodging enterprising air port 61, enterprising air port 61 can be made to fully open, unobstructed, thus ensure that sky Adjust the intake of device, it is ensured that the efficiency of air-conditioner.

Similarly, above-mentioned baffle plate holding tank 71 can be additionally used in the lower air intake baffle plate 82 of storage.

In the preferred implementation shown in Fig. 1 and Figure 25, air-conditioner also includes drain pan 1, air duct cover board 2, panel Body 7 and front panel 6, enterprising air port 61 and lower air inlet 62 are formed between panel body 7 and front panel 6, enterprising Windshield plate 81 and lower air intake baffle plate 82 are arranged between front panel 6 and panel body 7 turningly.Now, due to face Plate body 7 is folded between air duct cover board 2 and front panel 6, thus when front wall 6 moves, air inlet should be formed at Between panel body 7 and front panel 6.

Preferably, front panel 6 is connected with the position-adjustable ground of panel body 7.Due to front panel 6 and panel body 7 Position-adjustable ground connects, and thereby through the distance changed between front panel and panel body 7, can regulate air inlet Size, so that air-conditioner has the adjustable feature of intake in the unit interval, and then the heat exchange optimizing air-conditioner can By property.

Now, the first side of upper air inlet baffle plate 81 is pivotably connected with front panel 6 and/or panel body 7, upper air inlet Second side of baffle plate 81 is free side.Due to upper air inlet baffle plate 81 pivotly with front panel 6 and/or panel body 7 Connect, thus improve Reliability of Microprocessor and the storage reliability of upper air inlet baffle plate 81.And at upper air inlet baffle plate 81 When collapsed state is not kept out the wind, upper air inlet baffle plate 81 can be close to panel body 7 or front panel 6 is arranged, with by enterprising Air port 61 is dodged out, thus ensure that the air intake reliability of air-conditioner.

Similarly, the annexation of lower air intake baffle plate 82 and front panel 6 and/or panel body 7 and upper air inlet baffle plate 81 Similar with the annexation of front panel 6 and/or panel body 7, do not repeat.

In this preferred implementation, the first side of upper air inlet baffle plate 81 is pivotably connected with panel body 7, front panel The surface towards panel body 7 side of 6 has air intake and seals structure, and the second side of upper air inlet baffle plate 81 seals with air intake Sealing structure coordinates.The air intake coordinated due to the second side seal being provided with upper air inlet baffle plate 81 seals structure, thus Ensure that the anti-air-return reliability of upper air inlet baffle plate 81, thus avoid because of the reflux problem caused of leaking out.Certainly, before On plate 6, the position of corresponding lower air intake baffle plate 82 can also be provided with above-mentioned air intake and seal structure.

Similarly, above-mentioned air intake sealing structure includes that air intake seals convex stupefied or air intake sealing station terrace.

Or, the first side of upper air inlet baffle plate 81 is pivotably connected with front panel 6, and the of upper air inlet baffle plate 81 Two sides can overturn to panel body 7 side.

As shown in figure 24, in order to improve the storage reliability of upper air inlet baffle plate 81, the court of the panel body 7 in the present invention The surface of front panel 6 side has baffle plate holding tank 71, and upper air inlet baffle plate 81 can be accommodated in baffle plate holding tank 71. Owing to panel body 7 is provided with the baffle plate holding tank 71 for receiving upper air inlet baffle plate 81, thus when upper air inlet baffle plate 81 Pack up when dodging enterprising air port 61, enterprising air port 61 can be made to fully open, unobstructed, thus ensure that air-conditioner Intake, it is ensured that the efficiency of air-conditioner.Similarly, above-mentioned baffle plate holding tank 71 can be additionally used in the lower air intake baffle plate of storage 82。

Air-conditioner in the present invention also includes the air intake lattice corresponding respectively to arrange at side air inlet 63 and lower air inlet 62 Grid 73, air-inlet grille 73 is connected to be synchronized with the movement with front panel 6 with drive mechanism 76 and/or front panel 6.Due to It is provided with air-inlet grille 73, it is thus possible to be prevented effectively from the problem causing unexpected injury because staff touches air inlet by mistake, from And improve the safety in utilization of air-conditioner.

As shown in figure 22, this air-inlet grille 73 is shutter form.After whole machine installation is on wall, from user's Angle cannot see the internal construction details of air-conditioner through air-inlet grille 73, and room air can pass through air-inlet grille 73 enter inside air-conditioner, and carry out heat exchange and air regulation.

In order to improve the storage reliability of air-inlet grille 73, panel body 7 is provided with grid holding tank, air-inlet grille 73 can be accommodated in grid holding tank.

Concrete structure and the annexation of air outlet guard board 9 will be described in detail below.

As shown in fig. 16 and 18, air outlet guard board 9 is driven by motor 93.Motor 93 is controllable motor, Advantageously account for rotating problem not in place.

The first side wall 11a in air channel 11 is formed by air duct cover board 2, and the second sidewall 11b in air channel 11 is by drain pan 1 shape Become.

Preferably, in primary importance, air outlet guard board 9 is attached on the first side wall 11a in air channel 11.Be conducive to avoiding Stop the ventilation in air channel 11.

Preferably, air channel 11 has the first side wall 11a positioned opposite and the second sidewall 11b, the of air outlet guard board 9 One end is pivotally connected on the first side wall 11a in air channel 11, the second end of air outlet guard board 9 and the second of air channel 11 Sidewall 11b coordinates.

The rotation of the first end offer rotation space being formed with air outlet guard board 9 on the first side wall 11a in air channel 11 is recessed Groove, the second position, the first end of air outlet guard board 9 and the cell wall close fit of rotation slot, the second of air outlet guard board 9 End coordinates with the second sidewall 11b in air channel 11, to close corresponding air outlet.

