CN105352040A - Cabinet air conditioner - Google Patents

Abstract

The invention discloses a cabinet air conditioner. The cabinet air conditioner comprises: a housing module open on a front side thereof, wherein air inlets are formed in a left sidewall, a right sidewall and a rear sidewall of the housing module, respectively; a heat exchanger module, wherein a cross section of the heat exchanger module is U-shaped, and the heat exchanger module is arranged on an inner wall of the housing module; an air duct module located within the housing module and fixed on a front sidewall of the heat exchanger module; an electric control module arranged on the inner wall of the housing module and located on a lower portion of the air duct module; and a front housing module. According to the cabinet air conditioner of the present invention, on one hand, a heat exchange area between the heat exchanger module and air can be increased favorably so that the heat exchange efficiency can be improved, and therefore, refrigeration and heating effects of the cabinet air conditioner can be improved; on the other hand, the cabinet air conditioner is simple to assemble, and further, the time of assembling is saved and the working efficiency of a worker is improved.

Description

Cabinet air-conditioner

Technical field

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

Background technology

Point out in correlation technique, the parts of cabinet air-conditioner are various, are not easy to assembling, and cabinet air-conditioner freezes and heating effect is not good.

Summary of the invention

The present invention is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the present invention proposes a kind of cabinet air-conditioner, and assembling is simple, and has good refrigeration and heating effect.

According to the cabinet air-conditioner of the embodiment of the present invention, comprising: housing module, the front side of described housing module is opened wide, and the left side wall of described housing module, right side wall and rear wall are formed with air inlet respectively; Heat exchanger module, the cross section of described heat exchanger module is in " U " shape shape, and described heat exchanger module is established on the inwall of described housing module; Air channel module, described air channel module is located in described housing module, and being fixed on the front side wall of described heat exchanger module, described air channel module comprises spiral case assembly, be located at front extension board on front side of described spiral case assembly, be located at two snail tongue assemblies of the described front extension board left and right sides, the first tubular wine wheel being positioned at described spiral case assembly and the second tubular wine wheel; Electronic control module, described electronic control module is located on the inwall of described housing module, and is positioned at the bottom of described air channel module; Procapsid module, described procapsid module is located at the front side of described housing module, to block the side that described housing module opens wide.

According to the cabinet air-conditioner of the embodiment of the present invention, on the one hand by forming air inlet respectively on the left side wall of housing module, right side wall and rear wall, and make the cross section of heat exchanger have " U " shape shape with corresponding with the air inlet on housing module left side wall, right side wall and rear wall respectively, be conducive to improving heat exchange area between heat exchanger module and air to improve heat exchange efficiency, thus the refrigeration of raising cabinet air-conditioner and heating effect; On the other hand, by the associated components of air channel module is integrated into a module, and assemble respectively as an entirety with housing module, heat exchanger module, electronic control module and procapsid module in the assembling process of cabinet air-conditioner, thus, not only assembling is simple, and save the time of assembling, improve work task efficiency, provide cost savings.

According to some embodiments of the present invention, described spiral case assembly comprises front spiral case and rear spiral case, described front spiral case have two ventilating openings running through its fore-and-aft direction, two accommodating chamber being spaced apart from each other are limited to be respectively used to hold described first tubular wine wheel and described second tubular wine wheel between the rear surface of described rear spiral case and described front spiral case, described two accommodating chamber are communicated with described two ventilating openings respectively, and described front extension board is located at the front side of described front spiral case and is separated by the air of described two ventilating openings blowout.

Further, described rear spiral case comprise two along the vertical direction extend and cross section be the portion that is recessed into of arc and be connected to described two rear connecting portions be recessed between portion;

The rear surface of described front spiral case having two cross sections is the front reentrant of arc, and described two front reentrants are recessed into portion's corresponding matching respectively to limit two described accommodating chamber with described two.

Further, described rear connecting portion has at least one block tongue, and connecting portion before the rear surface of described front spiral case has between described two front reentrants, described front connecting portion has at least one draw-in groove, and described block tongue and described draw-in groove coordinate described front spiral case and described rear spiral case to be connected respectively correspondingly.

Further, the rear surface of described front spiral case has between described two front reentrants groove recessed forward, and described front connecting portion is on the front side wall of described groove, wherein said rear connecting portion to insert in described groove and is connected with described front connecting portion.

Further, the position front surface of described front spiral case corresponding to described front connecting portion is formed with at least part of extension groove for holding described front extension board.

Again further, the rear end of described front extension board has card convex, and described card convex is contained in described extension groove.

Again further, described extension flute profile becomes the shape broadened gradually from back to front.

According to further embodiments more of the present invention, described air channel module also comprises: insulating foam, and described insulating foam establishes the rear side of spiral case in the rear; Air-duct clapboard, described air-duct clapboard is connected with the rear surface buckle of described rear spiral case and limits enclosure space, and described insulating foam is located in described enclosure space.

Further, the rear surface of described rear connecting portion is formed with insulation hopper, being contained at least partially in described insulation hopper of described insulating foam.

Again further, described insulation hopper is the shape broadened gradually from front to back.

Further, described two snail tongue assemblies are located at the both sides of described front extension board respectively, each described snail tongue assembly and limit primary air separating duct between described front spiral case and described front extension board, each described snail tongue assembly is provided with the multiple stators be spaced apart from each other in the vertical direction; Each described snail tongue assembly includes: snail tongue body, and described snail tongue body extends along the vertical direction, and described snail tongue body is located on the sidewall of described front spiral case, and described snail tongue body has the chute vertically extended; Connecting rod, described connecting rod can be located at the side towards described front extension board of described snail tongue body on the surface up or down, described connecting rod and described chute spaced apart, one end of wherein said stator is fixed on described connecting rod, and the other end is through described chute and removable relative to described chute.

Further, described chute comprises be spaced apart from each other along the vertical direction multiple.

Further, the other end of described stator has location hook, the hook part of described location hook through described chute and the side away from described front extension board being only against described snail tongue body on the surface.

Again further, the height of each chute is greater than the height of described location hook.

Particularly, described stator is formed as general triangular shape, and the one end on the long limit of described stator is connected to described connecting rod, and the other end is connected to described location hook by linkage section.

Particularly, on the long limit of described stator, contiguous described other end end is formed with gap, and wherein said linkage section is connected with described other end end.

Further, the side away from described front extension board of described snail tongue body is provided with screens groove on the surface, and the sidewall of described front spiral case is provided with holding section, and described screens groove coordinates to be snapped on the sidewall of described front spiral case by described snail tongue body with described holding section.

Alternatively, described screens groove comprises three.

Further, each described snail tongue assembly also comprises stator drive motors, and described stator drive motors drives described connecting rod to move up and down, and the sidewall of described front spiral case has recessed motor slot, and wherein said stator drive motors is contained in described motor slot.

In some embodiments of the invention, the cross section of described front extension board is formed as the shape that broadens gradually from back to front.

According to some embodiments of this law invention, described air channel module also comprises: assembly on front extension board, and on described front extension board, assembly is located at the upper end of described front extension board and is connected with described front spiral case; Assembly under front extension board, under described front extension board, assembly is located at the lower end of described front extension board and is connected with described front spiral case.

Further, the top and bottom of described front extension board have at least one positioning convex respectively, and on described front extension board, under the lower end of assembly and described front extension board, the upper end of assembly all has at least one locating slot coordinated with described positioning convex.

In some embodiments of the invention, be connected by buckle or screw between described rear spiral case with described front spiral case.

In some embodiments of the invention, described air channel module also comprises: the first motor, and described first motor is located at the top of the first tubular wine wheel and drives described first tubular wine wheel to rotate; Second motor, described second motor is located at the bottom of the second tubular wine wheel and drives described second tubular wine wheel to rotate.

Further, described air channel module also comprises: two the first half holding parts, and described two the first half holding parts lay respectively at the top of described front spiral case and the top of described rear spiral case and limit described first motor accommodation chamber; Two the second half holding parts, described two the second half holding parts lay respectively at the bottom of described front spiral case and the bottom of described rear spiral case and limit described second motor accommodation chamber.

In some embodiments of the invention, described air channel module also comprises protection network, and described protection network is located at the front side of described two ventilating openings to block described two ventilating openings.

Further, described protection network is made up of many spokes interlaced with each other.

Further, described protection network is by many vertical forming with the spoke of at least one level.

Further, described protection network comprises that so must you isolated two, and described two protection networks correspondence is arranged on the front side of described two ventilating openings.

Further, the upper end of described two protection networks and/or lower end correspondence are connected.

In some embodiments of the invention, described procapsid module comprises: procapsid upper module, and described procapsid upper module to be fixed on described housing module and to be positioned at the forward upper of described housing module; Front lower panel, described front lower panel is fixed on the bottom of described procapsid upper module by fixture, and bottom is connected to the diapire of described housing module; Two sliding panels, described two sliding panels are arranged in described procapsid module in the lateral direction movably.

Further, the two ends up and down of each described sliding panel are located on described procapsid upper module and described front lower panel respectively by one group of transmission component slidably, often organize described transmission component to comprise: gear, described gear to be located on corresponding described procapsid upper module or described front lower panel and to be driven by the drive motors that slides accordingly and rotates; Tooth bar, described tooth bar is connected to the rear side of described sliding panel and coordinates to realize described slip drive motors with described gear and drive described sliding panel to slide.

