CN104110738B - Indoor unit of floor air conditioner - Google Patents

Abstract

The invention relates to the technical field of air conditioners, and provides an indoor unit of a floor air conditioner. The indoor unit of the floor air conditioner comprises a refrigeration box and an air heat exchanging device arranged on the top of the refrigeration box. The air heat exchanging device comprises a heat exchanger assembly, a first air inlet device arranged on the back of the heat exchanger assembly and an air outlet device arranged on the front portion of the heat exchanger assembly. The refrigeration box comprises a box body, a box door arranged on the box body, an inner container arranged in the box body, a refrigeration device arranged on the rear portion of the inner container and a second air inlet device which is arranged on the back of the box body and capable of supplying air to the refrigeration device and allowing heat to be dissipated out. According to the indoor unit of the floor air conditioner, back air supplying is adopted by both the air heat exchanging device and the refrigeration box, full back air supplying of the indoor unit of the floor air conditioner is achieved, the structure is simple, the air supplying range is large, appearance of products is not influenced, refrigeration is carried out on the lower refrigeration box through the refrigeration device, heat is dissipated out through the second air inlet device, a traditional refrigerant heat dissipating mode is not used any more, and refrigeration of the air heat exchanging device is not influenced while normal work of the refrigeration box is guaranteed.

Description

Vertical air conditioner indoor unit

Technical field

It is to be related to a kind of vertical air conditioner indoor unit more specifically the present invention relates to air-conditioner technical field.

Background technology

At present, in air-conditioning technical field, vertical air conditioner indoor unit is occurred in that, but vertical air conditioner indoor unit knot at present In structure, the air inlet structure of most of air-conditioning parts is not only complicated, and air inlet effect is bad, and refrigerating box part uses coolant refrigeration, So indoor apparatus of air conditioner refrigeration in itself and heat-production functions are impacted, this two parts is separate therebetween without effective Structure is simplified using common ground.

The content of the invention

It is an object of the invention to provide a kind of vertical air conditioner indoor unit, it is intended to solve vertical air conditioner of the prior art The problem of air inlet structure complexity and refrigerating box poor refrigerating efficiency in air conditioner indoor machine.

In order to solve the above technical problems, the technical scheme is that：A kind of vertical air conditioner indoor unit is provided, including it is cold Case and the air heat-exchanging device at the top of the refrigerating box are hidden, the air heat-exchanging device includes heat exchanger assembly, is located at First air-intake device at the heat exchanger assembly back and the exhaust apparatus located at heat exchanger assembly front portion, the refrigeration Case include casing, on the casing can the chamber door of opened at front face, the inner bag in the casing, after the inner bag The refrigerating plant in portion and can be blown to the refrigerating plant located at the casing back and simultaneously can heating load come out Second air-intake device.

Specifically, the heat exchanger assembly includes that heat exchanger support and the concurrent flow being fixed in the heat exchanger support are changed Hot device, surface is uniformly arranged multiple magnetic parts after the heat exchanger support, the preceding surface of the first air-intake device be provided with respectively with The corresponding iron plate of each magnetic part.

Specifically, the rear surface of the casing is provided with the first draw-in groove, and second air-intake device is provided with can be from top to bottom The second grab slipped into first draw-in groove.

Specifically, the arranged on left and right sides on the preceding surface of heat exchanger support is respectively equipped with the second draw-in groove, after the exhaust apparatus The arranged on left and right sides on surface is respectively equipped with the second grab that can from top to bottom slip into second draw-in groove.

Specifically, a kind of parallel-flow heat exchanger, with inlet side and air side, it includes horizontally disposed top collection Flow tube, bottom header, some flat tubes being vertically arranged between the top header and the bottom header and set Fin on each flat tube, has the first gap, each institute between the top ends of each fin and the top header Stating has the second gap between the bottom of fin and the bottom header, the top header is provided with can block described First pressing plate in the first gap, the bottom header is fixed in a support frame, and being provided with support frame as described above can block described The conduit in the second gap.

