CN208936317U - Air conditioner indoor unit and air conditioner - Google Patents

Abstract

It includes air conditioner indoor unit that the utility model, which discloses a kind of air conditioner indoor unit and air conditioner, the air conditioner,；The air conditioner indoor unit includes shell, First Heat Exchanger, main drip tray and multiple secondary drip trays.Wherein, the base plate rear end of the shell is equipped with the first air inlet；The First Heat Exchanger is arranged in the shell, and tilts backwards；The lower end of the First Heat Exchanger is arranged in the main drip tray.Multiple pair drip trays include the multiple first secondary drip trays that the lower section of the First Heat Exchanger is arranged in, multiple described first secondary drip trays are successively intervally arranged along the inclined surface of the First Heat Exchanger in upward and downward, and projection of multiple described first secondary drip trays on the bottom plate of the shell joins end to end；The water receiving of at least partly described first secondary drip tray extends to first air inlet downwards.The air conditioner indoor unit of the utility model can reduce air conditioner indoor unit and drop down onto indoor condensed water, to improve the comfortable experience of user.

Description

Air conditioner indoor unit and air conditioner

Technical field

The utility model relates to air conditioner technical field, in particular to a kind of air conditioner indoor unit and air conditioner.

Background technique

With the improvement of people's living standards, the finishing pattern of home dwelling is sent out towards superior and beautifulization direction Exhibition, therefore, ceiling type air conditioner indoor unit also increasingly tend to thin type development.Traditional air conditioner indoor unit includes shell, is installed on institute The intracorporal heat exchanger of shell is stated, and the drip tray of heat exchanger lower end is set；Wherein, which is in tilt backwards setting, with Reduce heat exchanger occupied space, so that the height of air conditioner indoor unit reduces, realizes thin type.

However, when heat exchanger works, condensing in heat exchanger surface since the heat exchanger of traditional air conditioner indoor unit tilts backwards Condensed water be difficult to carry over the inclined surface of the heat exchanger and flow to drip tray, but under the effect of gravity, be dropped in air conditioner indoor unit Bottom plate on, or even from the air inlet on bottom plate drop into interior, substantially reduce the comfortable experience of user.

Utility model content

The main purpose of the utility model is to propose a kind of air conditioner indoor unit, it is intended to reduce air conditioner indoor unit and drop down onto room Interior condensed water, to improve the comfortable experience of user.

To achieve the above object, the utility model proposes a kind of air conditioner indoor unit and air conditioners.The air conditioner includes institute State air conditioner indoor unit；The air conditioner indoor unit includes shell, First Heat Exchanger, main drip tray and multiple secondary drip trays.Wherein, institute The base plate rear end for stating shell is equipped with the first air inlet；The First Heat Exchanger is arranged in the shell, and tilts backwards；It is described The lower end of the First Heat Exchanger is arranged in main drip tray；Multiple pair drip trays include the lower section that the First Heat Exchanger is arranged in The multiple first secondary drip trays, multiple described first secondary drip trays along the inclined surface of the First Heat Exchanger upward and downward successively between Every arrangement, projection of multiple described first secondary drip trays on the bottom plate of the shell joins end to end；At least partly described first The lower end of secondary drip tray extends downward into first air inlet.

Preferably, the air conditioner indoor unit further includes the first grid for being installed on first air inlet；Described first The lower end of secondary drip tray extends in the grid gap of first grid.

Preferably, the described first secondary drip tray is wholely set with first grid.

Preferably, the described first secondary drip tray can front and back to being turningly installed in the shell.

Preferably, the flase floor rotational installation of first grid connects in first air inlet, and with first pair Water pond is connected by the first linkage structure, and in the flase floor rotation of first grid, first linkage structure drives institute State the first secondary drip tray Equidirectional overturning.

Preferably, the sweptback angle of the First Heat Exchanger is α₁, α₁∈ [30 °, 50 °].

Preferably, α₁∈ [35 °, 45 °].

Preferably, angle formed by the inclined surface of the described first secondary drip tray and the First Heat Exchanger is α₂, α₂∈ [80 °, 100 °].

Preferably, projection of the multiple described first secondary drip tray on the bottom plate, covers the position of the First Heat Exchanger In projection of the main drip tray exterior portion on the bottom plate.

Preferably, the air conditioner indoor unit further includes the second heat exchanger connecting with the First Heat Exchanger；Described second Heat exchanger is located on front side of the First Heat Exchanger, and turns forward；The front end of the bottom plate of the shell is equipped with the second air inlet.

Preferably, multiple secondary drip trays further include the multiple second secondary drip trays, and multiple described second secondary drip trays are set It sets in the lower section of second heat exchanger, multiple described second secondary drip trays are along the inclined surface of second heat exchanger in upward and downward It is successively intervally arranged, projection of multiple described second secondary drip trays on the bottom plate of the shell joins end to end；At least partly institute The lower end for stating the second secondary drip tray extends downward into second air inlet.

Preferably, the air conditioner indoor unit further includes the second grid for being installed on second air inlet, and described second The lower end of secondary drip tray extends in the grid gap of second grid.

Preferably, the described second secondary drip tray is wholely set with second grid.

Preferably, the described second secondary drip tray can front and back to being turningly installed in the shell.

Preferably, the flase floor rotational installation of second grid connects in second air inlet, and with second pair Water pond is connected by the second linkage structure, and in the flase floor rotation of second grid, second linkage structure drives institute The second secondary drip tray is stated to rotate in same direction.

Preferably, the angle that second heat exchanger turns forward is β₁, β₁∈ [30 °, 50 °].

Preferably, β₁∈ [35 °, 45 °].

Preferably, angle formed by the inclined surface of the described second secondary drip tray and second heat exchanger is β₂, β₂∈ [80 °, 100 °].

Preferably, projection of the multiple described second secondary drip tray on the bottom plate, covers the position of second heat exchanger In projection of the main drip tray exterior portion on the bottom plate.

Preferably, the secondary drip tray is equipped with multiple water receiving tanks, and multiple water receiving tanks are vertically to successively arranging.

Preferably, the secondary drip tray includes water-accepting board, and from multiple water fenders of water-accepting board upper surface projection, The water receiving tank is formed between the water fender and the water-accepting board.