Further, described procapsid upper module and described front lower faceplate are equipped with baffle plate in the front side of described gear, limit and be suitable for described tooth bar track movable in left-right direction between described baffle plate and described gear.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the explosive view of the cabinet air-conditioner according to the embodiment of the present invention;

Fig. 2 is the structural representation of the fuselage shown in Fig. 1;

Fig. 3 is the structural representation of the heat exchanger module according to the embodiment of the present invention;

Fig. 4 is the structural representation of the air channel module according to the embodiment of the present invention;

Fig. 5 is the structural representation of the air channel module of other direction shown in Fig. 4;

Fig. 6 is the explosive view of the air channel module shown in Fig. 4-Fig. 5;

Fig. 7 is the front view of the air channel module shown in Fig. 4-Fig. 6;

Fig. 8 is the A-A portion sectional view of the air channel module shown in Fig. 7;

Fig. 9 is the B-B portion sectional view of the air channel module shown in Fig. 7;

Figure 10 is according to the structural representation of spiral case before the embodiment of the present invention;

Figure 11 is the structural representation of the front spiral case of the other direction shown in Figure 10;

Figure 12 is the structural representation of the rear spiral case according to the embodiment of the present invention;

Figure 13 is according to the structural representation of extension board before the embodiment of the present invention;

Figure 14 is the structural representation of two snail tongue assemblies according to the embodiment of the present invention;

Figure 15 is that in Figure 14, C portion circle shows structure for amplifying schematic diagram;

Figure 16 is that in Figure 14, D portion circle shows structure for amplifying schematic diagram;

Figure 17 is according to the structural representation of assembly on extension board before the embodiment of the present invention;

Figure 18 is the structural representation of the protection network according to the embodiment of the present invention;

Figure 19 is the structural representation of the procapsid upper module according to the embodiment of the present invention;

Figure 20 is according to the structural representation of lower panel before the embodiment of the present invention;

Figure 21 is the enlarged drawing that Fig. 4 centre circle shows part;

Figure 22 is the explosive view of the heat exchanger module according to the embodiment of the present invention;

Figure 23 is the structural representation of the drip tray according to the embodiment of the present invention;

Figure 24 is the structural representation of the fixed body according to the embodiment of the present invention;

Figure 25 is the structural representation of the top cover according to the embodiment of the present invention;

Figure 26 is the structural representation on the chassis according to the embodiment of the present invention.

Reference numeral:

Cabinet air-conditioner 1000;

Air channel module 100; Spiral case assembly 1; Front spiral case 11; Front reentrant 111; Front connecting portion 112; Draw-in groove 1121; Holding section 113; Groove 114; Motor slot 115; Card cableties 116; Solidus portion 1161; Lightening grooves 11611; Solidus groove 11612; Wiring groove 117; Rear spiral case 12; Be recessed into portion 121; Rear connecting portion 122; Block tongue 1221; Accommodating chamber 2; Front extension board 3; Locating slot 31; Assembly 32 on front extension board; Assembly 33 under front extension board; Positioning convex 321 (331); Extension groove 34; Card convex 35; Vertical slot 36; Snail tongue assembly 4; Stator 41; Location hook 411; Gap 412; Linkage section 413; Snail tongue body 42; Chute 421; Screens groove 422; Connecting rod 43; Stator drive motors 44; Crank 45; Insulating foam 5; Air-duct clapboard 6; First tubular wine wheel 7; First motor accommodation chamber 71; The first half holding part 71a (71b); First motor 711; Second tubular wine wheel 8; Second motor accommodation chamber 81; The second half holding part 81a (81b); Second motor 811; Protection network 9; Spoke 91;

Housing module 200; Top cover 201; Fuselage 202; Air inlet 2021; Chassis 203; First convex tendon 204; Second convex tendon 205; First shrinkage pool 206; Second shrinkage pool 207; Hole clipping 208; Support portion 209;

Heat exchanger module 300; Left heat exchanging part 301; Right heat exchanging part 302; Rear heat exchanging part 303; Fixed part 304; Drip tray 305; Bulge-structure 3051; Limiting section 3052; Boss 30521; Connecting plate 30522; Limited post 30523; Limiting plate 30524; The auxiliary heat structure 306 of electricity; Locating dowel 3061; Fixed body 307; Body 3071; Locating hole 3072; Cable-through hole 3073; Access Division 3074; Sealing plate 308; Location-plate 3081; Back stay 309; Outer eaves portion 310;

Electronic control module 400;

Procapsid module 500; Procapsid upper module 501; Gear 5011 (5021); Slip drive motors 5012 (5022); Baffle plate 5013 (5023); Front lower panel 502; Two sliding panels 503.

Detailed description of the invention

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

In describing the invention, it will be appreciated that, term " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.In describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " is connected ", " connection " should be interpreted broadly, such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition above-mentioned term concrete meaning in the present invention can be understood.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present invention.Of the present invention open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the present invention.In addition, fisrt feature described below second feature it " on " structure can comprise the embodiment that the first and second features are formed as directly contact, also can comprise other feature and be formed in embodiment between the first and second features, such first and second features may not be direct contacts.

Describe the cabinet air-conditioner 1000 according to the embodiment of the present invention below with reference to Fig. 1-Figure 26, cabinet air-conditioner 1000 can be used for regulating indoor temperature.

As shown in Figure 1, housing module 200, heat exchanger module 300, air channel module 100, electronic control module 400 and procapsid module 500 can be comprised according to the cabinet air-conditioner 1000 of the embodiment of the present invention.Wherein, the front side of housing module 200 is opened wide, thus is convenient to the installed in front that other parts in cabinet air-conditioner 1000 open wide from housing module 200.The left side wall of housing module 200, right side wall and rear wall are formed with air inlet 2021 respectively, thus be convenient to more air by air inlet 2021 enter in housing module 200 with heat exchanger module 300 heat exchange.

Particularly, as shown in Figure 1, housing module 200 comprises top cover 201, chassis 203 and fuselage 202, and the front side of fuselage 202, top and bottom are all unlimited.As shown in Figure 2, air inlet 2021 can be arranged on the left side wall of fuselage 202, right side wall and rear wall so that air from air inlet 2021 enter in housing module 200 with heat exchanger module 300 heat exchange.

Top cover 201 and chassis 203 are separately positioned on top and the bottom of fuselage 202, by chassis 203 and top cover 201 being separately positioned on bottom and the top of fuselage 202, thus realize the assembled in advance of housing module 200, so that in the final assembly process of cabinet air-conditioner 1000, housing module 200 is integrally assembled.

The cross section of heat exchanger module 300 is in " U " shape shape, and heat exchanger module 300 is located on the inwall of housing module 200.As shown in figures 1 and 3, heat exchanger module 300 can comprise left heat exchanging part 301, right heat exchanging part 302 and rear heat exchanging part 303, and be there is to limit by left heat exchanging part 301, right heat exchanging part 302 and rear heat exchanging part 303 the heat exchanger module 300 of " U " shape cross section, thus the air inlet 2021 be convenient on the left side wall of heat exchanger module 300 and housing module 200, right side wall and rear wall is corresponding, improve the heat exchange area of heat exchanger module 300 to improve heat exchange efficiency, thus improve refrigeration or the heating effect of cabinet air-conditioner 1000.

Air channel module 100 is positioned at housing module 200, and is fixed on the front side wall of heat exchanger module 300.Specifically, air channel module 100 has the effect wind of the air inlet 2021 of cabinet air-conditioner 1000 being drained to air outlet, therefore, air channel module 100 is fixed on the front side wall of heat exchanger module 300, after the wind can being convenient to air inlet 2021 and heat exchanger module 300 heat exchange, flow to air outlet to regulate indoor temperature.

Particularly, as shown in Fig. 4-Fig. 9, air channel module 100 can comprise spiral case assembly 1, be located at front extension board 3 on front side of spiral case assembly 1, be located at two snail tongue assemblies 4 of front extension board 3 left and right sides, be positioned at the first tubular wine wheel 7 and the second tubular wine wheel 8 of spiral case assembly 1.Particularly, by installing spiral case assembly 1, front extension board 3, snail tongue assembly 4, first tubular wine wheel 7 and the second tubular wine wheel 8, so that air channel module 10 is integrated into a module, thus the installation of cabinet air-conditioner 1000 is facilitated.

Electronic control module 400 is located on the inwall of housing module 200, and is positioned at the bottom of air channel module 100, and thus, not only structure is simple, and easy to assembly.

Procapsid module 500 is located at the front side of housing module 200, to block the side that housing module 200 opens wide, thus, by other construction packages of cabinet air-conditioner 1000 in housing module 200, thus can realize the final assembly of cabinet air-conditioner 1000.

According to the cabinet air-conditioner 1000 of the embodiment of the present invention, on the one hand by forming air inlet 2021 respectively on the left side wall of housing module 200, right side wall and rear wall, and make heat exchanger have " U " shape shape with corresponding with the air inlet 2021 on housing module 200 left side wall, right side wall and rear wall respectively, be conducive to improving heat exchange area between heat exchanger module 300 and air to improve heat exchange efficiency, thus the refrigeration of raising cabinet air-conditioner 1000 and heating effect; On the other hand, by the associated components of air channel module 100 is integrated into a module, and assemble respectively as an entirety with housing module 200, heat exchanger module 300, electronic control module 400 and procapsid module 500 in the assembling process of cabinet air-conditioner 1000, thus, assembling is simple, and save the time of assembling, improve work task efficiency, provide cost savings.

According to some embodiments of the present invention, spiral case assembly 1 comprises front spiral case 11 and rear spiral case 12.Front spiral case 11 have two ventilating openings running through its fore-and-aft direction.It should be noted that, cabinet air-conditioner 1000 can have two air outlets, and two air outlets are corresponding with two ventilating openings respectively.