Preferably, the first side wall 11a in air channel 11 is formed and first dodges groove for receive air outlet guard board.? Primary importance, air outlet guard board 9 is positioned at first and dodges groove, and attaches the first side wall 11a, to avoid stopping air-out Mouth ventilates.

Preferably, the second sidewall 11b in air channel 11 is provided with catching step face 94, the second end of air outlet guard board 9 Coordinate with catching step face 94.In the second position, the second end of air outlet guard board 9 abuts with catching step face 94, increases Big contact area, is conducive to improving sealing effectiveness.

Preferably, catching step face 94 is back to corresponding air outlet 11.Catching step face 94 towards the side the wind comes from, When closing corresponding air outlet, driving air outlet guard board 9 of the wind comes from rotates to catching step face 94, the wind comes from air channel 11 Pressure promotes the second end extruding catching step face 94 of air outlet guard board 9, is conducive to improving sealing effectiveness further.

Preferably, the second sidewall 11b in air channel 11 is formed with merge out the second of the second end of windshield plate to dodge Groove 95, the second cell wall back to air outlet dodging groove 95 forms catching step face 94.

Second to dodge groove 95 be the arc suitable with the second end motion track of air outlet guard board 9, at air outlet guard board 9 Second end motion final on trajectory formed catching step face 94.

Preferably, sealing gasket 96 it is provided with between air outlet guard board 9 and catching step face 94.Further, improve Sealing effectiveness, prevents air leakage phenomena.Sealing gasket 96 can select sponge, rubber etc. to have resilient material.

The top being formed at air-conditioner in two air outlets in air channel 11, another is formed under air-conditioner Portion.In cooling mode, if user does not likes the downward blow-through of cold wind, air outlet upwards can be selected；Heating Under pattern, user such as likes hot blast blow-through, can be selected for downward air outlet.Client can according to oneself needs, adjust by Which air outlet.

Air channel 11 has the first side wall 11a positioned opposite and the second sidewall 11b, the first side wall 11a in air channel 11 First inclination wind-guiding face and/or the second sidewall 11b with close air outlet have the second of close air outlet and tilt to lead Wind face.

Preferably, the first side wall 11a has the first inclination wind-guiding face, and first tilts wind-guiding faces away from the direction of wall Tilt；Second sidewall 11b has the second inclination wind-guiding face, and second tilts wind-guiding faces away from the direction inclination of wall. The first side wall and the second sidewall are configured to the air-out direction direction inclination towards deviation wall.

Preferably, air-conditioner includes two air channels 11 being arranged side by side.Be conducive to the air quantity because improving heat exchange, improve The efficiency of heat exchange.

Provide the air outlet guard board control method of a kind of above-mentioned air-conditioner according to a further aspect in the invention, including: profit Air outlet guard board is driven to rotate with motor 93.

Preferably, motor 93 is being utilized to drive air outlet guard board rotation to include: to the pulse of motor 93 output Number is more than the umber of pulse needed for the motor of calculating gained.

The amount of spin of motor is proportional with received umber of pulse, calculates the pulse needed for the motor of gained The amount of spin of required motor 93 is preset and based on its proportional relation calculated required pulse number according to number, but It is that motor actual rotation amount and the unmatched phenomenon of received umber of pulse often occurs, in order to avoid going out windscreen The phenomenon that plate can not rotate in place, to the umber of pulse of motor output more than the arteries and veins needed for the motor of calculating gained Strokes per minute is to solve above-mentioned problem.

In the present embodiment, air-conditioner also includes anti-air leakage structure.Below by the structure of anti-air leakage structure and act on into Row describes in detail.

As shown in Fig. 1 and Figure 16, drain pan 1 being formed with air channel 11, air duct cover board 2 coordinates with drain pan 1 and covers and sets On air channel 11, air duct cover board 2 has the flow-guiding mouth 21 connected with air channel 11；Centrifugal impeller 31 is arranged on air channel 11 is interior and corresponding with flow-guiding mouth 21, has fit clearance between centrifugal impeller 31 and air duct cover board 2；Anti-air leakage structure It is arranged on fit clearance and sentences the inleakage reducing fit clearance.

Owing to being provided with anti-air leakage structure at fit clearance, thus effectively stop work to playing at the two fit clearance With, it is to avoid or it is excessive scattered by fit clearance to reduce air intake, it is ensured that the reliability of air intake, it is ensured that can have enough Intake is blown in centrifugal impeller 31, thus improves efficiency and the heat transfer effect of air-conditioner, and effectively reduce because of Air turbulence and cause vibration and noise.Owing to fundamentally avoiding the generation of condensation, thus eliminate condensation to electricity Security threat that device parts are formed, eliminate potential safety hazard, thus ensure that the operational reliability of air-conditioner.

As shown in figure 16, the anti-air leakage structure in the present invention includes the convex edge 312 of keeping out the wind of annular, and convex edge 312 of keeping out the wind sets Put on centrifugal impeller 31 and stretch out setting to air duct cover board 2 side, and the internal diameter of the convex edge 312 of keeping out the wind of annular is more than leading The diameter of head piece 21.Owing to being provided with the convex edge 312 of keeping out the wind stretched out towards air duct cover board 2 side on centrifugal impeller 31, So that fit clearance is at least partially obscured, thus reduce width and the inleakage in gap of leaking out, and then improve sky Adjust effective intake and the air intake reliability of device.

In the detailed description of the invention shown in Figure 16, convex edge 312 of keeping out the wind is positioned at the upper table of the baffle liner of centrifugal impeller 31 At the inner peripheral in face.At the inner peripheral of the baffle liner being positioned at centrifugal impeller 31 due to convex edge 312 of keeping out the wind, thus energy Enough spill and leakages stoping air intake in the very first time, optimize the effect of Anti-air-leakage.