Preferably, the upper end of the secondary drip tray is equipped with deflector, and the deflector prolongs towards the main drip tray inclination It stretches.

Preferably, in two of the arbitrary neighborhood secondary drip trays, compared with upside secondary drip tray deflector at the bottom Projection on plate at least partly falls in the inside of the secondary drip tray of lower.

Preferably, the secondary drip tray of the neighbouring main drip tray, throwing of the deflector of the pair drip tray on the bottom plate Shadow at least partly falls in the inside of the main drip tray.

The technical solution of the utility model, by the way that main drip tray is arranged in the lower end of First Heat Exchanger, and in the first heat exchange The inclined surface of device is vertically to the multiple first secondary drip trays that are successively intervally arranged, to be accepted certainly using the multiple first secondary drip trays The condensed water that First Heat Exchanger drips downwards, and then avoid condensing drip and fall on the bottom plate of air conditioner indoor unit, or from One air inlet drops into interior.Furthermore since the water receiving face of the secondary drip tray in part first extends to the first air inlet so that this One secondary drip tray, which also can receive, is biased to the condensed water that the back lower place splashes out, thus reduce fallen on from first air inlet it is indoor cold Condensate flow.It can be seen that the air conditioner indoor unit of the utility model, can reduce condensed water and drip downwards from First Heat Exchanger, have Effect improves the comfortable experience of user.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of the utility model air conditioner indoor unit first embodiment；

Fig. 2 is First Heat Exchanger and the schematic diagram of the first secondary drip tray tilt angle in Fig. 1；

Fig. 3-A turns to status diagram when a wherein tilt angle for the in Fig. 1 first secondary drip tray；

Fig. 3-B turns to status diagram when another tilt angle for the in Fig. 1 first secondary drip tray；

Fig. 4 is the schematic diagram that First Heat Exchanger and the first secondary drip tray are projected to bottom plate in Fig. 1；

Fig. 5 is the structural schematic diagram of the utility model air conditioner indoor unit second embodiment；

Fig. 6 is the structural schematic diagram of the utility model air conditioner indoor unit 3rd embodiment；

Fig. 7 is the second heat exchanger and the schematic diagram of the second secondary drip tray tilt angle in Fig. 6；

Fig. 8-A turns to status diagram when a wherein tilt angle for the in Fig. 6 second secondary drip tray；

Fig. 8-B turns to status diagram when another tilt angle for the in Fig. 6 second secondary drip tray；

Fig. 9 is the schematic diagram that the second heat exchanger and the second secondary drip tray are projected to bottom plate in Fig. 6；

Figure 10 is the structural schematic diagram that air conditioner indoor unit increases third heat exchanger in Fig. 6；

Figure 11-A is the schematic diagram of one structure design method of secondary drip tray in Fig. 6；

Figure 11-B is the schematic diagram of another structure design method of secondary drip tray in Fig. 6；

Figure 12 is to be located at the secondary drip tray of upside in Fig. 6 to the schematic diagram for the secondary drip tray water guide for being located at downside；

Figure 13 is to be located at the secondary drip tray of upside in Fig. 6 to the schematic diagram of bottom plate；

Figure 14 is main drip tray secondary drip tray arrangement position view adjacent thereto in Fig. 6.

Drawing reference numeral explanation:

Label	Title	Label	Title
				100	Air conditioner indoor unit	40b	Second secondary drip tray
10	Shell	41	Water-accepting board
				11a	First air inlet	42	Water fender
11b	Second air inlet	43	Deflector
				12	Air outlet	44	Water receiving tank
20a	First Heat Exchanger	50a	First grid
				20b	Second heat exchanger	50b	Second grid
20c	Third heat exchanger	60	Electric heater unit
				30	Main drip tray	70	Wind wheel
40	Secondary drip tray	80	Air duct
				40a	First secondary drip tray

The utility model aim is realized, the embodiments will be further described with reference to the accompanying drawings for functional characteristics and advantage.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.It in addition, the technical solution between each embodiment can be combined with each other, but must be with ordinary skill Based on personnel can be realized, this technical side will be understood that when the combination of technical solution appearance is conflicting or cannot achieve The combination of case is not present, also not within the protection scope of the requires of the utility model.

The utility model provides a kind of air conditioner indoor unit, is mounted on the furred ceiling of building.The air conditioner indoor unit can subtract Indoor condensed water is dropped down onto, less to improve the comfortable experience of user.It should be noted that the specification in the utility model is attached In Fig. 1 to 14, with being space, hole, slot or face indicated by solid arrow；With being fluid flowing side indicated by dotted arrow To (wherein, dotted arrow shown in F indicates gas flow direction；Dotted arrow indicating liquid flow direction shown in L).

Referring to Fig. 1, air conditioner indoor unit 100 includes shell in the first embodiment of the air conditioner indoor unit 100 of the utility model Body 10, and the First Heat Exchanger 20a, main drip tray 30 and the multiple secondary drip trays 40 that are installed in shell 10 are (about secondary water receiving The structure of disk 40 sees Figure 11-A).Wherein, the front panel of shell 10 is equipped with air outlet 12, and the base plate rear end of shell 10 is equipped with First air inlet 11a.First Heat Exchanger 20a is arranged in shell 10, and tilts backwards.The main setting of drip tray 30 is in the first heat exchange The lower end of device 20a.Multiple pair drip trays 40 include the first secondary drip tray 40a of multiple lower sections that First Heat Exchanger 20a is arranged in, Multiple first pair drip tray 40a are successively intervally arranged along the inclined surface of First Heat Exchanger 20a in upward and downward, the multiple first secondary water receivings Projection of the disk 40a on the bottom plate of shell 10 joins end to end；The water receiving of at least partly first secondary drip tray 40a extends to downwards First air inlet 11a.

