CN207584907U - Wall-hanging indoor unit of air conditioner - Google Patents
Wall-hanging indoor unit of air conditioner Download PDFInfo
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- CN207584907U CN207584907U CN201721455348.5U CN201721455348U CN207584907U CN 207584907 U CN207584907 U CN 207584907U CN 201721455348 U CN201721455348 U CN 201721455348U CN 207584907 U CN207584907 U CN 207584907U
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Abstract
The utility model provides a kind of wall-hanging indoor unit of air conditioner, including:Housing, including case and the front panel being set in front of case, front panel opens up the first air outlet and the second air outlet of oblong, and housing is arranged with respect to support wall and is tilted down setting, so that air outlet is obliquely downward;The heat exchanger being set in housing, position are connected with air inlet;It is respectively arranged in the first jet portion in the first air outlet and the second jet portion being arranged in the second air outlet, the first puff prot and the second puff prot for confessing air-flow after heat exchange are respectively formed on the internal perisporium in the first jet portion and the second jet portion, heat exchange air-flow drives the air in the first jet portion and the second jet portion center exhausting hole oliquely downward to send out;The first air-supply assembly of enclosure interior and the second air-supply assembly are arranged at intervals at, is respectively used to provide heat exchange air-flow to the first jet portion and the second jet portion.This programme increases air output, makes indoor temperature is whole uniformly to decline.
Description
Technical field
The utility model is related to air conditioner, more particularly to wall-hanging indoor unit of air conditioner.
Background technology
Air conditioner is one of indispensable household electrical appliance, as requirement of the user to comfort and health is also higher and higher,
The air supply mode of traditional air conditioner is after cold wind is sent into interior, and with the slow convection current of surrounding air, heat transfer rate is slower, it is impossible to people
Nice and cool feeling rapidly, and the air outlet of indoor unit can bring user health adverse effect, be susceptible to sky to people's blow-through
Adjust disease.
For this problem, occurs the indoor unit of the injection air outlet of soft air-supply in the prior art, utilization is smaller
Air outlet drive surrounding air blowout so that the air after heat exchange mixes submitting with surrounding air, however injection air outlet pair
Structure it is more demanding so that injection air outlet is applied in the more abundant cabinet type indoor machine in space mostly.And apply injection
The hanging indoor unit of air outlet in order to meet injection air outlet structural requirement generally require casing being provided in round or its
His irregular shape, on the one hand the existing cognitive presence gap with the use habit of user and to hanging indoor unit, does not allow
It is susceptible to user acceptance;On the other hand it also makes troubles for the installation of hanging indoor unit, therefore the hanging room of application injection air outlet
Interior machine cannot meet the requirement of user.
Utility model content
One purpose of the utility model is to provide for a kind of blow in the fast wall-hanging air conditioner room of soft heat transfer rate
Machine.
The utility model one meets use further objective is that cause the compact-sized of wall-hanging indoor unit of air conditioner
The use habit at family.
The utility model another further objective is that so that wall-hanging indoor unit of air conditioner air supply pattern is flexible, it is full
The adjusting requirement of the different requirements of foot.
Particularly, the utility model provides a kind of wall-hanging indoor unit of air conditioner, including:
Housing, including case and the front panel being set in front of case, front panel offer it is spaced respectively into
The first air outlet and the second air outlet of oblong, housing are arranged with respect to the branch for fixing wall-hanging indoor unit of air conditioner
Buttress body is tilted down setting, so that air outlet is obliquely downward;
Heat exchanger is set in housing and is posted by the position of front panel;
It is respectively arranged in the first jet portion in the first air outlet and the second jet portion being arranged in the second air outlet, the
The first puff prot and the second puff prot are respectively formed on the internal perisporium in one jet portion and the second jet portion, the first puff prot is used for
Air-flow in first jet portion is sprayed, and drives the surrounding air in the first exhausting hole for limiting of the first jet portion internal perisporium
It oliquely downward sends out, the second puff prot is used to spray in the air-flow in the second jet portion, and drives the second jet portion internal perisporium limit
Surrounding air in the second exhausting hole made oliquely downward is sent out, and the first exhausting hole and the second exhausting hole are being blown respectively
The upstream in direction and environment;
First air-supply assembly and the second air-supply assembly, are horizontally arranged at interval in enclosure interior, wherein the first air-supply assembly
For will feed in the first jet portion with the air that heat exchanger exchanges heat and sprayed from the first puff prot, the first exchanging air is formed
Stream, the second heat exchange air-flow that the second air-supply assembly is used for after being exchanged heat with heat exchanger feed in the second jet portion and from second
Puff prot sprays, and forms the second heat exchange air-flow.
Optionally, above-mentioned wall-hanging indoor unit of air conditioner further includes:The back fixation of fixed frame, one end and case connects
It connects, the other end is used to be fixed on support wall;And at least part of the lower edge at the back of case forms chamfering, with solid
Frame is determined with after support wall fixation, support wall being bonded using chamfering, so as to support indoor unit.
Optionally, housing be arranged with respect to wall range of tilt angles be set as 5 to 30 degree.
Optionally, the first jet portion and the second jet part are not made of annular inner wall and annular outer wall, and
The annular outer wall in the first jet portion limits the first air feed chamber jointly with annular inner wall, and the annular in the first jet portion is outer
The edge that wall connects with annular inner wall forms the first puff prot, and the end of the first jet portion side is provided with to be connected with the first air-supply assembly
The first logical air inlet, so as to which the first heat exchange air-flow is introduced the first air feed chamber;
The annular outer wall in the second jet portion limits the second air feed chamber jointly with annular inner wall, and the annular in the second jet portion is outer
The edge that wall connects with annular inner wall forms the second puff prot, and the end of the second jet portion side is provided with to be connected with the second air-supply assembly
The second logical air inlet, so as to which the second heat exchange air-flow is introduced the second air feed chamber, and the first air inlet and the second air inlet point
It is not opened in close to the both ends of case different lateral, and towards opposite.
Optionally, the posterior edges of the annular inner wall in the first jet portion are to the first air feed chamber internal recess, and first sprays
The position that the annular outer wall in gas portion is opposite with the posterior edges of annular inner wall has outside flange, so that the first jet portion
Annular outer wall and annular inner wall posterior edges between gap formed the first puff prot;
The posterior edges of the annular inner wall in the second jet portion are to the second air feed chamber internal recess, and the ring in the second jet portion
The shape outer wall position opposite with the posterior edges of annular inner wall has outside flange, so that the annular in the second jet portion is outer
Gap between wall and the posterior edges of annular inner wall forms the second puff prot.
Optionally, the annular inner wall in the first jet portion extends to form forward continuous abducent first from lateral edges thereafter
Coanda surface;And the section that the annular outer wall in the first jet portion is located at the part on rear side of the first jet portion is spiral, from
And cause the first air feed chamber air-flow along the annular outer wall in the first jet portion from the first puff prot ejection after, along the first coanda table
Face is sent out, and drives the surrounding air in the first exhausting hole of extraction;And
The annular inner wall in the second jet portion extends to form forward continuous abducent second coanda from lateral edges thereafter
Surface;And the section that the annular outer wall in the second jet portion is located at the part on rear side of the second jet portion is spiral, so that
The air-flow of second air feed chamber after the ejection of the second puff prot, is sent along the annular outer wall in the second jet portion along the second Coanda surface
Go out, and drive the surrounding air in the second exhausting hole of extraction.
