CN104204687B

CN104204687B - Indoor apparatus of air conditioner

Info

Publication number: CN104204687B
Application number: CN201380015616.XA
Authority: CN
Inventors: 安冨正直
Original assignee: Daikin Industries Ltd
Current assignee: Daikin Industries Ltd
Priority date: 2012-03-23
Filing date: 2013-02-13
Publication date: 2016-01-20
Anticipated expiration: 2033-02-13
Also published as: KR20140127373A; KR101511007B1; JP5447567B2; WO2013140895A1; CN104204687A; EP2829814B1; JP2013195048A; ES2628923T3; EP2829814A1; RU2557489C1; EP2829814A4

Abstract

Heat exchanger (13) as weight is supported by the first framework (17).The first framework (17) supporting this heat exchanger (13) is not fixed on by means of the second framework (27) and arranges sidewall (45).Namely, support as the heat exchanger (13) of weight heat exchanger support (17h) be directly fixed on the installation portion (17d) that sidewall (45) are set and form as one, thus form the first framework (17).Therefore, with the framework of supporting heavy be fixed on the situation that the framework split ground that arranges sidewall (45) formed and compare, the fragility elimination of the linking part office linked up by the framework of split, can improve the intensity of the first framework (17).

Description

Indoor apparatus of air conditioner

Technical field

The present invention relates to indoor apparatus of air conditioner.

Background technology

In patent document 1 (Japanese Unexamined Patent Publication 2001-116346 publication), disclose a kind of indoor apparatus of air conditioner, respectively there is suction inlet in the front portion of its main body, upper and lower.The air sucked from the lower suction inlet of the bottom of main body is provided to heat exchanger via lower suction path.Lower suction inlet and lower suction path are formed by framework.This framework bears the weight of automatic heat-exchanger, owing to applying larger power, therefore needs to improve intensity.

Summary of the invention

The problem that invention will solve

But, about the method that the intensity of the framework forming lower suction inlet and lower suction path is improved, not open in patent document 1.

Therefore, the object of the present invention is to provide a kind of indoor apparatus of air conditioner, it has the structure of the framework that can improve intensity.

For solving the means of problem

The indoor apparatus of air conditioner of a first aspect of the present invention has the lower suction inlet being arranged at bottom, and wherein, this indoor apparatus of air conditioner possesses: the first framework, and it has: the heat exchanger support of supporting hot interchanger; With for the back side being installed on the installation portion arranging sidewall; And the second framework to arrange towards arranging sidewall, it forms lower suction path from lower suction inlet to heat exchanger and lower suction inlet together with the first framework.

According to this indoor apparatus of air conditioner, by supporting as the heat exchanger of weight heat exchanger support be directly fixed on the installation portion that sidewall is set and form as one, thus form the first framework.Therefore, compare with situation about being formed with being fixed on the framework split that arranges sidewall with the framework of supporting heavy, the fragility of the linking part office linked up by the framework of split is eliminated, and can improve the intensity of the first framework.

The indoor apparatus of air conditioner of a second aspect of the present invention, according to the indoor apparatus of air conditioner of first aspect, wherein, is formed at the first framework: first surface, and it forms the blowout path of the Air blowing of automatic heat-exchanger in the future; And second, it is the face with first surface opposition side, is formed with the 3rd at the second framework, described 3rd by being installed on the rear side of the first framework, thus form lower suction path and lower suction inlet together with the second face of the first framework.

According to this indoor apparatus of air conditioner, two the first and second frame shapes become planar, easily take out from mould.In addition, by being got up by two of planar the first and second framework compositions, thus desired lower suction path and lower suction inlet can be formed.

The indoor apparatus of air conditioner of a third aspect of the present invention is according to the indoor apparatus of air conditioner of first aspect, wherein, first framework also has connected entrance, described connected entrance is for carrying the air from lower suction path to heat exchanger, second frame installation becomes to extend from the open end of connected entrance, forms lower suction path and connected entrance a succession ofly.

According to this indoor apparatus of air conditioner, the second frame installation, in the first framework, makes to become a succession of from lower suction path to connected entrance.Therefore, heat exchanger is provided to by the air in lower suction path efficiently from connected entrance.