Two accommodating chamber 2 being spaced apart from each other are limited to be respectively used to accommodation first tubular wine wheel 7 and the second tubular wine wheel 8, two accommodating chamber 2 are communicated with two ventilating openings respectively between rear spiral case 12 and the rear surface of front spiral case 11.Specifically, one of them accommodating chamber 2 (accommodating chamber 2 on the left side such as shown in Fig. 8) is connected with one of them ventilating opening, and be placed with the first tubular wine wheel 7 in one of them accommodating chamber 2, another accommodating chamber 2 (accommodating chamber 2 on the right such as shown in Fig. 8) is communicated with another ventilating opening, and be placed with the second tubular wine wheel 8 in another accommodating chamber 2, thus be convenient to wind that cabinet air-conditioner 1000 sends under the driving effect of the first tubular wine wheel 7 and the second tubular wine wheel 8, respectively by two ventilating openings, then discharge from two air outlets of cabinet air-conditioner 1000.

Particularly, each accommodating chamber 2 is all formed as cylindrical shape substantially, thus the correspondence being convenient to the first tubular wine wheel 7 and the second tubular wine wheel 8 is placed.

Front extension board 3 is located at the front side of front spiral case 11 and is separated by the air of two ventilating opening blowouts, by extension board 3 before the front side of front spiral case 11 is arranged, and the air that two ventilating openings blow out is separated by front extension board 3, thus be convenient to wind that cabinet air-conditioner 1000 sends under the effect of the first tubular wine wheel 7 and the second tubular wine wheel 8, two different directions are blowed to through two ventilating openings, avoid the wind through two ventilating openings to produce interference of blowing each other, thus the air-out effect of cabinet air-conditioner 1000 can be improved.

As shown in Figure 8, rear spiral case 12 comprise two along the vertical direction extend and cross section be the portion that is recessed into 121 of arc and be connected to two rear connecting portions 122 be recessed between portion 121, the rear surface of front spiral case 11 having two cross sections is that front reentrant 111, two front reentrants 111 of arc are recessed into portion 121 corresponding matching respectively to limit two accommodating chamber 2 with two.Specifically, one of them is recessed into portion 121 (in such as Fig. 8, the portion that is recessed into 121 on the left side in horizontal direction) and one of them front reentrant 111 (in such as Fig. 8, the front reentrant 111 on the left side in horizontal direction) jointly limit one of them container cavity 2 (in such as Fig. 8, the container cavity 2 on the left side in horizontal direction) for accommodation first tubular wine wheel 7, another is recessed into portion 121 (in such as Fig. 8, the portion that is recessed into 121 on the right in horizontal direction) and another front reentrant 111 (in such as Fig. 8, the front reentrant 111 on the right in horizontal direction) jointly limit another accommodating chamber 2 (in such as Fig. 8, the accommodating chamber 2 on the right in horizontal direction) for accommodation second tubular wine wheel 8, structure is simple, facilitate the assembling of direct labor.

Further, as is illustrated by figs. 11 and 12, rear connecting portion 122 has at least one block tongue 1221, and connecting portion 112 before the rear surface of front spiral case 11 has between two front reentrants 111, front connecting portion 112 has at least one draw-in groove 1121, block tongue 1221 and draw-in groove 1121 coordinate front spiral case 11 and rear spiral case 12 to be connected respectively correspondingly.Thus, by the cooperation of block tongue 1221 and draw-in groove 1121 to be connected with rear connecting portion 122 by front connecting portion 112, thus the connection between front spiral case 11 and rear spiral case 12 is realized.

Further, as shown in Figure 8 and Figure 11, the rear surface of front spiral case 11 has between two front reentrants 111 forward recessed groove 114, and front connecting portion 112 is positioned on the front side wall of groove 114, wherein, connecting portion 122 to insert in groove 114 and to be connected with front connecting portion 112.Specifically, front connecting portion 112 is positioned on the front side wall of groove 114, rear connecting portion 122 inserts in groove 114, and by being arranged on coordinating of block tongue 1221 on rear connecting portion 122 and the draw-in groove 1121 be formed on front connecting portion 112, thus the connection after realizing between connecting portion 122 and front connecting portion 112, and then realize the connection between front spiral case 11 and rear spiral case 12.

Further, as shown in Figure 6 and Figure 8, the front surface of front spiral case 11 is formed with at least part of extension groove 34 for holding front extension board 3 corresponding to the position of front connecting portion 112, that is, stretching at least partly in extension groove 34 of front extension board 3, thus front extension board 3 is fixed on front spiral case 11.Specifically, as shown in Figure 10, the rear end of front extension board 3 has card convex 35, and card convex 35 is contained in extension groove 34, thus the connection before realizing between extension board 3 and front spiral case 11.Alternatively, extension groove 34 is formed as the shape broadened gradually from back to front, thus is convenient to hold at least part of of front extension board 3.

Card convex 35 is formed as the shape narrowed gradually from front to back, and such as card convex 35 is formed as trapezoidal shape substantially, and the sectional area of card convex 35 reduces gradually on the direction near extension groove 34, thus, can be convenient to card convex 35 and be contained in extension groove 34.

In some embodiments of the invention, as shown in Figure 6 and Figure 8, air channel module 100 also comprises insulating foam 5 and air-duct clapboard 6.Wherein, insulating foam 5 is located at the rear side of rear spiral case 12.Specifically, air-duct clapboard 6 is connected with the rear surface buckle of rear spiral case 12 and limits enclosure space, and insulating foam 5 is located in enclosure space, thus, can reduce thermal loss when cabinet air-conditioner 1000 is blown to a certain extent.

Further, the rear surface of rear connecting portion 122 is formed with insulation hopper, being contained at least partially in insulation hopper of insulating foam 5, thus plays the effect spacing to insulating foam 5 to a certain extent.Alternatively, insulation hopper is the shape broadened gradually from front to back, thus is convenient to hold insulating foam 5 at least partially.

Further, two snail tongue assemblies 4 are located at the both sides of front extension board 3 respectively, each snail tongue assembly 4 and limit primary air separating duct between front spiral case 11 and front extension board 3.Thus, the wind sent of cabinet air-conditioner 1000, under the effect of the first tubular wine wheel 7 and the second tubular wine wheel 8, after two ventilating openings, and blows to different directions through two primary air separating ducts respectively.

Each snail tongue assembly 4 is provided with the multiple stators 41 be spaced apart from each other in the vertical direction.Multiple stator 41 can play guide functions to the wind blown out from primary air separating duct, thus regulates the air supply direction of cabinet air-conditioner 1000.

As shown in Fig. 6 and Fig. 8 and Figure 14-Figure 16, each snail tongue assembly 4 includes snail tongue body 42 and connecting rod 43.Wherein, snail tongue body 42 extends along the vertical direction, snail tongue body 42 is located on the sidewall of front spiral case 11, and snail tongue body 42 has the chute 421 vertically extended, connecting rod 43 can be located at the side towards front extension board 3 of snail tongue body 42 on the surface up or down, connecting rod 43 is spaced apart with chute 421, and wherein one end of stator 41 is fixed on connecting rod 43, and the other end is removable relative to chute 421 through chute 421.Thus, not only structure is simple, and by being fixed on connecting rod 43 one end of stator 41, and the other end passes chute 421 and can move relative to chute 421, can realize the wind that stator 41 pairs of cabinet air-conditioners 1000 send and play guide functions.

Alternatively, chute 421 comprises be spaced apart from each other along the vertical direction multiple.Such as, chute 421 comprise be spaced apart from each other along the vertical direction eight, nine, ten, more or fewer.

Further, as shown in figure 15, the other end of stator 41 has location hook 411, the hook part of location hook 411 can through chute 421 and the side away from front extension board 3 being only against snail tongue body 42 on the surface.Thus, by arranging location hook 411 on the other end of stator 41, and make the hook part of location hook 411 through chute 421 and be only against the side away from front extension board 3 of snail tongue body 42 on the surface, thus stator 41 is connected on chute 421 movably.Alternatively, the height of each chute 421 is greater than the height of location hook 411, thus is convenient to location hook 411 through chute 421.

Alternatively, as shown in figure 16, stator 41 is formed as general triangular shape, and the one end on the long limit of stator 41 is connected to connecting rod 43, and the other end is connected to location hook 411 by linkage section 413, and structure is simple.Further, as shown in figure 16, on the long limit of stator 41, contiguous other end end is formed with gap 412, and its middle connecting segment 413 is connected with other end end, thus the other end of stator 41 is connected with chute 421 with location hook 411 by linkage section 413.

Alternatively, multiple stator 41 is arranged on connecting rod 43 in the vertical direction uniform intervals, thus, when snail tongue assembly 4 is applied in cabinet air-conditioner with ducting assembly 100, multiple stators 41 1 aspect that uniform intervals is opened can play guide functions to the wind that cabinet air-conditioner is sent, regulate the air supply direction of cabinet air-conditioner, the wind homogenising also cabinet air-conditioner can sent on the other hand, improve air-supply effect.

As shown in Figure 10 and Figure 15, according to the present invention some further in example, the side away from front extension board 3 of snail tongue body 42 is provided with screens groove 422 on the surface, the sidewall of front spiral case 11 is provided with holding section 113, and screens groove 422 coordinates to be snapped on the sidewall of front spiral case 11 by snail tongue body 42 with holding section 113.Thus, by the cooperation of screens groove 422 and holding section 113, thus the connection of snail tongue assembly 4 and front spiral case 11 is realized.Alternatively, screens groove 422 comprises three, and thus, holding section 113 also comprises three, thus realizes the corresponding matching between screens groove 422 and holding section 113, and then snail tongue assembly 4 is reliably fastened on the sidewall of front spiral case 11.Certainly, the present invention is not limited thereto, screens groove 422 also can comprise more.

Particularly, the front side wall of front spiral case 11 is protruded forward in holding section 113, and is formed as substantially rectangular-shaped, and screens groove 422 is the square opening coordinated with holding section 113.