Specifically, the bottom header is provided with input pipe and efferent duct, and support frame as described above outside is provided with drip tray, institute Input pipe and the efferent duct are stated by being passed through in the drip tray.

Specifically, the refrigerating plant includes semiconductor chilling plate, the first heat abstractor and the second heat abstractor, described Semiconductor chilling plate is located between the inner bag and the casing, and the semiconductor chilling plate has the cold end towards the inner bag And towards the hot junction of the casing, first heat abstractor is attached at the cold end of the semiconductor chilling plate, described second Heat abstractor is attached at the hot junction of the semiconductor chilling plate.

Specifically, first heat abstractor includes the first radiating block, the first fan and fan grill, and described first dissipates Hot block be located at the inner bag in, and first radiating block rear surface in the inner bag by stretching out and is attached at the semiconductor In the cold end of cooling piece, first fan is located at the front side of first radiating block and is fixed on the fan grill.

Specifically, second heat abstractor includes the second radiating block, radiating block cover, wind scooper and the second fan, institute The preceding surface for stating the second radiating block is attached on the hot junction of the semiconductor chilling plate, and the radiating block covers at described second and dissipates The rear surface of hot block, located at the lower section of second radiating block, second fan is under the wind scooper for the wind scooper Side.

Specifically, first air-intake device is air-inlet grille with second air-intake device, air-inlet grille described in two It is integrally formed.

In the present invention, air heat-exchanging device, using blowing behind, so, realizes floor air conditioner room with refrigerating box part The full back side air-supply of interior machine, this simple structure, blowing range is big, and does not influence the outward appearance of product, and bottom refrigerating box to adopt Freezed with refrigerating plant, and distributed heat using the second air-intake device, traditional cold matchmaker's radiating mode is not recycled, protected The refrigeration of air heat-exchanging device is not influenceed while card refrigerating box normal work.

Brief description of the drawings

Fig. 1 is the decomposition texture schematic diagram of the vertical air conditioner indoor unit that the present invention is provided；

Fig. 2 is that vertical air conditioner indoor unit is dismantled the assembling schematic diagram after biside plate in the embodiment of the present invention；

Fig. 3 is the decomposing schematic representation of refrigerating box in the embodiment of the present invention；

Fig. 4 is enlarged drawing at A in Fig. 1；

Fig. 5 is the rearview of heat exchanger support in the embodiment of the present invention；

Fig. 6 is enlarged drawing at B in Fig. 5；

Fig. 7 is enlarged drawing at C in Fig. 2；

Fig. 8 is the structural representation of top cover in the embodiment of the present invention；

Fig. 9 is enlarged drawing at D in Fig. 1；

Figure 10 is enlarged drawing at E in Fig. 1；

Figure 11 is enlarged drawing at F in Fig. 2；

Figure 12 is the mounting structure schematic diagram of parallel-flow heat exchanger and support frame in the embodiment of the present invention；

Figure 13 is the structural representation of support frame in the embodiment of the present invention；

Figure 14 is the second pressure plate structure schematic diagram in the embodiment of the present invention；

Figure 15 is enlarged drawing at G in Figure 12；

Figure 16 is the structural representation of refrigerating box in the embodiment of the present invention；

Figure 17 is the decomposing schematic representation of refrigerating plant in the embodiment of the present invention；

100- refrigerating boxes；110- casings；The draw-in grooves of 111- first；The draw-in grooves of 112- the 5th；

120- front frames；130- chamber doors；140- inner bags；150- refrigerating plants；

151- semiconductor chilling plates；The heat abstractors of 152- first；The radiating blocks of 1521- first；

15211- first substrates；The radiating fins of 15212- first；The fans of 1522- first；

1523- fan grills；The heat abstractors of 153- second；The radiating blocks of 1531- second；

15311- second substrates；The radiating fins of 15312- second；1532- radiating block covers；