Invention effect

Indoor apparatus of air conditioner according to a first aspect of the invention, by supporting as the heat exchanger of weight heat exchanger support be directly fixed on the installation portion that sidewall is set and form as one, thus the intensity of the first framework can be improved.

Indoor apparatus of air conditioner according to a second aspect of the invention, two the first and second frame shapes become planar, easily take out from mould.

Indoor apparatus of air conditioner according to a third aspect of the invention we, owing to becoming a succession of from lower suction path to connected entrance.Therefore heat exchanger is provided to by the air in lower suction path efficiently from connected entrance.

Accompanying drawing explanation

Fig. 1 is the stereogram of the indoor apparatus of air conditioner of an embodiment of the invention.

Fig. 2 is the sectional view of the indoor apparatus of air conditioner of an embodiment of the invention.

Fig. 3 is the schematic diagram of the structure that the first framework and the second framework are roughly shown, (a) is sectional view, and (b) is the front view of the position relationship that the first framework and heat exchanger are shown.

Fig. 4 illustrates that the second frame installation is in the stereogram of the situation of the first framework.

Fig. 5 is the rear isometric view of the first framework.

Fig. 6 is stereogram before the second framework.

Detailed description of the invention

Below, with reference to accompanying drawing, embodiments of the present invention are described.In addition, embodiment is below concrete example of the present invention, and does not limit technical scope of the present invention.

< embodiment example >

(1) overall structure

Fig. 1, Fig. 2 overall structure to indoor apparatus of air conditioner 10 is adopted to be described.Fig. 1 is the stereogram of the indoor apparatus of air conditioner of an embodiment of the invention.Fig. 2 is the sectional view of the indoor apparatus of air conditioner of an embodiment of the invention.

The indoor apparatus of air conditioner 10 of an embodiment of the invention is wall-hanging, and it is provided with main body cover 11, heat exchanger 13, indoor fan 15, first framework 17, second framework 27, filter 25 and control part 41.

Main body cover 11 has front grid 11a and front panel 11b, is installed on arranges sidewall 45 (with reference to Fig. 3) through installing plate 11c.Heat exchanger 13, indoor fan 15, filter 25 and control part 41 is accommodated with in the solid space formed by front grid 11a, front panel 11b and the first framework 17.At the back side of the first framework 17, between installing plate 11c, be provided with the second framework 27.Front panel 11b covers before front grid 11a, and upper end is supported in front grid 11a in a rotatable manner, can carry out action hingedly.

Heat exchange is carried out between heat exchanger 13 and the air passed through.In addition, heat exchanger 13 is formed as the two ends shape of the bending shape of falling V downward when observing from the side, and it is installed on the first framework 17.

Indoor fan 15 is positioned at the below of heat exchanger 13.Indoor fan 15 is cross flow fans, the air contact heat exchanger 13 that it makes to take in indoor and after passing through by this Air blowing to indoor.

The lower face of main body cover 11 is provided with blow-off outlet 19.Blow-off outlet 19 is installed in a rotatable manner to the baffle plate 29 that the air blown out from blow-off outlet 19 guides.Baffle plate 29 is driven by motor (not shown), not only changes the blow-off direction of air, can also carry out opening and closing to blow-off outlet 19.Blow-off outlet 19 is connected with the inside of main body cover 11, by the Air blowing through heat exchange in heat exchanger 13 through blowout path 18.Blowout path 18 is formed from blow-off outlet 19 along the first framework 17.

Further, at the lower face of main body cover 11, lower suction inlet 21 is arranged on than the position of blow-off outlet 19 by wall side.Lower suction inlet 21 is formed by the opening of the bottom of the first framework 17 and the second framework 27, is connected with the inside of main body cover 11 through lower suction path 16.Be provided with the rotation of switching mechanism 32 at lower suction inlet 21 and lower suction inlet 21 carried out to the flashboard 31 of opening and closing.Lower suction path 16 is formed along between the first framework 17 and the second framework 27.Therefore, lower suction path 16 is adjacent with blowout path 18 across the first framework 17.