Further, as shown in figure 14, each snail tongue assembly 4 also comprises stator drive motors 44, and stator drive motors 44 drive link 43 moves up and down.Thus, by moving up and down of stator drive motors 44 drive link 43, thus drive the movement of stator 41, make stator 41 play guide functions to the wind sent from cabinet air-conditioner 1000, and then change the air supply direction of cabinet air-conditioner 1000.

Particularly, as shown in Figure 10, the sidewall of front spiral case 11 has recessed motor slot 115, and wherein stator drive motors 44 is contained in motor slot 115.Specifically, when snail tongue assembly 4 is connected with front spiral case 11, stator drive motors 44 is contained in motor slot 115, and drive link 43 move up and down the movement driving stator 41.

Further, stator drive motors 44 to be located on snail tongue body 42 away from the opposite side of connecting rod 43 on the surface, and that is, stator drive motors 44, being located on snail tongue body 42 away from while on the opposite side surface of connecting rod 43, is also contained in motor slot 115.The motor shaft of stator drive motors 44 passes snail tongue body 42 and is connected with crank 45, and crank 45 drivening rod 43 under the driving of stator drive motors 44 moves up and down, thus is convenient to moving up and down of stator drive motors 44 drive link 43.Alternatively, crank 45 is connected to connecting rod 43 mid portion in the vertical direction.Thus, connecting rod 43 uniform force can be made, so that the moving up and down of stator drive motors 44 drive link 43.

Alternatively, the cross section of front extension board 3 is formed as the shape broadened gradually from back to front, and not only structure is simple thus, and is convenient to install.Certainly, the present invention is not limited thereto, the cross section of front extension board 3 can also be formed as other shape.

In some embodiments of the invention, as shown in Figure 6, air channel module 100 also to comprise on front extension board assembly 33 under assembly 32 and front extension board.Wherein, on front extension board, assembly 32 is located at the upper end of front extension board 3 and is connected with front spiral case 11, under front extension board, assembly 33 is located at the lower end of front extension board 3 and is connected with front spiral case 11, thus is connected with front spiral case 11 by front extension board 3 with assembly 33 under front extension board by assembly 32 on front extension board.

Further, the top and bottom of front extension board 3 have at least one positioning convex (scheming not shown) respectively, on front extension board, under the lower end of assembly 32 and front extension board, the upper end of assembly 33 all has at least one locating slot coordinated with positioning convex (scheming not shown), thus realize being located by connecting between assembly 32 and front extension board 3 and under front extension board between assembly 33 and front extension board 3 on front extension board, and by the connection of assembly 33 under the connection of assembly on front extension board 32 and front spiral case 11 and front extension board with front spiral case 11, the connection of extension board 3 and front spiral case 11 before final realization.

Certainly, the present invention is not limited thereto, as shown in Figure 13 and Figure 17, the top and bottom of front extension board 3 can be respectively arranged with at least one locating slot 31, and on front extension board, under the lower end of assembly 32 and front extension board, the upper end of assembly 33 is equipped with at least one positioning convex 321,331 coordinated with locating slot 31.Specifically, as shown in figure 13, the upper end of front extension board 3 is provided with at least one locating slot 31 (as shown in figure 13), on front extension board, the lower end of assembly 32 is provided with the positioning convex 321 (as shown in figure 17) that at least one coordinates with the locating slot 31 of front extension board 3 upper end, the lower end of front extension board 3 is provided with at least one locating slot 31, under front extension board, the upper end of assembly 33 is provided with the positioning convex 331 that at least one coordinates with the locating slot 31 of the lower end of front extension board 3, thus realize being located by connecting between assembly 32 and front extension board 3 and under front extension board between assembly 33 and front extension board 3 on front extension board.

Particularly, the locating slot 31 being positioned at front extension board 3 upper end is recessed into the upper surface of front extension board 3 downwards, is positioned at the locating slot 31 of front extension board 3 lower end to the lower surface being recessed on front extension board 3.And the locating slot 31 of front extension board 3 top and bottom is square configuration substantially.

The positioning convex 321 being positioned at the lower end of assembly 32 on front extension board protrudes the lower surface of assembly 32 on front extension board downwards, be positioned at the upper surface of assembly 33 under the positioning convex 331 front extension board protruding upward of the upper end of assembly 33 under front extension board, and positioning convex 321 (331) is formed as substantially rectangular-shaped, thus be convenient to coordinate with locating slot 31.

As shown in figure 13, the front side of front extension board 3 is also formed with the vertical slot 36 to being recessed into, thus is convenient to front extension board 3 and matches with the procapsid module 500 be positioned on front side of front extension board 3.

Alternatively, be connected by buckle or screw between rear spiral case 12 with front spiral case 11.Thus, the connected mode between rear spiral case 12 and front spiral case 11 is that buckle connects the wherein one in being connected with screw.Certainly, the present invention is not limited thereto, the basis that can also connect at buckle between rear spiral case 12 and front spiral case 11 is connected by screw further.

In some embodiments of the invention, as shown in Figure 6, air channel module 100 also comprises the first motor 711 and the second motor 811.Wherein, first motor 711 is located at the top of the first tubular wine wheel 7 and drives the first tubular wine wheel 7 to rotate, second motor 811 is located at the bottom of the second tubular wine wheel 8 and drives the second tubular wine wheel 8 to rotate, thus, not only the set-up mode of the first motor 711 and the second motor 811 is simple, but also is conducive to the air-out effect improving cabinet air-conditioner 1000.

Further, air channel module 100 also comprises two the first half holding parts 71a, 71b and two the second half holding part 81a, 81b.Wherein, two the first half holding parts 71a, 1b lay respectively at the top of front spiral case 11 and the top of rear spiral case 12 and limit the first motor accommodation chamber 71.That is, the top of front spiral case 11 is formed with one of them the first half holding part 71a, the top of rear spiral case 12 is formed with another the first half holding part 71b, by the cooperation of two the first half holding parts 71a, 71b, thus form a first motor accommodation chamber 71, so that the placement of the first motor 711.

Two the second half holding parts 81a, 81b lay respectively at the bottom of front spiral case 11 and the bottom of rear spiral case 12 and limit the second motor accommodation chamber 81.That is, the bottom of front spiral case 11 is formed with one of them the second half holding part 81a, the bottom of rear spiral case 12 is formed with another the second half holding part 81b, by the cooperation of two the second half holding parts 81a, 81b, thus form a second motor accommodation chamber 81, so that the placement of the second motor 811.

Particularly, the front surface of front the spiral case 11 and position of contiguous two motor accommodation chambers is respectively equipped with card cableties 116, card cableties 116 are suitable for fixing motor lines of stretching out from two motor accommodation chambers, thus it is fixing to be convenient to motor lines.And the front surface of front spiral case 11 is provided with the wiring groove for holding motor lines.Be understandable that, the motor lines of the first motor 711 and the second motor 811 can be separately fixed in corresponding card cableties 116 and also be contained in wiring groove 117 simultaneously.

Card cableties 116 comprise interval, 1161, two solidus portions 1161 of two solidus portions and are located on front spiral case 11, and thus, the motor lines of stretching out from corresponding motor accommodation chamber can be fixed between two solidus portions 1161.Such as, the motor lines of the first motor 711 stretched out from the first motor accommodation chamber 71 can corresponding be fixed on contiguous its card cableties 116 two solidus portions 1161 between, the motor lines of the second motor 81 stretched out from the second motor accommodation chamber 81 can corresponding be fixed on contiguous its card cableties 116 two solidus portions 1161 between.

Particularly, limit solidus groove 11612 between two solidus portions 1161 and front spiral case 11, thus, two solidus portions 1161 are spaced apart by solidus groove 11612, thus realize fixing motor lines with this.

Alternatively, two solidus portions 1161 are symmetrical set.That is, two solidus portions 1161 arrange along the left and right directions interval of the front surface of front spiral case 11 and two solidus portions 1161 are symmetrical in the lateral direction, and thus, not only structure is simple, and is convenient to be fixed motor lines.Certainly, the present invention is not limited thereto, two solidus portions 1161 also can be asymmetric in the lateral direction.Or two solidus portions 1161 are arranged along the above-below direction interval of the front surface of front spiral case 11, and two solidus portions 1161 can be symmetrical in the vertical direction, also can be asymmetric.

Further alternatively, two solidus portions 1161 and front spiral case 11 form as one structure, and not only structure is simple thus, and is convenient to the bonding strength in raising two solidus portions 1161, thus extends the service life in solidus portion 1161.

In further embodiments more of the present invention, the periphery wall in each solidus portion 1161 is provided with lightening grooves 11611, thus, not only can alleviate the weight in solidus portion 1161, also help saving material simultaneously.

Particularly, lightening grooves 11611 is formed on the lateral wall in each solidus portion 1161, and lightening grooves 11611 and solidus portion 1161 have bearing of trend unanimous on the whole.

Further, each solidus portion 1161 bends towards another solidus portion 1161 after first extending forward perpendicular to front spiral case 11.Such as, each solidus portion 1161 can comprise first paragraph and second segment, wherein first paragraph perpendicular to the front surface of front spiral case 11 and the direction towards the front surface away from front spiral case 11 extend, second segment is connected to one end away from front spiral case 11 of first paragraph, and extends towards the direction near another solidus portion 1161.

Particularly, each solidus portion 1161, with arcuate motion bending, can be convenient to the fixing of motor lines thus, and can increase structural strength and the toughness in each solidus portion 1161.Certainly, the present invention is not limited thereto, each solidus portion 1161 also can bend in vertical manner, such as, and the vertical second segment of first paragraph in each solidus portion 1161.

