CN107747764A - Wall-hanging indoor unit of air conditioner - Google Patents
Wall-hanging indoor unit of air conditioner Download PDFInfo
- Publication number
- CN107747764A CN107747764A CN201710900209.7A CN201710900209A CN107747764A CN 107747764 A CN107747764 A CN 107747764A CN 201710900209 A CN201710900209 A CN 201710900209A CN 107747764 A CN107747764 A CN 107747764A
- Authority
- CN
- China
- Prior art keywords
- air
- wall
- jet
- flow
- jet portion
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 239000007921 spray Substances 0.000 claims description 20
- 238000011144 upstream manufacturing Methods 0.000 claims description 5
- 230000007423 decrease Effects 0.000 abstract description 3
- 239000003570 air Substances 0.000 description 280
- 238000005057 refrigeration Methods 0.000 description 7
- 238000002347 injection Methods 0.000 description 5
- 239000007924 injection Substances 0.000 description 5
- 238000010586 diagram Methods 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 239000003507 refrigerant Substances 0.000 description 4
- 239000012080 ambient air Substances 0.000 description 3
- 238000005119 centrifugation Methods 0.000 description 3
- 238000000926 separation method Methods 0.000 description 3
- 230000001133 acceleration Effects 0.000 description 2
- 230000000712 assembly Effects 0.000 description 2
- 238000000429 assembly Methods 0.000 description 2
- 238000007664 blowing Methods 0.000 description 2
- 230000008859 change Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 239000002360 explosive Substances 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 230000036541 health Effects 0.000 description 2
- 230000008676 import Effects 0.000 description 2
- 230000003137 locomotive effect Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000005381 potential energy Methods 0.000 description 2
- 230000003068 static effect Effects 0.000 description 2
- 230000002411 adverse Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000033228 biological regulation Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000001149 cognitive effect Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 201000010099 disease Diseases 0.000 description 1
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 230000035807 sensation Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0011—Indoor units, e.g. fan coil units characterised by air outlets
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0018—Indoor units, e.g. fan coil units characterised by fans
- F24F1/0022—Centrifugal or radial fans
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0043—Indoor units, e.g. fan coil units characterised by mounting arrangements
- F24F1/0057—Indoor units, e.g. fan coil units characterised by mounting arrangements mounted in or on a wall
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0059—Indoor units, e.g. fan coil units characterised by heat exchangers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/081—Air-flow control members, e.g. louvres, grilles, flaps or guide plates for guiding air around a curve
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/30—Arrangement or mounting of heat-exchangers
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Air-Conditioning Room Units, And Self-Contained Units In General (AREA)
Abstract
The invention provides a kind of wall-hanging indoor unit of air conditioner, and it includes:Housing, housing include case and the front panel being arranged in front of case, offer air inlet on the roof of case, the bottom of front panel offers the air outlet of Long Circle;Heat exchanger, including the first heat exchanging segment and the second heat exchanging segment, wherein the first heat exchanging segment is disposed in proximity to the position of front panel, the second heat exchanging segment is arranged at the roof for being posted by case;Jet component, including transversely arranged the first jet portion and the second jet portion, the first puff prot and the second puff prot are respectively formed with the internal perisporium in the first jet portion and the second jet portion, for the air-flow in jet portion to be sprayed forward, the surrounding air in the exhausting hole that drive jet portion internal perisporium limits is sent out forward;First air-supply assembly and the second air-supply assembly are respectively used to produce the first heat exchange air-flow and the second heat exchange air-flow in the first jet portion that feeds to and the second jet portion.This programme increases air output, makes indoor temperature is overall uniformly to decline.
Description
Technical field
The present invention relates to air conditioner, more particularly to wall-hanging indoor unit of air conditioner.
Background technology
Air conditioner is one of indispensable household electrical appliance, with requirement of the user to comfortableness and health also more and more higher,
The air supply mode of traditional air conditioner be by cold wind be sent into it is indoor after, it is slower with the slow convection current of surrounding air, heat transfer rate, it is impossible to give people
Nice and cool sensation rapidly, and the air outlet of indoor set can be brought adverse effect to user health, easily occurred empty to people's blow-through
Adjust disease.
For this problem, occurs the indoor set of the injection air outlet of soft air-supply in the prior art, its utilization is smaller
Air outlet drive surrounding air blowout so that the air after heat exchange mixes submitting with surrounding air, but injection air outlet pair
The requirement of structure is higher so that injection air outlet is applied in the more abundant cabinet type indoor machine in space mostly.And apply injection
The hanging indoor set of air outlet in order to meet spray air outlet structural requirement generally require casing being provided in round or its
His irregular shape, on the one hand the use habit with user and the existing cognitive presence gap to hanging indoor set, do not allow
It is susceptible to user acceptance;On the other hand also made troubles for the installation of hanging indoor set, therefore the hanging room of application injection air outlet
Interior machine can not meet the requirement of user.
The content of the invention
It is an object of the present invention to provide a kind of fast wall-hanging indoor unit of air conditioner of soft heat transfer rate of blowing.
The present invention one meets user's further objective is that to cause the compact-sized of wall-hanging indoor unit of air conditioner
Use habit.
The present invention another further objective is that make it that wall-hanging indoor unit of air conditioner air supply pattern is flexible, meet not
With desired regulation requirement.
Especially, the invention provides a kind of wall-hanging indoor unit of air conditioner, it includes:
Housing, housing include case and the front panel being arranged in front of case, air inlet are offered on the roof of case,
The bottom of front panel offers the air outlet of Long Circle;
Heat exchanger, enclosure interior is arranged at, and including the first heat exchanging segment and the second heat exchanging segment, wherein the first heat exchanging segment is set
In the position of close front panel, the second heat exchanging segment is arranged at the position at the roof for being posted by case;
Jet component, is arranged in air outlet, and it includes transversely arranged the first jet portion and the second jet portion, the first spray
It is respectively formed with the first puff prot and the second puff prot on the internal perisporium in gas portion and the second jet portion, the first puff prot is used for the
Air-flow in one jet portion sprays forward, and drives the surrounding air in the first exhausting hole for limiting of the first jet portion internal perisporium
Send out forward, the second puff prot is used to forward spray 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 is sent out forward, and the first exhausting hole and the second exhausting hole are respectively in air supply direction
Upstream 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
Enter for producing from case roof upper air inlet, fed to successively after being exchanged heat with the second heat exchanging segment and the first heat exchanging segment
The first heat exchange air-flow in the first jet portion, the second air-supply assembly are used to produce and entered from case roof upper air inlet, pass through successively
The second heat exchange air-flow in the second jet portion is fed to after being exchanged heat with the second heat exchanging segment and the first heat exchanging segment.