Specifically, shell 10 include top plate and bottom plate, front panel, postnotum, left plate (not shown) and right side plate (not Diagram).For the shape and structure of shell 10, limited there is no specific.Here, the substantially square setting of shell 10, above-mentioned each portion Divide the handover between (top plate and bottom plate, front panel, postnotum, left plate and right side plate) more obvious.But the design is not It is limited to this, shell 10 hemispherical, preceding prominent curved surface or other shapes prominent before being also possible to, in the shapes such as this between each section Join unobvious.In the present embodiment, the top plate is arranged in tabular, can be direct by the top plate of the air conditioner indoor unit 100 It is installed on the furred ceiling of house.

Referring to Fig. 1, shell 10, which is equipped with the first air inlet 11a, the first air inlet 11a the bottom of at, passes through air duct 80 and air outlet 12 connections.Tubular wine wheel 70, and the auxiliary thermal 60 of electricity are also equipped in air duct 80；First Heat Exchanger 20a is located at tubular wine wheel The upper end of 70 rear side, First Heat Exchanger 20a tilts backwards, and the inclined surface of First Heat Exchanger 20a is towards the first air inlet 11a. When air conditioner indoor unit 100 works, the tubular wine wheel 70 of air conditioner indoor unit 100 rotates, and drive air from the first air inlet 11a into Enter, this partial air blows to forward interior from air outlet 12, realize refrigeration in air duct 80 and after First Heat Exchanger 20a heat exchange Or heating.

Drip tray 40a installation site secondary for first, is installed on First Heat Exchanger 20a's for the first pair drip tray 40a Lower section, the first pair drip tray 40a is along the left and right of shell to extension, and the upper side edge of the first secondary drip tray 40a is towards main drip tray 30 (forward) inclinations.Prolong in the water receiving face (water receiving tank of the first secondary drip tray 40a bottom) of at least partly first secondary drip tray 40a The first air inlet 11a is extended to, the first air inlet is dropped onto downwards from First Heat Exchanger with the undertaking by the first secondary drip tray 40a The condensed water of 11a at mouthful.For example, if condensed water is more, when condensing drip falls in the first drip tray long side, condensed water by It hits, partial condensation water may be biased to back lower place spillage；Since the water receiving of the secondary drip tray 40a in part first extends to downwards First air inlet 11a, therefore, the condensed water which splashes out can then be connect by the water receiving face of the lower section of the first drip tray It receives, falls on indoor condensation water quantity to reduce from first air inlet.

The total quantity of drip tray 40a secondary for first is then not particularly limited, should be according in practical application, First Heat Exchanger The inclined surface size of 20a does corresponding design.For example, when the inclined surface of First Heat Exchanger 20a is larger, then more the can be increase accordingly The quantity of one secondary drip tray 40a；When the inclined surface of First Heat Exchanger 20a is smaller, then it can accordingly reduce by the first secondary drip tray 40a Quantity.It is crossed between wind it is to be noted, however, that being separated out between the two neighboring first secondary drip tray 40a for what air passed through Gap, so needing the size in conjunction with the wind gap to design, also with true when choosing the quantity of the first secondary drip tray 40a Protecting air duct 80 has preferable intake.

For the quantity for the first secondary drip tray 40a for extending downward into the first air inlet 11a, then setting tool body does not limit.It is more In a first secondary drip tray 40a, the first air inlet can be extended to downwards with the water receiving of only one of them the first secondary drip tray 40a 11a；It is also possible to two and the secondary drip tray 40a of two or more first water receivings and extends to the first air inlet 11a downwards.

For First Heat Exchanger 20a during the work time in generated condensed water, a part of condensed water carries over First Heat Exchanger The inclined surface of 20a is flowed, and is flowed into main drip tray 30；Another part condensed water under the effect of gravity, from First Heat Exchanger The inclination of 20a is dropped in downwards in the first secondary drip tray 40a.Clearly as multiple first pair drip tray 40a are in shell 10 Projection on bottom plate joins end to end, so that from the condensed water that the inclination of First Heat Exchanger 20a is dripped downwards, almost all drippage To the multiple first secondary drip tray 40a.

The technical solution of the utility model, by the way that main drip tray 30 is arranged in the lower end of First Heat Exchanger 20a, and first The inclined surface of heat exchanger 20a is vertically to multiple secondary drip trays 40 that are successively intervally arranged, to be held using multiple secondary drip trays 40 It is connected to the condensed water that First Heat Exchanger 20a is dripped downwards, and then avoids the bottom plate that condensing drip falls on air conditioner indoor unit 100 On, or from the first air inlet 11a drop into interior.Furthermore since the water receiving face of the secondary drip tray 40a in part first extends to the One air inlet 11a, so that the first secondary drip tray 40a also can receive and be biased to the condensed water that the back lower place splashes out, to reduce from institute It states the first air inlet and falls on indoor condensation water quantity.It can be seen that the air conditioner indoor unit 100 of the utility model, can be reduced cold Condensate is dripped downwards from First Heat Exchanger 20a, effectively improves the comfortable experience of user.

Referring to Fig. 2, angle sweptback for First Heat Exchanger 20a, here, for convenient for illustrating, by first The sweptback angle of heat exchanger 20a is defined as α₁.The α of conventional air conditioner indoor unit₁It needs to be remained above 45 °, just can ensure that The condensed water generated on First Heat Exchanger 20a will not drip directly down.And in the present embodiment, due in First Heat Exchanger The first secondary drip tray 40a is provided with below 20a, using the first pair drip tray 40a received from First Heat Exchanger 20a directly to The condensed water of lower drippage, therefore, in the air conditioner indoor unit of the utility model, the sweptback angle of First Heat Exchanger 20a It can be less than 45 °.

But herein it is also contemplated that if α₁Excessive, then First Heat Exchanger 20a whole height is larger, so that air conditioning chamber The height of interior machine 100 is larger, is unfavorable for 100 thin type of air conditioner indoor unit.On the contrary, if α₁It is too small, then in First Heat Exchanger 20a The condensed water of upper condensation is not easy to flow into along main drip tray 30 along the inclined surface of First Heat Exchanger 20a, and most of condensed water can be to Lower drippage increases the burden of the first secondary drip tray 40a.Therefore, α₁It should keep in a certain range.