1533- wind scoopers；The fans of 1534- second；The air-intake devices of 160- second；The grabs of 161- first；

200- heat exchanger assemblies；210- heat exchanger supports；211- mounting grooves；212- hole clippings；

The draw-in grooves of 213- second；The draw-in grooves of 214- the 3rd；215- inside casings；2151- mounting posts；

220- parallel-flow heat exchangers；221- tops header；222- bottoms header；The pressing plates of 223- first；

2231- mounting holes；224- inlet sides；225- air sides；226- support frames；

227- input pipes；228- efferent ducts；229- drip trays；2291- first perforates；

2292- second perforates；The pressing plates of 230- second；231- the 3rd perforates；232- the 4th perforates；

240- water receiving sets；The air-intake devices of 300- first；310- iron plates；320- bending parts；

321- locating convex blocks；400- exhaust apparatus；The grabs of 410- second；The draw-in grooves of 420- the 4th；

500- top covers；510- steps；511- locating slots；520- buckles；

600- side plates；The grabs of 610- the 3rd；The grabs of 620- the 4th；The grabs of 630- the 5th.

Specific embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Reference picture 1, Fig. 2, the vertical air conditioner indoor unit that the present invention is provided, including refrigerating box 100 and located at refrigerating box 100 The air heat-exchanging device at top.Air heat-exchanging device includes heat exchanger assembly 200, located at the back of heat exchanger assembly 200 first Air-intake device 300, the exhaust apparatus 400 located at the front portion of heat exchanger assembly 200, top cover 500 and biside plate 600.Refrigerating box 100 In bottom, heat exchanger assembly 200 is placed on refrigerating box 100, and exhaust apparatus 400 are loaded on the front side of heat exchanger assembly 200 and also position In on refrigerating box 100, top cover 500 is placed in heat exchanger assembly 200 and the top of exhaust apparatus 400.Heat exchanger assembly 200, air-out is filled Put 400 and top cover 500 be installed on one after, the air-intake device 300 of biside plate 600 and first enters from arranged on left and right sides and below respectively Row is enclosed so as to form vertical air conditioner indoor unit.Refrigerating box 100 includes being in the casing 110 of rectangular-shape, is installed on casing 110 Front frame 120 at opening, in front frame 120 can opened at front face chamber door 130, inner bag 140, refrigeration in casing 110 Device 150 and can be blown to refrigerating plant 150 located at the back of casing 110 and while can the second air intake for coming out of heating load Device 160.First air-intake device 300 and the second air-intake device 160 are air-inlet grille, and two air-inlet grilles are integrally formed.This hair In bright, air heat-exchanging device, using blowing behind, so, realizes the complete of vertical air conditioner indoor unit with the part of refrigerating box 100 The back side is blown, this simple structure, and blowing range is big, and does not influence the outward appearance of product, and bottom refrigerating box 100 is using refrigeration Device 150 freezes, and is distributed heat using the second air-intake device 160, and traditional cold matchmaker's radiating mode is not recycled, is protecting The refrigeration of air heat-exchanging device is not influenceed while card 100 normal work of refrigerating box.

With reference to Fig. 4 to Fig. 6, heat exchanger assembly 200 includes heat exchanger support 210 and is fixed in heat exchanger support 210 Parallel-flow heat exchanger 220, surface is uniformly arranged multiple magnetic part (not shown)s, the first air intake dress after heat exchanger support 210 Put 300 preceding surfaces and be provided with iron plate 310 corresponding with each magnetic part respectively.Specifically, surface left and right two after heat exchanger support 210 Side is respectively equipped with multiple mounting grooves 211, and each magnetic part is respectively placed in each mounting groove 211.Using between magnetic part and iron plate 310 Magneticaction the first air-intake device 300 and the heat exchanger support 210 is adjacent to installation, it is very simple and convenient.