Certainly, convex edge 312 of keeping out the wind can also be arranged on the part between inner ring and the outer ring of centrifugal impeller 31, or directly Connect the side, outer ring being arranged on centrifugal impeller 31, although the effect of Anti-air-leakage so can also be played, but inevitably Produce eddy current in making part air quantity space between the inner ring side of convex edge 312 and centrifugal impeller 31 of keeping out the wind, be easily caused Air turbulence, easily aggravates vibration and the noise of air-conditioner.

Preferably, anti-air leakage structure includes the Anti-air-leakage groove 24 being arranged on air duct cover board 2, and convex edge 312 of keeping out the wind is embedding In being located at Anti-air-leakage groove 24 and with Anti-air-leakage groove 24 matched in clearance (refer to Figure 16).Due to convex edge 312 of keeping out the wind It is embedded in Anti-air-leakage groove 24, thus is upwardly formed triple blocking in the side of leaking out, extend wind and overflow scattered path, and Adding overflows dissipates the tortuosity in path, so that wind is not easy spill and leakage at fit clearance, it is ensured that centrifugal impeller 31 And the Anti-air-leakage reliability between air duct cover board 2.

Further, the trough wall surface of Anti-air-leakage groove 24 is cambered surface.Owing to the trough wall surface of Anti-air-leakage groove 24 is cambered surface, Thus can move along the wind-guiding surface current of smooth radian when wind overflows scattered, thus avoid stress and concentrate or vortex, effectively Reduce vibration and the noise of air-conditioner.

Anti-air leakage structure in the present invention includes the flow-guiding mouth 21 that Anti-air-leakage convex edge, Anti-air-leakage convex edge are air duct cover board 2 The flange of setting is stretched out to side, air channel 11.Owing to wind is moved by lateral centrifugal impeller 31 effluent of air duct cover board 2, thus Leakproof convex edge can be played and effectively be led wind action, so that wind pours centrifugal leaf under the effect of Anti-air-leakage convex edge smoothly into In wheel 31.Owing to Anti-air-leakage convex edge is stretched out setting by air duct cover board 2 to centrifugal impeller 31 side, so that between Pei Heing Gap is at least partially obscured, thus reduces width and the inleakage in gap of leaking out, and then improves effective air intake of air-conditioner Amount and air intake reliability.

When Anti-air-leakage convex edge embeds inside flow-guiding mouth 21, and when extending further into centrifugal impeller 31 side, now can Change the opening direction in gap of leaking out, it is preferable that Anti-air-leakage convex edge is positioned at the peripheral region of flow-guiding mouth 21 and to centrifugal impeller Setting is stretched out so that the opening direction in gap of leaking out deviates from mutually with the air intake direction of flow-guiding mouth 21 in the inner ring side of 31.Work as leakage When the air intake direction of the opening direction in wind gap and flow-guiding mouth 21 deviates from mutually, now directly it is blown into by the wind comes from of air intake direction In centrifugal impeller 31, and air intake is difficult to change in the opening flowing to enter gap of leaking out, thus effectively reduces centrifugal leaf Inleakage between wheel 31 and air duct cover board 2, it is ensured that the efficiency of air-conditioner and heat transfer effect.

In order to improve Anti-air-leakage effect further, ringwise, and Anti-air-leakage convex edge is positioned at convex edge 312 of keeping out the wind in Anti-air-leakage convex edge Internal ring side.Owing to being provided with keep out the wind convex edge 312 and Anti-air-leakage convex edge simultaneously, thus form dual Anti-air-leakage protection, Reduce further inleakage.Lead wind action owing to Anti-air-leakage convex edge has simultaneously, thus when Anti-air-leakage convex edge prior to Keeping out the wind convex edge 312 when contacting with air intake, it is possible to optimizes Anti-air-leakage effect, make air duct cover board 2 that centrifugal impeller 31 to be played Certain covering property, the effect of sealing.

It is, of course, also possible to make to keep out the wind, convex edge 312 and convex edge of leaking out are spaced setting successively along direction of leaking out.But, so The Anti-air-leakage effect of the air-conditioner arranged is relatively poor.

Flow-guiding mouth 21 in the present invention is multiple, and anti-air leakage structure is multiple, and centrifugal impeller 31 is multiple, Duo Geli Lobus cardiacus wheel 31, multiple flow-guiding mouth 21 and multiple anti-air leakage structure one_to_one corresponding each other are arranged.Due to each flow-guiding mouth All to there being above-mentioned anti-air leakage structure at 21, hereby it is ensured that the overall Anti-air-leakage performance of air-conditioner.In Figure 10 institute In the preferred implementation shown, flow-guiding mouth 21 is two, is all correspondingly arranged on above-mentioned leakproof at two flow-guiding mouths 21 Wind structure.

Preferably, air channel 11 is multiple, and multiple air channels 11 are arranged independently of one another, and multiple air channel 11 is centrifugal with multiple Impeller 31 one_to_one corresponding is arranged.Owing to multiple air channels 11 are arranged independently of one another, thus it is prevented effectively from multiple centrifugal impeller 31 cause air-flow chaotic when running, improve the air-out reliability of air-conditioner.

In order to improve the efficiency of air-conditioner further and control multiformity, the vaporizer in the present invention is multiple, Duo Gezheng Send out device to arrange with multiple flow-guiding mouth 21 one_to_one corresponding.Owing to using multiple vaporizers, reduce the quality of single vaporizer, Thus improve the installation convenience of air-conditioner, and when single vaporizer fault, it is only necessary to keep in repair, replace single evaporation Device, thus reduce maintenance complexity and maintenance cost, and extend the service life of air-conditioner.Furthermore it is also possible to Run by controlling single vaporizer or partial vaporiser and regulate the operation power of air-conditioner, to meet different uses Requirement.