Alternatively, wall-hanging indoor unit of air conditioner also includes the dividing plate for being used for air before and after separation exchanges heat, and dividing plate includes flat
Row is backwardly recessed in the middle part of longitudinal plate portion of front panel setting, longitudinal plate portion, is limited between front panel for arranging
The First Heat Exchanger accommodating chamber of first heat exchanging segment;And
Air inlet is formed by the air-inlet grille set at the top of case, dividing plate also include with connect at the top of longitudinal plate portion and with
The cross plate portion that case head clearance is set, it is downwardly concaved in the middle part of cross plate portion, is limited and be used between case roof
The second heat exchanger accommodating chamber of the second heat exchanging segment is arranged, the air inlet of case roof is arranged at the top of cross plate portion, and second changes
Hot device accommodating chamber connects with First Heat Exchanger accommodating chamber.
Alternatively, the first through hole being horizontally arranged at interval and the second through hole are additionally provided with the middle part of longitudinal plate portion,
First air-supply assembly includes:First centrifugal blower, impeller and the spiral case of the first centrifugal blower are arranged at longitudinal plate portion
In the space limited with case, and the collection gas port of the first centrifugal blower passes from first through hole, to be accommodated from First Heat Exchanger
Chamber sucks air, forms the first heat exchange air-flow;
Second air-supply assembly includes:Second centrifugal blower, impeller and the spiral case of the first centrifugal blower are also disposed on longitudinal plate
In the space that portion limits with case, and the collection gas port of the second centrifugal blower passes from the second through hole, to hold from First Heat Exchanger
Chamber of receiving sucks air, forms the second heat exchange air-flow.
Alternatively, the first jet portion and the second jet part are not made up 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 second remote jet portion side of the first jet portion is provided with
The first air inlet connected with the first air-supply assembly, so as to which the first heat exchange air-flow is introduced into 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 first remote jet portion side of the second jet portion 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 into the second air feed chamber.
Alternatively, 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 annular outer wall in the gas portion position relative 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 relative 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.
Alternatively, the annular inner wall in the first jet portion extends forward to form continuous abducent first from lateral edges thereafter
Coanda surface;And the annular outer wall in the first jet portion is located at the section curl of the part on rear side of jet component, so as to
So that annular outer wall of the air-flow of the first air feed chamber along the first jet portion from the first puff prot ejection after, along the first Coanda surface
Send out forward, and drive the surrounding air extracted out in the first exhausting hole;And
The annular inner wall in the second jet portion extends forward to form continuous abducent second coanda from lateral edges thereafter
Surface;And the annular outer wall in the second jet portion is located at the section curl of the part on rear side of jet component, so that the
Annular outer wall of the air-flow of two air feed chambers along the second jet portion is sent forward after the ejection of the second puff prot along the second Coanda surface
Go out, and drive the surrounding air extracted out in the second exhausting hole.
Alternatively, the side wall of the housing of the first air inlet side of exhaust outlet direction of the spiral case of the first centrifugal blower, and
First air-supply assembly also includes:First wind guide component, the first wind guide component are connected to the exhaust outlet and of the first centrifugal blower
Between one air inlet, the air-flow that the first centrifugal blower is discharged is led into the first air feed chamber;
The side wall of the housing of the second air inlet side of exhaust outlet direction of the spiral case of second centrifugal blower, the second air-supply assembly
Including:Second wind guide component, the second wind guide component are connected between the exhaust outlet and the second air inlet of the second centrifugal blower, with
The air-flow that second centrifugal blower is discharged is led into the second air feed chamber.
Alternatively, the first wind guide component includes:First Drainage Section, it has the air inlet of the first wind guide component, with first
The exhaust outlet of the spiral case of centrifugal blower connects, and at least part segment body curl of the first Drainage Section, and wind is centrifuged by first
The airflow direction guiding of machine discharge is downward;First air feed section, connects with the first Drainage Section, limits the first gas collection inside it
Chamber, to receive the air-flow of the first centrifugal blower discharge, the first air feed section is provided with the first row gas port to connect with the first air inlet, with
The air-flow of the first air collecting chamber is set to feed to the first air feed chamber;And
Second wind guide component includes:Second Drainage Section, it has the air inlet of the second wind guide component, with the second centrifugal blower
The exhaust outlet of spiral case connect, and at least part segment body curl of the second Drainage Section, by the discharge of the second centrifugal blower
Airflow direction guiding is downward;Second air feed section, connects with the second Drainage Section, limits the second air collecting chamber inside it, to receive
The air-flow of second centrifugal blower discharge, the second air feed section are provided with the second exhaust port to connect with the second air inlet, so that the second collection
The air-flow of air cavity feeds to the second air feed chamber.
Alternatively, the first Drainage Section is tapered along airflow direction from the air inlet of the first wind guide component, 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 is tapered along airflow direction from the air inlet of the second wind guide component, and the second air feed section is along the second Drainage Section
Air-out direction form scroll casing shape, reduce by the second windage of the heat exchange air-flow in the second air collecting chamber.
Alternatively, pre-and post perforative air outlet is formed at the bottom of case and front panel, and the rear side of case forms air-supply
The position of mouth is recessed forward so that has air circulation region at air outlet rear.
The wall-hanging indoor unit of air conditioner of the present invention, housing lower section is provided with the air outlet of Long Circle, for arranging annular
Jet component, jet component includes two the first jet portions and the second jet portion being independently arranged, respectively by the first air-supply group
The air-flow of part and the supply of the second air-supply assembly by heat exchanger heat exchange so that air-flow after heat exchange is from the first jet portion and second
The puff prot in jet portion is sprayed, and aspirates air outlet ambient air, and the exchanging air stream violent with the surrounding environment temperature difference is mixed
Close, so as to ensure that the air-flow sent out is soft, it is more comfortable to be blown to the impression of human body, on the one hand increases air output, accelerates room
The flowing of interior air, it can make indoor temperature is overall uniformly to decline, and the air-out of the wall-hanging indoor unit of air conditioner of the present invention
Mouth is oval track type, is arranged at the lower section of housing, overall structure and the existing hanging indoor set of tradition are more similar, easily quilt
User receives, and easily replaces the existing hanging indoor set of tradition, and installation site is flexible.
Further, wall-hanging indoor unit of air conditioner of the invention, air inlet is arranged on case roof, in user's
Outside visual range, it is ensured that the globality of outward appearance, and form air inlet entering to heat exchanger accommodating chamber using dividing plate
Wind passage, it ensure that the unobstructed of heat exchange air-flow.
Further, wall-hanging indoor unit of air conditioner of the invention, heat exchanger are divided into two sections, the front panel that longitudinally reclines arrangement
The first heat exchanging segment and horizontal or oblique the second heat exchanging segment for being posted by case roof, air-flow successively by the first heat exchanging segment and
Second heat exchanging segment, increases heat exchange area, improves heat exchange efficiency.Other first heat exchanging segment and the second heat exchanging segment can be according to rooms
The operational mode selection of interior machine is opened, to meet different heat transfer requirements.