Through testing, α₁When ∈ [30 °, 50 °], not only First Heat Exchanger 20a whole height is smaller, and in First Heat Exchanger The condensed water condensed on 20a, only sub-fraction drip downwards, reduce the burden of the first secondary drip tray 40a, effectively prevent condensing Water is fallen on bottom plate, more effectively prevents condensed water from falling into interior from the first air inlet 11a.As for α₁Specific value can be 35 °, 40 °, 45 °, 50 ° etc..

Particularly, α₁When ∈ [35 °, 45 °], it can greatly reduce First Heat Exchanger 20a the space occupied, and then can incite somebody to action Air conditioner indoor unit 100 is designed thinner.As for α₁Specific value, can also be 38 °, 40 °, 42 °, 44 ° etc..

Referring to Fig. 2, the set-up mode of drip tray 40a secondary for first, to avoid the first pair drip tray 40a from blocking air inlet Air, the first pair drip tray 40a in turning forward setting, between the two neighboring first secondary drip tray 40a between be separated out for air inlet sky The wind gap that gas passes through.Here, for convenient for illustrating, by the inclination of the first pair drip tray 40a and First Heat Exchanger 20a Face, formed angle are defined as α₂.It is considered that α₂Either excessive or too small, the first pair drip tray 40a is possible to can be to air inlet Air generates stronger barrier effect, is unfavorable for air inlet air and passes through the wind gap.

Therefore, smoothly pass through from the wind gap to ensure to enter the wind air, it is preferable that α₂∈ [80 °, 100 °], for example, 85 °, 90 °, 95 °, 100 ° etc..Particularly, α₂When ∈ [90 °, 95 °], not only blocking of the first pair drip tray 40a to air inlet air Effect is smaller, and the first pair drip tray 40a can accept more condensed water, and condensed water is not easy to spill, and water receiving effect is preferable.

It, also can be with curved surface herein it should be noted that the lower surface of the first secondary drip tray 40a can be plane.If first The lower surface of secondary drip tray 40a is plane, then α₂It should be lower surface and the First Heat Exchanger 20a of the first secondary drip tray 40a Angle formed by inclined surface.If the lower surface of the first secondary drip tray 40a is curved surface, α₂It should be the first secondary drip tray 40a String and First Heat Exchanger 20a inclined surface formed by angle, " string " herein is the secondary drip tray 40a following table of connection first The upper end in face and the connecting line of its lower end are dummy line.

Please continue to refer to Fig. 2, the mounting means of drip tray 40a secondary for first, the first pair drip tray 40a can fix peace It loaded in shell 10, or is removably installed in shell 10, the inclination angle alpha of the first secondary drip tray 40a₂It is non-adjustable.It is more A first secondary drip tray 40a can be separately installed in shell 10 one by one respectively；It can also be by the multiple first secondary drip tray 40a mono- Body setting, so that multiple first pair drip tray 40a connect into an entirety, multiple first pair drip tray 40a is integrally pacified It is attached in shell 10.As for the mode that multiple first pair drip tray 40a are wholely set, it can be the multiple first secondary drip tray 40a It is wholely set integrated molding, or increases an installing frame (not shown), multiple first pair drip tray 40a are mounted on the installation In frame, and by installing frame integral installation to shell 10.

Fig. 3-A and Fig. 3-B are please referred to, the mounting means of drip tray 40a secondary for first, the first pair drip tray 40a may be used also Be can front and back to being turningly installed in shell 10.By control the first pair drip tray 40a rotation, α can adjust₂Size, To which on the one hand using the tilt angle of the first secondary drip tray 40a, air inlet air is imported from different directions in air duct 80；Again On the one hand, the water in the first secondary drip tray 40a can be poured into downwards to another first pair drip tray 40a or main water receiving of lower section In disk 30, reach draining purpose.

Fig. 3-A and Fig. 3-B are please referred to, air conditioner indoor unit 100 further includes the first grid being installed at the first air inlet 11a 50a；The lower end of first secondary drip tray 40a extends in the grid gap of the first grid 50a.First pair drip tray 40a can receive certainly First Heat Exchanger 20a falls in downwards the condensed water on the grid gap of the first grid 50a.

Specifically, the first secondary drip tray 40a can also be with the first grid 50a split settings.Here, being connect in view of the first pair Water pond 40a is adjacent to the first grid 50a, and the first pair drip tray 40a can also be wholely set with the first grid 50a, thus assembling When, the secondary drip tray 40a entirety of the first grid 50a and first can be installed upward in shell from below shell, assembly efficiency It greatly improves.First grid 50a can be fixedly installed in the first air inlet 11a, also be pivotally mounted to the first air inlet certainly 11a.In order to realize the air inlet adjustable angle of the first air inlet 11a, preferably by the first grid 50a can front and back to being turningly installed on At first air inlet 11a.

Fig. 3-A and Fig. 3-B are please referred to, here, the first grid 50a is rotatably equipped at the first air inlet 11a, if to first Different rotational structures are respectively set from the first pair drip tray 40a in grid 50a, then also need secondary to the first grid 50a and first Different driving devices is respectively set in drip tray 40a, so necessarily will increase the occupied space of rotational structure, driving device etc., And increase cost.

Therefore preferably, the flase floor of the first grid 50a is rotatablely installed in the first air inlet 11a, and with the first secondary drip tray 40a is connected by the first linkage structure, and in the flase floor rotation of the first grid 50a, first linkage structure drives first Secondary drip tray 40a rotates in same direction.For example, first linkage structure drives the first pair to connect when the first grid 50a is deflected clockwise Water pond 40a synchronizes deflection clockwise, and the secondary drip tray 40a of the first grid 50a and first will successively enter the wind air along same side at this time In guide air inlet duct 80；Vice versa.

Obviously, air conditioner indoor unit 100 only needs that the first grid 50a can be driven and connect with the first pair by a driving device Water pond 40a rotates in same direction.The quantity for not only reducing rotational structure and driving device reduces rotational structure, driving device etc. Occupied space, and greatly reduce cost.

Referring to Fig. 4, further, to make the condensed water dripped from the first pair drip tray 40a entirely fall within multiple the In one secondary drip tray 40a, projection of multiple first pair drip tray 40a on the bottom plate, covering First Heat Exchanger 20a's is located at Projection of main 30 exterior portion of drip tray on the bottom plate.