Preferably, vaporizer is rounded, and vaporizer is shaped to adapt with the shape of flow-guiding mouth 21.Due to Vaporizer is shaped to adapt with the shape of flow-guiding mouth 21, it is thus possible to make each several part on vaporizer have operation The feature that consistency of performance is good, the heat exchange efficiency making vaporizer each several part is homogeneous.Additionally, circular vaporizer can also be effective Improve heat exchange efficiency, improve the efficiency grade of air-conditioner, reduction power consumption, and material can also be saved, reduce cost wave Taking, minimizing takes up room.

It should be noted that to ensure the refrigerant flow rates of each several part in vaporizer, tube drop, Temperature Distribution Homogeneity, needs the wind speed profile according to the different refrigerant flow rates of stream, tube drop and evaporator surface to combine Design caliber and a pitch of fins.By using different tube diameters, the modular design of a different pitch of fins to realize high efficient heat exchanging.Additionally, For convenience of processing and manufacturing, the U pipe of vaporizer is in the same side, and opposite side pipeline carries out freezing and the operation such as connects.

In the present embodiment, air channel 11 includes the first air channel 111 and the second air channel 112 extended by upside to downside. Below by there is the first air channel 111 and double air channels arrangement form in the second air channel 112 and effect describes in detail.

As shown in Fig. 4 and Figure 24, the first air channel 111 and the second air channel 112 are symmetrical arranged, wherein, and the first air channel 111 have corresponding to air outlet 1211 on the first of upside and corresponding to first time air outlet 1221 of downside, and second Air channel 112 has corresponding to air outlet 1212 on the second of downside and corresponding to second time air outlet 1222 of downside. Wherein, on first, on air outlet 1211 and second, air outlet 1212 forms upper air outlet 121, first time air outlet 1221 With second time lower air outlet 122 of air outlet 1222 composition.

As shown in Figure 4, snail tongue 151 on first, first time air outlet 1221 it are provided with on first at air outlet 1211 Place is provided with first time snail tongue 153, is provided with snail tongue 152 on second, second time air-out on second at air outlet 1212 It is provided with second time snail tongue 154 at mouth 1222.Specifically, first time snail tongue 153 and second time snail tongue 154 court respectively Direction close to each other is protruded, on first on snail tongue 151 and second snail tongue 152 respectively to deviate from direction protrude. The air-conditioner of the present embodiment also includes the first centrifugal blower 3a and the second centrifugal blower 3b, wherein, the first centrifugal blower 3a is arranged in the first air channel 111, and the second centrifugal blower 3b is arranged in the second air channel 112.

In this application, first time snail tongue 153 and second time snail tongue 154 direction that towards each other is close respectively are protruded, the The direction that on one, on snail tongue 151 and second, snail tongue 152 deviates from is protruded.Above-mentioned first time snail tongue 153 and second time snail tongue The setting direction of 154 determines first air channel 111 air-out direction at first time air outlet 1221 and the second air channel 112 air-out directions at second time air outlet 1222 converge mutually.So, when air-conditioner is in and heats state, can So that hot blast flows out from the first of air-conditioner air outlet 1221 and second time air outlet 1222, from the first air channel 111 The hot-air flowed out and the hot-air flowed out from the second air channel 112 can be gathered together, and then improve heating effect, change The heating performance of kind air-conditioner.Simultaneously as hot-air density is slightly lower, hot blast is from the first of air-conditioner air outlet 1221 Slowly rising with after second time air outlet 1222 blowout, so can circulate with overall thermal in forming chamber, Thermal comfort is good. Therefore the technical scheme of the present embodiment can solve the slow problem of air conditioner heat-production speed of the prior art.

Additionally, when air conditioner refrigerating, can make cold air from first on air outlet 1211 and second air outlet 1212 go out Wind.Cold wind air-out upward can be avoided directly blowing to human body, and owing to the gas density that temperature is low is big, cold wind meeting Gradually sink, accelerate refrigerating speed.Therefore the air-conditioner of the present embodiment has good refrigeration effect, and human comfort is high Feature.

The air-conditioner of the present embodiment has four air outlets, 1211, first time air outlet 1221 of air outlet on i.e. first, Air outlet 1212 and second time air outlet 1222 on second.As preferred embodiment, can be in each air-out Air outlet guard board is set at Kou.So can according to user need carry out air outlet control.Specifically, in refrigeration Or when heating, four air outlets can be opened simultaneously, make air output reach maximum.Certainly, it is in comfortable angle to examine Consider, air outlet guard board can be utilized when heating to close on first air outlet 1212 on air outlet 1211 and second so that Hot blast only blows out from first air outlet 1221 and second time air outlet 1222.Air outlet guard board can be utilized when refrigeration Close first time air outlet 1221 and the air-out of second time air outlet 1222 so that hot blast only air outlet 1211 from first With second on air outlet 1212 blow out.

As shown in Figure 4, in the technical scheme of the present embodiment, snail tongue 152 difference on snail tongue 151 and second on first It is arranged on inwall close to each other on air outlet 1212 on air outlet 1211 and second on first, first time snail tongue 153 It is separately positioned on first time air outlet 1221 and second time air outlet 1222 away from each other with second time snail tongue 154 On inwall.Meanwhile, on first on snail tongue 151 and second distance between snail tongue 152 less than first time snail tongue 153 He Distance between second time snail tongue 154.Said structure make on first air outlet 1212 on air outlet 1211, second, First time air outlet 1221 and second time air outlet 1222 size are relatively big, and then can effectively ensure air output.