Referring again to Fig. 2, Fig. 7, specifically, the rear surface of casing 110 is provided with the first draw-in groove 111, the second air-intake device 160 It is provided with the first grab 161 that can from top to bottom slip into the first draw-in groove 111.During installation, by the second air-intake device 160 to downslide It is dynamic, when the first grab 161 is inserted the first draw-in groove 111, the installation between the second air-intake device 160 and refrigerating box 100 is completed, During this, the first air-intake device 300 also can simultaneously complete the installation with heat exchanger assembly 200.

Referring again to Fig. 4, Fig. 8, also there is corresponding attachment structure between the first air-intake device 300 and top cover 500, this Sample, it is ensured that the compactedness and sealing of assembling.Specifically, the top of the first air-intake device 300 is bent to form a bending part in side forward 320, the back edge of top cover 500 is provided with a step 510, and bending part 320 is overlapped on step 510.

Further, the middle part of bending part 320 is provided with locating convex block 321, and the middle part of step 510 is provided with and is available for locating convex block 321 The locating slot 511 of insertion.So, installed by the cooperation of locating convex block 321 and locating slot 511, it is ensured that bending part 320 and step 510 overlap joints more firmly, will not be shifted over.

Referring again to Fig. 8, Fig. 9, top cover 500 is with the mounting structure of heat exchanger support 210：Lower surface of top cover 500 or so Buckle 520 is respectively provided on two sides with, the top of heat exchanger support 210 is provided with hole clipping 212 corresponding with each buckle 520.And top cover 500 with Between exhaust apparatus 400 it is fixedly connected by screw, specifically, the preceding surface of top cover 500 is provided with the first screw and (does not show in figure Go out), exhaust apparatus 400 are provided with the second screw (not shown), screw is screwed in the first screw simultaneously and is with the second screw Realize the two connection.

Referring again to Fig. 9, Figure 10, the arranged on left and right sides on the preceding surface of heat exchanger support 210 is respectively equipped with the second draw-in groove 213, goes out The arranged on left and right sides on surface is respectively equipped with the second grab 410 that can from top to bottom slip into the second draw-in groove 213 after wind apparatus 400.This Sample, when mounted, the second grab 410 is alignd with the second draw-in groove 213, you can from top to bottom hang over whole exhaust apparatus 400 The front side of air-conditioning, this mounting means is quick, simple, dismantles also more convenient.Certainly, on the basis of installing herein, to strengthen Therebetween bonding strength, is also reinforced the connection (in figure between heat exchanger support 210 and exhaust apparatus 400 using screw It is not shown).

Further, in the present embodiment, table behind the arranged on left and right sides side on the preceding surface of heat exchanger support 210 and exhaust apparatus 400 Sponge heat-insulating layer (not shown) is additionally provided between the arranged on left and right sides side in face.Sponge heat-insulating layer is set, concurrent flow is effectively prevented In heat exchanger 220 there are gas exchanges and cause condensation in condensed water with the external world.

Similarly, in the present embodiment, biside plate 600 is also adopted by mounting mode and fixes.Because biside plate 600 is to be mounted on to change On the assembly of hot device assembly 200, exhaust apparatus 400 and refrigerating box 100, therefore heat exchange is fixed in the top of biside plate 600 simultaneously On device support 210 and exhaust apparatus 400.Specifically, reference picture 1, Fig. 7 and Figure 11, the arranged on left and right sides point of heat exchanger support 210 The 3rd draw-in groove 214 is not provided with, and the top of biside plate 600 is respectively equipped with the 3rd grab that can from top to bottom slip into the 3rd draw-in groove 214 610, the arranged on left and right sides of exhaust apparatus 400 is respectively equipped with the 4th draw-in groove 420, and the top of biside plate 600 is respectively equipped with can be from top to bottom The 4th grab 620 slipped into the 4th draw-in groove 420；The arranged on left and right sides of casing 110 is respectively equipped with the 5th draw-in groove 112, biside plate 600 bottoms are respectively equipped with the 5th grab 630 that can from top to bottom slip into the 5th draw-in groove 112.