Optionally, the both sides of case offer air inlet respectively, the first air-supply assembly and the second air-supply assembly respectively from into
Ambient air is sucked at air port, the first air outlet is laterally opened in the lower part of front panel, and the second air outlet is laterally opened in
The top of front panel, and the first air outlet is symmetrical arranged with the second air outlet relative to the cross central line of front panel, and
The bottom wall of case is provided with air-vent at the rear portion in the first jet portion, for the first exhausting hole and environment.
Optionally, above-mentioned wall-hanging indoor unit of air conditioner further includes:Partition board, center are backwardly recessed, with front panel it
Between limit heat exchanger accommodating chamber for arranging heat exchanger, and the both sides of partition board form flange backward, air inlet opens up
At the position opposite with flange, accommodated so that the flange of partition board and the side wall of case are limited from air inlet to heat exchanger
The air intake passage of chamber;The first through hole being horizontally arranged at interval and the second through-hole are provided in the middle part of partition board;
First air-supply assembly includes:First centrifugal blower and the first wind guide component, the first centrifugal blower are set to partition board
Between case, and as the power source of the first heat exchange air-flow, collection gas port is pierced by from first through hole, with from heat exchanger accommodating chamber
Suck air, and the side wall of the case of the first air inlet side of exhaust outlet direction of the spiral case of the first centrifugal blower;First leads
Wind part is connected between the exhaust outlet and the first air inlet of the first centrifugal blower, and the air inlet of the first wind guide component
Connect with the exhaust outlet of the spiral case of the first centrifugal blower, the air-flow that the first centrifugal blower is discharged is led into the first air feed
Chamber.
Second air-supply assembly includes:Second centrifugal blower and the second wind guide component, the second centrifugal blower are set to partition board
Between case, and as the power source of the second heat exchange air-flow, collection gas port is pierced by from the second through-hole, with from heat exchanger accommodating chamber
Suck air, and the side wall of the case of the second air inlet side of exhaust outlet direction of the spiral case of the second centrifugal blower;Second leads
Wind part is connected between the exhaust outlet and the second air inlet of the second centrifugal blower, and states the air inlet of the second wind guide component
Mouth connects with the exhaust outlet of the spiral case of the second centrifugal blower, and the air-flow that the second centrifugal blower is discharged is led into the second air feed
Chamber.
Optionally, the first wind guide component includes:First Drainage Section, the air inlet with the first wind guide component, and the
At least part segment body of one Drainage Section is spiral, is downward by the airflow direction guiding of the first centrifugal blower discharge;First supplies
Wind section connects with the first Drainage Section, inside limit the first air collecting chamber, to receive the air-flow of the first centrifugal blower discharge, the
One air feed section is provided with the first row gas port to connect with the first air inlet, so that the air-flow of the first air collecting chamber feeds to the first air feed chamber;
And
Second wind guide component includes:Second Drainage Section has the air inlet of the second wind guide component, and the second Drainage Section
At least part segment body it is spiral, by the second centrifugal blower discharge airflow direction guiding be upward;Second air feed section, with
Two Drainage Sections connect, inside limit the second air collecting chamber, to receive the air-flow of the second centrifugal blower discharge, the second air feed section opens
There is the second exhaust port to connect with the second air inlet, so that the air-flow of the second air collecting chamber feeds to the second air feed chamber.
Optionally, the air inlet of the first Drainage Section from the first wind guide component is tapered along airflow direction, and the first air feed section is along
The air-out direction of one Drainage Section forms scroll casing shape, reduces windage of the first heat exchange air-flow in the first air collecting chamber;Second Drainage Section
Tapered along airflow direction from the air inlet of the second wind guide component, the second air feed section forms spiral case along the air-out direction of the second Drainage Section
Shape reduces windage of the second heat exchange air-flow in the second air collecting chamber.The wall-hanging indoor unit of air conditioner of the utility model, housing
There are two the air outlets of oblong for setting on front panel, are respectively used to the first jet portion and the second jet portion of arrangement annular, and
Respectively by the air-flow of the first air-supply assembly and the supply of the second air-supply assembly by heat exchanger heat exchange so that air-flow after heat exchange from
The puff prot in the first jet portion and the second jet portion sprays, and aspirates air outlet ambient air, violent with the ambient enviroment temperature difference
Exchanging air stream mixed, so as to ensure send out air-flow it is soft, the impression for being blown to human body is more comfortable, on the one hand increases
Air output accelerates the flowing of room air, can make indoor temperature is whole uniformly to decline, and the utility model is wall-mounted
Air conditioner room unit overall structure and the existing hanging indoor unit of tradition are more similar, are easily easily accepted by a user, and easily replace
The existing hanging indoor unit of tradition is changed, installation site is flexible.
Further, the wall-hanging indoor unit of air conditioner of the utility model offers air inlet on the both sides of case respectively,
Heat exchanger accommodating chamber where extraneous air enters heat exchanger from both sides ensure that the unobstructed of heat exchange air-flow, avoid open top
Fall grey problem, further such that the structure of indoor unit is compacter, the front and rear air of heat exchange, and shell are separated using partition board
Body is overall beautiful.And air inlet direction is both sides, and air supply direction for it is preceding to so that indoor air flow forms cycle, heat exchange efficiency
Higher.
Further, the wall-hanging indoor unit of air conditioner of the utility model, housing are to be obliquely installed relative to support wall,
So that air outlet, towards oblique lower section, due to using injecting type air-out mode, air output is big, so as to solve in air outlet direction
During front, air-supply air-flow jet length on sustained height is remote, but the problem of convection current degree is inadequate in short transverse, this reality
It is obliquely installed with novel wall-hanging indoor unit of air conditioner due to using so that the oblique lower section of air-supply air-flow, and air inlet position
Setting at the top of indoor unit, airflow circulating is formd, further improves indoor temperature equalization.
Further, the wall indoor unit of the utility model, two air-supply assemblies provide to two jet portions change respectively
Air-flow after heat, and finally sprayed from puff prot, two air-supply assemblies are worked in coordination, common to blow, and can be distinguished according to operating mode
It is independently controlled, such as selection is blown simultaneously according to identical air quantity;It blows respectively according to different air quantity;Startup air-supply is selected,
So that indoor unit outlet air meets the requirement of these different operating modes, control is more flexible, meets the different requirements of user.
Further, the wall-hanging indoor unit of air conditioner of the utility model separates the front and rear sky of heat exchange using partition board
Gas, internal part is compact-sized, makes full use of the space in housing, and wall-hanging indoor unit of air conditioner can be made to become thinner.
Further, the wall-hanging indoor unit of air conditioner of the utility model, heat exchanging device, centrifugal blower, wind guide component
The position and construction for waiting components are improved, and are on the one hand reduced occupied space, on the other hand can also be reduced air-supply
Windage.
According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more
Add the above-mentioned and other purposes, advantages and features of clear the utility model.