As shown in Figure 6, in the technical scheme of the present embodiment, the blade rotation direction of the first centrifugal blower 3a and second is centrifuged The blade of blower fan 3b is oppositely oriented.Specifically, as the first centrifugal blower 3a and the second centrifugal blower 3b of air-conditioner During work, the first centrifugal blower 3a and the second centrifugal blower 3b can respectively band moving air flow and to air-conditioner produce certain Impulsive force.Oppositely oriented by by the blade of the blade rotation direction of the first centrifugal blower 3a and the second centrifugal blower 3b Arrange, so that impulsive force during the first centrifugal blower 3a work, air-conditioner produced and the second centrifugal blower 3b work Impulsive force when making produced air-conditioner is in opposite direction.In such manner, it is possible to make air-conditioner uniform force, operate steadily, with Time can efficiently reduce noise.

Preferably, when air-conditioner works, the direction of rotation of the first centrifugal blower 3a and the rotation of the second centrifugal blower 3b Turn in opposite direction, and then the impulsive force making the first centrifugal blower 3a and the second centrifugal blower 3b produce air-conditioner is mutual Offset.

As it is shown in fig. 7, in the technical scheme of the present embodiment, air-conditioner also includes sweeping wind mechanism 161 and on first Sweep wind mechanism 162 on two, sweep on first to sweep in wind mechanism 161 and second and sweep wind mechanism in wind mechanism 162 formation.Its In, sweep wind mechanism 161 on first and be positioned on first at air outlet 1211, sweep wind mechanism 162 on second and be positioned on second At air outlet 1212.Sweep on above-mentioned first and sweep wind mechanism 162 in wind mechanism 161 and second for changing air-out direction, Make on first at air outlet 1211 and on second air-out direction at air outlet 1212 more flexible.

Specifically, by sweeping the direction sweeping wind mechanism 162 in wind mechanism 161 and second in control first so that first On sweep and sweep wind mechanism 162 in wind mechanism 161 and second optionally there is following duty:

Sweep on first and sweep wind mechanism 162 in wind mechanism 161 and second to homonymy guiding；

Sweep on first and sweep wind mechanism 162 in wind mechanism 161 and second all to inner side convergence guiding；

Sweep on first and in wind mechanism 161 and second, sweep wind mechanism 162 diffusion orient the most laterally.

During air-conditioner work, any of the above-described kind of duty can be selected.So make air-out direction more flexible, with Meet the demand that the temperature under varying environment adjusts.

Preferably, sweep on first and sweep wind mechanism 162 in wind mechanism 161 and second and control respectively so that above-mentioned three kinds of works Make state to be easier to realize.

As it is shown in fig. 7, in the technical scheme of the present embodiment, air-conditioner also includes first time sweeping wind mechanism 163 and Sweep wind mechanism 164 for two times, sweep for first time wind mechanism 163 and sweep for second time wind mechanism 164 formed under sweep wind mechanism.Its In, sweep wind mechanism 163 for first time and be positioned at first time air outlet 1221, sweep wind mechanism 164 second time and be positioned at second time At air outlet 1222.Above-mentioned first time is swept wind mechanism 163 and sweeps wind mechanism 164 for second time for changing air-out direction, Make the air-out direction at first time air outlet 1221 and second time air outlet 1222 more flexible.

Specifically, sweep wind mechanism 163 for first time by control and sweep the direction of wind mechanism 164 for second time so that first Under sweep wind mechanism 163 and sweep wind mechanism 164 for second time optionally there is following duty:

Sweep wind mechanism 163 for first time and sweep wind mechanism 164 for second time to homonymy guiding；

Sweep wind mechanism 163 for first time and sweep wind mechanism 164 for second time all to inner side convergence guiding；

Sweep wind mechanism 163 for first time and sweep wind mechanism 164 diffusion orient the most laterally for second time.

During air-conditioner work, any of the above-described kind of duty can be selected.So make air-out direction more flexible, with Meet the demand that the temperature under varying environment adjusts.

Preferably, sweep wind mechanism 163 for first time and sweep wind mechanism 164 for second time and control respectively so that above-mentioned three kinds of works Make state to be easier to realize.

In the present embodiment, air-conditioner also includes electrical appliance kit installation portion 13, below concrete to electrical appliance kit installation portion 13 Structure and annexation describe in detail.Electrical appliance kit installation portion 13 is arranged on first snail tongue on snail tongue 151 and second Between 152.This electrical appliance kit installation portion 13 is provided with the electrical appliance kit 131 equipped with circuit board, the first centrifugal blower 3a Can be connected with foregoing circuit plate with the motor lines of the second centrifugal blower 3b, thus be embodied as the first centrifugal blower 3a and The motor of the second centrifugal blower 3b is powered, and above-mentioned cabling is simple, highly reliable.The most in this application, by electrical appliance kit Installation portion 13 is arranged on first in the cavity formed between snail tongue 152 on snail tongue 151 and second, efficiently utilizes The use space of drain pan 1, so that the internal structure of air-conditioner is more compact, makes air-conditioner more slim.

It should be noted that in the present embodiment, the electric elements arranged in electrical appliance kit 131 are circuit board, in the drawings In other embodiments unshowned, it is also possible to it can be centrifugal for arranging other according to specific needs in electrical appliance kit 131 The electric elements that the motor of blower fan is powered.

As shown in Fig. 5 and Figure 10, in the air-conditioner of the present embodiment, air-conditioner also includes the wind being connected on drain pan 1 Road cover plate 2, the first centrifugal blower 3a and the second centrifugal blower 3b between drain pan 1 and air duct cover board 2, air channel Cover plate 2 has the first flow-guiding mouth 211 corresponding to the first centrifugal blower 3a and corresponding to the second centrifugal blower 3b's Second flow-guiding mouth 212.The first flow-guiding mouth 211 and the second flow-guiding mouth 212 on above-mentioned air duct cover board 2 can be the most right Air-flow by the first centrifugal blower 3a with by the second centrifugal blower 3b plays the effect of guiding.Additionally, air channel lid The miscellaneous part (for vaporizer in the present embodiment) of drain pan 1 with air-conditioner is separated by plate 2, enhances first and is centrifuged wind Machine 3a and the mounting stability of the second centrifugal blower 3b.