Herein it should be noted that in the present embodiment and following embodiment, " projection " is interpreted as perspective plane.For just Projection of multiple first pair drip tray 40a on the bottom plate is defined as S in explanation₁₀, by being located at for First Heat Exchanger 20a Projection of main 30 exterior portion of drip tray on the bottom plate, is defined as S₁, that is, S₁∈S₁₀.From the first secondary drip tray The condensed water that 40a is dripped downwards all falls within projection S₁In area, due to S₁∈S₁₀, so this partial condensation water fall completely within it is multiple In first secondary drip tray 40a, the effect that multiple first pair drip tray 40a accept condensed water is effectively strengthened.

Referring to Fig. 5, in the second embodiment of the utility model, on the basis of the above embodiments, air conditioner indoor unit 100 It further include the second heat exchanger 20b being connect with First Heat Exchanger 20a.Second heat exchanger 20b is located on the upside of First Heat Exchanger 20a, Second heat exchanger 20b turns forward.

Specifically, the lower end of the second heat exchanger 20b is connect with the upper end of First Heat Exchanger 20a.Shell 10 only has the One air inlet 11a, the air entered from the first air inlet 11a, after passing through First Heat Exchanger 20a and the second heat exchanger 20b respectively, It is pooled to the front end in air duct 80, and the air outlet 12 from 80 front end of air duct is blown out forward.

Since the second heat exchanger 20b is located at the upside of First Heat Exchanger 20a, and turn forward, therefore, the second heat exchanger The condensed water of 20b can flow downwardly into main drip tray 30 from the second heat exchanger 20b, First Heat Exchanger 20a, without second Secondary drip tray 40 is set below heat exchanger 20b.

Referring to Fig. 6, in the 3rd embodiment of the utility model, with above-mentioned second embodiment the difference is that, air-conditioning Indoor unit 100 further includes the second heat exchanger 20b connecting with First Heat Exchanger 20a；Second heat exchanger 20b is located at First Heat Exchanger On front side of 20a, and turn forward；The front end of the bottom plate of shell 10 is equipped with the second air inlet 11b.

Specifically, the lower end of the second heat exchanger 20b is connect with the lower end of First Heat Exchanger 20a, and the second heat exchanger 20b With First Heat Exchanger 20a link position, it is located in main drip tray 30.When air conditioner indoor unit 100 works, from the second air inlet 11b The air of entrance is blown out forward after being exchanged heat by the second heat exchanger 20b from air outlet 12.

Referring to Fig. 6, the second heat exchanger 20b turns forward it is considered herein that arriving, condensed on the second heat exchanger 20b cold Condensate, also it is possible that being dropped on bottom plate or the second air inlet 11b downwards.Therefore in the present embodiment, multiple secondary drip trays 40 are gone back Including the multiple second secondary drip tray 40b, multiple second pair drip tray 40b, the lower section of the second heat exchanger 20b is set, multiple second Secondary drip tray 40b is successively intervally arranged along the inclined surface of the second heat exchanger 20b in upward and downward, and multiple second pair drip tray 40b exist Projection on the bottom plate of shell 10 joins end to end；At least partly first pair drip tray 40b extends to the second air inlet 11b.

Specifically, the second pair drip tray 40b is installed on the lower section of the second heat exchanger 20b, and the second pair drip tray 40b is along shell 10 left and right is to extension, and the upper side edge of the second secondary drip tray 40b is tilted towards main drip tray 30 (backward).Second heat exchanger For 20b during the work time in generated condensed water, a part of condensed water carries over the inclined surface flowing of the second heat exchanger 20b, and It is flowed into main drip tray 30；Another part condensed water under the effect of gravity, drips downwards from the inclination of the second heat exchanger 20b In the second secondary drip tray 40b.

Clearly as projection of multiple second pair drip tray 40b on the bottom plate of shell 10 joins end to end, so that from second The condensed water that the inclination of heat exchanger 20b is dripped downwards, almost all drops onto the multiple second secondary drip tray 40b, to avoid On the bottom plate that the condensing drip generated on the second heat exchanger 20b falls on shell 10 or at the second air inlet 11b.

Referring to Fig. 6, the quantity of drip tray 40b secondary for second is then not particularly limited, should according in practical application, the The inclined surface size of two heat exchanger 20b does corresponding design.For example, when the inclined surface of the second heat exchanger 20b is larger, then it can be corresponding Increase the quantity of the more second secondary drip tray 40b；When the inclined surface of second heat exchanger 20b is smaller, then it can accordingly reduce by the first pair The quantity of coil pipe.It is to be noted, however, that being separated out the mistake passed through for air between the two neighboring second secondary drip tray 40b Wind gap, so also need the size in conjunction with the wind gap to design when choosing the quantity of the second secondary drip tray 40b, To ensure that air duct 80 has preferable intake.

For the quantity for the second secondary drip tray 40b for extending downward into the second air inlet 11b, then setting tool body does not limit.It is more In a second secondary drip tray 40b, the second air inlet can be extended to downwards with the water receiving of only one of them the second secondary drip tray 40b 11b；It is also possible to two and the secondary drip tray 40b of two or more second water receivings and extends to the second air inlet 11b downwards.

Referring to Fig. 7, for the angle that the second heat exchanger 20b turns forward, here, for convenient for illustrating, by second The angle that heat exchanger 20b turns forward is defined as β₁.The β of conventional air conditioner indoor unit₁It needs to be remained above 45 °, just can ensure that The condensed water generated on second heat exchanger 20b will not drip directly down.And in the present embodiment, due in the second heat exchanger The second secondary drip tray 40b is provided with below 20b, using the second pair drip tray 40b received from the second heat exchanger 20b directly to The condensed water of lower drippage, therefore, in the air conditioner indoor unit of the utility model, the second sweptback angle of heat exchanger 20b It can be less than 45 °.

But it is considered herein that arrives, if β₁Excessive, then the second heat exchanger 20b whole height is larger, in air conditioner indoor unit 100 Height it is certain in the case where, then need to limit the outlet air surface of 80 front end of air duct, be unfavorable for 100 outlet air of air conditioner indoor unit.On the contrary Ground, if β₁Condensed water that is too small, then condensing on the second heat exchanger 20b is not easy to flow into along the inclined surface of second heat exchanger 20b In main drip tray 30, most of condensed water can be dripped downwards, increase the burden that the second pair drip tray 40b receives condensed water.Therefore, β₁It should keep in a certain range.