Description of the drawings
Some specific realities of the utility model are described in detail by way of example rather than limitation with reference to the accompanying drawings hereinafter
Apply example.Identical reference numeral denotes same or similar component or part in attached drawing.It should be appreciated by those skilled in the art that
What these attached drawings were not necessarily drawn to scale.In attached drawing:
Fig. 1 is the schematic appearance figure according to the wall-hanging indoor unit of air conditioner of the utility model one embodiment;
Fig. 2 is the scheme of installation according to the wall-hanging indoor unit of air conditioner of the utility model one embodiment;
Fig. 3 is the schematic explosive view according to the wall-hanging indoor unit of air conditioner of the utility model one embodiment;
Fig. 4 is the signal in the first jet portion in the wall-hanging indoor unit of air conditioner according to the utility model one embodiment
Figure;
The front view in Fig. 5 the first jet portions shown in Fig. 4;
Fig. 6 is the air flow direction figure along the schematic sectionals intercepted of the cutting line A-A in Fig. 5;
Fig. 7 is the schematic diagram of internal part in the wall-hanging indoor unit of air conditioner according to the utility model one embodiment;
And
Fig. 8 is the first air-supply assembly and second in the wall-hanging indoor unit of air conditioner according to the utility model one embodiment
The structure diagram that air-supply assembly is blown to the first jet portion and the second jet portion.
Specific embodiment
A kind of wall-hanging indoor unit of air conditioner 100 is present embodiments provided, for ease of description, is referred in specification
Orientation such as " on " " under " " preceding " " rear " " top " " bottoms " are according to the space under 100 normal operating conditions of wall-hanging indoor unit of air conditioner
Before position relationship is defined, such as 100 user oriented side of wall-hanging indoor unit of air conditioner is, it is posted by installation site
After side is.
Fig. 1 is according to the schematic appearance figure of the wall-hanging indoor unit of air conditioner 100 of the utility model one embodiment, figure
2 be according to the scheme of installation and Fig. 3 of the wall-hanging indoor unit of air conditioner 100 of the utility model one embodiment be basis
The schematic explosive view of the wall-hanging indoor unit of air conditioner 100 of the utility model one embodiment.Wall-hanging indoor unit of air conditioner
100 may include in general manner:Housing 110, the first jet portion 128, the second jet portion 129, heat exchanger 140, the first air-supply assembly,
Second air-supply assembly.Its middle casing 110 can include:Case 112 and the front panel 114 for being set to 112 front of case.Case
112 are formed by roof, side wall, back, these components limit the space for accommodating internal part jointly, and front panel 114 is arranged in
The front of case 112, so as to close the inner space of case 112.
The first air outlet 117 and the second air outlet of spaced long circle respectively are offered on front panel 114
119, such as the first air outlet 117 can laterally be opened in the lower part of front panel 114, before the second air outlet 119 is laterally opened in
The top of panel 114;First air outlet 117 and the second air outlet 119 can be symmetrical relative to the cross central line of front panel 114
Setting.
A kind of mounting means of wall-hanging indoor unit of air conditioner is:Fixed frame 160 for installing housing 110 is set.Gu
The one end for determining frame 160 is connect with the back fixation of case 112, and the other end supports wall 200, the back of the body of case 112 for being fixed on
The lower edge in portion also reclines with support wall 200, so as to form the support construction of housing 110.Above-mentioned fixed frame 160 can be whole
The fixed plate of body or one or more hanging bar.One end that fixed frame 160 fixes support wall 200 can pass through screws bolts
Deng being reliably fixedly connected with mode.
At least part of the lower edge at the back of case 112 forms chamfering, in fixed frame 160 and support wall 200
After fixation, support wall is bonded using chamfering 118, so as to support indoor unit 100.Such as the lower edge at the back of case 112
Both sides form chamfering 118.In further embodiments, chamfering 118 can also be integrally formed in the lower edge at the back of case 112.
The range of tilt angles that housing 110 is arranged with respect to wall 200 is set as 5 to 30 degree.It presses at above-mentioned angle of inclination
Suspension height and indoor environment according to indoor unit 100 carry out measuring and calculating and determine, so as to preferably meet the requirement of airflow circulating.
Air inlet 116 can be arranged on the side wall of 112 both sides of case, and ambient air outside can be got in from both sides
Inside machine 100, so as to smoothly exchange heat into 140 place heat exchanger accommodating chamber of heat exchanger, heat exchange air-flow ensure that
Unobstructed, air inlet 116 can be formed by grid, mesh etc..The setting structure of this air inlet 116 can ensure the entirety of appearance
Property improves the aesthetic measure of body.Air inlet is generally set to top, the scheme of the present embodiment in compared with the prior art
Dust is easily fallen into inside indoor unit in an idle state, and is entered the wind from both sides, and air inlet region area is big, and avoids and fall
Grey problem.
First air outlet 117 and the second air outlet 119 are in the upstream of air supply direction and environment.First air outlet
117 can laterally be opened in the lower part of front panel 114, and the second air outlet 119 is laterally opened in the top of front panel 114, and
First air outlet is symmetrical arranged with the second air outlet relative to the cross central line of front panel, and the rear portion of the bottom wall of case
(rear portion in the first jet portion 128 set in the first air outlet 117) is provided with air-vent 1171, for the first jet portion 128
The first exhausting hole 1282 and environment.Above structure can, in the case where housing 110 tilts installation, to ensure
First air outlet, 117 rear has air circulation region, so that 117 inside of the first air outlet connects with air circulation region
Logical, the recuperated gas sprayed for the first jet portion 128 can be mixed from the air circulation region draws ambient air, be mixed
The temperature difference of air-flow and ambient enviroment after conjunction is small, softer, and air output bigger, accelerates the flowing of room air.
Second air outlet 119 front and rear can be disposed through the top (phase of case 112 and front panel 114 of housing 110
Position is answered to be provided with the through-hole of oblong, so as to form pre-and post perforative second air outlet 119.The rear side of case 112 is formed
The position (rear side on top) of second air outlet 119 is recessed forward so that also has air circulation at 119 rear of the second air outlet
Region, so that 119 inside of the second air outlet and air circulation regional connectivity, the exchanging air sprayed for the second jet portion 129
Body can be mixed from the air circulation region draws ambient air.
Alternatively, the second air outlet 119 can also be set to the forward position of housing 110 and (only be opened on plate 114 in front
Hole), the rear portion of housing 110 namely the rear side in 112 roof of case are provided with and environment in the upstream of air supply direction
Vacancy section can pass through the first exhausting hole 1282 and the second exhausting hole for recuperated gas by vacancy section draws ambient air
1292, it is mixed.
Extraneous air enters from both sides air inlet 116 inside housing 110, from the first air outlet 117 and the second air outlet
119 send out so that indoor air flow forms cycle, heat exchange efficiency higher.
Heat exchanger 140 is set to inside housing 110.Heat exchanger 140 and the air progress heat exchange for flowing through it, to change
Flow through the temperature of its air.A part of the heat exchanger 140 as refrigeration system, refrigeration system, which can utilize, compresses refrigeration cycle
It realizes, compression refrigeration cycle is recycled real using refrigerant in the compression phase transformation of compressor, condenser, evaporator, throttling set
The transmission of existing heat.Refrigeration system can also set four-way valve, change the flow direction of refrigerant, replace indoor set heat exchanger 140
As evaporator or condenser, refrigeration or heat-production functions are realized.It is art technology due to compressing refrigeration cycle in air conditioner
Known by personnel, this will not be repeated here for operation principle and construction.Heat exchanger 140 can be board-like, before being posted by housing 110
Panel 114 is set.