In concrete examples more of the present invention, the cross-sectional area of wiring groove 117 reduces gradually on vertical direction, thus, when motor lines is contained in wiring groove 117, motor lines can be fastened on the less one end of the cross-sectional area of the inner of wiring groove 117 and wiring groove 117, thus realizes the reliable fixing of motor lines.Alternatively, the longitudinal section of wiring groove 117 can be formed as triangle, trapezoidal or other shapes.

In some embodiments of the invention, as Fig. 6, air channel module 100 also comprises protection network 9, protection network 9 is located at the front side of two ventilating openings to block two ventilating openings, such as, protection network 9 is one, and the front side being located at two ventilating openings is to block two ventilating openings simultaneously.Thus, by arranging protection network 9, can prevent staff or bulky grain object from being entered in spiral case assembly 1 by ventilating opening, thus improve the security of cabinet air-conditioner 1000 use.Be understandable that protection network 9 has multiple mesh, multiple mesh is conducive to the balanced ventilation realizing ventilating opening, improves the air-out effect of cabinet air-conditioner 1000.Alternatively, the aperture of multiple mesh is identical, thus be conducive to ventilating opening blowout wind uniformly across multiple mesh.

Further, as shown in Fig. 6 and Figure 18, protection network 9 is made up of many spokes 91 interlaced with each other, and such as protection network 9 is one, and protection network 9 is made up of many spokes 91 interlaced with each other.Thus, multiple spoke 91 interlaced with each other can limit multiple mesh, while utilizing multiple spoke 91 interlaced with each other to prevent staff or bulky grain object from entering in spiral case assembly 1 by ventilating opening, also help the balanced ventilation being realized ventilating opening by mesh, improve the air-out effect of cabinet air-conditioner 1000.Alternatively, mesh can be formed as square opening, circular port or polygonal hole, the present invention is not limited thereto.

Further, protection network 9 is by many vertical forming with the spoke 91 of at least one level.Certainly, the present invention is not limited thereto, protection network 9 also can by many vertical forming with the spoke 91 of many levels.Alternatively, spoke 91 is iron spoke, stainless steel spoke or heat resistant plastice spoke, can extend the service life of protection network 9 thus.Certainly the present invention is not limited thereto, spoke 91 also can be made up of other materials.

Alternatively, protection network 9 comprises two that are spaced apart from each other, and two protection network 9 correspondences are arranged on the front side of two ventilating openings, that is, each protection network 9 correspondence blocks a ventilating opening, thus is convenient to prevent staff or bulky grain thing by ventilating opening and stretch in spiral case assembly 1.Certainly, the present invention is not limited thereto, protection network 9 also can only have one, and blocks in the front side of two ventilating openings simultaneously.

Further, the upper end of two protection networks 9 and/or lower end correspondence are connected, that is, the top and bottom of one of them protection network 9 are connected with the top and bottom of another protection network 9 respectively, or the upper end of one of them protection network 9 is connected with the upper end of another protection network 9, or the lower end of one of them protection network 9 is connected with the lower end of another protection network 9.Certainly, the invention is not restricted to, also can be completely disjunct between two protection networks 9.

According to some embodiments of the present invention, procapsid module 500 comprises procapsid upper module 501, front lower panel 502 and two sliding panels 503.Wherein, procapsid upper module 501 to be fixed on housing module 200 and to be positioned at the forward upper of housing module 200, front lower panel 502 is fixed on the bottom of procapsid upper module 501 by fixture, and bottom is connected to the diapire of housing module 200, thus by front side that procapsid upper module 501 and front lower panel 502 open wide to block housing module 200.Alternatively, fixture can be bolt or screw etc.

Two sliding panels 503 are arranged in procapsid module 500 in the lateral direction movably, and such as, two sliding panels 503 are arranged on procapsid upper module 501 and front lower panel 502 in the lateral direction movably.Specifically, two air outlets of cabinet air-conditioner 1000 can be arranged on procapsid upper module 501, by being located at movably in procapsid module 500 in the lateral direction by two sliding panels 503, so that open or close two air outlets.

Further, the two ends up and down of each sliding panel 503 are located on procapsid upper module 501 and front lower panel 502 slidably respectively by one group of transmission component, thus are convenient to expose or block the air outlet corresponding with each sliding panel 503.Particularly, often organize transmission component and comprise gear and tooth bar (scheming not shown).Wherein, gear to be located on corresponding procapsid upper module 501 or front lower panel 502 and to be driven by the drive motors that slides accordingly and rotates, and tooth bar is connected to the rear side of sliding panel 503 and coordinates to realize slip drive motors with gear and drive sliding panel 503 to slide.Specifically, be described for the slip of a sliding panel 503, when cabinet air-conditioner 1000 is opened, the slip drive motors 5012 of top can drive corresponding gear 5011 to rotate, the slip drive motors 5022 of below can drive the gear 5021 of below to rotate, two tooth bars be arranged on rear side of sliding panel 503 coordinate with corresponding gear 5011,5021 and rotate, thus drive the slip of sliding panel 503 to open a corresponding air outlet; When cabinet air-conditioner 1000 shuts down, two slip drive motors 5012,5022 drive corresponding gear 5011,5021 to rotate respectively, two tooth bars be arranged on rear side of sliding panel 503 coordinate with corresponding gear 5011,5021 respectively and rotate, thus drive sliding panel 503 to slide to close corresponding air outlet.

Further, as illustrated in figures 19 and 20, front side procapsid upper module 501 and front lower panel 502 being positioned at gear is equipped with baffle plate, limit between baffle plate and gear and be suitable for tooth bar track movable in left-right direction, the front side being such as positioned at the gear 5011 of top is provided with baffle plate 5013, the front side being positioned at the gear 5021 of below is provided with baffle plate 5023, and gear 5011 and baffle plate 5013 limit the track being suitable for tooth bar activity, and gear 5021 and baffle plate 5023 limit the track being suitable for tooth bar activity.Thus be convenient to slip drive motors 5012,5022 and drive corresponding gear 5011,5021 to rotate be with carry-over bar to rotate in the lateral direction respectively, and by the movement in the lateral direction of the rotation drive sliding panel 503 of tooth bar to open or close air outlet.

In some embodiments of the invention, heat exchanger module comprises heat exchanger, drip tray 305 and fixed part 304.Shape shape that heat exchanger is formed as " U ", and heat exchanger comprises left heat exchanging part 301, right heat exchanging part 302 and rear heat exchanging part 303.

Fixed part 304 is located at the top of heat exchanger with stationary heat exchangers module 300.Such as, when heat exchanger module 300 can be fixed on the inwall of housing module 200 by the fixed part 304 at heat exchanger top.

Drip tray 305 is arranged on the bottom of heat exchanger, and thus, when indoor apparatus of air conditioner freezes to indoor environment, heat exchanger and indoor environment change thermogenetic condensed water can fall into drip tray 305.Particularly, the upper surface of drip tray 305 is formed with at least one bulge-structure 3051 to support the lower end of heat exchanger, thus, bulge-structure 3051 makes the lower end of heat exchanger away from the upper surface of drip tray 305, thus the condensation being conducive to falling in drip tray 305 is emptying from drip tray 305, but also can prevent the hot-air around drip tray 305 upwards crossfire in the cold chamber of heat exchanger.

The upper surface of drip tray 305 is formed with multiple bulge-structure 3051 be spaced apart from each other to support heat exchanger, such as, with the rear heat exchanging part 303 of heat exchanger on the upper surface of drip tray 305, the position that the lower end of left heat exchanging part 301 and right heat exchanging part 302 is corresponding, be formed with at least one bulge-structure 3051 respectively, heat exchanging part 303 after supporting with correspondence, left heat exchanging part 301 and right heat exchanging part 302, not only can realize the firm support of heat exchanger, prevent the lopsidedness of heat exchanger, also help rear heat exchanging part 303 simultaneously, it is emptying from drip tray 305 that left heat exchanging part 301 and right heat exchanging part 302 and indoor environment change thermogenetic condensed water.

Further, multiple bulge-structure 3051 is arranged around the internal perisporium at least partially of drip tray 305, and such as, multiple bulge-structure 3051 is arranged around the internal perisporium corresponding with rear heat exchanging part 303, left heat exchanging part 301 and right heat exchanging part 302 of drip tray 305.Bulge-structure 3051 and the spaced apart setting of internal perisporium, like this, the condensed water produced when can be conducive to heat exchanger and room ambient heat exchange emptying further, thus avoid there is condensate retention in drip tray 305 to a certain extent.

Heat exchanger module 300 also comprises at least one electric auxiliary heat structure 306, and electric auxiliary heat structure 306 is arranged between fixed part 304 and drip tray 305.Such as, electric auxiliary heat structure 306 is positioned at the front side of heat exchanger, and is connected between fixed part 304 and drip tray 305.Thus, heat exchanger is as while condenser and the heat exchange of indoor low temperature environment, and the unlatching of electric auxiliary heat structure 306 can strengthen the heating capacity of indoor apparatus of air conditioner further, thus adjusts indoor temperature rapidly to reach setting value.

Further, the upper end of electric auxiliary heat structure 306 is fixed on fixed part 304 by fixed body 307, thus realizes electric auxiliary heat structure 306 and being fixedly connected with between fixed part 304.

Particularly, fixed body 307 comprises body 3071 and multiple Access Division 3074.Wherein, body 3071 is formed with the locating hole 3072 running through body 3071 thickness, the upper end of the auxiliary heat structure 306 of electricity is formed with the locating dowel 3061 coordinated with locating hole 3072, multiple Access Division 3074 is spaced apart from each other in the lateral direction, and multiple Access Division 3074 is connected to the one end in positioned adjacent hole 3072 on body 3071, fixed part 304 is formed with the holddown groove coordinated with multiple Access Division 3074.Thus, coordinating on the one hand by the locating dowel 3061 of the locating hole 3072 on the body 3071 of fixed body 307 and the upper end of the auxiliary heat structure 306 of electricity, fixed body 307 to be fixed on the upper end of electric auxiliary heat structure 306, coordinate to be fixed on fixed part 304 by fixed body 307 on the other hand by the Access Division 3074 on fixed body 307 and holddown groove on fixed part 304, thus be fixed on fixed part 304 by the upper end of fixed body 307 by auxiliary for electricity heat structure 306.