Room air near lower suction inlet 21 is inhaled in indoor fan 15 by the running of indoor fan 15 through lower suction inlet 21, lower suction path 16, filter 25 and heat exchanger 13, and fan 15 is blown from blow-off outlet 19 through blowout path 18 indoor.

Filter 25 is configured with between the front grid 11a and heat exchanger 13 of main body cover 11.The dust removing comprised in the air that the inflow towards heat exchanger 13 is come in by filter 25.

The front upper part of front grid 11a is provided with suction inlet 22.Room air near upper suction inlet 22 is inhaled in indoor fan 15 by the running of indoor fan 15 through upper suction inlet 22, filter 25 and heat exchanger 13, and fan 15 is blown from blow-off outlet 19 through blowout path 18 indoor.

Control part 41 is accommodated in the forward portion of main body cover 11, the instruction that the rotating speed carrying out indoor fan 15 controls, the aperture of blow-off outlet 19 regulates, the aperture of lower suction inlet 21 regulates and the aperture of upper suction inlet 22 regulates.

The structure of (2) first frameworks 17 and the second framework 27

Below, Fig. 2, Fig. 3 structure to the first framework 17 and the second framework 27 is adopted to be described.Fig. 3 is the schematic diagram of the structure that the first framework and the second framework are roughly shown, (a) is sectional view, and (b) is the front view of the position relationship that the first framework and heat exchanger are shown.

Installing plate 11c for support body shell 11 is installed on main body cover 11.The second framework 27 and the first framework 17 is sequentially provided with from installing plate 11c towards front panel 11b side.First framework 17 supports heat exchanger 13 above.

(2-1) the first framework

First framework 17 has blowout end 17a, blowout path constituting portion 17b, water-collecting tray (drainpan) 17c, installation portion 17d, connected entrance 17e and heat exchanger support 17h.

Blowout end 17a is an end of the first framework 17, and it is arranged near blow-off outlet 19, is installed on main body cover 11 by such as bending relative to blowout path constituting portion 17b as illustrated.

Blowout path constituting portion 17b extends from blowout end 17a and is formed, and forms the blowout path 18 blown out to blow-off outlet 19 by the air that fan 15 exports indoor.Be formed with second 17g of the opposition side of first surface 17f and first surface 17f at the first framework 17, the first surface 17f of blowout path constituting portion 17b forms the one side in blowout path 18.

Water-collecting tray 17c is configured to from blowout path constituting portion 17b such as branch, and it has the first carrier 17c-1 and the second carrier 17c-2.The tray will received from heat exchanger 13 dripping is formed by the first carrier 17c-1 and the second carrier 17c-2.

Installation portion 17d is the other end of the first framework 17, and it extends from the first carrier 17c-1 water-collecting tray 17c and is formed.Be fixed on installing plate 11c by installation portion 17d, thus the first framework 17 can weight such as supporting hot interchanger 13 grade.

Connected entrance 17e is for will to suck from lower suction inlet 21 and air through lower suction path 16 is sent to the opening of heat exchanger 13.Connected entrance 17e is formed between the first carrier 17c-1 of water-collecting tray 17c and installation portion 17d.

As shown in Fig. 3 (b), heat exchanger support 17h is arranged on the both ends of the width of main body cover 11, supporting hot interchanger 13.Heat exchanger support 17h comprises the first heat exchanger support 17h-1 and the second heat exchanger support 17h-2.The two ends of supporting hot interchanger 13 are come by the first heat exchanger support 17h-1 and the second heat exchanger support 17h-2.

(2-2) the second framework

Second framework 27 forms lower suction inlet 21 and lower suction path 16 together with the first framework 17, has back part 27a, linking part 27b and pipeline space constituting portion 27c.

Back part 27a is formed along installing plate 11c.

Pipeline space constituting portion 27c bends from one end of back part 27a in the mode forming pipeline space 60 between installing plate 11c and is formed.At pipeline with being accommodated with the pipeline etc. be connected with between air-conditioner outdoor unit and indoor apparatus of air conditioner 10 in space 60.