First jet portion 128 is set in the first air outlet 117, whole in long circular ring shape (or track type), just
Can be in horizontally disposed under normal installation condition.Second jet portion 129 is set in the second air outlet 119, and whole is in long annulus
Shape (or track type) can be in horizontally disposed under normal mounting state.The center in the first jet portion 128 has first to take out
Air holes 1282, the center in the second jet portion 129 have the second exhausting hole 1292.First exhausting hole 1282 and the second exhausting hole 1292
Respectively in the upstream of air supply direction and environment.First jet portion 128 and the second jet portion 129 can be respectively arranged in
The lower part and top of front panel 114.First exhausting hole 1282 passes through air-vent 1171 and environment.
(direction of air inlet is differed only in since the structure in the second jet portion 129 and the first jet portion 128 is basically identical
On the contrary), the structure in the first jet portion 128 is introduced below in conjunction with attached drawing, the structure in the second jet portion 129 can be mutually deserved
Go out.First jet portion 128 and its size, the specification of internal part, can be set according to the draft capacity of the first air-supply assembly
It puts.Fig. 4 is that the first jet portion 128 faces in the wall-hanging indoor unit of air conditioner 100 according to the utility model one embodiment
Figure, the front view in Fig. 5 the first jet portions 128 shown in Fig. 4, Fig. 6 are the schematic sectionals intercepted along the cutting line A-A in Fig. 5
Air flow direction figure.
The first puff prot 124 and the second spray are respectively formed on the internal perisporium in the first jet portion 128 and the second jet portion 129
Gas port (unmarked in figure), the first puff prot 124 is used to spray in the air-flow in the first jet portion 128, and drives the first jet
Surrounding air in the first exhausting hole 1282 that 128 internal perisporium of portion limits oliquely downward is sent out, and the second puff prot is used for the
Air-flow in two jet portions 129 sprays, and drives the ring in the second exhausting hole 1292 that 129 internal perisporium of the second jet portion limits
Border air is oliquely downward sent out.
First jet portion 128 and the second jet portion 129 can be made of respective annular inner wall and annular outer wall respectively, and
And first annular outer wall and the annular inner wall in jet portion 128 limit the first air feed chamber 125, the ring in the first jet portion 128 jointly
Edge that shape outer wall connects with annular inner wall forms the first puff prot 124, and the end of the side in the first jet portion 128 is provided with and the
First air inlet 1281 of one air-supply assembly connection, so as to which the first heat exchange air-flow is introduced the first air feed chamber 125.
Second jet portion 129 is consistent with the structure in the first jet portion 128, and is symmetrical arranged, therefore the second jet portion 129
Annular outer wall and annular inner wall limit the second air feed chamber (unmarked in figure), the annular outer wall in the second jet portion 129 jointly
The edge to connect with annular inner wall forms the second puff prot (unmarked in figure), and the end of the side in the second jet portion 129 is provided with
The second air inlet connected with the second air-supply assembly, so as to which the second heat exchange air-flow is introduced the second air feed chamber.First air inlet
1281 and second air inlet be opened in respectively close to the both ends of housing 110 different lateral, and direction is on the contrary, such as the first air inlet
Mouthfuls 1281 are set to the left side in the first jet portion 128 and towards the left side of case 112, then the second air inlet is set to the second spray
The right side in gas portion 129 and towards the right side of case 112.
In first jet portion 128, above-mentioned oblong is collectively formed, and in annular in annular inner wall 121 and annular outer wall 122
The inside of wall 121 is the first exhausting hole 1282.The edge that annular outer wall 122 connects with annular inner wall 121 forms the first puff prot
124, the first puff prot 124 is used to spray in the air-flow of the first air feed chamber 125, and causes the air at 117 rear portion of the first air outlet
It is drawn through the first air outlet 117.
The posterior edges 126 of annular inner wall 121 are to 125 internal recess of the first air feed chamber, and annular outer wall 122 and annular
The position that the posterior edges 126 of inner wall 121 are opposite has outside flange 127, so that annular outer wall 122 and annular inner wall
Gap between 121 posterior edges 126 forms the first puff prot 124.Annular inner wall 121 is to 125 inner-concave of the first air feed chamber
The posterior edges 126 entered can also have the function of airflow direction guiding, make air-flow in the first air feed chamber 125 successfully from the
One puff prot 124 is sent out.
Annular inner wall 121 extends to form forward continuous abducent first Coanda surface from lateral edges 126 thereafter;And
And annular outer wall 122 be located at the part of the rear side of the first jet portion 128 section it is spiral so that the first air feed chamber 125
Air-flow along annular outer wall 122 from the first puff prot 124 ejection after, along annular inner wall 121 formed the first Coanda surface give
Go out, and drive the surrounding air at 117 rear of the first air outlet of extraction.Annular inner wall 121 extends forward continuous abducent expansion
It can be 5 to 15 degree to open up angle of inclination, and angle of inclination is bigger, and the expansion rate for the air-flow that puff prot 124 sprays is faster, through excessive
The test of amount between the extension angle of inclination of annular inner wall 121 could be provided as 6 to 10 degree, is more advantageous to and first takes out in this way
Surrounding air in air holes 1282 is mixed.
Annular inner wall 121 and annular outer wall 122 limit the first air feed chamber of the annular inside the first jet portion 128 jointly
125, lateral one end of annular outer wall 122 is provided with to provide the air-flow after the heat exchange of heat exchanger 140 to the first air feed chamber 125
First air inlet 1281.
In some optional embodiments, the first jet portion 128 is whole can be with long circle, outside annular inner wall 121 and annular
Wall 122 be respectively provided with two it is intersegmental every horizontal section and connect two sections of horizontal sections two sections of curved sections, wherein two sections of arcs
First air inlet 1281 in the first jet portion 128 is offered on one section of annular outer wall 122 in shape section, for receiving first
The air-flow after heat exchange that air-supply assembly provides.
The above-mentioned section of annular inner wall 121 and annular outer wall 122 can be spliced to form by the component of multiple connections, at some
In preferred embodiment, annular inner wall 121 and annular outer wall 122 can be formed by whole moulded parts.
First puff prot 124 can be continuous annular groove, and in some optional embodiments, the first puff prot 124 also may be used
Multistage to be formed on a part of section of annular inner wall 121 and annular outer wall 122 or to be spaced.Such as first jet
Mouth 124 can be only arranged in horizontal section so that jet is more uniform, and can effectively drive the first exhausting hole
Surrounding air in 1282.In order to improve the effluxvelocity of the first puff prot 124, the width of the first puff prot 124 can be set
It is 1 to 3mm, by largely testing, the width of the first puff prot 124 can be preferably arranged to 2mm or so, the dimension width
First puff prot 124 not only ensures the jet velocity of heat exchange air-flow, but also can reduce the windage loss of heat exchange air-flow to the greatest extent, and reduction is made an uproar
Sound.Solid arrow is the airflow direction of surrounding air in figure 6, and dotted arrow is the heat exchange air-flow that the first puff prot 124 sprays
Airflow direction.