Be understandable that, holddown groove can be one, and multiple Access Division 3074 can coordinate with a holddown groove simultaneously.Certainly, holddown groove can also be multiple, multiple holddown groove can respectively with multiple Access Divisions 3074 corresponding matching.

Access Division 3074 is formed run through its thickness cable-through hole 3073 so that the wire of electric auxiliary heat structure 306 is connected with other wire of heat exchanger module 300 or with other wire of indoor apparatus of air conditioner 1000, such as, as shown in figure 24, cable-through hole 3073 is two, and on the Far Left being respectively formed at fixed body 307 and rightmost two Access Divisions 3074.Certainly, the present invention is not limited thereto, cable-through hole 3073 can also be limited by multiple Access Division 3074 be spaced apart from each other, and such as shown in figure 24, cable-through hole 3073 is formed between two adjacent Access Divisions 3074.

Further, the upper surface of drip tray 305 is formed with limiting section 3052, the lower end of electric auxiliary heat structure 306 is spacing on limiting section 3052, thus realizes the lower end of electric auxiliary heat structure 306 and being fixedly connected with between drip tray 305.

As described in Figure 23, limiting section 3052 comprises boss 30521, two connecting plates 30522, limited post 323 and limiting plates 30524.Wherein, the upper surface of boss 30521 drip tray 305 protruding upward, two relative sidewalls that two connecting plates 30522 are separately positioned on boss 30521 upwards extend, limited post 323 and limiting plate 30524 are arranged on the upper surface of boss 30521, and lay respectively at the both sides of two connecting plates 30522, the lower end of the auxiliary heat structure 306 of electricity is spacing at two connecting plates 30522, between limited post 323 and limiting plate 30524, thus, thus be fixed on drip tray 305 with this lower end by auxiliary for electricity heat structure 306.

Alternatively, electric auxiliary heat structure 306 comprises two that are spaced apart from each other in the lateral direction, thus strengthens the heating capacity of indoor apparatus of air conditioner better, adjusts indoor temperature rapidly to reach setting value.

Alternatively, electric auxiliary heat structure 306 is fin heater, electric heating tube or ceramic heating element, thus improves the auxiliary heating efficiency of electric auxiliary heat structure 306.

In some embodiments of the invention, the left and right side plate of heat exchanger is respectively equipped with sealing plate 308, thus, the sealing effectiveness between heat exchanger and other structure can be improved to a certain extent.Further, the top and bottom of each sealing plate 308 are formed with the location-plate 3081 extended towards heat exchanger respectively, sealing plate 308 is fixed on fixed part 304 and drip tray 305 by location-plate 3081, thus by while sealing plate 308 is fixed on fixed part 304 and drip tray 305, with by spacing for heat exchanger between fixed part 304 and drip tray 305.Again further, be connected respectively by securing member between location-plate 3081 with fixed part 304, between location-plate 3081 with drip tray 305, thus to realize between sealing plate 308 with fixed part 304 and between sealing plate 308 with drip tray 305 further reliable is connected.

Heat exchanger module 300 also comprises back stay 309, back stay 309 is positioned at the rear side of heat exchanger, and be fixed between fixed part 304 and drip tray 305 with by spacing for heat exchanger between fixed part 304 and drip tray 305, thus heat exchanger to be reliably fixed between fixed part 304 and drip tray 305.

According to some embodiments of the present invention, as shown in Fig. 2 and Figure 25, the roof of fuselage 202 is formed with multiple the first shrinkage pool 206 running through fuselage 202 roof, the diapire of top cover 201 is formed with multiple the first convex tendon 204 coordinated with the first shrinkage pool 206, thus realizes the connection between fuselage 202 and top cover 201 by the cooperation of the first shrinkage pool 206 and the first convex tendon 204.Particularly, the first shrinkage pool 206 is formed as square opening.

Alternatively, top cover 201 is connected by the first securing member with fuselage 202, and such as, the first securing member can be screw or bolt etc., thus to realize between top cover 201 with fuselage 202 reliable is connected.

In further embodiment of the present invention, as shown in Fig. 2 and Figure 26, the diapire of fuselage 202 is formed with multiple the second shrinkage pool 207 running through the diapire of fuselage 202, the roof on chassis 203 is formed with multiple the second convex tendon 205 coordinated with the second shrinkage pool 207, thus coordinates by the second shrinkage pool 207 and the second convex tendon 205 connection realized between chassis 203 and fuselage 202.Particularly, the second shrinkage pool 207 is formed as square opening.

Alternatively, chassis 203 is connected by the second securing member with fuselage 202, and such as, the second securing member can be screw or bolt etc., thus to realize between top cover 201 with fuselage 202 reliable is connected.

Further, as shown in Figure 2, the rear wall of procapsid upper module 501 is formed with multiple card muscle, the front side wall of fuselage 202 is formed with multiple hole clipping 208 coordinated with card muscle, coordinating thus realizing the connection between procapsid upper module 501 and fuselage 202 by card muscle and hole clipping 208.

According to some embodiments of the present invention, as shown in Figure 2, the upper at least partially of internal perisporium of housing module 200 forms support portion 209, the roof of heat exchanger module 300 is formed with outer eaves portion 310, outer eaves portion 310 is supported on support portion 209, thus by outer eaves portion 310 being supported on support portion 209, so that heat exchanger module 300 is supported on the internal perisporium of housing module 200.

Alternatively, heat exchanger module 300 is connected by the 3rd securing member with housing module 200, thus realizes being reliably fixedly connected with between heat exchanger module 300 with housing module 200.Alternatively, the 3rd securing member can be screw or bolt etc., certainly, the present invention is not limited thereto, and the 3rd securing member can also be other securing member.

Below with reference to Fig. 1-Figure 20, the structure of the cabinet air-conditioner 1000 of the present invention's specific embodiment is described in detail.

As shown in Figure 1, in the present embodiment, cabinet air-conditioner 1000 comprises housing module 200, heat exchanger module 300, air channel module 100, electronic control module 400 and procapsid module 500.Wherein, the front side of housing module 200 is opened wide and the left side wall of housing module 200, right side wall and rear wall is formed with air inlet 2021 respectively, thus be convenient to more air by air inlet 2021 enter in housing module 200 with heat exchanger module 300 heat exchange.

The cross section of heat exchanger module 300 is in " U " shape shape, and heat exchanger module 300 is located on the inwall of housing module 200, thus the air inlet 2021 be convenient on the left side wall of heat exchanger module 300 and housing module 200, right side wall and rear wall is corresponding, improve the heat exchange area of heat exchanger module 300 to improve heat exchange efficiency, thus improve refrigeration or the heating effect of cabinet air-conditioner 1000.

Air channel module 100 is positioned at housing module 200, and is fixed on the front side wall of heat exchanger module 300.Specifically, air channel module 100 has the effect wind of the air inlet 2021 of cabinet air-conditioner 1000 being drained to air outlet, therefore, air channel module 100 is fixed on the front side wall of heat exchanger module 300, after the wind can being convenient to air inlet 2021 and heat exchanger module 300 heat exchange, flow to air outlet to regulate indoor temperature.Electronic control module 400 is located on the inwall of housing module 200, and is positioned at the bottom of air channel module 100, and thus, not only structure is simple, and easy to assembly.

Procapsid module 500 is located at the front side of housing module 200, to block the side that housing module 200 opens wide, thus, by other construction packages of cabinet air-conditioner 1000 in housing module 200, thus can realize the final assembly of cabinet air-conditioner 1000.

Particularly, as shown in Fig. 4-Fig. 9, air channel module 100 can to comprise on spiral case assembly 1 (i.e. front spiral case 11 and rear spiral case 12), the first tubular wine wheel 7, second tubular wine wheel 8, front extension board 3, two snail tongue assemblies 4, insulating foam 5, air-duct clapboard 6, front extension board under assembly 32, front extension board assembly 33, first motor 711, second motor 811, two protection networks 9, two the first half holding part 71a, 71b and two the second half holding part 81a, 81b.Wherein, front spiral case 11 has two ventilating openings running through its fore-and-aft direction, be connected by buckle between rear spiral case 12 with front spiral case 11.

Limit two accommodating chamber 2 be spaced apart from each other between rear spiral case 12 and the rear surface of front spiral case 11 to be communicated with two ventilating openings respectively for accommodation first tubular wine wheel 7 and the second tubular wine wheel 8, two accommodating chamber 2.Front extension board 3 is located at the front side of front spiral case 11 and is separated by the air of two ventilating openings blowout, and two snail tongue assemblies 4 are located at the both sides of front extension board 3 respectively, each snail tongue assembly 4 and limit primary air separating duct between front spiral case 11 and front extension board 3.Thus, the wind sent of cabinet air-conditioner 1000, under the effect of the first tubular wine wheel 7 and the second tubular wine wheel 8, after two ventilating openings, and blows to different directions through two primary air separating ducts respectively.

Each snail tongue assembly 4 is provided with the multiple stators 41 be spaced apart from each other in the vertical direction.Multiple stator 41 can play guide functions to the wind blown out from primary air separating duct, thus regulates the air supply direction of cabinet air-conditioner 1000.