Further, wall indoor unit of the invention, two air-supply assemblies, respectively to two jet portions of jet component
Air-flow after heat exchange is provided, and finally sprayed from puff prot, two air-supply assemblies are worked in coordination, common air-supply, can be according to work
Condition is independently controlled, such as selection is blown according to identical air quantity simultaneously;Blown respectively according to different air quantity;Select a startup
Air-supply, so that indoor set air-out meets the requirement of these different operating modes, control is more flexible, meets that the difference of user will
Ask.
Further, wall-hanging indoor unit of air conditioner of the invention, internal part is compact-sized, makes full use of in housing
Space, wall-hanging indoor unit of air conditioner can be made to become thinner.
Further, the portion such as wall-hanging indoor unit of air conditioner of the invention, heat exchanging device, centrifugal blower, wind guide component
The position of part and construction are improved, and are on the one hand reduced space-consuming, on the other hand can also be reduced air-supply windage.
According to the accompanying drawings will be brighter to the detailed description of the specific embodiment of the invention, those skilled in the art
Above-mentioned and other purposes, the advantages and features of the present invention.
Brief description of the drawings
Some specific embodiments of the present invention are described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter.
Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that these
What accompanying drawing was not necessarily drawn to scale.In accompanying drawing:
Fig. 1 is the schematic appearance figure of wall-hanging indoor unit of air conditioner according to an embodiment of the invention;
Fig. 2 is the schematic explosive view of wall-hanging indoor unit of air conditioner according to an embodiment of the invention;
Fig. 3 is the schematic diagram of jet component in wall-hanging indoor unit of air conditioner according to an embodiment of the invention;
Fig. 4 is the front view in the first jet portion in jet component shown in Fig. 3;
Fig. 5 is the air flow direction figure along the schematic sectionals intercepted of the cutting line A-A in Fig. 4;
Fig. 6 is the schematic diagram of internal part in wall-hanging indoor unit of air conditioner according to an embodiment of the invention;And
Fig. 7 is the first air-supply assembly and the second air-supply in wall-hanging indoor unit of air conditioner according to an embodiment of the invention
The structural representation that part is blown to jet component.
Embodiment
A kind of wall-hanging indoor unit of air conditioner 100 is present embodiments provided, for the ease of description, is referred in specification
Orientation such as " on " " under " " preceding " " rear " " top " " bottoms " is according to the space under the normal operating conditions of wall-hanging indoor unit of air conditioner 100
Before position relationship is defined, such as 100 user oriented side of wall-hanging indoor unit of air conditioner is, installation site is posted by
After side is.
Fig. 1 is the schematic appearance figure of wall-hanging indoor unit of air conditioner 100 according to an embodiment of the invention, Yi Jitu
2 be the schematic explosive view of wall-hanging indoor unit of air conditioner 100 according to an embodiment of the invention.In wall-hanging air conditioner room
Machine 100 may include in general manner:Housing 110, jet component 120, heat exchanger 140, the first air-supply assembly 130, the second air-supply group
Part 150.Wherein housing 110 can include:Case 112 and the front panel 114 for being arranged at the front of case 112.Case 112 is by pushing up
Wall, side wall, back are formed, and these parts limit the space for accommodating internal part jointly, and front panel 114 is arranged in case 112
Front, so as to close the inner space of case 112.Air inlet 116 and air outlet 117 are offered on housing 110.Wherein send
Air port 117 is the bottom that housing 110 is arranged in Long Circle, and in the upstream of air supply direction and environment.Air inlet
116 are arranged on the roof of case 112, and air inlet 116 can be formed by grid, mesh etc..User can not typically see air intake
The position of mouth 116, thereby may be ensured that the globality of outward appearance.
In some preferred embodiments, air outlet 117 front and rear can be disposed through housing 110 bottom (case 112 with
And the relevant position of front panel 114 is provided with the through hole of Long Circle, so as to form the pre-and post perforative air outlet 117.Case 112
Rear side formed air outlet 117 position it is recessed forward so that there is air circulation region 118 at the rear of air outlet 117, so as to
So that the inside of air outlet 117 connects with air circulation region 118, the recuperated gas sprayed for jet component 120 can be from the sky
The draws ambient air of gas circulating area 118, is mixed, and the temperature difference of mixed air-flow and surrounding environment is small, softer, and
And air output is bigger, the flowing of room air is accelerated.
In addition, jet component 120 can also be arranged at the forward position in bottom of housing 110, housing 110 is in jet component
120 rear portion, namely the vacancy section with environment is provided with the upstream of air supply direction, sprayed for jet component 120
Recuperated gas can be mixed by vacancy section draws ambient air.
Heat exchanger 140, it is arranged 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 kind of refrigeration cycle
To realize, compression kind of refrigeration cycle is circulated real using refrigerant in the compression phase transformation of compressor, condenser, evaporator, throttling arrangement
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 kind of refrigeration cycle in air conditioner
Known by personnel, its operation principle and construction will not be described here.Heat exchanger 140 can be posted by the front panel 114 of housing 110
Set.
Heat exchanger 140 includes the first heat exchanging segment 1401 and the second heat exchanging segment 1402, wherein the first heat exchanging segment 1401 is arranged at
Close to the position of front panel 1402, the second heat exchanging segment 1402 is arranged at the position for the roof for being posted by case 112, heat exchanger 140
Using two-part structure, the air that outside enters passes through the second heat exchanging segment 1402 and the first heat exchanging segment 1401 successively, so as to expand
Heat exchange area, improves heat exchange efficiency, and the first heat exchanging segment 1401 and the second heat exchanging segment 1402 can pass through refrigerant pipe
Road is in parallel or in series.When using parallel-connection structure, the first heat exchanging segment 1401 and the second heat exchanging segment 1402 can be according to indoor sets
100 operational mode selection uses, such as in normal mode, the first heat exchanging segment 1401 is only opened, in the first heat exchanging segment
1401 can not meet the situation of requirement, while open the second heat exchanging segment 1402.In some alternative embodiments, for the ease of collecting
Condensed water, the second heat exchanging segment 1402 can be obliquely installed.
In other alternative embodiments, the first heat exchanging segment 1401 and the second heat exchanging segment 1402 can pass through refrigerant line
Series connection, the second heat exchanging segment 1402 are located at the downstream of the first heat exchanging segment 1401, so as to the second heat exchanging segment 1402 and the temperature of surrounding environment
Difference is smaller, after outer gas stream and the second heat exchanging segment 1402 are exchanged heat in advance, then exchanges heat with the first heat exchanging segment 1401, improves heat exchange
Efficiency.
Jet component 120, it is arranged in air outlet 117, jet component 120 has two the first transversely arranged jet portions
128 and the second jet portion 129, the first jet portion 128 and the second jet portion 129 it is overall be in long annular (or track type),
It can have the first exhausting hole 1282 relative to the center symmetric setting of jet component 120, the center in the first jet portion 128,
The center in the second jet portion 129 has the second exhausting hole 1292.First exhausting hole 1282 and the second exhausting hole 1292 are being sent respectively
The upstream in wind direction and environment.