Through testing, β₁When ∈ [30 °, 50 °], not only the second heat exchanger 20b whole height is smaller, and in the second heat exchanger The condensed water condensed on 20b, only sub-fraction drip downwards, reduce the burden of the second secondary drip tray 40b, effectively prevent condensing Water is fallen on bottom plate, more effectively prevents condensed water from falling into interior from the second air inlet 11b.As for β₁Specific value, can be 35 °, 40 °, 45 °, 50 ° etc..

Particularly, β₁When ∈ [35 °, 45 °], it can be ensured that 80 front end of air duct has biggish outlet air surface, and can reduce The burden of second pair drip tray 40b reception condensed water.As for β₁Specific value, can also be 38 °, 40 °, 42 °, 44 ° etc..

Referring to Fig. 7, the set-up mode of drip tray 40b secondary for second, to avoid the second pair drip tray 40b from blocking air inlet Air, the second pair drip tray 40b in tilting backwards setting, between the two neighboring second secondary drip tray 40b between be separated out for air inlet sky The wind gap that gas passes through.Here, for convenient for illustrating, by the lower surface of the second secondary drip tray 40b and the second heat exchanger 20b Inclined surface, formed angle is defined as β₂.It is considered that β₂Either excessive or too small, the second pair drip tray 40b is possible to meeting Stronger barrier effect is generated to air inlet air, is unfavorable for air inlet air and passes through the wind gap.

Therefore, smoothly pass through from the wind gap to ensure to enter the wind air, it is preferable that β₂∈ [80 °, 100 °], for example, 85 °, 90 °, 95 °, 100 ° etc..Particularly, β₂When ∈ [90 °, 95 °], not only blocking of the second pair drip tray 40b to air inlet air Effect is smaller, and the second pair drip tray 40b can accept more condensed water, and condensed water is not easy to spill, and water receiving effect is preferable.

It, also can be with curved surface herein it should be noted that the lower surface of the second secondary drip tray 40b can be plane.If second The lower surface of secondary drip tray 40b is plane, then β₂It should be lower surface and the First Heat Exchanger 20a of the second secondary drip tray 40b Angle formed by inclined surface.If the lower surface of the second secondary drip tray 40b is curved surface, β₂It should be the second secondary drip tray 40b String and the second heat exchanger 20b inclined surface formed by angle, " string " herein is the secondary drip tray 40b following table of connection second The upper end in face and the connecting line of its lower end are dummy line.

Referring to Fig. 7, the mounting means of drip tray 40b secondary for second, the second pair drip tray 40b can be fixedly installed in In shell 10, or it is removably installed in shell 10.Multiple second secondary drip tray 40b can respectively one by one it is separately installed in In shell 10；Multiple second pair drip tray 40b can also be wholely set, so that multiple second pair drip tray 40b are connected into One entirety, will be in the multiple second secondary drip tray 40b integral installation to shell 10.As for the multiple second secondary drip tray 40b mono- The mode of body setting can be multiple second pair drip tray 40b and be wholely set integrated molding, or increases by an installing frame, will Multiple second pair drip tray 40b are mounted in the installing frame, and by installing frame integral installation to shell 10.In addition, also may be used Multiple first pair drip tray 40a and multiple second width drip trays to be wholely set.

Fig. 8-A and Fig. 8-B are please referred to, the mounting means of drip tray 40b secondary for second, the second pair drip tray 40b may be used also Be can front and back to being turningly installed in shell 10.By control the second pair drip tray 40b rotation, β can adjust₂Size, To which on the one hand using the tilt angle of the second secondary drip tray 40b, air inlet air is imported from different directions in air duct 80；Again On the one hand, the water in the second secondary drip tray 40b can be poured into downwards to another second pair drip tray 40b or main water receiving of lower section In disk 30, reach draining purpose.

Fig. 8-A and Fig. 8-B are please referred to, air conditioner indoor unit 100 further includes second be installed at the second air inlet 11b Grid 50b；The lower end of second secondary drip tray 40b extends in the grid gap of the second grid 50b.Second pair drip tray 40b can connect It receives from the condensed water on the grid gap that the second heat exchanger 20b falls in downwards the second grid 50b.

Specifically, the second secondary drip tray 40b can be with the second grid 50b split settings.Here, in view of the second secondary water receiving Disk 40b can also be wholely set adjacent to the second grid 50b, the second pair drip tray 40b with the second grid 50b, thus in assembly, The secondary drip tray 40b entirety of second grid 50b and second can be installed upward in shell 10 from the lower section of shell 10, assembly efficiency It greatly improves.Second grid 50b can be fixedly installed in the second air inlet 11b, also be pivotally mounted to the second air inlet certainly 11b.Be herein the air inlet adjustable angle for realizing the second air inlet 11b, preferably by the second grid 50b can front and back to turningly installing In the second air inlet 11b.

Fig. 8-A and Fig. 8-B are please referred to, here, in view of the second grid 50b is rotatably equipped at the second air inlet 11b, if right Different rotational structures are respectively set from the second pair drip tray 40b in second grid 50b, then also need to the second grid 50b and Different driving devices is respectively set in second mate's drip tray 40b, and the occupancy that so necessarily will increase rotational structure, driving device etc. is empty Between, and increase cost.

Therefore preferably, the flase floor of the second grid 50b is rotatablely installed in the first air inlet 11a, and with the second secondary drip tray 40b is connected by the second linkage structure, and in the second grid 50b rotation, second linkage structure drives the second secondary drip tray 40b rotates in same direction.For example, second linkage structure drives the described second secondary drip tray when the second grid 50b is deflected clockwise 40b synchronizes deflection clockwise, and the second grid 50b and the second secondary drip tray 40b successively leads air inlet air in the same direction at this time In air inlet duct 80；Vice versa.