As shown in Fig. 1, Fig. 5 and Figure 10, in the air-conditioner of the present embodiment, air duct cover board 2 is provided with first and walks Line passage 22, the first cable tray 22 is arranged on the side away from drain pan 1 of air duct cover board 2, the first cable tray 22 with the inner space of electrical appliance kit installation portion 13.In the present embodiment, the right edge of air duct cover board 2 is provided with drives Dynamic box 23, is provided with the electric elements such as driving power supply in this driving box 23.The electric wire picked out from above-mentioned driving power supply can To be extended to by the first cable tray 22 in the inner chamber of electrical appliance kit installation portion 13, and with the electricity in electrical appliance kit 131 Road plate connects and turns on, thus powers for circuit board, and then drives the first centrifugal blower 3a and the second centrifugal blower 3b Work.Meanwhile, the first cable tray 22 can make line arrangement more regular, thus effectively prevents electric wire and other portions Part produces interferes, it is ensured that electrical safety.It should be noted that drive box 23 to be not limited to be arranged on air duct cover board 2 Right edge on, in other embodiments the most unshowned, it is also possible to driving box 23 is arranged on air duct cover board 2 Other positions, be such as arranged on the left side of air duct cover board 2, in these cases, the first cable tray 22 Also the left side of air duct cover board 2 it is correspondingly disposed in.

As shown in Figure 10 and Figure 11, in the air-conditioner of the present embodiment, the first cable tray 22 is the first trough. Above-mentioned first trough simple in construction, it is easy to processing and manufacturing.Certainly, the first cable tray 22 is not limited to trough, In other embodiments not shown in figure, it is also possible to for other Wiring structures, such as could be arranged to cable hole.

As shown in Figure 10 and Figure 11, in the air-conditioner of the present embodiment, the first trough includes forceful electric power wire casing and light current Wire casing, arranges dividing plate 221 and separates between forceful electric power wire casing and light current wire casing.Said structure can make forceful electric power line and weak electric wire Arranged apart, prevent from producing between forceful electric power line and weak electric wire electromagnetic interference.

As shown in Figure 10 and Figure 11, in the air-conditioner of the present embodiment, dividing plate 221 is provided with wiring breach 2211. It is convenient that said structure makes electric wire arrange, is conducive to improving wiring efficiency.

It should be noted that in the present embodiment, the first trough be removably disposed on air duct cover board 2 point Body structure, can select different length or the trough of difformity structure according to the specific requirement of cabling.Certainly, First trough is not limited to above-mentioned Split type structure, in other embodiments the most unshowned, it is also possible to walk first Wire casing and air duct cover board 2 are set to integrative-structure.

As shown in Figure 10, in the air-conditioner of the present embodiment, corresponding to electrical appliance kit installation portion 13 on air duct cover board 2 Position is formed dodges breach 222.Said structure is possible to prevent air duct cover board 2 and drain pan 1 to produce interference when mounted.

As shown in Figure 4 and Figure 5, in the air-conditioner of the present embodiment, drain pan 1 is provided with and is positioned at the first centrifugal blower Wind path wall between 3a and the second centrifugal blower 3b, is provided with the second cable tray 1321 in wind path wall, drain pan 1 is right Should be provided with the 3rd cable tray 1322 between wind path wall and the first centrifugal blower 3a, drain pan 1 is corresponding to wind path wall With second be provided with the 4th cable tray 1323 between centrifugal blower 3b, the second cable tray 1321 is walked with the 3rd respectively Line passage 1322 connects with the 4th cable tray 1323.Wherein, the second cable tray 1321 and electrical appliance kit installation portion The inner space of 13.

When assembling air-conditioner, the motor lines of the first centrifugal blower 3a is by the 3rd cable tray 1322 and the Two cable tray 1321 extend to the inner chamber of electrical appliance kit installation portion 13, and are connected with the circuit board in electrical appliance kit 131 And turn on, thus the motor being embodied as the first centrifugal blower 3a is powered, and drives the first centrifugal blower 3a to rotate.Equally Ground, the motor lines of the second centrifugal blower 3b extends to electricity by the 4th cable tray 1323 and the second cable tray 1321 The inner chamber of device box installation portion 13, and be connected with the circuit board in electrical appliance kit 131 and turn on, thus be embodied as second from The motor of heart-wind syndrome machine 3b is powered, and drives the second centrifugal blower 3b to rotate.Meanwhile, above-mentioned cable tray can make circuit Arrange more regular, thus effectively prevent motor lines from producing with miscellaneous part and interfere, it is ensured that electrical safety.

As shown in Figure 4 and Figure 5, in the air-conditioner of the present embodiment, the second cable tray 1321 is the second trough, 3rd cable tray 1322 is the 3rd trough, and the 4th cable tray 1323 is the 4th trough.Above-mentioned second cabling Groove, the 3rd trough and the 4th trough simple in construction, it is easy to processing and manufacturing.Certainly, the second cable tray 1321, 3rd cable tray 1322 and the 4th cable tray 1323 are not limited to trough, and the most unshowned other are implemented In mode, it is also possible to for other Wiring structures, such as could be arranged to cable hole.

As it is shown in figure 5, in the air-conditioner of the present embodiment, the 3rd trough is provided with the first cover plate 133, the 4th The second cover plate 134 it is provided with on trough.Said structure can make the motor lines in the 3rd trough and the 4th trough Do not expose, it is ensured that the fan blade of centrifugal blower does not scratch wire body when rotating, and prevents motor lines from damaging.Meanwhile, can protect again The integrity in card air channel, makes air channel not produce abnormal sound.