The first puff prot 124 and the second spray are respectively formed with 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 forward spray the air-flow in the first jet portion 128, and drives first
Surrounding air in the first exhausting hole 1282 that the internal perisporium of jet portion 128 limits is sent out forward, and the second puff prot is used for the
Air-flow in two jet portions 129 sprays forward, and drives in the second exhausting hole 1292 that the internal perisporium of the second jet portion 129 limits
Surrounding air send out forward.
First jet portion 128 and the second jet portion 129 can be made up 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
The edge that shape outer wall connects with annular inner wall forms the first puff prot 124, the second remote jet portion 129 of the first jet portion 128
The end of side is provided with the first air inlet 1281 connected with the first air-supply assembly 130, so as to which the first heat exchange air-flow is introduced into the
One 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), the first remote jet portion of the second jet portion 129
The end of 128 sides is provided with the second air inlet 1291 connected with the second air-supply assembly 150, so as to which the second heat exchange air-flow be introduced
Second air feed chamber.
Because the second jet portion 129 is consistent with the structure in the first jet portion 128, below in conjunction with accompanying drawing to the first jet portion
128 structure is introduced.First jet portion 128 and its size, the specification of internal part, can be according to the first air-supply assembly
130 draft capacity is configured.Fig. 3 is jet in wall-hanging indoor unit of air conditioner 100 according to an embodiment of the invention
The schematic diagram of component 120, Fig. 4 are the front views in the first jet portion 128 in jet component 120 shown in Fig. 3, and Fig. 5 is along Fig. 4
Cutting line A-A interception schematic sectional air flow direction figure.First jet portion 128 is included outside annular inner wall 121 and annular
Wall 122, annular inner wall 121 and annular outer wall 122 are collectively forming above-mentioned Long Circle, and the inner side of annular inner wall 121 is 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
For the air-flow of the first air feed chamber 125 to be sprayed forward, and the air at the rear portion of air outlet 117 is caused to be drawn through air outlet 117.
The posterior edges 126 of annular inner wall 121 are to the internal recess of the first air feed chamber 125, and annular outer wall 122 and annular
The position that the posterior edges 126 of inwall 121 are relative 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 the inner-concave of the first air feed chamber 125
The posterior edges 126 entered can also have the function that 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 forward the continuous abducent Coanda surface of formation from lateral edges 126 thereafter;And ring
Shape outer wall 122 is located at the section curl of the part of the rear side of jet component 120, so that the air-flow of the first air feed chamber 125
Along annular outer wall 122 after the ejection of the first puff prot 124, the first Coanda surface formed along annular inner wall 121 is sent out forward,
And drive the surrounding air for extracting the rear of air outlet 117 out.Annular inner wall 121 extends forward continuous abducent extension inclination angle
Degree can be 5 to 15 degree, and angle of inclination is bigger, and the expansion rate for the air-flow that puff prot 124 sprays is faster, be surveyed by substantial amounts of
Examination, between the extension angle of inclination of annular inner wall 121 could be arranged to 6 to 10 degree, so it is more beneficial for and the first exhausting hole
Surrounding air in 1282 is mixed.
Annular inner wall 121 and annular outer wall 122 limit the first annular air feed chamber inside the first jet portion 128 jointly
125, horizontal one end (one end away from the second jet portion 128) of annular outer wall 122 is provided with for being carried to the first air feed chamber 125
For the first air inlet 1281 of the air-flow after the heat exchange of heat exchanger 140.
In some alternative embodiments, the first jet portion 128 is overall can be with long circle, outside annular inner wall 121 and annular
Wall 122 respectively have 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 in the first jet portion 128 is offered in shape section on one section of the annular outer wall 122 away from the second jet portion 128
1281, the air-flow after heat exchange provided for receiving the first air-supply assembly 130.
The above-mentioned section of annular inner wall 121 and annular outer wall 122 can be spliced to form by the part of multiple connections, at some
In preferred embodiment, annular inner wall 121 and annular outer wall 122 can also be formed by the moulded parts of entirety.
First puff prot 124 can be continuous annular groove, and in some alternative embodiments, the first puff prot 124 also may be used
To be formed on a part of section of annular inner wall 121 and annular outer wall 122, or the multistage for interval.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
For 1 to 3mm, by substantial amounts of test, the width of the first puff prot 124 can be preferably arranged to 2mm or so, the dimension width
First puff prot 124 both ensures the jet velocity of heat exchange air-flow, can reduce the windage loss of heat exchange air-flow as far as possible again, and reduction is made an uproar
Sound.Solid arrow is the airflow direction of surrounding air in Figure 5, and dotted arrow is the gas for the heat exchange air-flow that puff prot 124 sprays
Flow direction.
Second jet portion 129 have with the identical structure of 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
Relative 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 forward to be formed continuously from lateral edges thereafter
Abducent second Coanda surface;And the annular outer wall in the second jet portion 129 is located at the part of the rear side of jet component 120
Section curl so that annular outer wall of the air-flow of the second air feed chamber along the second jet portion 129 is from the second puff prot
After ejection, sent out forward along the second Coanda surface, and drive the surrounding air extracted out in the second exhausting hole 1292.Second jet
Horizontal one end (one end away from the first jet portion 128) of the annular outer wall in portion 129 is provided with for being provided to the second air feed chamber
Second air inlet 1291 of air-flow after the heat exchange of heat exchanger 140.
The other structures details in the second jet portion 129 can accordingly draw from the description in the first jet portion 128, herein not
Do repetition.
First air-supply assembly 130 and the second air-supply assembly 150, are horizontally arranged at interval inside housing 110, and be located at
The back lower place (rear of the first heat exchanging segment 1401, the lower section of the second heat exchanging segment 1402) of heat exchanger 140, wherein the first air-supply assembly
130 be used for produce enters from the air inlet 116 on the roof of case 112, successively with the second heat exchanging segment 1402 and the first heat exchanging segment
1401 exchanged heat after by the first air inlet 1281 feed the first jet portion 128 the first air feed chamber 125 the first exchanging air
Stream;Second air-supply assembly 150 be used for produce enter from the air inlet 116 on the roof of case 112, successively with the second heat exchanging segment 1402
And first heat exchanging segment 1401 exchanged heat after the second air feed chamber in the second jet portion 129 is fed by the second air inlet 1291
Second heat exchange air-flow.
First air-supply assembly 130 and the second air-supply assembly 150 are sent with the center symmetric setting of the first heat exchanging segment 1401, first
The air-supply assembly 150 of wind component 130 and second is respectively to the first air inlet 1281 of the both sides of jet component 120 and the second air inlet
1291 air-supplies.