Second jet portion 129 has the structure identical with the first jet portion 128, the annular inner wall in the second jet portion 129
Posterior edges are to the second air feed chamber internal recess, and the posterior edges of the annular outer wall in the second jet portion 129 and annular inner wall
Opposite position has outside flange, so that the posterior edges of the annular outer wall in the second jet portion 129 and annular inner wall
Between gap formed the second puff prot.The annular inner wall in the second jet portion 129 extends to form forward continuously from lateral edges thereafter
Abducent second Coanda surface;And the annular outer wall in the second jet portion 129 is located at the section of the part of rear side into spiral shell
Revolve shape so that the air-flow of the second air feed chamber along the annular outer wall in the second jet portion 129 after the ejection of the second puff prot, along the
Two Coanda surfaces are sent out, and drive the surrounding air in the second exhausting hole 1292 of extraction.The annular outer wall in the second jet portion 129
One end be provided with for the second air feed chamber provide through heat exchanger 140 heat exchange after air-flow the second air inlet.
The other structures details in the second jet portion 129 can accordingly obtain from the description in the first jet portion 128, herein not
Do repetition.In some preferred embodiments, the first jet portion 128 and the second jet portion 129 can also be respectively by motors and transmission
Mechanism drive, realize it is whole swing up and down, adjust wind direction, realize swing air-supply so that wind-out range is broader.
First air-supply assembly and the second air-supply assembly, are arranged at intervals inside housing 110, wherein the first air-supply assembly is used
Enter in generating from air inlet 116, first air feed chamber is fed by the first air inlet 1281 after being exchanged heat with heat exchanger 140
125 the first heat exchange air-flow namely the first air-supply assembly are used to the air after being exchanged heat with heat exchanger 140 feeding to the first spray
It is sprayed in gas portion 128 and from the first puff prot 124;Second air-supply assembly enters for generating from air inlet 116, with heat exchanger
140 exchanged heat after by the second air inlet feed the second air feed chamber second heat exchange air-flow namely the second air-supply assembly be used for
Air after being exchanged heat with heat exchanger 140 is fed in the second jet portion 129 and is sprayed from the second puff prot.
First air-supply assembly and the second air-supply assembly are with the center symmetric setting of heat exchanger 140, the first air-supply assembly and
Two air-supply assemblies are blown respectively to the first air inlet 1281 and the second air inlet.
First air-supply assembly includes:First centrifugal blower 131 and the first wind guide component 136.First centrifugal blower 131 is made
For first heat exchange air-flow flowing power source, can be configured so that surrounding air from air inlet 116 enter and with heat exchanger 140
It exchanges heat, is discharged after the first centrifugal blower 131 to airflow downstream, indoor unit is sent out eventually by the first jet portion 128
Outside 100.First wind guide component 136 is connected between the exhaust outlet and the first air inlet 1281 of the first centrifugal blower 131, and
Air-flow for the first centrifugal blower 131 to be discharged leads into the first air feed chamber 125.
Second air-supply assembly includes:Second centrifugal blower 151 and the second wind guide component 156.Second centrifugal blower 151 is made
For second heat exchange air-flow flowing power source, can be configured so that surrounding air from air inlet 116 enter and with heat exchanger 140
It exchanges heat, is discharged after the second centrifugal blower 151 to airflow downstream, indoor unit is sent out eventually by the second jet portion 129
Outside 100.Second wind guide component 156 is connected between the exhaust outlet and the second air inlet of the second centrifugal blower 151, and is used for
The air-flow that second centrifugal blower 151 is discharged is led into the second air feed chamber.
Fig. 7 is the signal of internal part in the wall-hanging indoor unit of air conditioner 100 according to the utility model one embodiment
Figure.The inside of wall-hanging indoor unit of air conditioner 100 further includes partition board 143, and partition board 143 is for the front and rear air-flow of isolation heat exchange.It should
The center of partition board 143 is backwardly recessed, and the heat exchanger accommodating chamber for arranging heat exchanger 140 is limited between front panel 114,
And the both sides of partition board 143 form flange 1433 backward, and air inlet 116 is opened at the position opposite with flange 1433, from
And the flange 1433 of partition board 143 and the side wall of case 112 is caused to limit and lead to from air inlet 116 to the air inlet of heat exchanger accommodating chamber
Road.Heat exchanger 140 is set in heat exchanger accommodating chamber.
For extraneous air after the entrance of both sides air inlet 116, the space limited along flange 1433 moves forward into heat exchanger appearance
It receives chamber, exchanges heat with heat exchanger 140.
Air inlet 116 is only connected with heat exchanger accommodating chamber, can be that one or multi-channel grid is formed, so that one
Portion of external air enters laterally heat exchanger accommodating chamber from side wall, exchanges heat with heat exchanger 140, on the one hand expands air inlet
116 area improves the unobstructed of heat exchange air-flow;On the other hand from two lateral heat exchanger accommodating chamber air feeds, it is also ensured that change
The heat exchange of hot device 140 is balanced.
The center of partition board 143 is provided with 145 and second through-hole 146 of first through hole, respectively for the first centrifugal blower 131 and
First collection gas port 132 of two centrifugal blowers 132 passes through.First centrifugal blower 131 and the second centrifugal blower 132 sucking heat exchanger hold
The air that intracavitary and heat exchanger 140 exchange heat is received, so as to be respectively formed the first heat exchange air-flow and the second heat exchange air-flow.First centrifugation wind
The first impeller 133 and the first spiral case 134 of machine 131 are set in the space that partition board 143 is limited with case 112, and the first snail
The exhaust outlet of shell 134 is towards the side wall of case 112;The exhaust outlet phase of the air inlet of first wind guide component 136 and the first spiral case 134
It connects.
Analogously, the second impeller 153 of the second centrifugal blower 151 and the second spiral case 154 are set to partition board 143 and case
In 112 spaces limited, and the exhaust outlet of the second spiral case 154 is towards another side wall of housing 110;Second wind guide component 156
Air inlet connect with the exhaust outlet of the second spiral case 154.
Fig. 8 be in the wall-hanging indoor unit of air conditioner 100 according to the utility model one embodiment the first air-supply assembly and
The structure diagram that second air-supply assembly is blown to the first jet portion 128 and the second jet portion 129.First air-supply assembly includes:
First centrifugal blower 131 and the first wind guide component 136, the second air-supply assembly include:It second centrifugal blower 151 and second leads
Wind part 156.In order to ensure air jet velocities, first air-supply assembly and the second air-supply assembly of the present embodiment employ from
Power source of the heart wind turbine as heat exchange air-flow, the first centrifugal blower 131 and the second centrifugal blower 151 can be set to partition board
Between 143 and case 112.
First centrifugal blower 131 is converted to the principle of potential energy according to kinetic energy, using high-speed rotating first impeller 133 by gas
Body accelerates, and then slows down, changes flow direction, kinetic energy is made to be converted into potential energy.First centrifugal blower 131 generally comprises the first collection gas port
132nd, the first impeller 133, the first spiral case 134.First collection gas port 132 of the first centrifugal blower 131 act as guarantee air-flow energy
The import interface of the first impeller 133 is equably full of, reduces flow losses, in the present embodiment, the of the first centrifugal blower 131
One collection direction from gas port 132 to the first impeller 133 it is tapered, formed horn mouth, can as possible by heat exchanger accommodating chamber with heat exchange
The air that device 140 exchanges heat sucks the first impeller 133.First impeller 133 of the first centrifugal blower 131 is by the first high-speed electric expreess locomotive 135
When drive rotates with the axis, the gas between the first impeller 133 rotates with the first impeller 133 and obtains centrifugal force, and gas is thrown out of
One impeller 133, into the first spiral case 134, the gas pressure intensity in the first spiral case 134, which increases, is directed to discharge.Interlobate gas
After being discharged, negative pressure is formed;The air in heat exchanger accommodating chamber outside first collection gas port 132 is constantly inhaled into, so as to be formed
Continuous flow.