As shown in Fig. 5, Figure 12 and Figure 13, in the air-conditioner of the present embodiment, the first end of the first cover plate 133 Being provided with the first connecting portion 1331, the second end of the first cover plate 133 is provided with the second connecting portion 1332, the second cover plate First end of 134 is provided with the 3rd connecting portion 1341, and the second end of the second cover plate 134 is provided with the 4th connecting portion 1342. First cover plate 133 is provided with the first electric wire holding tank towards the side of drain pan 1, and the second cover plate 134 is towards drain pan 1 Side is provided with the second electric wire holding tank.

In the present embodiment, the 3rd trough and the 4th trough are provided with location in the one end near the second trough Post and screw pole, the 3rd trough and the 4th trough are provided with slot in the one end away from the second trough.First Screw hole, and the first connecting portion 1331 and the 3rd cabling it is provided with on connecting portion 1331 and the 3rd connecting portion 1341 Locating dowel and screw pole on groove match, the 3rd connecting portion 1341 and the locating dowel on the 4th trough and screw pole phase Coordinate.Second connecting portion 1332 and the 4th connecting portion 1342 are inserted sheet, and the second connecting portion 1332 is walked with the 3rd Slot on wire casing matches, and the 4th connecting portion 1342 matches with the slot on the 4th trough.Said structure makes Easy accessibility between first cover plate 133 and the second cover plate 134 and drain pan 1.Certainly, the first cover plate 133 and the second lid The structure of plate 134 is not limited to this, in other embodiments the most unshowned, and the first cover plate 133 and the second cover plate 134 can also be other structures being capable of fixation.

In the present embodiment, air duct cover board 2 lid is located on two air channels 11, the specially first air channel 111 and the second wind On road 112.Having two flow-guiding mouths 21 on air duct cover board 2, it is right with the first air channel 111 that two flow-guiding mouths 21 include The first flow-guiding mouth 211 answered and second flow-guiding mouth 212 corresponding with the second air channel 112.First centrifugal blower 3a sets Putting in the first air channel 111 and be oppositely arranged with the first flow-guiding mouth 211, the second centrifugal blower 3b is arranged on the second air channel In 112 and it is oppositely arranged with the second flow-guiding mouth 212.Vaporizer 4 be arranged on air duct cover board 2 away from the one of drain pan 1 Side, each flow-guiding mouth 21 is all oppositely arranged with vaporizer 4.In the present embodiment, air conditioner room unit has multiple air channel 11, each air channel 11 arranges a centrifugal blower 3, multiple centrifugal blowers 3 enter with external environment for vaporizer 4 Row heat exchange, solves present in prior art because of the problem of deficiency in draught restriction air conditioner refrigerating.

Preferably, vaporizer 4 is stacked with air duct cover board 2, and is positioned at the side back to drain pan 1 of air duct cover board 2. Air channel 11 is formed between air duct cover board 2 and drain pan 1, and extends along air duct cover board 2, and flow-guiding mouth 21 is formed at On air duct cover board 2 and towards vaporizer 4, the structure that this stacking is arranged advantageously reduces the thickness of air conditioner room unit, Reduce the space that air conditioner room unit takies.

As shown in Figure 19 and Figure 20, Figure 20 a, the air-conditioner of the present embodiment also includes the end for carrying vaporizer 4 Seat 5, base 5 is provided with the resettlement groove 51 suitable with vaporizer 4, is provided with use on the sidewall of resettlement groove 51 In the plummer 52 of vaporizer 4, plummer 52 is provided with drain tank.It is provided with in resettlement groove 51 and changes for support The supporting vertical plate 53 of hot cell, supporting vertical plate 53 includes spaced multiple gripper shoe section.Adjacent two gripper shoes Interval between Duan is for moving for condensation flow, too high with the water level avoiding the condensed water of local.

As illustrated in figures 19 and 20, being provided with discharge opening in resettlement groove 51, discharge opening connects to be had for by condensed water Guide the aqueduct 54 outside air conditioner room unit into.Plummer 52 is provided with multiple drain tank along vaporizer 4, is used for making Condensed water flows to the bottom of resettlement groove 51 smoothly so that unification is guided into outside air conditioner room unit.Base 5 is connected to air channel On cover plate 2, and it is positioned at the side back to drain pan 1 of air duct cover board 2.Base 5 can become with air duct cover board 2 one Type, it is also possible to split is arranged.Vaporizer 4 includes: evaporator body and boundary frame area.Above-mentioned boundary frame area is arranged on evaporation The lower section of device body, boundary frame area is provided with multiple osculum.The condensed water produced on evaporator body, through osculum Flow to be arranged in the resettlement groove 51 of the base 5 below evaporator body, then guided into air conditioner chamber by aqueduct 54 Outside interior machine.Preferably, multiple osculums are divided into multiple rows of osculum, the osculum of two adjacent rows to be crisscross arranged.Reduce On the direction of osculum row, the distance of adjacent two osculums, contributes to realizing the smooth discharge of condensed water.

The present embodiment air-conditioner also includes the display being connected with described electrical appliance kit, and described display is used for showing air-conditioner The parameters such as the duty of indoor set, indoor temperature.

Present invention also provides the control method of a kind of air-conditioner, for controlling above-mentioned air-conditioner.As shown in figure 27, Control method according to the present embodiment includes start shooting step and shutdown procedures, and wherein, start step comprises the following steps:

Step S10: to the extrapolated front panel in direction 6 away from drain pan 1, make front panel 6 by closed position move to Open position；

Step S30: upper wind deflector 171 and/or lower wind deflector 173 are opened；

Step S40: make centrifugal blower 3 rotate；

Step S60: make to sweep wind mechanism and/or under sweep wind mechanism motion centrifugal blower 3.

In the present embodiment, above-mentioned step S10, step S30, step S40 and step S60 are carried out successively.When So, one skilled in the art will appreciate that and can synchronize to carry out as optional embodiment, step S30 and step S40.