As shown in Figure 8, rear spiral case 12 comprise two along the vertical direction extend and cross section be the portion that is recessed into 121 of arc and be connected to two rear connecting portions 122 be recessed between portion 121, the rear surface of front spiral case 11 having two cross sections is that front reentrant 111, two front reentrants 111 of arc are recessed into portion 121 corresponding matching respectively to limit two accommodating chamber 2 with two.As is illustrated by figs. 11 and 12, rear connecting portion 122 has at least one block tongue 1221, and connecting portion 112 before the rear surface of front spiral case 11 has between two front reentrants 111, front connecting portion 112 has at least one draw-in groove 1121, block tongue 1221 and draw-in groove 1121 coordinate front spiral case 11 and rear spiral case 12 to be connected respectively correspondingly.Thus, by the cooperation of block tongue 1221 and draw-in groove 1121 to be connected with rear connecting portion 122 by front connecting portion 112, thus the connection between front spiral case 11 and rear spiral case 12 is realized.

As shown in Figure 8 and Figure 11, the rear surface of front spiral case 11 has between two front reentrants 111 groove 114 recessed forward, and front connecting portion 112 is positioned on the front side wall of groove 114, wherein, connecting portion 122 to insert in groove 114 and to be connected with front connecting portion 112.Specifically, front connecting portion 112 is positioned on the front side wall of groove 114, rear connecting portion 122 inserts in groove 114, and by being arranged on coordinating of block tongue 1221 on rear connecting portion 122 and the draw-in groove 1121 be formed on front connecting portion 112, thus the connection after realizing between connecting portion 122 and front connecting portion 112, and then realize the connection between front spiral case 11 and rear spiral case 12.

As shown in Figure 6 and Figure 8, the front surface of front spiral case 11 is formed with at least part of extension groove 34 for holding front extension board 3 corresponding to the position of front connecting portion 112, thus front extension board 3 is fixed on front spiral case 11.Specifically, as shown in Figure 10, the rear end of front extension board 3 has card convex 35, and card convex 35 is contained in extension groove 34, thus the connection before realizing between extension board 3 and front spiral case 11.Alternatively, extension groove 34 is formed as the shape broadened gradually from back to front, thus is convenient to hold at least part of of front extension board 3.

As shown in Figure 6 and Figure 8, insulating foam 5 is located at the rear side of rear spiral case 12, and air-duct clapboard 6 is connected with the rear surface buckle of rear spiral case 12 and limits enclosure space, and insulating foam 5 is located in enclosure space, thus, thermal loss when cabinet air-conditioner 1000 is blown can be reduced to a certain extent.

The rear surface of rear connecting portion 122 is formed with insulation hopper, being contained at least partially in insulation hopper of insulating foam 5, thus plays the effect spacing to insulating foam 5 to a certain extent.Insulation hopper is the shape broadened gradually from front to back, thus is convenient to hold insulating foam 5 at least partially.

As shown in Fig. 6 and Fig. 8 and Figure 14-Figure 16, each snail tongue assembly 4 includes snail tongue body 42 and connecting rod 43.Wherein, snail tongue body 42 extends along the vertical direction, snail tongue body 42 is located on the sidewall of front spiral case 11, and snail tongue body 42 has the chute 421 vertically extended, connecting rod 43 can be located at the side towards front extension board 3 of snail tongue body 42 on the surface up or down, connecting rod 43 is spaced apart with chute 421, and wherein one end of stator 41 is fixed on connecting rod 43, and the other end is removable relative to chute 421 through chute 421.Thus, not only structure is simple, and by one end of stator 41 is fixed on connecting rod 43, and the other end passes chute 421 and can move relative to chute 421, can realize stator 41 and play guide functions to the wind sent from cabinet air-conditioner 1000.Alternatively, chute 421 comprises be spaced apart from each other along the vertical direction multiple.

As shown in figure 15, the other end of stator 41 has location hook 411, the hook part of location hook 411 can through chute 421 and the side away from front extension board 3 being only against snail tongue body 42 on the surface.Thus, by arranging location hook 411 on the other end of stator 41, and make the hook part of location hook 411 through chute 421 and be only against the side away from front extension board 3 of snail tongue body 42 on the surface, thus stator 41 is connected on chute 421 movably.Alternatively, the height of each chute 421 is greater than the height of location hook 411, thus is convenient to location hook 411 through chute 421.

As shown in figure 16, stator 41 is formed as general triangular shape, and the one end on the long limit of stator 41 is connected to connecting rod 43, and the other end is connected to location hook 411 by linkage section 413, and structure is simple.On the long limit of stator 41, contiguous other end end is formed with gap 412, and its middle connecting segment 413 is connected with other end end, thus the other end of stator 41 is connected with chute 421 with location hook 411 by linkage section 413.

As shown in Figure 10 and Figure 15, the side away from front extension board 3 of snail tongue body 42 is provided with three screens grooves 422 on the surface, the sidewall of front spiral case 11 is provided with three holding sections 113, and screens groove 422 coordinates to be snapped on the sidewall of front spiral case 11 by snail tongue body 42 with holding section 113 one_to_one corresponding.Thus, by the cooperation of screens groove 422 and holding section 113, thus the connection of snail tongue assembly 4 and front spiral case 11 is realized.

As shown in figure 14, each snail tongue assembly 4 also comprises stator drive motors 44, and stator drive motors 44 drive link 43 moves up and down.As shown in Figure 10, the sidewall of front spiral case 11 has recessed motor slot 115, and wherein stator drive motors 44 is contained in motor slot 115.Specifically, when snail tongue assembly 4 is connected with front spiral case 11, stator drive motors 44 is contained in motor slot 115, and drive link 43 move up and down the movement driving stator 41.

The cross section of front extension board 3 is formed as the shape broadened gradually from back to front, and not only structure is simple thus, and is convenient to install.Certainly, the present invention is not limited thereto, the cross section of front extension board 3 can also be formed as other shape.

On front extension board, assembly 32 is located at the upper end of front extension board 3 and is connected with front spiral case 11, under front extension board, assembly 33 is located at the lower end of front extension board 3 and is connected with front spiral case 11, thus is connected with front spiral case 11 by front extension board 3 with assembly 33 under front extension board by assembly 32 on front extension board.

The top and bottom of front extension board 3 have at least one positioning convex respectively, on front extension board, under the lower end of assembly 32 and front extension board, the upper end of assembly 33 all has at least one locating slot coordinated with positioning convex, thus realize being located by connecting between assembly 32 and front extension board 3 and under front extension board between assembly 33 and front extension board 3 on front extension board, and by the connection of assembly 33 under the connection of assembly on front extension board 32 and front spiral case 11 and front extension board with front spiral case 11, final realize before the connection of extension board 3 and front spiral case 11.

As shown in Figure 6, first motor 711 is located at the top of the first tubular wine wheel 7 and drives the first tubular wine wheel 7 to rotate, second motor 811 is located at the bottom of the second tubular wine wheel 8 and drives the second tubular wine wheel 8 to rotate, thus, not only the set-up mode of the first motor 711 and the second motor 811 is simple, but also is conducive to the air-out effect improving cabinet air-conditioner 1000.

Two the first half holding parts 71a, 1b lay respectively at the top of front spiral case 11 and the top of rear spiral case 12 and limit the first motor accommodation chamber 71.That is, the top of front spiral case 11 is formed with one of them the first half holding part 71a, the top of rear spiral case 12 is formed with another the first half holding part 71b, by the cooperation of two the first half holding parts 71a, 71b, thus form a first motor accommodation chamber 71, so that the placement of the first motor 711.

Two the second half holding parts 81a, 81b lay respectively at the bottom of front spiral case 11 and the bottom of rear spiral case 12 and limit the second motor accommodation chamber 81.That is, the bottom of front spiral case 11 is formed with one of them the second half holding part 81a, the bottom of rear spiral case 12 is formed with another the second half holding part 81b, by the cooperation of two the second half holding parts 81a, 81b, thus form a second motor accommodation chamber 81, so that the placement of the second motor 811.

As shown in Figure 6, two protection network 9 correspondences are located at the front side of two ventilating openings to block two ventilating openings, thus, by arranging protection network 9, can prevent staff or bulky grain object from being entered in spiral case assembly 1 by ventilating opening, thus improve the security of cabinet air-conditioner 1000 use.

Two protection networks 9 are by many vertical forming with the spoke 91 of at least one level.The top and bottom correspondence of two protection networks 9 is connected.

Procapsid module 500 comprises procapsid upper module 501, front lower panel 502 and two sliding panels 503.Wherein, procapsid upper module 501 to be fixed on housing module 200 and to be positioned at the forward upper of housing module 200, front lower panel 502 is fixed on the bottom of procapsid upper module 501 by fixture, and bottom is connected to the diapire of housing module 200, thus by front side that procapsid upper module 501 and front lower panel 502 open wide to block housing module 200.

Two sliding panels 503 are arranged on procapsid upper module 501 and front lower panel 502 in the lateral direction movably.Specifically, two air outlets of cabinet air-conditioner 1000 can be arranged on procapsid upper module 501, by being located at movably in procapsid module 500 in the lateral direction by two sliding panels 503, so that open or close two air outlets.

The two ends up and down of each sliding panel 503 are located on procapsid upper module 501 and front lower panel 502 slidably respectively by one group of transmission component, thus are convenient to expose or block the air outlet corresponding with each sliding panel 503.Particularly, often organize transmission component and comprise gear 5011,5021 and tooth bar (scheming not shown).Wherein, gear 5011,5021 to be located on corresponding procapsid upper module 501 or front lower panel 502 and to be driven by the drive motors 5012,5022 that slides accordingly and rotates, and tooth bar is connected to the rear side of sliding panel 503 and coordinates to realize slip drive motors 5012,5022 with gear 5011,5021 and drive sliding panel 503 to slide.