First air-supply assembly 130 can include:First centrifugal blower 131 and the first wind guide component 136.First centrifugation wind
Power source of the machine 131 as the first heat exchange air current flow, can be configured so that surrounding air enters from air inlet 116 and with changing
Hot device 140 is exchanged heat, and is discharged after the first centrifugal blower 131 to airflow downstream, and room is sent out eventually through jet component 120
Outside interior machine 100.First wind guide component 136 be connected to the first centrifugal blower 131 exhaust outlet and the first air inlet 1281 it
Between, and for the air-flow that the first centrifugal blower 131 is discharged to be led into the first air feed chamber 125.
Second air-supply assembly 150 can include:Second centrifugal blower 151 and the second wind guide component 156.Second centrifugation wind
Power source of the machine 151 as the second heat exchange air current flow, can be configured so that surrounding air enters from air inlet 116 and with changing
Hot device 140 is exchanged heat, and is discharged to airflow downstream after the second centrifugal blower 151, is sent out eventually through the second jet portion 129
Outside indoor set 100.Second wind guide component 156 is connected to the exhaust outlet and the second air inlet 1291 of the second centrifugal blower 151
Between, and for the air-flow that the second centrifugal blower 151 is discharged to be led into the second air feed chamber.
Fig. 6 is the schematic diagram of internal part in wall-hanging indoor unit of air conditioner 100 according to an embodiment of the invention.Wall
The inside of hanging air conditioner air conditioner indoor machine 100 includes dividing plate 143, and dividing plate 143 is used to isolate the front and rear air-flow of heat exchange.The dividing plate 143
Including the longitudinal plate portion 1431 set parallel to front panel 114, the middle part of longitudinal plate portion 1431 is backwardly recessed, with front panel
The First Heat Exchanger accommodating chamber for arranging the first heat exchanging segment 1401 is limited between 114.
Dividing plate 143 also includes the transverse plate for connecting with the top of longitudinal plate portion 1431 and being set with the head clearance of case 112
Portion 1432, the middle part of cross plate portion 1432 are downwardly concaved, and are limited between the roof of case 112 for arranging the second heat exchange
Second heat exchanger accommodating chamber of section 1402.The air inlet 116 of the roof of case 112 is arranged at the top of cross plate portion 1432, above-mentioned
First Heat Exchanger accommodating chamber connects with the second heat exchanger accommodating chamber, the gas entered from the air inlet 116 of the roof of case 112
Stream, first in the second heat exchanger accommodating chamber with the second heat exchanging segment 1402 exchange heat after, into First Heat Exchanger accommodating chamber continue with
First heat exchanging segment 1401 exchanges heat.
The center of longitudinal plate portion 1431 is provided with the through hole 146 of first through hole 145 and second, first through hole 145 for first from
First collection gas port 132 of heart blower fan 131 passes through, and the second through hole 146 passes through for the second collection gas port 152 of the second centrifugal blower 151.
The impeller 133 of first centrifugal blower 131 is arranged at spiral case 134 in the space of longitudinal plate portion 1431 and the restriction of case 112, and
The collection gas port 132 of first centrifugal blower 131 passes from first through hole 145, to suck air from First Heat Exchanger accommodating chamber, is formed
First heat exchange air-flow;The impeller 153 of second centrifugal blower 151 is arranged at longitudinal plate portion 1431 with spiral case 154 and limited with case 112
Space in, and the collection gas port 152 of the second centrifugal blower 151 passes from the second through hole 146, with from First Heat Exchanger accommodating chamber
Air is sucked, forms the first heat exchange air-flow.
Air in first centrifugal blower 131 and the second centrifugal blower 151 suction First Heat Exchanger accommodating chamber, so as to respectively
Form the first heat exchange air-flow and the second heat exchange air-flow.The exhaust outlet of first spiral case 134 of the first centrifugal blower 131 is towards housing
110 side wall;The air inlet of first wind guide component 136 connects with the exhaust outlet of the first spiral case 134.Analogously, the second centrifugation
Another side wall of the exhaust outlet of second spiral case 154 of blower fan 151 towards housing 110;The air inlet of second wind guide component 156 and
The exhaust outlet of two spiral cases 154 connects.
Fig. 7 is the first air-supply assembly 130 and in wall-hanging indoor unit of air conditioner 100 according to an embodiment of the invention
The structural representation that two blower parts 150 are blown to jet component 120.First air-supply assembly 130 includes:First centrifugal blower
131 and first wind guide component 136, the second air-supply assembly 150 include:Second centrifugal blower 151 and the second wind guide component
156.In order to ensure air jet velocities, first air-supply assembly 130 and the second air-supply assembly 150 of the present embodiment employ from
Power source of the heart blower fan as heat exchange air-flow.First wind guide component 136 is connected to the exhaust outlet and of the first centrifugal blower 131
Between one air inlet 1281, the air-flow that the first centrifugal blower 131 is discharged is led into the first air feed chamber 125.Second wind-guiding
Part 136 is connected between the exhaust outlet and the second air inlet 1291 of the second centrifugal blower 151, by the second centrifugal blower
The air-flow of 131 discharges leads into the second air feed chamber.
First centrifugal blower 131 is converted to the principle of potential energy according to kinetic energy, using the first impeller 133 of high speed rotation by gas
Body accelerates, and then slows down, changes flow direction, kinetic energy is 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
The direction of one collection gas port 132 to the first impeller 133 is tapered, forms horn mouth, can try one's best in First Heat Exchanger accommodating chamber
Air sucks the first impeller 133.First impeller 133 of the first centrifugal blower 131 is driven by the first high-speed electric expreess locomotive 135 and rotated with the axis
When, the gas between the first impeller 133 rotates with the first impeller 133 and obtains centrifugal force, and gas is thrown out of the first impeller 133, enters
Enter the first spiral case 134, the gas pressure intensity in the first spiral case 134, which increases, is directed to discharge.After interlobate gas is discharged, formed
Negative pressure;The air in First Heat Exchanger accommodating chamber outside first collection gas port 132 is constantly inhaled into, so as to form continuous flow.
The first impeller 133 and the first spiral case 134 of first centrifugal blower 131 are arranged at longitudinal plate portion 1431 and case 112
In the space of restriction, and the exhaust outlet of the first spiral case 134 is towards the side wall of housing 110;The air inlet of first wind guide component 136
Connect with the exhaust outlet of the first spiral case 134.The spirality of first spiral case 134, it inhales the sky that collection is thrown away from the first impeller 133
Gas, and by gradually wealthy sectional area, 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 curl, it 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, the first air collecting chamber 139 is limited inside it, 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.Air-out direction of the first air feed section 138 along the first Drainage Section 137 forms scroll casing shape, reduces gas
The windage in the first air collecting chamber 139 is flowed, it is formed in the first air collecting chamber 139 and is vortexed, 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, due to the sky of longitudinal plate portion 1431
Between limit, the longitudinal separation of the first Drainage Section 137 is smaller, and the first air feed section 138 is located at the lower section of First Heat Exchanger accommodating chamber
(namely lower section of longitudinal plate portion 1431 and heat exchanger 140), therefore the distance of its fore-and-aft direction is more than the first Drainage Section 137, the
The exhaust outlet of one air feed section 138 is arranged at the first air collecting chamber 139 and is posted by the front portion of the side of the first jet portion 128 (to be entered with first
The position correspondence of gas port 1281).