The first impeller 133 and the first spiral case 134 of first centrifugal blower 131 are set to what partition board 143 was limited with case 112
In space, and the exhaust outlet of the first spiral case 134 is towards the side wall of case 112;The air inlet and first of first wind guide component 136
The exhaust outlet of spiral case 134 connects.First spiral case 134 helically, inhales the air that collection is thrown away from the first impeller 133, and lead to
Gradually wealthy sectional area is crossed, the dynamic pressure of air-flow is converted into static pressure.
First wind guide component 136 is connected between the exhaust outlet and the first air inlet 1281 of the first centrifugal blower 131, and
Air-flow for the first centrifugal blower 131 to be discharged leads into the first air feed chamber 125.First wind guide component 136 can include
First Drainage Section 137 and the first air feed section 138.
First Drainage Section 137 has the air inlet of the first wind guide component 136, and at least part of the first Drainage Section 137
Segment body is spiral, is downward by the airflow direction guiding that the first centrifugal blower 131 is discharged, the first Drainage Section 137 is led from first
The air inlet of wind part 136 is tapered along airflow direction, so as to accelerate the first air collecting chamber 139 that air-flow enters the first air feed section 138
Wind speed.
First air feed section 138 connects with the first Drainage Section 137, inside limit the first air collecting chamber 139, to receive first
The air-flow that centrifugal blower 131 is discharged, the first air feed section 138 are provided with towards the first air inlet 1281, so that the first air collecting chamber 139
Air-flow feeds to the first air feed chamber 125.First air feed section 138 forms scroll casing shape along the air-out direction of the first Drainage Section 137, reduces gas
The windage in the first air collecting chamber 139 is flowed, it is made to be formed in the first air collecting chamber 139 and is vortexed, it can be successfully from the first gas collection
Chamber 139 leads to the first air feed chamber 125.
Above-mentioned first Drainage Section 137 can be arranged on the side of the first centrifugal blower 131, since the space of partition board 143 limits
System, the longitudinal separation of the first Drainage Section 137 is smaller, and the first air feed section 138 is located at lower section (namely the partition board of heat exchanger accommodating chamber
143 and the lower section of heat exchanger 140), therefore its distance in the front-back direction be more than the first Drainage Section 137, the row of the first air feed section 138
Gas port is set to the forepart (position pair with the first air inlet 1281 that the first air collecting chamber 139 is posted by 128 side of the first jet portion
Should).
The structure of second air-supply assembly and the first air-supply assembly are basically identical.Specifically, the second centrifugal blower 151 generally packet
Include the second collection gas port 152, the second impeller 153, the second spiral case 154.The effect of second collection gas port 152 of the second centrifugal blower 151
To ensure that air-flow can equably be full of the import interface of the second impeller 153, flow losses are reduced.The of second centrifugal blower 151
Two collection direction from gas port 152 to the second impellers 153 it is tapered, formed horn mouth, can as possible by heat exchanger accommodating chamber with heat exchange
The air that device 140 exchanges heat sucks the second impeller 153.Second impeller 153 of the second centrifugal blower 151 is by the second high-speed electric expreess locomotive 155
When drive rotates with the axis, the gas between the second impeller 153 rotates with the second impeller 153 and obtains centrifugal force, and gas is thrown out of
Two impellers 153, into the second spiral case 154, the gas pressure intensity in the second spiral case 154, which increases, is directed to discharge.Interlobate gas
After being discharged, negative pressure is formed;The air in heat exchanger accommodating chamber outside second collection gas port 152 is constantly inhaled into, so as to be formed
Continuous flow.
The second impeller 153 and the second spiral case 154 of second centrifugal blower 151 are set to what partition board 143 was limited with case 112
In space, and the exhaust outlet of the second spiral case 154 is towards the side wall of case 112;The air inlet and second of second wind guide component 156
The exhaust outlet of spiral case 154 connects.Second spiral case 154 helically, inhales the air that collection is thrown away from the second impeller 153, and lead to
Gradually wealthy sectional area is crossed, the dynamic pressure of air-flow is converted into static pressure.
Second wind guide component 156 is connected between the exhaust outlet and the second air inlet of the second centrifugal blower 151, and is used for
The air-flow that second centrifugal blower 151 is discharged is led into the second air feed chamber.Second wind guide component 156 can include the second drainage
157 and second air feed section 158 of section.
Second Drainage Section 157 has the air inlet of the second wind guide component 156, and at least part of the second Drainage Section 157
Segment body is spiral, is upward by the airflow direction guiding that the second centrifugal blower 151 is discharged, the second Drainage Section 157 is led from second
The air inlet of wind part 156 is tapered along airflow direction, so as to accelerate the second air collecting chamber 159 that air-flow enters the second air feed section 158
Wind speed.
Second air feed section 158 connects with the second Drainage Section 157, inside limit the second air collecting chamber 159, to receive second
The air-flow that centrifugal blower 151 is discharged, the second air feed section 158 are provided with towards the second air inlet 1281, so that the second air collecting chamber 159
Air-flow feeds to the second air feed chamber.Second air feed section 158 forms scroll casing shape along the air-out direction of the second Drainage Section 157, reduces air-flow
Windage in the second air collecting chamber 159 makes it be formed in the second air collecting chamber 159 and is vortexed, can be successfully from the second air collecting chamber
159 lead to the second air feed chamber.
Above-mentioned second Drainage Section 157 can be arranged on the side of the second centrifugal blower 151, since the space of partition board 143 limits
System, the longitudinal separation of the second Drainage Section 157 is smaller, and the second air feed section 158 is located at lower section (namely the partition board of heat exchanger accommodating chamber
143 and the lower section of heat exchanger 140), therefore its distance in the front-back direction be more than the second Drainage Section 157, the row of the second air feed section 158
Gas port is set to the forepart (corresponding with the position of the second air inlet) that the second air collecting chamber 159 is posted by 129 side of the second jet portion.
First air-supply assembly and the second air-supply assembly can work in coordination realization air-supply, and the two can start simultaneously, can be with
It is activated individually, the operating mode of the first air-supply assembly and the second air-supply assembly can include:The two is run with same wind speed, the two
It is run with different wind speed, the first air-supply assembly isolated operation, the second air-supply assembly isolated operation, the first air-supply assembly and second are sent
Wind component alternate run.
More than operating mode can coordinate the various sensors of indoor unit 100 to use, by 100 working environment of indoor unit
Detection, according to the operating status of the first air-supply assembly of default control mode adjustment, the second air-supply assembly and heat exchanger 140,
Such as when needing to adjust 100 entirety of indoor unit into trip temperature, the first air-supply assembly and the second air-supply group can be started simultaneously
Part, and continuous service (can be determined) according to the temperature difference of set temperature and actual temperature with identical wind speed;In addition it can logical
It crosses and the wind speed of the first air-supply assembly and the second air-supply assembly is set as different so that the direction for air-flow of blowing accordingly adjusts, with
Adapt to the interior space;Under some special operation conditions, the first air-supply assembly and the second air-supply assembly can also select a startup (such as
Open the first air-supply assembly during heating, when refrigeration opens the second air-supply assembly).First air-supply assembly and the second air-supply assembly may be used also
Alternately to start, so as to fulfill the effect similar to pendulum wind, and ensure the balance movement of 100 internal part of indoor unit.