Obviously, air conditioner indoor unit 100 only needs that the second grid 50b can be driven and connect with the second pair by a driving device Water pond 40b rotates in same direction.The quantity for not only reducing rotational structure and driving device reduces rotational structure, driving device etc. Occupied space, and greatly reduce cost.

Referring to Fig. 9, further, to make the condensed water dripped from the second pair drip tray 40b entirely fall within multiple the In second mate's drip tray 40b, projection of multiple second pair drip tray 40b on the bottom plate, the second heat exchanger 20b's of covering is located at Projection of main 30 exterior portion of drip tray on the bottom plate.

By projection of multiple second pair drip tray 40b on the bottom plate, to be defined as S convenient for explaining₂₀, second is changed Hot device 20b's is located at projection of main 30 exterior portion of drip tray on the bottom plate, is defined as S₂, that is, S₂∈S₂₀.From The condensed water that second pair drip tray 40b is dripped downwards all falls within projection S₂In area, due to S₂∈S₂₀, so this partial condensation water It falls completely in the multiple second secondary drip tray 40b, effectively strengthens the effect that multiple second pair drip tray 40b accept condensed water.

Referring to Fig. 10, on the basis of the above embodiments, air conditioner indoor unit 100 can also increase third heat exchanger 20c, The upside of First Heat Exchanger 20a, and the lower end of third heat exchanger 20c and the First Heat Exchanger is arranged in third heat exchanger 20c 20a connection.

Figure 10 and Figure 11-A and Figure 11-B are please referred to, is based on above-mentioned any one embodiment, secondary drip tray 40 (including first is secondary The pair of drip tray 40a and second drip tray 40b) it is limited without specific structure.A water receiving tank 44 can be only arranged in secondary drip tray 40, The water receiving space of the water receiving tank 44 can be increased, suitably to expand water capacity.Secondary drip tray 40 is also provided with multiple water receiving tanks 44, Multiple water receiving tanks 44 vertically to successively arranging, thus, each pair drip tray 40 all has biggish water receiving space, water capacity compared with Greatly.

Figure 10 and Figure 11-B is please referred in the present embodiment, secondary drip tray 40 is provided with multiple water receiving tanks 44.As in pair The mode of multiple water receiving tanks 44 is set on drip tray 40, and herein preferably, secondary drip tray 40 includes water-accepting board 41, and from water-accepting board Multiple water fenders 42 of 41 upper surface projections form water receiving tank 44 between water fender 42 and water-accepting board 41.

Specifically, the upper surface of water-accepting board 41 is the water receiving face for accepting condensed water for each secondary drip tray 40, The lower surface of water-accepting board 41 is wind-guiding face.Multiple water receiving tanks 44 are formed between multiple water fenders 42 and water-accepting board 41, when be located at compared with After the water receiving tank 44 of upside is fully loaded, the condensed water in the water receiving tank 44 is overflowed to downwards in another water receiving tank 44 of lower, has Effect expands the capacity of secondary drip tray 40, prevents secondary 40 spill-over of drip tray.

It is considered herein that arriving, the condensed water dripped downwards from First Heat Exchanger 20a or the second heat exchanger 20b falls in secondary water receiving When the upper end of disk 40, the upper surface that a part carries over secondary drip tray 40 is flowed into the water receiving tank 44 of the pair drip tray 40；Another portion Divide the pair drip tray 40 that is then staggered, and continues drippage downwards.

For the condensed water for avoiding above-mentioned continuation from dripping downwards, the secondary drip tray 40 neighbouring from the pair drip tray 40 and lower section it Between wind gap drip away, it is preferable that be equipped with deflector 43 in the upper end of secondary drip tray 40, deflector 43 is towards main water receiving The inclination of disk 30 extends.

Figure 11-A, Figure 11-B and Figure 12 are please referred to, for secondary drip tray 40 adjacent thereto for main drip tray 30, the pair The deflector 43 of drip tray 40 will be dropped in the condensed water of 40 upper end of pair drip tray, and a part imported into the pair drip tray 40 In water receiving tank 44；And by the downward water conservancy diversion of another part condensed water into main drip tray 30.

Figure 12 is please referred to, for drip trays 40 secondary for two of arbitrary neighborhood, the secondary drip tray 40 positioned at upside is led Flowing plate 43 will be dropped in the condensed water of 40 upper end of pair drip tray, and a part is imported into the water receiving tank 44 of the pair drip tray 40； And by the downward water conservancy diversion of another part condensed water into the secondary drip tray 40 for being relatively located at downside.

Please refer to Figure 12, it is preferable that deflector 43 and water-accepting board 41 are integrally formed.Deflector 43 is in the arcuation of upward projection Setting, so that the upper surface of deflector 43 effectively carries out water conservancy diversion to condensed water, the lower surface of deflector 43 then effectively prevent condensing Water is flowed out along the lower surface of water-accepting board 41.

Figure 13 is please referred to, based on the above embodiment, in the secondary drip tray 40 of two of arbitrary neighborhood, for convenient for the pair compared with upside Condensed water is imported in the secondary drip tray 40 of lower, is limited herein, compared with the secondary drip tray of upside by the deflector 43 of drip tray 40 Projection (as shown in Figure 11 S of 40 deflector 43 on the bottom plate₃₀), at least partly fall in the secondary drip tray 40 of lower Inside.

That is, extending to secondary 40 inside water receiving tank 44 of drip tray just compared with the deflector 43 of the secondary drip tray 40 of upside Top.When dripping downwards when condensed water from the deflector 43 of the secondary drip tray 40 compared with upside, the pair for accurately dropping into lower is connect In water pond 40, the effect that secondary drip tray 40 accepts condensed water is effectively strengthened.

Figure 14 is please referred to, further, the secondary drip tray 40 of neighbouring main drip tray 30, the deflector 43 of the pair drip tray 40 Projection (S as shown in Figure 12 on the bottom plate₃₀), at least partly fall in the inside of main drip tray 30.That is, neighbouring The secondary drip tray 40 of main drip tray 30, deflector 43 extend to the surface of main 30 inside water receiving tank 44 of drip tray.Work as condensation When water drips downwards from the deflector 43 of the pair drip tray 40, accurately drops into main drip tray 30, effectively strengthen main water receiving The effect of the undertaking condensed water of disk 30.