The structure of second blower part 150 is consistent with the first blower part 130.Specifically, the second centrifugal blower 151 is general
Including the second collection gas port 152, the second impeller 153, the second spiral case 154.The work of second collection gas port 152 of the second centrifugal blower 151
With to ensure that air-flow can equably be full of the import interface of the second impeller 153, flow losses are reduced.Second centrifugal blower 151
The direction of second collection gas port 152 to the second impeller 153 is tapered, forms horn mouth, can try one's best in First Heat Exchanger accommodating chamber
Air suck the second impeller 153.Second impeller 153 of the second centrifugal blower 151 is driven by the second high-speed electric expreess locomotive 155 to be revolved with axle
When turning, the gas between the second impeller 153 rotates with the second impeller 153 and obtains centrifugal force, and gas is thrown out of the second impeller 153,
Into the second spiral case 154, the gas pressure intensity in the second spiral case 154, which increases, is directed to discharge.After interlobate gas is discharged, shape
Into negative pressure;First Heat Exchanger accommodates chamber air and is constantly inhaled into, so as to form continuous flow.
The second impeller 153 and the second spiral case 154 of second centrifugal blower 151 are arranged at longitudinal plate portion 1431 and case 112
In the space of restriction, and the exhaust outlet of the second spiral case 154 is towards the side wall of housing 110;The air inlet of second wind guide component 156
Connect with the exhaust outlet of the second spiral case 154.The spirality of second spiral case 154, it inhales the sky that collection is thrown away from the second impeller 153
Gas, and by gradually wealthy sectional area, 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 1291 of the second centrifugal blower 151, and
Air-flow for the second centrifugal blower 151 to be discharged leads into the second air feed chamber.Second wind guide component 156 can include second
The air feed section 158 of Drainage Section 157 and second.
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 curl, it is downward 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, the second air collecting chamber 159 is limited inside it, 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.Air-out direction of the second air feed section 158 along the second Drainage Section 157 forms scroll casing shape, reduces air-flow
Windage in the second air collecting chamber 159, it is formed in the second air collecting chamber 159 and be 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, due to the sky of longitudinal plate portion 1431
Between limit, the longitudinal separation of the second Drainage Section 157 is smaller, and the second air feed section 158 is located at the lower section of First Heat Exchanger accommodating chamber
(namely lower section of the heat exchanging segment 1401 of longitudinal plate portion 1431 and first), therefore the distance of its fore-and-aft direction is more than the second Drainage Section
157, the exhaust outlet of the second air feed section 158 be arranged at the second air collecting chamber 159 be posted by the side of the second jet portion 129 front portion (with
The position correspondence of second air inlet 1291).
First blower part 130 and the second blower part 150, which can work in coordination, realizes air-supply, and both can open simultaneously
It is dynamic, it can be activated individually, the mode of operation of the first blower part 130 and the second blower part 150 can include:Both are with same
Wind speed run, both are run with different wind speed, the isolated operation of the first blower part 130, the isolated operation of the second blower part 150,
First blower part 130 and the alternate run of the second blower part 150.
First heat exchanging segment 1401 and the second heat exchanging segment 1402 can also select to open according to the operational mode of indoor set 100,
To meet different heat transfer requirements.Such as in normal mode, the first heat exchanging segment 1401 is only opened, in the first heat exchanging segment 1401
The situation of requirement can not be met, while open the second heat exchanging segment 1402.First heat exchanging segment 1401 and in further embodiments
Two heat exchanging segments 1402 are arranged to common start and stop (can be realized by the opening and closing of valve in the start and stop of compressor, pipeline), same
During Shi Kaiqi, air-flow passes through the second heat exchanging segment 1402 and the first heat exchanging segment 1401 successively, increases heat exchange area, improves heat exchange
Efficiency.
Above mode of operation can coordinate the various sensors of indoor set 100 to use, by the working environment of indoor set 100
Detection, according to the operation of default control mode adjustment the first blower part 130, the second blower part 150 and heat exchanger 140
State, for example, need it is overall to indoor set 100 enter trip temperature adjustment when, the first blower part 130 and the can be started simultaneously
Two blower parts 150, and continuous service (can be determined) according to the temperature difference of design temperature and actual temperature with identical wind speed;Separately
Outside can also be by the way that the wind speed of the first blower part 130 and the second blower part 150 be arranged into different so that air-flow of blowing
Direction accordingly adjusts, to adapt to the interior space;Under some special operation conditions (such as when needing individually to blow to certain side), first
The blower part 150 of blower part 130 and second can also select a startup, in addition the first blower part 130 and the second blower part
150 can also alternately start, and so as to realize the effect for being similar to pendulum wind, and ensure the balance fortune of the internal part of indoor set 100
OK.
Because the first blower part 130 and the second blower part 150 are individually to the first jet portion 128 and the second jet
The air feed of portion 129, its control mode is more flexible and convenient, can meet the air-supply requirement of different operating modes, substantially increase user's
Usage experience.
The wall-hanging indoor unit of air conditioner 100 of the present embodiment, the air outlet 117 of the lower section of housing 110, for arranging annular
Jet component 120, make to spray from jet component 120 by the air-flow that heat exchanger 140 exchanges heat, aspirate the surrounding environment of air outlet 117
Air, the exchanging air stream violent with the surrounding environment temperature difference are mixed, and so as to ensure that the air-flow of submitting is soft, are blown to the sense of human body
By more comfortably, the air output of indoor set 100 is on the one hand increased, accelerates the flowing of room air, indoor temperature can be made
It is overall uniformly to decline, and the air outlet of the wall-hanging indoor unit of air conditioner 100 of the present invention is Long Circle (also referred to as runway
Shape), the lower section of housing 110 is arranged at, air inlet 116 is arranged on the roof of case 112, and overall structure is hung with existing tradition
Formula indoor set is more similar, is easily easily accepted by a user, and easily replaces the existing hanging indoor set of tradition, installation site spirit
Living, internal 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 more
It is thin.