To sum up, in the present embodiment, the second air-intake device 160 of vertical air conditioner indoor unit is hung up and down using grab with draw-in groove The mode for connecing, it is quick for installation, simply；And exhaust apparatus 400 and side plate 600 are also adopted by this mounting mode so that whole vertical sky Adjust the assembling of air conditioner indoor machine simpler, easy to operate, improve production efficiency.

Fig. 1, Figure 12 are refer to, parallel-flow heat exchanger 220 has inlet side 224 and air side 225, and it includes being horizontally disposed with If top header 221, bottom header 222, be vertically arranged between top header 221 and bottom header 222 Dry flat tube (not shown) and the fin (not shown) on each flat tube, top ends and the top afflux of each fin There is the first gap (not shown) between pipe 221, have between second between the bottom of each fin and bottom header 222 Gap (not shown).Heat exchanger support 210 is in cube frame shape, and it has hollow inside casing 215, parallel-flow heat exchanger 220 are installed in inside casing 215.Specifically, the front side cap of top header 221 sets the first pressing plate 223, and the first pressing plate 223 is fixed on The top of inside casing 215, top header 221 is wrapped between the first pressing plate 223 and the top of inside casing 215, and the first pressing plate 223 blocks One gap, so, can be fully entered by the wind that inlet side 224 is come in below of inside casing 215 and exchanged heat between flat tube and fin, Improve heat exchange efficiency, it is to avoid leak out.Bottom header 222 is fixed in a support frame 226, is provided with support frame 226 The conduit in second gap can be blocked.Likewise, support frame 226 also functions to the effect of keeping out the wind as the first pressing plate 223, prevent Leak-stopping wind, improves the heat exchange efficiency of parallel-flow heat exchanger 220.

First pressing plate 223 is fixed on the top of inside casing 215 using fastener such as screw.Specifically, the top of the first pressing plate 223 sets There are multiple mounting holes 2231, the top of inside casing 215 is provided with mounting post 2151 corresponding with each mounting hole 2231, and screw rotation puts corresponding Mounting hole 2231 is interior with mounting post 2151 so as to the first pressing plate 223 is fixed on inside casing 215.

Enter some step ground, in the present embodiment, insulation is additionally provided with the space that the first pressing plate 223 is enclosed with the top of inside casing 215 Layer (not shown), heat-insulation layer parcel top header 221.Heat-insulation layer is set, effectively prevent in header condensed water with it is outer There are gas exchanges and cause condensation in boundary.

To Figure 15, bottom header 222 is provided with input pipe 227 and efferent duct 228, the outside of support frame 226 to reference picture 12 Be provided with drip tray 229, drip tray 229 be provided with the first perforation 2291 for being available for input pipe 227 to be each passed through with efferent duct 228 with Second perforation 2292.In the present embodiment, drip tray 229 its Main Function is set collects and discharge parallel-flow heat exchanger 220 and flow down Condensed water.

Further, in the present embodiment, the input pipe 227 on bottom header 222 is worn by first respectively with efferent duct 228 Hole 2291 is fixed after being passed with the second perforation 2292 using the second pressing plate 230.Second pressing plate 230 is fixed in drip tray 229, Accordingly, input pipe 227 and efferent duct 228 also must by being passed through in the second pressing plate 230, therefore the second pressing plate 230 be provided with respectively with The perforation 232 of first 2292 corresponding 3rd perforation of the 2291, second perforation of perforation 231 and the 4th.

Further, for avoid extraneous air in form water droplet on input pipe 227 and efferent duct 228 to the cold and to flowing down Go out, water receiving set 240 is also arranged with respectively on input pipe 227 and efferent duct 228.Each water receiving set 240 is located at the 3rd perforation respectively 231 and the 4th perforation 232 at.