Linking part 27b is formed as extending from the other end of back part 27a towards the first framework 17 side.Linking part 27b is connected with the end of the connected entrance 17e of the first framework 17, makes the air through lower suction path 16 be fed to heat exchanger 13 through connected entrance 17e.Because the second framework 27 is installed on the first framework 17 to make becoming a series of mode from lower suction path 16 to connected entrance 17e, be therefore provided to heat exchanger 13 by the air in lower suction path 16 efficiently from connected entrance 17e.

The fourth face 27e of the opposition side of the 3rd 27d and the 3rd 27d is formed at the second such framework 27.Be arranged on the rear side of the first framework 17 by the second framework 27, thus the 3rd 27d of second of the first framework 17g and the second framework 27 forms lower suction path 16.

The effect of (3) first frameworks and the second framework

Weight such as heat exchanger 13 grade is supported by the first framework 17.This first framework 17 is fixed on without the second framework 27 and arranges sidewall 45.That is, in the first framework 17, blowout end 17a, blowout path constituting portion 17b, water-collecting tray 17c, installation portion 17d and heat exchanger support 17h form as one a succession ofly.Further, weight such as supporting hot interchanger 13 grade is carried out by the heat exchanger support 17h of the first framework 17 be connected.Therefore, compare with situation about being formed with being fixed on the framework split that arranges sidewall 45 with the framework of supporting heavy, the fragility of the linking part office linked up by the framework of split is eliminated, and can improve the intensity of the first framework 17.

The weight supposing these two framework apart to become the front side frame of the weights such as supporting hot interchanger and supporting front side frame to bear also is fixed in the rear side framework of wall and is formed.In this case, need the link making front side frame and rear side framework firm, avoid front side frame to fall due to the weight of weight.But, in the structure of front side frame and the split of rear side framework, be difficult to the fragility avoiding this linking part office.According to the present embodiment, as mentioned above, the first framework 17 due to supporting heavy itself is fixed on and arranges sidewall 45, therefore, it is possible to supporting heavy fully.

In addition, because the first framework 17 and the second framework 27 forming lower suction path 16 and lower suction inlet 21 is made up of the framework of split respectively, the restriction of mould is therefore also met.That is, usually, adopt mould and form the frameworks such as the first framework 17 and the second framework 27 by injection moulding etc.But due to the restriction of mould, the first framework 17 and the second framework 27 are difficult to form as one.This is because, when to flow in mould when making moulding material and form first framework 17 and second framework 27, framework cannot be taken out from mould, or take out difficulty.In addition, namely allow to the first framework 17 and the second framework 27 to form as one, be limited to the frame shape that can take out from mould, the free degree of frame shape reduces.Therefore, the first framework 17 mould and the second framework 27 mould is adopted to form the first framework 17 and the second framework 27 respectively.Structure according to the present embodiment, due to split form the first framework 17 and the second framework 27, wherein, described first framework 17 forms the one side of lower suction passage 16, and described second framework 27 forms another side, therefore meets the restriction of mould.In addition, two the first frameworks 17 and the second framework 27 are formed as planar, easily take out from mould.

(4) embodiment

Adopt Fig. 4 to Fig. 6 that the concrete structure of present embodiment is described.Fig. 4 illustrates that the second frame installation is in the stereogram of the situation of the first framework.Fig. 5 is the rear isometric view of the first framework, and Fig. 6 is stereogram before the second framework.

The first framework 17 shown in Fig. 5 is frameworks of weight such as supporting hot interchanger 13 grade.Fig. 5 shows the rear side of the first framework 17, and the front face side of the second framework 27 in Fig. 6 is opposed with this rear side.As shown in Figure 5, in the first framework 17, blowout end 17a, blowout path constituting portion 17b, water-collecting tray 17c, installation portion 17d and heat exchanger support 17h form as one a succession ofly.On the other hand, as shown in Figure 4, the second framework 27 is installed into the part at the back side of covering first framework 17, forms lower suction path 16.