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 set 100 is sucked in indoor set 100 from top air inlet 116, with heat exchange
The second heat exchanging segment 1402 and the first heat exchanging segment 1401 of device 140 carry out heat exchange successively.Air-flow after heat exchange is partly into
First centrifugal blower 131, by the acceleration of the first impeller 133, enter the first wind guide component 136 through the first spiral case 134, by the
The guiding of first Drainage Section 137 of one wind guide component 136, into the first air collecting chamber 139 of the first air feed section 138.Air-flow is
The exhaust outlet that one air collecting chamber 139 eventually passes through the first air feed section 138 with eddy current type traveling enters annular from the first air inlet 1281
The first air feed chamber 125, 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 is advanced with eddy current type in the second air collecting chamber 159 and eventually passes through the second air feed section 158
Exhaust outlet from the second air inlet 1291 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 sprays forward from the first puff prot 124, drives the air in the air circulation region 118 at air outlet 117 rear portion to be drawn through the
One exhausting hole 1282, feeding is indoor after the front of machine 100 mixes indoors, and air-out volume is significantly increased, while the air-flow after heat exchange
Mixed with surrounding air, become cool without cold soft air-flow, accelerate the flowing of room air.Second heat exchange air-flow is entering
After second air feed chamber, under the guiding of the posterior edges of the annular inner wall in the second jet portion 129, at a high speed from the second puff prot forward
Spray, drive the air in the air circulation region 118 at the rear portion of air outlet 117 to be drawn through the second exhausting hole 1292.
So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple showing for the present invention
Example property embodiment, still, still can be direct according to present disclosure without departing from the spirit and scope of the present invention
It is determined that or derive many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognized
It is set to and covers other all these variations or modifications.
Claims (10)
1. a kind of wall-hanging indoor unit of air conditioner, including:
Housing, the housing include case and the front panel being arranged in front of the case, opened up on the roof of the case
There is air inlet, the bottom of the front panel offers the air outlet of Long Circle;
Heat exchanger, the enclosure interior is arranged at, and including the first heat exchanging segment and the second heat exchanging segment, wherein first heat exchanging segment
The position of the front panel is disposed in proximity to, second heat exchanging segment is arranged at the position for the roof for being posted by the case;
Jet component, it is arranged in the air outlet, it includes transversely arranged the first jet portion and the second jet portion, and described
The first puff prot and the second puff prot, first spray are respectively formed with the internal perisporium in one jet portion and the second jet portion
Gas port is used to forward spray the air-flow in the first jet portion, and drive that the first jet portion internal perisporium limits the
Surrounding air in one exhausting hole is sent out forward, and second puff prot is used to forward spray the air-flow in the second jet portion
Go out, and drive the surrounding air in the second exhausting hole that the second jet portion internal perisporium limits to send out forward, and it is described
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 produce the air inlet from the case roof and entered, and passes through and second heat exchanging segment and described first successively
Heat exchanging segment feeds to the first heat exchange air-flow in the first jet portion after being exchanged heat, second air-supply assembly is used to produce from institute
State the air inlet on case roof to enter, successively after being exchanged heat with second heat exchanging segment and first heat exchanging segment
Feed to the second heat exchange air-flow in the second jet portion.
2. wall-hanging indoor unit of air conditioner according to claim 1, wherein
The wall-hanging indoor unit of air conditioner also include be used for separate heat exchange before and after air dividing plate, the dividing plate include parallel to
Longitudinal plate portion that the front panel is set, it is backwardly recessed in the middle part of longitudinal plate portion, is limited between the front panel
For arranging the First Heat Exchanger accommodating chamber of first heat exchanging segment;And
The air inlet is formed by the air-inlet grille set at the top of the case, and the dividing plate also includes and longitudinal plate portion
The cross plate portion that top connects and set with the case head clearance, be downwardly concaved in the middle part of the cross plate portion, with institute
The the second heat exchanger accommodating chamber limited between case roof for arranging second heat exchanging segment is stated, the case roof enters
Air port is arranged at the top of the cross plate portion, and the second heat exchanger accommodating chamber connects with the First Heat Exchanger accommodating chamber.
3. wall-hanging indoor unit of air conditioner according to claim 2, wherein
The first through hole being horizontally arranged at interval and the second through hole are additionally provided with the middle part of longitudinal plate portion,
First air-supply assembly includes:First centrifugal blower, the impeller of first centrifugal blower are arranged at described with spiral case
In the space that longitudinal plate portion limits with the case, and the collection gas port of first centrifugal blower is worn from the first through hole
Go out, to suck air from the First Heat Exchanger accommodating chamber, form the first heat exchange air-flow;
Second air-supply assembly includes:Second centrifugal blower, impeller and the spiral case of first centrifugal blower are also disposed on institute
State in the space that longitudinal plate portion limits with the case, and the collection gas port of second centrifugal blower is worn from second through hole
Go out, to suck air from the First Heat Exchanger accommodating chamber, form the second heat exchange air-flow.
4. wall-hanging indoor unit of air conditioner according to claim 3, wherein
The first jet portion and second jet part are not made up of annular inner wall and annular outer wall, and
The annular outer wall in the first jet portion limits the first air feed chamber, the ring in the first jet portion jointly with annular inner wall
The edge that shape outer wall connects with annular inner wall forms first puff prot, and the first jet portion is away from the second described jet
The end of portion side is provided with the first air inlet connected with first air-supply assembly, so as to which the described first heat exchange air-flow be 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 second jet portion is away from the first described jet
The end of portion side is provided with the second air inlet connected with second air-supply assembly, so as to which the described second heat exchange air-flow be introduced
The second air feed chamber.
5. wall-hanging indoor unit of air conditioner according to claim 4, wherein
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 annular outer wall in the gas portion position relative 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 annular outer wall in the gas portion position relative 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, wherein
The annular inner wall in the first jet portion extends forward to form continuous abducent first coanda from lateral edges thereafter
Surface;And the annular outer wall in the first jet portion is located at the section curl of the part on rear side of the jet component, from
And cause annular outer wall of the air-flow of the first air feed chamber along the first jet portion after first puff prot ejection, edge
First Coanda surface is sent out forward, and drives the surrounding air extracted out in first exhausting hole;And
The annular inner wall in the second jet portion extends forward to form continuous abducent second coanda from lateral edges thereafter
Surface;And the annular outer wall in the second jet portion is located at the section curl of the part on rear side of the jet component, from
And cause annular outer wall of the air-flow of the second air feed chamber along the second jet portion after second puff prot ejection, edge
Second Coanda surface is sent out forward, and drives the surrounding air extracted out in second exhausting hole.
7. wall-hanging indoor unit of air conditioner according to claim 4, wherein
The exhaust outlet of the spiral case of first centrifugal blower towards the housing of the first air inlet side side wall, and
First air-supply assembly also includes:First wind guide component, first wind guide component are connected to first centrifugal blower
Between exhaust outlet and first air inlet, the air-flow that first centrifugal blower is discharged is led into described first and supplied
Wind chamber;
The exhaust outlet of the spiral case of second centrifugal blower towards the housing of the second air inlet side side wall, it is described
Second air-supply assembly includes:Second wind guide component, second wind guide component are connected to the exhaust outlet of second centrifugal blower
And between second air inlet, the air-flow that second centrifugal blower is discharged is led into the second air feed chamber.