Reference picture 3, Figure 16, refrigerating plant 150 includes that semiconductor chilling plate 151, the first heat abstractor 152 and second dissipate Thermal 153, semiconductor chilling plate 151 is located between inner bag 140 and casing 110, and semiconductor chilling plate 151 has towards inner bag 140 cold end and the hot junction towards casing 110, the first heat abstractor 152 are attached at the cold end of semiconductor chilling plate 151, the Two heat abstractors 153 are attached at the hot junction of semiconductor chilling plate 151.Semiconductor chilling plate 151, is called thermoelectric module, and it is special Property is：During input supply voltage, positive-negative polarity can freeze rapidly when docking, and when semiconductor chilling plate 151 is in refrigeration, it is simultaneously For cold end one side is hot junction, heat abstractor is set in cold end and hot junction respectively here, cold end and hot junction is further carried out actively Radiating, cold storage function is realized so as to reach lower temperature.

Reference picture 17, the first heat abstractor 152 includes the first radiating block 1521, the first fan 1522 and fan grill 1523, the first radiating block 1521 is located in inner bag 140, and the rear surface of the first radiating block 1521 is stretched out and pasted by inner bag 140 In the cold end of semiconductor chilling plate 151, and the first fan 1522 is located at the front side of the first radiating block 1521.First fan 1522 are fixed on fan grill 1523.By setting fan grill 1523 so that the wind for being inhaled into the first fan 1522 is more equal It is even, also reduce noise during suction.Front, rear, left and right described herein are with the place face of 100 chamber door of refrigerating box 130 as above.This In embodiment, as shown in figure 17, it includes first substrate 15211 and some vertical and interval to the structure of the first radiating block 1521 The first radiating fin 15212 on first substrate 15211, wherein, first substrate 15211 is towards semiconductor chilling plate 151 Place, and the rear surface of first substrate 15211 is provided with projection, and each first radiating fin 15212 is arranged at first substrate 15211 Front side, i.e., near the first fan 1522 side.Between adjacent two first radiating fins 15212 formed can lower airway gas Circulation road.

Second heat abstractor 153 is located at outside casing 110, and it includes the second radiating block 1531, radiating block cover 1532, wind-guiding The fan 1534 of cover 1533 and second, the preceding surface of the second radiating block 1531 is attached on the hot junction of semiconductor chilling plate 151, dissipates On the rear surface by the second radiating block 1531, wind scooper 1533 is located at the lower section of the second radiating block 1531 to hot block cover 1532, Second fan 1534 is located at the lower section of wind scooper 1533.In the present embodiment, as shown in figure 17, it includes the structure of the second radiating block 1531 Second substrate 15311 and the second radiating fin 15312 some vertical and that interval is on the second substrate 15311, its In, second substrate 15311 is placed towards semiconductor chilling plate 151, and each second radiating fin 15312 is arranged at first substrate 15211 rear side, being formed between second substrate 15311, radiating block cover 1532 and adjacent two second radiating fin 15312 can be upper and lower The gas channel of ventilation.

In the present embodiment, the refrigeration principle of refrigerating box 100 is：Air-flow in inner bag 140 is blowed to by the first fan 1522 One radiating block 1521, the suction heat of the first radiating block 1521, and by semiconductor chilling plate 151 by the first radiating block 1521 On heat transfer to the second radiating block 1531, then thermal current is discharged by the second fan 1534 again, meanwhile, by case first The air-flow of the cooling of radiating block 1521 is achieved in cold storage function in the interior circulation of inner bag 140.

The outer gas flow stroke of refrigerating box 100 casees approximately as：Unheated air is under the rotation suction of the second fan 1534 Enter by the bottom of the second air-intake device 160 from outside, and the second radiating block 1531 is blowed to by wind scooper 1533；Unheated air By the gas channel formed between second substrate 15311, radiating block cover 1532 and adjacent two second radiating fin 15312, will The heat of the second radiating block 1531 is taken away, and is discharged by the top of the second air-intake device 160.

These are only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all it is of the invention spirit and Any modification, equivalent and improvement for being made within principle etc., should be included within the scope of the present invention.

Claims (9)

1. a kind of vertical air conditioner indoor unit, including indoor unit casing, the heat exchanger assembly in the indoor unit casing with And ducting assembly, the indoor unit casing is provided with air inlet and air outlet, the air inlet, the heat exchanger assembly, the wind Road component and the air outlet are collectively forming gas channel, it is characterised in that：Described gas channel is located at the indoor casing The top of body, including be arranged at the first air intake region at the indoor unit casing back, and before being arranged at the indoor unit casing The first air draft region in portion, the vertical air conditioner indoor unit also includes being arranged on the refrigerating box of the indoor unit casing bottom, Chamber door and the casing with interior storage space that the refrigerating box can be opened including front, inner bag is provided with the casing, The inner bag rear portion is additionally provided with refrigerating plant, the casing also include being arranged on its back for giving refrigerating plant air-supply Second air-supply region and the heat for the refrigerating box that sheds the second air draft region, the first air draft region and described second Air draft region is integrally formed and separate.

2. vertical air conditioner indoor unit as claimed in claim 1, it is characterised in that：The heat exchanger assembly includes heat exchanger branch Frame and the heat exchanger being fixed in the heat exchanger support, the first air intake region are upper air inlet grid, the enterprising style Grid are fixed on surface after the heat exchanger support.

3. vertical air conditioner indoor unit as claimed in claim 1, it is characterised in that：The ducting assembly includes air channel, described First air draft region includes being respectively arranged on two outlet frames of the preceding surface arranged on left and right sides in the air channel.

4. vertical air conditioner indoor unit as claimed in claim 2, it is characterised in that：The second air-supply region and described second Air draft region is the same air-inlet grille once below the upper air inlet grid.

5. vertical air conditioner indoor unit as claimed in claim 2, it is characterised in that：A kind of parallel-flow heat exchanger, has Inlet side and air side, it includes horizontally disposed top header, bottom header, is vertically arranged at the top header With some flat tubes between the bottom header and the fin on each flat tube, the top ends of each fin with There is the first gap between the top header, have second between the bottom of each fin and the bottom header Gap, the top header is provided with the first pressing plate that can block first gap, and the bottom header is fixed on one Being provided with support frame, in support frame as described above can block the conduit in second gap.

6. vertical air conditioner indoor unit as claimed in claim 5, it is characterised in that：The bottom header is provided with input pipe With efferent duct, support frame as described above outside is provided with drip tray, and the input pipe and the efferent duct in the drip tray by passing through.

7. vertical air conditioner indoor unit as claimed in claim 1, it is characterised in that：Inner bag and refrigeration dress are provided with the casing Put, the refrigerating plant includes semiconductor chilling plate, the first heat abstractor and the second heat abstractor, the semiconductor chilling plate Between the inner bag and the casing, the semiconductor chilling plate has towards the cold end of the inner bag and described in The hot junction of casing, first heat abstractor is attached at the cold end of the semiconductor chilling plate, and second heat abstractor is sticked In the hot junction of the semiconductor chilling plate.

8. vertical air conditioner indoor unit as claimed in claim 7, it is characterised in that：First heat abstractor includes that first dissipates Hot block, the first fan and fan grill, first radiating block be located at the inner bag in, and first radiating block rear table Face is stretched out and is attached in the cold end of the semiconductor chilling plate by the inner bag, and first fan is located at described first and dissipates The front side of hot block and it is fixed on the fan grill.

9. vertical air conditioner indoor unit as claimed in claim 7, it is characterised in that：Second heat abstractor includes that second dissipates Hot block, radiating block cover, wind scooper and the second fan, the preceding surface of second radiating block are attached at the semiconductor chilling plate Hot junction on, the radiating block covers at the rear surface of second radiating block, and the wind scooper is located at second radiating block Lower section, second fan located at the wind scooper lower section.