Since the first air-supply assembly and the second air-supply assembly are individually to different jet portion air feeds, control mode is more
Add flexibly and easily, the air-supply requirement of different operating modes can be met, substantially increase the usage experience of user.
The wall-hanging indoor unit of air conditioner 100 of the present embodiment, the upper and lower part of front panel 114 set air outlet respectively,
For arranging the first jet portion 128 and the second jet portion 129 of annular, air is sucked, and by heat exchange from both sides air inlet 116
The air-flow that device 140 exchanges heat is sprayed from the first jet portion 128 and the second jet portion 129, air outlet ambient air is aspirated, with week
It encloses the violent exchanging air stream of circumstance of temperature difference to be mixed, so as to ensure that the air-flow sent out is soft, the impression for being blown to human body is more relaxed
It is suitable, the air output of indoor unit 100 is on the one hand increased, accelerates the flowing of room air, indoor temperature can be made integrally uniform
Decline.Additionally by being obliquely installed housing so that the oblique lower section of air outlet, so as to solve when air outlet is towards front,
The problem of air-flow jet length on sustained height of blowing is remote, but convection current degree is inadequate in short transverse, it is better to user
Usage experience.And 100 overall structure of wall-hanging indoor unit of air conditioner of the utility model and the existing hanging indoor unit of tradition
It is more similar, it is easily easily accepted by a user, and easily replace the existing hanging indoor unit of tradition, installation site is flexible, internal portion
Part is compact-sized, makes full use of the space in housing 110, and wall-hanging indoor unit of air conditioner 100 can be made to become thinner.
The flow direction of the heat exchange air-flow of the wall-hanging indoor unit of air conditioner 100 of the present embodiment is:First centrifugal blower 131 and
After two centrifugal blowers 151 start, the air around indoor unit 100 is sucked from air inlet 116 in heat exchanger accommodating chamber, with heat exchanger
140 carry out heat exchange.An air-flow part after heat exchange enters the first centrifugal blower 131, by the acceleration of the first impeller 133, warp
First spiral case 134 enters the first wind guide component 136, by the guiding of the first Drainage Section 137 of the first wind guide component 136, enters
First air collecting chamber 139 of the first air feed section 138.Air-flow eventually passes through the first air feed in the first air collecting chamber 139 with eddy current type traveling
The exhaust outlet of section 138 enters the first air feed chamber 125 of annular from the first air inlet 1281, so as to form the first heat exchange air-flow.
Air-flow another part after heat exchange enters the second centrifugal blower 151, by the acceleration of the second impeller 153, through second
Spiral case 154 enters the second wind guide component 156, by the guiding of the second Drainage Section 157 of the second wind guide component 156, into second
Second air collecting chamber 159 of air feed section 158.Air-flow eventually passes through the second air feed section 158 in the second air collecting chamber 159 with eddy current type traveling
Exhaust outlet from the second air inlet enter annular the second air feed chamber, so as to form the second heat exchange air-flow.
It is high under the guiding of the posterior edges 126 of annular inner wall 121 after first exchanging air stream enters the first air feed chamber 125
Speed is sprayed from the first puff prot 124, and the air in the air circulation region at 117 rear portion of the first air outlet is driven to be drawn through the first pumping
Air holes 1282 is oliquely downward sent into interior after mixing, the second heat exchange air-flow is after the second air feed chamber is entered, in the second jet portion
It under the guiding of the posterior edges of 129 annular inner wall, is sprayed from the second puff prot at a high speed, drives 119 rear portion of the second air outlet
The air in air circulation region is drawn through the second exhausting hole 1292, is oliquely downward sent into after mixing indoor.Above-mentioned air-supply structure
Can air-out volume be significantly increased, while the air-flow after heat exchange is mixed with surrounding air, becomes cool without cold soft gas
Stream, accelerates the flowing of room air.
So far, although those skilled in the art will appreciate that detailed herein have shown and described the more of the utility model
A exemplary embodiment, still, still can be according to the utility model public affairs in the case where not departing from the spirit and scope of the utility model
The content opened directly determines or derives many other variations or modifications for meeting the utility model principle.Therefore, this practicality is new
The range of type is understood that and regards as to cover other all these variations or modifications.
Claims (10)
1. a kind of wall-hanging indoor unit of air conditioner, it is characterised in that including:
Housing, the housing includes case and the front panel being set in front of the case, the front panel offer interval
The first air outlet and the second air outlet of the difference long circle of setting, the housing are arranged with respect to fix the wall
The support wall of hanging air conditioner air conditioner indoor machine is tilted down setting, so that the air outlet is obliquely downward;
Heat exchanger is set in the housing and is posted by the position of the front panel;
It is respectively arranged in the first jet portion in first air outlet and the second jet being arranged in second air outlet
The first puff prot and the second puff prot are respectively formed on the internal perisporium in portion, the first jet portion and the second jet portion,
First puff prot is used to spray in the air-flow in the first jet portion, and the first jet portion internal perisporium is driven to limit
Surrounding air in the first exhausting hole gone out is oliquely downward sent out, and second puff prot is used for will be in the second jet portion
Air-flow sprays, and the surrounding air in the second exhausting hole that the second jet portion internal perisporium limits is driven oliquely downward to send
Go out, and first exhausting hole and second exhausting hole are respectively in the upstream of air supply direction and environment;
First air-supply assembly and the second air-supply assembly, are horizontally arranged at interval in the enclosure interior, wherein first air-supply
Component is used to feed in the first jet portion the air to exchange heat with the heat exchanger and spray from first puff prot
Go out, form the first heat exchange air-flow, second air-supply assembly is used for the second exchanging air after being exchanged heat with the heat exchanger
Stream feeds in the second jet portion and is sprayed from second puff prot, forms the second heat exchange air-flow.
2. wall-hanging indoor unit of air conditioner according to claim 1, it is characterised in that further include:
Fixed frame, one end are connect with the back fixation of the case, and the other end is used to be fixed on the support wall;And
At least part of the lower edge at the back of the case forms chamfering, to consolidate in the fixed frame and the support wall
After fixed, the support wall is bonded using the chamfering, so as to support the indoor unit.
3. wall-hanging indoor unit of air conditioner according to claim 2, it is characterised in that wherein
The range of tilt angles that the housing is arranged with respect to the wall is set as 5 to 30 degree.
4. wall-hanging indoor unit of air conditioner according to claim 1, it is characterised in that
The first jet portion and second jet part are not made of annular inner wall and annular outer wall, and first spray
The annular outer wall in gas portion and annular inner wall limit the first air feed chamber jointly, in the annular outer wall and annular in the first jet portion
The edge that wall connects forms first puff prot, and the end of the first jet portion side is provided with and first air-supply assembly
First air inlet of connection, so as to which the described first heat exchange air-flow is introduced the first air feed chamber;
The annular outer wall in the second jet portion limits the second air feed chamber, the ring in the second jet portion jointly with annular inner wall
The edge that shape outer wall connects with annular inner wall forms second puff prot, and the end of the second jet portion side is provided with and institute
The second air inlet of the second air-supply assembly connection is stated, so as to which the described second heat exchange air-flow is introduced the second air feed chamber, and
First air inlet and second air inlet are opened in respectively close to the both ends of the case different lateral, and court
To opposite.