(5) feature

(5-1)

Heat exchanger 13 as weight is supported by the first framework 17.The first framework 17 supporting this heat exchanger 13 is fixed in without the second framework 27 and arranges sidewall 45.That is, by using supporting as the heat exchanger support 17h of the heat exchanger 13 of weight be directly fixed on the installation portion 17d arranging sidewall 45 and form as one, form the first framework 17.Therefore, compare with situation about being formed with being fixed on the framework split that arranges sidewall 45 with the framework of supporting heavy, the fragility of the linking part office linked up by the framework of split is eliminated, and can improve the intensity of the first framework 17.

In addition, because the first framework 17 and the second framework 27 forming lower suction path 16 and lower suction inlet 21 is made up of the framework of split respectively, the restriction of mould is therefore also met.

(5-2)

Two the first frameworks 17 and the second framework 27 are formed as planar, easily take out from mould.In addition, by two of planar the first frameworks 17 and the second framework 27 being combined, thus desired lower suction path 16 and lower suction inlet 21 can be formed.

(5-3)

Second framework 27 is installed on the first framework 17 to make becoming a series of mode from lower suction path 16 to connected entrance 17e.Therefore, heat exchanger 13 is provided to by the air in lower suction path 16 efficiently from connected entrance 17e.

(6) variation

(6-1) variation 1A

In the above-described embodiment, heat exchanger 13 is directly installed on the first framework 17.As long as carried out the weight of supporting hot interchanger 13 by the first framework 17, both directly supporting hot interchanger 13 can be carried out by the first framework 17, or also can supporting hot interchanger 13 indirectly.Such as, the first framework 17 also can carry out supporting hot interchanger 13 via other parts by heat exchanger support 17h.

(6-2) variation 1B

In the above-described embodiment, the first framework 17 supporting hot interchanger 13.First framework 17 is can the framework of the larger weight of weight ratio in support body shell 11, both only can support such as heat exchanger 13, also can other structure such as supporting hot interchanger 13 and indoor fan 15.

Utilizability in industry

As mentioned above, according to the present invention, due to the structure of the framework that can improve intensity can be provided, be therefore useful to wall-hanging air conditioner indoor unit.

Label declaration

10 indoor apparatus of air conditioner

11 main body covers

11a front grid

11b front panel

11c installing plate

13 heat exchangers

15 indoor fans

Suck path 16 times

17 first frameworks

17a blows out end

17b blows out path constituting portion

17c water-collecting tray

17c-1 first carrier

17c-2 second carrier

17d installation portion

17e connected entrance

17f first surface

17g second

17h heat exchanger support

17f-1 first heat exchanger support

17f-2 second heat exchanger support

18 blowout paths

19 blow-off outlets

21 times suction inlets

Suction inlet on 22

25 filters

27 second frameworks

27a back part

27b linking part

27c pipeline space constituting portion

27d the 3rd

27e fourth face

29 baffle plates

31 flashboards

32 switching mechanisms

41 control parts

45 arrange sidewall

60 spaces

Prior art document

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2001-116346 publication

Claims

1. an indoor apparatus of air conditioner (10), it has the lower suction inlet (21) being arranged at bottom, wherein,

This indoor apparatus of air conditioner (10) possesses:

First framework (17), it is integrally formed with: the heat exchanger support (17h) of supporting hot interchanger (13); With for the back side being installed on across installing plate (11c) installation portion (17d) arranging sidewall (45); And

Arrange sidewall and the second framework (27) arranged towards described, it forms lower suction path (16) from described lower suction inlet to described heat exchanger and described lower suction inlet together with described first framework.

2. indoor apparatus of air conditioner according to claim 1, wherein,

Be formed at described first framework: first surface (17f), it is formed the blowout path of the Air blowing from described heat exchanger; And second (17g), it is the face with described first surface opposition side,

Be formed the 3rd (27d) at described second framework, described 3rd (27d) by being installed on the rear side of described first framework, thus forms described lower suction path and described lower suction inlet together with the second face of described first framework.

3. indoor apparatus of air conditioner according to claim 1, wherein,

Described first framework also has connected entrance (17e), described connected entrance (17e) for carrying the air from described lower suction path to described heat exchanger,

Described second frame installation becomes to extend from the open end of described connected entrance, makes to become a succession of from described lower suction path to described connected entrance.