As shown in figure 27, in the present embodiment, further comprising the steps of between step S10 and step S30:

Step S20: according to the air-out state of upper air outlet 121 and lower air outlet 122 make upper air inlet baffle plate 81 pivot with Close enterprising air port 61 and/or lower air intake baffle plate 82 baffle plate pivots to close lower air inlet 62.

Certainly, one skilled in the art will appreciate that, as optional embodiment, above-mentioned steps S20 can also be in step Carry out between S40 and step S60.

As shown in figure 27, in the present embodiment, further comprising the steps of between step S40 and step S60:

Step S50: make upper air outlet guard board 91 pivot to go out on closing according to the air-out state of upper air outlet and lower air outlet Air port 121 or make lower air outlet guard board 92 pivot to close lower air outlet 122.

It should be noted that when step S20 is carried out between step S40 and step S60, step S20 needs Carry out before step S50.

The control method of application the present embodiment, first makes front panel 6 move, so can effectively dodge other motion portions Part, so ensure that the thickness of air-conditioner is the thinnest.It addition, allow wind deflector 171 and/or lower wind deflector 173 prior to On sweep wind mechanism and/or under sweep wind mechanism motion and also be able to ensure to will not interfere with between motion, beneficially air-conditioner is whole Body size diminishes.

As shown in figure 28, in the present embodiment, shutdown procedures comprises the following steps:

Step S100: make centrifugal blower 3 stop the rotation；

Step S300: make to sweep wind mechanism and/or under sweep wind mechanism stop motion；

Step S500: close and close wind deflector 171 and/or lower wind deflector 173；

Step S600: inwardly reclaim front panel 6 to the direction towards drain pan 1, makes front panel 6 be moved by open position To closed position.

As shown in figure 28, in the present embodiment, further comprising the steps of between step S300 and step S500:

Step S400: make upper air inlet baffle plate 81 be switched to dodge the position in enterprising air port 61, and/or lower air intake baffle plate 82 are switched to dodge the position of lower air inlet 62.

As shown in figure 28, in the present embodiment, further comprising the steps of between step S100 and step S300:

Step S200: make air outlet guard board 91 be switched to dodge the position in enterprising air port 61, and/or lower air outlet guard board 92 are switched to dodge the position of lower air inlet 62.

The control method of application the present embodiment, make to sweep wind mechanism and/or under sweep wind mechanism stop motion prior to upper wind deflector 171 and/or lower wind deflector 173 stop motion, finally make front panel 6 reclaim.So ensure that between motion Will not interfere with.

Certainly, one skilled in the art will appreciate that as optional embodiment, above-mentioned step S200, step S300, Step S400 and step S500 can also synchronize to carry out.Or, only step S200 and step S300 synchronizes to carry out. Certainly, in order to avoid interfering, the air conditioner sizes of above two way of example can be slightly larger than.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, made Any modification, equivalent substitution and improvement etc., should be included within the scope of the present invention.

Claims (16)

1. an air conditioner room unit, it is characterised in that include heat exchange unit and carry described heat exchange unit body (4) Base (5), described base (5) is formed resettlement groove (51), and described resettlement groove (51) is provided with plummer (52), It is characterized in that, described plummer offers drain tank on (52).

Air conditioner room unit the most according to claim 1, heat exchange unit includes heat exchange unit body (4), boundary frame area, Described boundary frame area is arranged on the lower section of described heat exchange unit body (4).

Air conditioner room unit the most according to claim 2, described boundary frame area is provided with multiple osculum.

Air conditioner room unit the most according to claim 3, it is characterised in that the plurality of osculum is divided into multiple rows of draining Hole, the osculum of two adjacent rows is crisscross arranged.

5. according to the arbitrary described air conditioner room unit of claim 2-4, it is characterised in that be provided with use on described boundary frame area In the supporter supporting described heat exchange unit body (4).

Air conditioner room unit the most according to claim 5, it is characterised in that described supporter is for being formed at described base Projection on frame.

Air conditioner room unit the most according to claim 1, it is characterised in that described plummer (52) is relative to level Direction is arranged obliquely.

8. according to the air conditioner room unit described in claim 1-7, it is characterised in that described resettlement groove (51) has relatively The first side wall arranged and the second sidewall, described plummer (52) is connected with described the first side wall, described loading end edge Direction away from described the first side wall is downward-sloping.

Air conditioner room unit the most according to claim 8, it is characterised in that along described on described plummer (52) Heat exchange unit is provided with multiple described drain tank.

Air conditioner room unit the most according to claim 1, it is characterised in that described resettlement groove (51) has and relatively sets The first side wall put and the second sidewall, described plummer (52) is arranged on described the first side wall, described plummer (52) With described second sidewall spacers arrange, between described drain tank and described plummer (52) and described second sidewall between Every communicating.

11. air conditioner room units according to claim 10, it is characterised in that described resettlement groove also sets up in (51) Having the supporting vertical plate (53) for carrying described heat exchange unit, described supporting vertical plate (53) is arranged on described second sidewall And between described plummer (52).

12. air conditioner room units according to claim 11, it is characterised in that described supporting vertical plate (53) includes many Individual supporting vertical plate section, two adjacent described supporting vertical plate spacer segments arrange, and form the circulation path of condensed water.

13. 1 kinds of heat exchange units, it is characterised in that including: heat exchange unit body (4)；Boundary frame area, is arranged on described heat exchange The lower section of cell body (4), described boundary frame area is provided with multiple osculum.

14. heat exchange units according to claim 13, it is characterised in that the plurality of osculum is divided into multiple rows of osculum, Two adjacent row's osculums are crisscross arranged.

15. according to the arbitrary described heat exchange unit of claim 13-14, it is characterised in that be provided with on described boundary frame area for Support the supporter of described heat exchange unit body (4).

16. heat exchange units according to claim 15, it is characterised in that described supporter is for being formed at described boundary frame area On projection.