5. wall-hanging indoor unit of air conditioner according to claim 4, it is characterised in that
The posterior edges of the annular inner wall in the first jet portion are to the first air feed chamber internal recess, and described first sprays
The position that the annular outer wall in gas portion is opposite with the posterior edges of annular inner wall has outside flange, so that first spray
Gap between the annular outer wall in gas portion and the posterior edges of annular inner wall forms first puff prot;
The posterior edges of the annular inner wall in the second jet portion are to the second air feed chamber internal recess, and described second sprays
The position that the annular outer wall in gas portion is opposite with the posterior edges of annular inner wall has outside flange, so that second spray
Gap between the annular outer wall in gas portion and the posterior edges of annular inner wall forms second puff prot.
6. wall-hanging indoor unit of air conditioner according to claim 5, it is characterised in that
The annular inner wall in the first jet portion extends to form forward continuous abducent first coanda from lateral edges thereafter
Surface;And the section that the annular outer wall in the first jet portion is located at the part on rear side of the first jet portion is spiral,
So that the air-flow of the first air feed chamber along the annular outer wall in the first jet portion from first puff prot ejection after,
It is sent out along first Coanda surface, and drives the surrounding air extracted out in first exhausting hole;And
The annular inner wall in the second jet portion extends to form forward continuous abducent second coanda from lateral edges thereafter
Surface;And the section that the annular outer wall in the second jet portion is located at the part on rear side of the second jet portion is spiral,
So that the air-flow of the second air feed chamber along the annular outer wall in the second jet portion from second puff prot ejection after,
It is sent out along second Coanda surface, and drives the surrounding air extracted out in second exhausting hole.
7. wall-hanging indoor unit of air conditioner according to claim 4, it is characterised in that
The both sides of the case offer air inlet respectively, and first air-supply assembly and second air-supply assembly are respectively from institute
Air inlet sucking ambient air is stated,
First air outlet is laterally opened in the lower part of the front panel, and second air outlet is laterally opened in the front
The top of plate, and first air outlet is symmetrically set with second air outlet relative to the cross central line of the front panel
It puts, and the bottom wall of the case is provided with air-vent at the rear portion in the first jet portion, for first exhausting hole and week
Enclose environmental communication.
8. wall-hanging indoor unit of air conditioner according to claim 7, it is characterised in that further include:
Partition board, center are backwardly recessed, and limit to arrange that the heat exchanger of the heat exchanger holds between the front panel
Receive chamber, and the both sides of the partition board form flange backward, the air inlet is opened at the position opposite with the flange,
So that the flange of the partition board and the side wall of the case are limited from the air inlet to the heat exchanger accommodating chamber
Air intake passage;The first through hole being horizontally arranged at interval and the second through-hole are provided in the middle part of the partition board;
First air-supply assembly includes:First centrifugal blower and the first wind guide component, first centrifugal blower are set to
Between the partition board and the case, and as the power source of the described first heat exchange air-flow, collect gas port from the first through hole
It is pierced by, to suck air from the heat exchanger accommodating chamber, and the exhaust outlet of the spiral case of first centrifugal blower is described in
The side wall of the case of first air inlet side;
First wind guide component is connected between exhaust outlet and first air inlet of first centrifugal blower, and
And the air inlet of first wind guide component connects with the exhaust outlet of the spiral case of first centrifugal blower, by described first from
The air-flow of heart wind turbine discharge leads into the first air feed chamber;
Second air-supply assembly includes:Second centrifugal blower and the second wind guide component, second centrifugal blower are set to
Between the partition board and the case, and as the power source of the described second heat exchange air-flow, collect gas port from second through-hole
It is pierced by, to suck air from the heat exchanger accommodating chamber, and the exhaust outlet of the spiral case of second centrifugal blower is described in
The side wall of the case of second air inlet side;
Second wind guide component is connected between exhaust outlet and second air inlet of second centrifugal blower, and
And the air inlet for stating the second wind guide component connects with the exhaust outlet of the spiral case of second centrifugal blower, and described second is centrifuged
The air-flow of wind turbine discharge leads into the second air feed chamber.
9. wall-hanging indoor unit of air conditioner according to claim 8, it is characterised in that
First wind guide component includes:First Drainage Section, the air inlet with first wind guide component, and described
At least part segment body of one Drainage Section is spiral, is downward by the airflow direction guiding of first centrifugal blower discharge;The
One air feed section connects with first Drainage Section, inside limit the first air collecting chamber, first centrifugal blower to be received to arrange
The air-flow gone out, the first air feed section are provided with the first row gas port to connect with first air inlet, so that first gas collection
The air-flow of chamber feeds to the first air feed chamber;And
Second wind guide component includes:Second Drainage Section, the air inlet with second wind guide component, and described
At least part segment body of two Drainage Sections is spiral, is upward by the airflow direction guiding of second centrifugal blower discharge;The
Two air feed sections connect with second Drainage Section, inside limit the second air collecting chamber, second centrifugal blower to be received to arrange
The air-flow gone out, the second air feed section are provided with the second exhaust port to connect with second air inlet, so that second gas collection
The air-flow of chamber feeds to the second air feed chamber.
10. wall-hanging indoor unit of air conditioner according to claim 9, it is characterised in that
The air inlet of first Drainage Section from first wind guide component is tapered along the airflow direction, the first air feed section
Scroll casing shape is formed along the air-out direction of first Drainage Section, reduces the first heat exchange air-flow in first air collecting chamber
Windage;
The air inlet of second Drainage Section from second wind guide component is tapered along the airflow direction, the second air feed section
Scroll casing shape is formed along the air-out direction of second Drainage Section, reduces the second heat exchange air-flow in second air collecting chamber
Windage.
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CN201721455348.5U CN207584907U (en) | 2017-11-03 | 2017-11-03 | Wall-hanging indoor unit of air conditioner |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108050588A (en) * | 2017-11-03 | 2018-05-18 | 青岛海尔空调器有限总公司 | Wall-hanging indoor unit of air conditioner |
WO2019085944A1 (en) * | 2017-11-03 | 2019-05-09 | 青岛海尔空调器有限总公司 | Wall-mounted indoor unit of air conditioner |
CN111520820A (en) * | 2019-01-17 | 2020-08-11 | 青岛海尔空调器有限总公司 | Wall-mounted air conditioner indoor unit |
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2017
- 2017-11-03 CN CN201721455348.5U patent/CN207584907U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108050588A (en) * | 2017-11-03 | 2018-05-18 | 青岛海尔空调器有限总公司 | Wall-hanging indoor unit of air conditioner |
WO2019085944A1 (en) * | 2017-11-03 | 2019-05-09 | 青岛海尔空调器有限总公司 | Wall-mounted indoor unit of air conditioner |
CN108050588B (en) * | 2017-11-03 | 2023-04-25 | 青岛海尔空调器有限总公司 | Indoor unit of wall-mounted air conditioner |
CN111520820A (en) * | 2019-01-17 | 2020-08-11 | 青岛海尔空调器有限总公司 | Wall-mounted air conditioner indoor unit |
CN111520820B (en) * | 2019-01-17 | 2021-07-23 | 重庆海尔空调器有限公司 | Wall-mounted air conditioner indoor unit |
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