The utility model also provides a kind of air conditioner, and the air conditioner includes air conditioner indoor unit, the air conditioner indoor unit Specific structure is same since this air conditioner uses whole technical solutions of above-mentioned all embodiments referring to above-described embodiment Sample has all beneficial effects brought by the technical solution of above-described embodiment, and this is no longer going to repeat them.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (25)

1. a kind of air conditioner indoor unit, including shell characterized by comprising

First Heat Exchanger, the First Heat Exchanger is arranged in the shell, and tilts backwards；

The lower end of the First Heat Exchanger is arranged in main drip tray, the main drip tray；And

Multiple pair drip trays, the multiple first secondary drip trays of the lower section including the First Heat Exchanger is arranged in, multiple described the One secondary drip tray is successively intervally arranged along the inclined surface of the First Heat Exchanger in upward and downward, and multiple described first secondary drip trays exist Projection on the bottom plate of the shell joins end to end；

Wherein, the base plate rear end of the shell is equipped with the first air inlet；The lower end of at least partly described first secondary drip tray is downward Extend to first air inlet.

2. air conditioner indoor unit as described in claim 1, which is characterized in that the air conditioner indoor unit further includes being installed on described First grid of one air inlet；The lower end of described first secondary drip tray extends in the grid gap of first grid.

3. air conditioner indoor unit as claimed in claim 2, which is characterized in that the described first secondary drip tray and first grid one Body setting.

4. air conditioner indoor unit as claimed in claim 2, which is characterized in that the first secondary drip tray can front and back to turningly pacifying Loaded in the shell.

5. air conditioner indoor unit as claimed in claim 4, which is characterized in that the flase floor of first grid is rotatablely installed in institute The first air inlet is stated, and is connect with the described first secondary drip tray by the first linkage structure, in the flase floor of first grid When rotation, first linkage structure drives the described first secondary drip tray Equidirectional overturning.

6. air conditioner indoor unit as described in claim 1, which is characterized in that the sweptback angle of First Heat Exchanger is α₁, α₁∈ [30 °, 50 °].

7. air conditioner indoor unit as claimed in claim 6, which is characterized in that α₁∈ [35 °, 45 °].

8. air conditioner indoor unit as claimed in claim 6, which is characterized in that the described first secondary drip tray and the First Heat Exchanger Inclined surface formed by angle be α₂, α₂∈ [80 °, 100 °].

9. air conditioner indoor unit as described in claim 1, which is characterized in that multiple described first secondary drip trays are on the bottom plate Projection, cover the First Heat Exchanger be located at projection of the main drip tray exterior portion on the bottom plate.

10. air conditioner indoor unit as described in claim 1, which is characterized in that the air conditioner indoor unit further includes and described first Second heat exchanger of heat exchanger connection；Second heat exchanger is located on front side of the First Heat Exchanger, and turns forward；The shell The front end of the bottom plate of body is equipped with the second air inlet.

11. air conditioner indoor unit as claimed in claim 10, which is characterized in that multiple secondary drip trays further include multiple second The lower section of second heat exchanger, multiple described second secondary drip trays are arranged in secondary drip tray, multiple described second secondary drip trays It is successively intervally arranged along the inclined surface of second heat exchanger in upward and downward, multiple described second secondary drip trays are in the shell Projection on bottom plate joins end to end；The lower end of at least partly described second secondary drip tray extends downward into second air inlet.

12. air conditioner indoor unit as claimed in claim 11, which is characterized in that the air conditioner indoor unit further include be installed on it is described The lower end of second grid of the second air inlet, the described second secondary drip tray extends in the grid gap of second grid.

13. air conditioner indoor unit as claimed in claim 12, which is characterized in that the described second secondary drip tray and second grid It is wholely set.

14. air conditioner indoor unit as claimed in claim 12, which is characterized in that the second secondary drip tray can front and back to turningly It is installed in the shell.

15. air conditioner indoor unit as claimed in claim 14, which is characterized in that the rotational installation of the flase floor of second grid in Second air inlet, and connect with the described second secondary drip tray by the second linkage structure, in the grid of second grid When plate rotates, second linkage structure drives the described second secondary drip tray to rotate in same direction.

16. air conditioner indoor unit as claimed in claim 10, which is characterized in that the angle that second heat exchanger turns forward is β₁, β₁∈ [30 °, 50 °].

17. air conditioner indoor unit as claimed in claim 16, which is characterized in that β₁∈ [35 °, 45 °].

18. air conditioner indoor unit as claimed in claim 11, which is characterized in that the lower surface of the second secondary drip tray with it is described Angle is formed between the inclined surface of second heat exchanger, formed angle is β₂, β₂∈ [80 °, 100 °].

19. air conditioner indoor unit as claimed in claim 11, which is characterized in that multiple described second secondary drip trays are in the bottom plate On projection, cover second heat exchanger is located at projection of the main drip tray exterior portion on the bottom plate.

20. the air conditioner indoor unit as described in claim 1 to 19 any one, which is characterized in that the pair drip tray is equipped with more A water receiving tank, multiple water receiving tanks are vertically to successively arranging.

21. air conditioner indoor unit as claimed in claim 20, which is characterized in that the pair drip tray includes water-accepting board, and from Multiple water fenders of water-accepting board upper surface projection, form the water receiving tank between the water fender and the water-accepting board.

22. the air conditioner indoor unit as described in claim 1 to 19 any one, which is characterized in that the upper end of the pair drip tray Equipped with deflector, the deflector extends towards the main drip tray inclination.

23. air conditioner indoor unit as claimed in claim 22, which is characterized in that in the secondary drip tray of two of arbitrary neighborhood, Compared with projection of the deflector on the bottom plate of the secondary drip tray of upside, the interior of the secondary drip tray of lower is at least partly fallen in Side.

24. air conditioner indoor unit as claimed in claim 22, which is characterized in that the secondary drip tray of the neighbouring main drip tray, it should Projection of the deflector of secondary drip tray on the bottom plate at least partly falls in the inside of the main drip tray.

25. a kind of air conditioner, which is characterized in that including the air conditioner indoor unit as described in claim 1 to 24 any one.