As illustrated in figures 19 and 20, front side procapsid upper module 501 and front lower panel 502 being positioned at gear 5011,5021 is equipped with baffle plate 5013,5023, limit between baffle plate 5013,5023 and gear 5011,5021 and be suitable for tooth bar track movable in left-right direction, thus be convenient to the rotation of slip drive motors 5012,5022 driven wheel 5011,5021 to be with carry-over bar to rotate in the lateral direction, and drive sliding panel 503 movement in the lateral direction to open or close air outlet by the rotation of tooth bar.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (34)

1. a cabinet air-conditioner, is characterized in that, comprising:

Housing module, the front side of described housing module is opened wide, and the left side wall of described housing module, right side wall and rear wall are formed with air inlet respectively;

Heat exchanger module, the cross section of described heat exchanger module is in " U " shape shape, and described heat exchanger module is established on the inwall of described housing module;

Air channel module, described air channel module is located in described housing module, and being fixed on the front side wall of described heat exchanger module, described air channel module comprises spiral case assembly, be located at front extension board on front side of described spiral case assembly, be located at two snail tongue assemblies of the described front extension board left and right sides, the first tubular wine wheel being positioned at described spiral case assembly and the second tubular wine wheel;

Electronic control module, described electronic control module is located on the inwall of described housing module, and is positioned at the bottom of described air channel module;

Procapsid module, described procapsid module is located at the front side of described housing module, to block the side that described housing module opens wide.

2. cabinet air-conditioner according to claim 1, it is characterized in that, described spiral case assembly comprises front spiral case and rear spiral case, described front spiral case have two ventilating openings running through its fore-and-aft direction, two accommodating chamber being spaced apart from each other are limited to be respectively used to hold described first tubular wine wheel and described second tubular wine wheel between the rear surface of described rear spiral case and described front spiral case, described two accommodating chamber are communicated with described two ventilating openings respectively, and described front extension board is located at the front side of described front spiral case and is separated by the air of described two ventilating openings blowout.

3. cabinet air-conditioner according to claim 2, is characterized in that,

Described rear spiral case comprise two along the vertical direction extend and cross section be the portion that is recessed into of arc and be connected to described two rear connecting portions be recessed between portion;

The rear surface of described front spiral case having two cross sections is the front reentrant of arc, and described two front reentrants are recessed into portion's corresponding matching respectively to limit two described accommodating chamber with described two.

4. cabinet air-conditioner according to claim 3, it is characterized in that, described rear connecting portion has at least one block tongue, and connecting portion before the rear surface of described front spiral case has between described two front reentrants, described front connecting portion has at least one draw-in groove, and described block tongue and described draw-in groove coordinate described front spiral case and described rear spiral case to be connected respectively correspondingly.

5. cabinet air-conditioner according to claim 4, it is characterized in that, the rear surface of described front spiral case has between described two front reentrants groove recessed forward, and described front connecting portion is on the front side wall of described groove, wherein said rear connecting portion to insert in described groove and is connected with described front connecting portion.

6. cabinet air-conditioner according to claim 4, is characterized in that, the front surface of described front spiral case is formed with at least part of extension groove for holding described front extension board corresponding to the position of described front connecting portion.

7. cabinet air-conditioner according to claim 6, is characterized in that, the rear end of described front extension board has card convex, and described card convex is contained in described extension groove.

8. cabinet air-conditioner according to claim 6, is characterized in that, described extension flute profile becomes the shape broadened gradually from back to front.

9. cabinet air-conditioner according to claim 3, is characterized in that, described air channel module also comprises:

Insulating foam, described insulating foam establishes the rear side of spiral case in the rear;

Air-duct clapboard, described air-duct clapboard is connected with the rear surface buckle of described rear spiral case and limits enclosure space, and described insulating foam is located in described enclosure space.

10. cabinet air-conditioner according to claim 9, is characterized in that, the rear surface of described rear connecting portion is formed with insulation hopper, being contained at least partially in described insulation hopper of described insulating foam.

11. cabinet air-conditioners according to claim 10, is characterized in that, described insulation hopper is the shape broadened gradually from front to back.

12. cabinet air-conditioners according to claim 2, it is characterized in that, described two snail tongue assemblies are located at the both sides of described front extension board respectively, each described snail tongue assembly and limit primary air separating duct between described front spiral case and described front extension board, each described snail tongue assembly is provided with the multiple stators be spaced apart from each other in the vertical direction;

Each described snail tongue assembly includes:

Snail tongue body, described snail tongue body extends along the vertical direction, and described snail tongue body is located on the sidewall of described front spiral case, and described snail tongue body has the chute vertically extended;

Connecting rod, described connecting rod can be located at the side towards described front extension board of described snail tongue body on the surface up or down, described connecting rod and described chute spaced apart, one end of wherein said stator is fixed on described connecting rod, and the other end is through described chute and removable relative to described chute.

13. cabinet air-conditioners according to claim 12, is characterized in that, described chute comprises be spaced apart from each other along the vertical direction multiple.

14. cabinet air-conditioners according to claim 13, is characterized in that, the other end of described stator has location hook, the hook part of described location hook through described chute and the side away from described front extension board being only against described snail tongue body on the surface.

15. cabinet air-conditioners according to claim 14, is characterized in that, the height of each described chute is greater than the height of described location hook.

16. cabinet air-conditioners according to claim 14, is characterized in that, described stator is formed as general triangular shape, and the one end on the long limit of described stator is connected to described connecting rod, and the other end is connected to described location hook by linkage section.

17. cabinet air-conditioners according to claim 16, is characterized in that, on the long limit of described stator, contiguous described other end end is formed with gap, and wherein said linkage section is connected with described other end end.

18. cabinet air-conditioners according to claim 12, it is characterized in that, the side away from described front extension board of described snail tongue body is provided with screens groove on the surface, the sidewall of described front spiral case is provided with holding section, and described screens groove coordinates to be snapped on the sidewall of described front spiral case by described snail tongue body with described holding section.

19. cabinet air-conditioners according to claim 18, is characterized in that, described screens groove comprises three.

20. cabinet air-conditioners according to claim 12, it is characterized in that, each described snail tongue assembly also comprises stator drive motors, described stator drive motors drives described connecting rod to move up and down, the sidewall of described front spiral case has recessed motor slot, and wherein said stator drive motors is contained in described motor slot.

21. cabinet air-conditioners according to claim 1, is characterized in that, the cross section of described front extension board is formed as the shape broadened gradually from back to front.

22. cabinet air-conditioners according to any one of claim 1-21, it is characterized in that, described air channel module also comprises:

Assembly on front extension board, on described front extension board, assembly is located at the upper end of described front extension board and is connected with described front spiral case;

Assembly under front extension board, under described front extension board, assembly is located at the lower end of described front extension board and is connected with described front spiral case.

23. cabinet air-conditioners according to claim 22, it is characterized in that, the top and bottom of described front extension board have at least one positioning convex respectively, and on described front extension board, under the lower end of assembly and described front extension board, the upper end of assembly all has at least one locating slot coordinated with described positioning convex.

24. cabinet air-conditioners according to claim 2, is characterized in that, are connected between described rear spiral case with described front spiral case by buckle or screw.

25. cabinet air-conditioners according to claim 1, is characterized in that, described air channel module also comprises:

First motor, described first motor is located at the top of the first tubular wine wheel and drives described first tubular wine wheel to rotate;

Second motor, described second motor is located at the bottom of the second tubular wine wheel and drives described second tubular wine wheel to rotate.

26. cabinet air-conditioners according to claim 25, is characterized in that, described air channel module also comprises:

Two the first half holding parts, described two the first half holding parts lay respectively at the top of described front spiral case and the top of described rear spiral case and limit described first motor accommodation chamber;

Two the second half holding parts, described two the second half holding parts lay respectively at the bottom of described front spiral case and the bottom of described rear spiral case and limit described second motor accommodation chamber.

27. cabinet air-conditioners according to claim 1, is characterized in that, described air channel module also comprises protection network, and described protection network is located at the front side of described two ventilating openings to block described two ventilating openings.

28. spiral case assemblies according to claim 27, is characterized in that, described protection network is made up of many spokes interlaced with each other.

29. spiral case assemblies according to claim 28, is characterized in that, described protection network is by many vertical forming with the spoke of at least one level.

30. cabinet air-conditioners according to claim 27, is characterized in that, described protection network comprises two that are spaced apart from each other, and described two protection networks correspondence is arranged on the front side of described two ventilating openings.

31. cabinet air-conditioners according to claim 30, is characterized in that, the upper end of described two protection networks and/or lower end correspondence are connected.

32. cabinet air-conditioners according to claim 1, is characterized in that, described procapsid module comprises:

Procapsid upper module, described procapsid upper module to be fixed on described housing module and to be positioned at the forward upper of described housing module;

Front lower panel, described front lower panel is fixed on the bottom of described procapsid upper module by fixture, and bottom is connected to the diapire of described housing module;

Two sliding panels, described two sliding panels are arranged in described procapsid module in the lateral direction movably.

33. cabinet air-conditioners according to claim 32, is characterized in that, the two ends up and down of each described sliding panel are located on described procapsid upper module and described front lower panel slidably respectively by one group of transmission component, often organize described transmission component and comprise:

Gear, described gear to be located on corresponding described procapsid upper module or described front lower panel and to be driven by the drive motors that slides accordingly and rotates;

Tooth bar, described tooth bar is connected to the rear side of described sliding panel and coordinates to realize described slip drive motors with described gear and drive described sliding panel to slide.

34. cabinet air-conditioners according to claim 33, it is characterized in that, described procapsid upper module and described front lower faceplate are equipped with baffle plate in the front side of described gear, limit and be suitable for described tooth bar track movable in left-right direction between described baffle plate and described gear.