8. wall-hanging indoor unit of air conditioner according to claim 7, wherein
First wind guide component includes:First Drainage Section, it has the air inlet of first wind guide component, with described first
The exhaust outlet of the spiral case of centrifugal blower connects, and at least part segment body curl of first Drainage Section, by described
The airflow direction guiding of one centrifugal blower discharge is downward;First air feed section, connect with first Drainage Section, its internal restriction
Go out the first air collecting chamber, to receive the air-flow of the first centrifugal blower discharge, the first air feed section is provided with to be entered with described first
The first row gas port that gas port connects, so that the air-flow of first air collecting chamber feeds to the first air feed chamber;And
Second wind guide component includes:Second Drainage Section, it has the air inlet of second wind guide component, with described second
The exhaust outlet of the spiral case of centrifugal blower connects, and at least part segment body curl of second Drainage Section, by described
The airflow direction guiding of two centrifugal blowers discharge is downward;Second air feed section, connect with second Drainage Section, its internal restriction
Go out the second air collecting chamber, to receive the air-flow of the second centrifugal blower discharge, the second air feed section is provided with to be entered with described second
The second exhaust port that gas port connects, so that the air-flow of second air collecting chamber feeds to the second air feed chamber.
9. wall-hanging indoor unit of air conditioner according to claim 8, wherein
First Drainage Section is tapered along the airflow direction from the air inlet of first wind guide component, 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;
Second Drainage Section is tapered along the airflow direction from the air inlet of second wind guide component, 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.
10. wall-hanging indoor unit of air conditioner according to claim 6, wherein
The pre-and post perforative air outlet is formed at the bottom of the case and the front panel, and the rear side of the case is formed
The position of the air outlet is recessed forward so that has air circulation region at the air outlet rear.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710900209.7A CN107747764B (en) | 2017-09-28 | 2017-09-28 | Indoor unit of wall-mounted air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710900209.7A CN107747764B (en) | 2017-09-28 | 2017-09-28 | Indoor unit of wall-mounted air conditioner |
Publications (2)
Publication Number | Publication Date |
---|---|
CN107747764A true CN107747764A (en) | 2018-03-02 |
CN107747764B CN107747764B (en) | 2024-03-19 |
Family
ID=61254551
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710900209.7A Active CN107747764B (en) | 2017-09-28 | 2017-09-28 | Indoor unit of wall-mounted air conditioner |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN107747764B (en) |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0424433A (en) * | 1990-05-17 | 1992-01-28 | Mitsubishi Heavy Ind Ltd | Zone type air conditioner |
JP2007191084A (en) * | 2006-01-20 | 2007-08-02 | Denso Corp | Air suction device |
KR20130062594A (en) * | 2011-12-05 | 2013-06-13 | 엘지전자 주식회사 | Air conditioner |
CN103206415A (en) * | 2011-07-04 | 2013-07-17 | 李耀强 | Airflow injection device |
CN204693612U (en) * | 2015-03-31 | 2015-10-07 | 四川长虹电器股份有限公司 | A kind of air-conditioning indoor host computer |
CN105627426A (en) * | 2014-11-03 | 2016-06-01 | 青岛海尔空调器有限总公司 | Wall-mounted type air conditioner indoor unit |
CN105841236A (en) * | 2016-03-28 | 2016-08-10 | 广东美的制冷设备有限公司 | Indoor unit of air conditioner |
CN105864899A (en) * | 2016-06-01 | 2016-08-17 | 珠海格力电器股份有限公司 | Air conditioner indoor unit and air conditioner |
CN207422419U (en) * | 2017-09-28 | 2018-05-29 | 青岛海尔空调器有限总公司 | Wall-hanging indoor unit of air conditioner |
-
2017
- 2017-09-28 CN CN201710900209.7A patent/CN107747764B/en active Active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0424433A (en) * | 1990-05-17 | 1992-01-28 | Mitsubishi Heavy Ind Ltd | Zone type air conditioner |
JP2007191084A (en) * | 2006-01-20 | 2007-08-02 | Denso Corp | Air suction device |
CN103206415A (en) * | 2011-07-04 | 2013-07-17 | 李耀强 | Airflow injection device |
KR20130062594A (en) * | 2011-12-05 | 2013-06-13 | 엘지전자 주식회사 | Air conditioner |
CN105627426A (en) * | 2014-11-03 | 2016-06-01 | 青岛海尔空调器有限总公司 | Wall-mounted type air conditioner indoor unit |
CN204693612U (en) * | 2015-03-31 | 2015-10-07 | 四川长虹电器股份有限公司 | A kind of air-conditioning indoor host computer |
CN105841236A (en) * | 2016-03-28 | 2016-08-10 | 广东美的制冷设备有限公司 | Indoor unit of air conditioner |
CN105864899A (en) * | 2016-06-01 | 2016-08-17 | 珠海格力电器股份有限公司 | Air conditioner indoor unit and air conditioner |
CN207422419U (en) * | 2017-09-28 | 2018-05-29 | 青岛海尔空调器有限总公司 | Wall-hanging indoor unit of air conditioner |
Also Published As
Publication number | Publication date |
---|---|
CN107747764B (en) | 2024-03-19 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107655075A (en) | Wall-hanging indoor unit of air conditioner | |
CN107655076A (en) | Wall-hanging indoor unit of air conditioner | |
CN107747770A (en) | Wall-hanging indoor unit of air conditioner | |
CN107747771A (en) | Wall-hanging indoor unit of air conditioner | |
CN107747765A (en) | Wall-hanging indoor unit of air conditioner | |
CN107747766A (en) | Wall-hanging indoor unit of air conditioner | |
CN107747768A (en) | Wall-hanging indoor unit of air conditioner | |
CN107830576A (en) | Wall-hanging indoor unit of air conditioner | |
CN107860060A (en) | Wall-hanging indoor unit of air conditioner | |
CN108072109A (en) | Wall-hanging indoor unit of air conditioner | |
CN108072108A (en) | Wall-hanging indoor unit of air conditioner | |
CN107906599A (en) | Wall-hanging indoor unit of air conditioner | |
CN207422417U (en) | Wall-hanging indoor unit of air conditioner | |
CN207422413U (en) | Wall-hanging indoor unit of air conditioner | |
CN207422415U (en) | Wall-hanging indoor unit of air conditioner | |
CN207422423U (en) | Wall-hanging indoor unit of air conditioner | |
CN107747767A (en) | Wall-hanging indoor unit of air conditioner | |
CN207702594U (en) | Wall-hanging indoor unit of air conditioner | |
CN107860061A (en) | Wall-hanging indoor unit of air conditioner | |
CN107860062A (en) | Wall-hanging indoor unit of air conditioner | |
CN108036403A (en) | Wall-hanging indoor unit of air conditioner | |
CN207422419U (en) | Wall-hanging indoor unit of air conditioner | |
CN107917464A (en) | Wall-hanging indoor unit of air conditioner | |
CN107906605A (en) | Wall-hanging indoor unit of air conditioner | |
CN207422421U (en) | Wall-hanging indoor unit of air conditioner |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |