CN206094466U - Air outlet assembly and air conditioner with same - Google Patents
Air outlet assembly and air conditioner with same Download PDFInfo
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- CN206094466U CN206094466U CN201621051761.0U CN201621051761U CN206094466U CN 206094466 U CN206094466 U CN 206094466U CN 201621051761 U CN201621051761 U CN 201621051761U CN 206094466 U CN206094466 U CN 206094466U
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- 238000004378 air conditioning Methods 0.000 description 39
- 238000007664 blowing Methods 0.000 description 12
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- 238000005057 refrigeration Methods 0.000 description 5
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Abstract
The utility model provides an air-out subassembly and have its air conditioner, the air-out subassembly includes: an air outlet pipe with an air outlet; wind-guiding structure (20), rotationally set up in air outlet department, wind-guiding structure (20) have the wind-guiding chamber and with wind-guiding import and the wind-guiding export of wind-guiding chamber intercommunication, wind-guiding import and air outlet intercommunication. The technical scheme of the utility model the problem that cabinet-type air conditioner air supply scope is little among the prior art has been solved effectively.
Description
Technical field
The utility model is related to air-conditioning technical field, in particular to a kind of air-out component and the air-conditioner with it.
Background technology
At present, floor standing air-conditioner blowing range is little, and air outlet velocity is uneven, and cold air often occurs in Jing or hot-air is concentrated and blows people
Phenomenon, causes the comfortableness of floor standing air-conditioner poor, reduces the air-supply comfortableness of floor standing air-conditioner.
Utility model content
Main purpose of the present utility model is to provide a kind of air-out component and the air-conditioner with it, to solve existing skill
The little problem of floor standing air-conditioner blowing range in art.
To achieve these goals, according to one side of the present utility model, there is provided a kind of air-out component, including:Go out
Airduct, with air outlet;Air guide structure, is rotatably arranged in air outlet, and air guide structure has wind guide chamber and and wind guide chamber
The wind-guiding import of connection and wind-guiding are exported, and wind-guiding import is connected with air outlet.
Further, there is angle between the air-out direction of the air intake direction of wind-guiding import and wind-guiding outlet.
Further, the air-out direction of the air intake direction of wind-guiding import and wind-guiding outlet is vertically arranged.
Further, the air intake direction of the rotation axis of air guide structure and wind-guiding import be arranged in parallel.
Further, point wind structure that the air-flow come in from wind-guiding entrance is divided into multiply air-flow is provided with wind guide chamber.
Further, air guide structure includes the first housing and the second housing being oppositely arranged, and the first housing has first to lead
Wind chamber and the first wind-guiding import connected with the first wind guide chamber and the outlet of the first wind-guiding, the second housing have the second wind guide chamber and with
The second wind-guiding import and the outlet of the second wind-guiding of the second wind guide chamber connection, the first wind guide chamber and the second wind guide chamber are collectively forming wind-guiding
Chamber, the first wind-guiding import and the second wind-guiding import are collectively forming wind-guiding import, and the outlet of the first wind-guiding and the outlet of the second wind-guiding are common
Wind-guiding outlet is formed, between the first housing and the second housing air-inducing passage is formed.
Further, it is provided with the first wind guide chamber and the air-flow come in from the first wind-guiding entrance is divided into into multiply air-flow
First point of wind structure, is provided with the second wind guide chamber and for the air-flow come in from the second wind-guiding entrance to be divided into the second of multiply air-flow
Wind structure, first point of wind structure and second point of wind structure is divided to be collectively forming a point wind structure.
Further, first point of wind structure and second point of wind structure include multiple split-wind plates, and multiple split-wind plate intervals set
Put.
Further, the first housing and the second housing respectively include outside plate, inner panel, be connected between outside plate and inner panel after
Plate and top board, outside plate, inner panel, back plate and top board surround cavity.
Further, outside plate is in arc surface structure, and the radius of arc surface structure is equal to the radius of discharge pipe.
Further, the junction of top board and back plate passes through arc transition.
Further, air guide structure also include sweep air blade, sweep air blade be pivotally disposed at the first wind-guiding outlet and
Second wind-guiding exit.
Further, the outside away from the outlet of the second wind-guiding of the first wind-guiding outlet is provided with first and keeps out the wind outside plate, first gear
Wind outside plate is located at the outside for sweeping air blade, and/or, the outside away from the outlet of the first wind-guiding of the second wind-guiding outlet is provided with second gear
Wind outside plate, second keeps out the wind outside plate positioned at the outside for sweeping air blade.
Further, first outside plate that keeps out the wind is provided with the first gathering sill of arc, and air-out component is also including the multiple first pendulum
Dynamic portion, one end of the first swing part is pivotably coupled to first and keeps out the wind on outside plate, and the other end of the first swing part passes through first
Gathering sill is connected with air blade is swept, and/or, second outside plate that keeps out the wind is provided with the second gathering sill of arc, and air-out component also includes
Multiple second swing parts, one end of the second swing part is pivotably coupled to second and keeps out the wind on outside plate, the second swing part it is another
End is connected by the second gathering sill with air blade is swept.
Further, the side away from the first wind-guiding import of the first wind-guiding outlet is provided with first and keeps out the wind top board, and/or,
The side away from the second wind-guiding import of the second wind-guiding outlet is provided with second and keeps out the wind top board.
Further, air guide structure also includes connection ring, the first housing and the second housing be both connected to connection ring along it
In the first end of axis direction, second end along its axis direction of connection ring is connected with discharge pipe.
Further, air-out component also includes transition part, and transition part is arranged on air outlet, connection ring rotatably arranged with
On transition part, transition part has the transition air channel of connection air outlet and wind-guiding import.
Further, air-out component also includes drive mechanism, and drive mechanism and air guide structure drive connection are driving wind-guiding
Structure is rotated.
According to another aspect of the present utility model, there is provided a kind of air-conditioner, including air-out component, air-out component is above-mentioned
Air-out component.
Using the technical solution of the utility model, air guide structure is rotatably arranged in the air outlet of discharge pipe.Blower fan
Air-flow out is flowed out by discharge pipe, is then entered in wind guide chamber by wind-guiding import, and is flowed out from wind-guiding outlet, and wind-guiding goes out
Mouthful corresponding to the air outlet on the casing of air-conditioning, the air supply direction that air outlet of the air-flow from the casing of air-conditioning flows out is with leading
The rotation of wind structure and rotate, realize air-conditioning rotation air-supply, increase the blowing range of air-conditioning, accelerate interior quick system
It is cold or heat, while it also avoid cold air or hot-air concentrates the phenomenon for blowing people, increased the comfortableness of air-conditioning.
Description of the drawings
The Figure of description for constituting the part of the application is used for providing further understanding to of the present utility model, this practicality
New schematic description and description is used to explain the utility model, does not constitute to improper restriction of the present utility model.
In the accompanying drawings:
Fig. 1 shows the vertical of the cooperation according to the air guide structure of the embodiment of air-out component of the present utility model and transition part
Body schematic diagram;
Fig. 2 shows the schematic front view of the air-out component of Fig. 1;
Fig. 3 shows the schematic side view of the partial perspective of the air-out component of Fig. 1;
Fig. 4 shows the schematic top plan view of the air-out component of Fig. 1;
Fig. 5 shows the schematic perspective view of point wind structure of the air-out component of Fig. 1;
Fig. 6 shows the dimensional structure diagram of the transition part of the air-out component of Fig. 1;
Fig. 7 shows the structural representation of the area of point wind inlet of the air-out component of Fig. 1;
Fig. 8 shows the structural representation of the air-out component of Fig. 1;And
Fig. 9 shows the rough schematic view of the air-out component of Fig. 3.
Wherein, above-mentioned accompanying drawing is marked including the following drawings:
20th, air guide structure;21st, the first housing;211st, outside plate;212nd, inner panel;213rd, back plate;214th, top board;215th, first
Extension board;22nd, the second housing;225th, the second extension board;23rd, keep out the wind platform;26th, connection ring;40th, wind structure is divided;41st, first point
Wind structure;411st, split-wind plate;4111st, straight panel;4112nd, arc;412nd, the first split-wind plate;413rd, the second split-wind plate;414th,
Three split-wind plates;42nd, second point of wind structure;50th, air-inducing passage;60th, air blade is swept;71st, first point of wind passage;72nd, second point of wind
Passage;73rd, the 3rd point of wind passage;74th, the 4th point of wind passage;81st, first keep out the wind inner panel;82nd, second keep out the wind inner panel;83rd, first
Keep out the wind outside plate;831st, the first gathering sill;84th, second keep out the wind outside plate;85th, first keep out the wind top board;86th, second keep out the wind top board;90th, mistake
Cross portion;100th, the first swing part.
Specific embodiment
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combination.Below with reference to the accompanying drawings and in conjunction with the embodiments describing the utility model in detail.
As shown in figure 1, the air-out component of the present embodiment includes:Discharge pipe and air guide structure 20, discharge pipe has air outlet;
Air guide structure 20 is rotatably arranged in air outlet, and air guide structure 20 has wind guide chamber and the wind-guiding import connected with wind guide chamber
Export with wind-guiding, wind-guiding import is connected with air outlet.
Using the air-out component of the present embodiment, air guide structure 20 is rotatably arranged in the air outlet of discharge pipe.Blower fan
Air-flow out is flowed out by discharge pipe, is then entered in wind guide chamber by wind-guiding import, and is flowed out from wind-guiding outlet, and wind-guiding goes out
Mouthful corresponding to the air outlet on the casing of air-conditioning, the air supply direction that air outlet of the air-flow from the casing of air-conditioning flows out is with leading
The rotation of wind structure 20 and rotate, realize air-conditioning rotation air-supply, increase the blowing range of air-conditioning, accelerate interior it is quick
Refrigeration is heated, while it also avoid cold air or hot-air concentrates the phenomenon for blowing people, increased the comfortableness of air-conditioning.
When having angle between the air-out direction of the casing of the air-out direction and air-conditioning of blower fan, the air intake side of wind-guiding import
There is angle to and the air-out direction of wind-guiding outlet between.Wind guide chamber in air guide structure 20 changes the flow direction of air-flow, convenient
There is angle between the air-out direction of the casing of air-out direction and air-conditioning suitable for blower fan.
When the air-out direction of the casing of air-out direction and the air-conditioning of blower fan is vertically arranged, it is preferable that wind-guiding import is entered
The air-out direction of wind direction and wind-guiding outlet is vertically arranged.Wind guide chamber in air guide structure 20 changes the flow direction of air-flow, convenient
The vertically disposed situation of air-out direction of the casing of air-out direction and air-conditioning suitable for blower fan.
Find that air-flow is not to be evenly distributed in air guide structure by testing and emulating, but it is uneven,
In order that the air outlet of air-conditioning goes out wind velocity evenly, as shown in figure 5, be provided with wind guide chamber will come in from wind-guiding entrance
One air-flow be divided into point wind structure 40 of multiply air-flow.In the presence of point wind structure 40, one air-flow can be divided into many
Stock air-flow, multiply air-flow equably flows out from wind-guiding outlet so that the air outlet of air-conditioning goes out wind velocity evenly.
The rotation axis of air guide structure 20 and the air intake direction of wind-guiding import be arranged in parallel.So setting structure is simple, into
This is cheap.With the air-out direction of discharge pipe in the same direction, it is easy to for the air-flow of discharge pipe to flow into wind-guiding knot in the air intake direction of wind-guiding import
In structure 20.
As depicted in figs. 1 and 2, air guide structure 20 includes the first housing 21 and the second housing 22 being oppositely arranged, first shell
Body 21 has with the first wind guide chamber and the first wind-guiding import connected with the first wind guide chamber and the outlet of the first wind-guiding, the second housing 22
There are the second wind-guiding import and the outlet of the second wind-guiding of the second wind guide chamber and the connection of one second wind guide chamber, the first wind guide chamber and second is led
Wind chamber is collectively forming wind guide chamber, and the first wind-guiding import and the second wind-guiding import are collectively forming wind-guiding import, the outlet of the first wind-guiding and
The outlet of second wind-guiding is collectively forming wind-guiding outlet, and air-inducing passage 50 is formed between the first housing 21 and the second housing 22.From air-out
The air-flow that the air outlet of pipe flows out is led respectively by the first wind-guiding import and the second wind-guiding import into the first wind guide chamber and second
In wind chamber, and respectively from the outlet of the first wind-guiding and the outlet outflow of the second wind-guiding, that is to say, that one air-flow is divided into into two strands of gas
Stream.The air outlet of air-conditioning is so caused to go out wind velocity evenly.Meanwhile, in the outlet of the first wind-guiding and the outlet of the second wind-guiding
Place, goes out wind velocity soon, and pressure is little, and the indoor air-flow through refrigeration is entered in the casing of air-conditioning, by air-inducing passage 50
Outflow is attracted from back to front, and indoor air-flow is mixed to form and mixes wind, so can raise cold with refrigeration or the air-flow for heating
The temperature of air or the temperature of reduction hot-air, efficiently avoid cold air or hot-air concentrate the phenomenon for blowing people, increased
The comfortableness of air-conditioning.
Certainly, air guide structure 20 can also only include a housing, can arrange a point wind structure in the inner chamber of housing, will
One air-flow is divided into multiply air-flow, or, a dividing plate can also be arranged in the inner chamber of housing, one air-flow is divided into into multiply
Air-flow.The structure of one housing cannot arrange air-inducing passage, i.e., can not form mixing wind.
As shown in figure 1, the first extension board 215 that the inner side of the first housing 21 extends with direction the second housing 22, second
The outside of housing 22 has the second extension board 225 extended towards the first housing 21, the first extension board 215 and the second extension board
225 connect and are formed v-shaped structure.That is, the first level shunt adopts v-shaped structure, reduce flow loss.
One end of the close air outlet of one end of the close air outlet in the outside of the first housing 21 and the first extension board 215 and
It is respectively provided between one end of the close air outlet of one end of the close air outlet in the outside of the second housing 22 and the second extension board 225
Air-supply is surrounded between one end of the close air outlet of distance, one end of the close air outlet of the first housing 21 and the second housing 22 logical
Road, air-supply passage respectively with the first wind-guiding import and the second wind-guiding inlet communication.Air-supply passage is entered from discharge pipe wind out
Shunted by v-shaped structure afterwards.
In order to the air outlet for further making air-conditioning goes out wind velocity evenly, as shown in figure 5, set in the first wind guide chamber
First point of wind structure 41 that one air-flow come in from the first wind-guiding entrance is divided into multiply air-flow is equipped with, in the second wind guide chamber
It is provided with second point of wind structure 42 that one air-flow come in from the second wind-guiding entrance is divided into multiply air-flow, first point of wind knot
Structure 41 and second point of wind structure 42 are collectively forming a point wind structure 40.Enter after air-supply passage from discharge pipe air-flow out and pass through V
Shape structure is shunted, then again by the presence of split-wind plate, being further continued for shunting.Specifically, the air outlet from discharge pipe is to air-conditioning
Casing air outlet between shunted using twin-stage, the first order will be entered after air-supply passage from discharge pipe wind out and pass through V-arrangement
Structure is divided into two strands of uniform air flows, and two strands of air-flows are respectively enterd in the first wind guide chamber and the second wind guide chamber, the second level shunt be
In the presence of first point of wind structure 41 and second point of wind structure 42, into the air-flow in the first wind guide chamber be divided into four strands of air-flows and
It is divided into four strands of air-flows into the air-flow in the second wind guide chamber, finally the air outlet from the casing of air-conditioning equably flows out, and makes sky
The air outlet of tune goes out wind velocity evenly, reduces flow loss.
Preferably, air-supply passage is stretched in one end of the close air outlet of first point of wind structure 41 and second point of wind structure 42
It is interior.
As shown in figure 1, first point of wind structure 41 and second point of wind structure 42 include respectively multiple split-wind plates 411, Duo Gefen
The interval setting of aerofoil 411.That is, first point of wind structure 41 includes multiple split-wind plates 411, second point of wind structure 42 also includes
Multiple split-wind plates 411, first point of wind structure 41 is identical with the structure of second point of wind structure 42, simple structure, and manufacture is easy, reduces
Cost.
As shown in figure 1, air guide structure 20 also includes sweeping air blade 60, sweep air blade 60 and be pivotally disposed at the first wind-guiding
Outlet and the second wind-guiding exit.Sweeping air blade 60 can realize sweeping the purpose of wind up and down, increase upper and lower blowing range.Sweep wind
The rotation axis of blade 60 not only increases the left and right blowing range of air-conditioning perpendicular to the rotation axis of air guide structure 20, may be used also
To increase the blowing range up and down of air-conditioning.
According to the characteristic distributions of the first housing and the internal gas flow of the second housing and overcome the size of fluid on-way resistance,
As shown in figure 3, the spacing between two split-wind plates 411 of arbitrary neighborhood is unequal, i.e., the multiple non-equidistance of split-wind plate 411 rows
Cloth.
In order to reduce the impact loss of air-flow and split-wind plate, as shown in figure 5, each split-wind plate 411 includes what is be connected
Straight panel 4111 and arc 4112, multiple straight panels 4111 be arranged in parallel, and one end away from arc 4112 of straight panel 4111 is located at
First wind-guiding entrance, one end away from straight panel 4111 of arc 4112 is located at the first wind-guiding exit.Straight panel 4111 with enter
Wind direction is parallel.Each split-wind plate of said structure arrives from vertical direction horizontal direction branch with arc mistake of different sizes
Cross, reduce the impact loss of air-flow and split-wind plate.The thickness of split-wind plate 411 can not be too thick, not so can reduce discharge area and drop
Low air-out volume.Perpendicular to straight panel 4111, arc 4112 is leaned on the tangent line of one end away from straight panel 4111 of arc 4112
The tangent line and straight panel 4111 of one end of nearly straight panel 4111 is in the same plane.Rounding off is so can ensure that, is further reduced
The impact loss of air-flow and split-wind plate.Meanwhile, said structure causes split-wind plate in exit holding level, it is ensured that flowing water of working off one's feeling vent one's spleen
Flat flow forward.
As shown in figure 1, one end of the close air outlet of the first housing 21 and the second housing 22 has installation gap, install and lack
Mouth also includes the platform 23 that keeps out the wind near the outlet of the first wind-guiding and the outlet setting of the second wind-guiding, air guide structure 20, and the platform 23 that keeps out the wind sets
Put at installation gap, to keep out the wind and form first point of wind passage 71 between platform 23 and the split-wind plate 411 of the close platform 23 that keeps out the wind.Gear
Wind platform 23 plays gear wind action, to keep out the wind and form first point of wind between platform 23 and the split-wind plate 411 of the close platform 23 that keeps out the wind
Passage 71, also allows for forming first point of wind passage 71.
Multiple split-wind plates 411 include the first split-wind plate 412, the second split-wind plate 413 and the 3rd split-wind plate 414, first point of wind
Plate 412 and the first point of wind passage 71 that formed between platform 23 that keep out the wind, form between the first split-wind plate 412 and the second split-wind plate 413
Second point of wind passage 72, forms the 3rd point of wind passage 73, the 3rd split-wind plate between the second split-wind plate 413 and the 3rd split-wind plate 414
414 and first form the 4th point of wind passage 74, first point of wind passage, 71, second point of wind passage 72, the 3rd point of wind between housing 21
The sectional area of point wind inlet of passage 73 and the 4th point of wind passage 74 is respectively S1, S2, S3, S4, wherein, S1<S2<S3<S4.
That is, the number of the split-wind plate 411 of the present embodiment is three, and the section of point wind inlet is sequentially reduced from back to front, it is ensured that gas
The pressure flowed in point wind exit is equal.
The size of the circular arc of the arc 4112 of the first split-wind plate 412, the second split-wind plate 413 and the 3rd split-wind plate 414 is not
Equally, from the split-wind plate 412 of the 3rd split-wind plate 414 to the first according to 0.6~0.7 scale smaller.That is, the first split-wind plate
412nd, the structure of the second split-wind plate 413 and the 3rd split-wind plate 414 is similar to, simply the difference of arc transition size.
Equal in order to further ensure pressure of the air-flow in point wind exit, as shown in Figure 3 and Figure 7, first point of wind leads to
The sectional area sum of point wind inlet of 71, second point of road wind passage 72, the 3rd point of wind passage 73 and the 4th point of wind passage 74 is S,
Wherein, S1 accounts for 18%~23%, the S2 of S and accounts for 20%~25%, the S3 of S and account for 20%~28%, the S4 of S and account for the 25%~35% of S.
Fig. 7 is the area-graph of the N of Fig. 3 to section.
As shown in Figure 7 and Figure 8, second point of wind passage 72, the 3rd point of wind passage 73 and the 4th point of wind passage 74 are located at second
The plane in the air intake direction perpendicular to the first wind-guiding import that the straight panel 4111 of split-wind plate 413 is located with the junction of arc 4112
The sectional area sum at place is S5, wherein, 55%<S5/S<65%.Can so make the exit flow air supplying distance of air-conditioning farther.
Fig. 8 is the area-graph of the P of Fig. 3 to section.
In order to ensure that exit does not raise up without backflow and exit flow, as shown in figure 9, first point of 71, second point of wind passage
The air intake direction along the first wind-guiding import of point wind outlet of wind passage 72, the 3rd point of wind passage 73 and the 4th point of wind passage 74
Length is respectively L1, L2, L3, L4, wherein, L3>L2>L4>L1.That is, the length also non-equidistance arrangement of point wind outlet.
Preferably, in the range of 100~140mm, in the range of 130~190mm, L2 is 120~170mm's for L3 for L4
In the range of, L1 is in the range of 80~120mm.
Point wind of first point of wind passage, 71, second point of wind passage 72, the 3rd point of wind passage 73 and the 4th point of wind passage 74 enters
Length of the edge of mouth perpendicular to the air intake direction of the first wind-guiding import is divided into L5, L6, L7, L8.Preferably, L5 is in 35mm~65mm
In the range of, L6 in the range of 30mm~60mm, L7 in the range of 30mm~60mm, scopes of the L8 in 45mm~90mm
It is interior.
As shown in figure 1, one end near the outlet of the first wind-guiding of the first extension board 215 is provided with first and keeps out the wind inner panel 81, the
One end near the outlet of the second wind-guiding of two extension boards 225 is provided with second and keeps out the wind inner panel 82.First keeps out the wind inner panel 81 and second gear
Wind inner panel 82 is played and keeps out the wind and return wind action.Preferably, the first extension board 215 and first inner panel 81 that keeps out the wind are structure as a whole,
Will the first extension board 215 toward air-out direction extend.It is of course also possible to only go out near the first wind-guiding in the first extension board 215
Mouthful one in one end of the second wind-guiding outlet upper setting of one end and the second extension board 225 keep out the wind inner panel.
As shown in Figure 1 and Figure 4, the first housing 21 and the second housing 22 include respectively outside plate 211, inner panel 212, connection outside
Back plate 213 and top board 214 between plate 211 and inner panel 212, outside plate 211, inner panel 212, back plate 213 and top board 214 surround chamber
Body.The simple structure of the first housing 21 and the second housing 22, it is easy to process, it is with low cost.Preferably, the lower end of outside plate 211 with
The lower end between the lower end of inner panel 212 with distance, two outside plates 211 surrounds circulus, and circulus is located at back plate 213
Lower section is simultaneously connected with back plate 213, and the inner chamber of circulus forms air-supply passage.
Outside plate 211 is in arc surface structure, and the radius of arc surface structure is equal to the radius of discharge pipe.That is, air-out knot
The outside of structure keeps arc structure, and its radius is equal with the radius of discharge pipe, it is ensured that air-flow goes out from discharge pipe runner air-conditioning
At mouthful, flow loss is minimized.
The junction of top board 214 and back plate 213 passes through arc transition.Rounding, fillet are carried out on rear side of air exhausting structure
In 10mm~30mm, increase the area in middle air inducing face, meanwhile, the outlet for sweeping the inner side at air blade is increased, and then increase
Absorbing quantity.
As shown in figure 1, the outside away from the outlet of the second wind-guiding of the first wind-guiding outlet is provided with first and keeps out the wind outside plate 83, first
The outside plate 83 that keeps out the wind is located at the outside for sweeping air blade 60, and the outside away from the outlet of the first wind-guiding of the second wind-guiding outlet is provided with second gear
Wind outside plate 84, second keeps out the wind outside plate 84 positioned at the outside for sweeping air blade 60.First outside plate 83 and second that keeps out the wind keeps out the wind outside plate 84
To gear wind action.It is of course also possible to only go out in the outside exported away from the second wind-guiding of the first wind-guiding outlet and the second wind-guiding
Mouthful the outside away from the outlet of the first wind-guiding in a upper setting keep out the wind outside plate.
As shown in figure 3, first outside plate 83 that keeps out the wind is provided with the first gathering sill 831 of arc, air-out component also includes multiple
First swing part 100, one end of the first swing part 100 is pivotably coupled to first and keeps out the wind on outside plate 83, the first swing part 100
The other end be connected with air blade 60 is swept by the first gathering sill 831.
Second outside plate 84 that keeps out the wind is provided with the second gathering sill of arc, and air-out component also includes multiple second swing parts, the
One end of two swing parts is pivotably coupled to second and keeps out the wind on outside plate 84, and the other end of the second swing part passes through the second gathering sill
It is connected with air blade 60 is swept.
As shown in figure 1, the side away from the first wind-guiding import of the first wind-guiding outlet is provided with first and keeps out the wind top board 85, second
The side away from the second wind-guiding import of wind-guiding outlet is provided with second and keeps out the wind top board 86.First top board 85 and second that keeps out the wind keeps out the wind top
Plate 86 plays gear wind action.It is of course also possible to only in the side and second away from the first wind-guiding import of the first wind-guiding outlet
A upper setting in the side away from the second wind-guiding import of wind-guiding outlet is kept out the wind top board.
Air guide structure 20 also includes connection ring 26, the first housing 21 and the second housing 22 be both connected to connection ring 26 along it
In the first end of axis direction, second end along its axis direction of connection ring 26 is connected with discharge pipe.Connection ring 26 be easy to
Discharge pipe connects, and connection is easy, reduces installation strength.Preferably, circulus is connected with connection ring 26.
As shown in figures 1 to 6, air-out component also includes transition part 90, and transition part 90 is arranged on air outlet, connection ring 26
It is rotatably arranged on transition part 90, transition part 90 has the transition air channel of connection air outlet and supply air duct.Transition part 90
Can be in order to air guide structure 20 and discharge pipe will be connected, connection is easy, easy for installation.Preferably, connection ring 26 is cascade ring, even
Connect ring 26 to be connected with transition part by chute.Air guide structure 20 is formed in one, and air guide structure 20 rotates relative to transition part 90.
Air-out component also includes drive mechanism, and drive mechanism and the drive connection of air guide structure 20 are driving 20 turns of air guide structure
It is dynamic.Arranging drive mechanism is easy to air guide structure 20 to rotate.The set location of drive mechanism can be arranged on air guide structure 20, also may be used
To be arranged in other positions, as long as air guide structure 20 can be driven to rotate.
Present invention also provides a kind of air-conditioner, according to the embodiment of the air-conditioner of the application air-out component, air-out are included
Component is above-mentioned air-out component.Air-out component is located at the inside of the casing of air-conditioning.Air guide structure 20 is rotatably arranged in out
The air outlet of airduct.Blower fan air-flow out is flowed out by discharge pipe, is then entered in wind guide chamber by wind-guiding import, and from
Wind-guiding outlet is flowed out, and wind-guiding is exported corresponding to the air outlet on the casing of air-conditioning, air outlet of the air-flow from the casing of air-conditioning
The air supply direction of outflow rotates with the rotation of air guide structure 20, realizes the rotation air-supply of air-conditioning, increases the air-supply of air-conditioning
Scope, accelerates the fast-refrigerating of interior or heats, while it also avoid cold air or hot-air concentrates the phenomenon for blowing people, increases
The comfortableness of air-conditioning.
From the foregoing, the application provides a kind of new rotary type and can divide the air guide structure of wind, its primary structure is special
Point is as follows:
1st, for floor standing air-conditioner, spinfunction can be increased at discharge pipe, so air guide structure is made circular configuration
To rotate, while making air guide structure link together with discharge pipe by excessive structural, the air outlet of whole air-conditioning can be made
Rotate with the rotation of ajutage, realize that air conditioner outlet is blown without dead angle, room is rapidly achieved refrigeration or is heated.
2nd, the air outlet from discharge pipe to air-conditioning, is shunted in its air channel using twin-stage, makes to go out wind velocity at air conditioner outlet
Evenly, while reducing its flow loss.The first order is shunted using v-shaped structure, is made air-flow punish two strands of air-flows from v-shaped structure and is entered
Enter in wind guide chamber, the second level shunt is that in the presence of split-wind plate, air-flow is divided into four strands of air-flows and uniformly flows out.
3rd, according to the characteristic distributions of air guide structure internal gas flow and the size of fluid on-way resistance is overcome, in air guide structure
Inside increases the split-wind plate of non-equidistant arrangement, and split-wind plate downside air flow inlet area is reduced from back to front with this, and S1 accounts for the 18% of S
~23%, S2 account for 20%~25%, the S3 of S and account for 20%~28%, the S4 of S and account for the 25%~35% of S, while taking S1<S2<S3<
S4, and then ensure that air-flow is equal in outlet pressure, while each split-wind plate is from vertically in the middle of level respectively with differing in size
Circular arc excessively, reduce the impact loss of air-flow and split-wind plate, split-wind plate thickness can not be too thick, not so can reduce discharge area,
Reduce air-out volume.
4th, split-wind plate keeps level in exit, it is ensured that the horizontal forward flowing of exit flow, while the ratio of S5 and S is more than
55% and less than 65%, i.e., 55%<S5/S<65%, the exit flow air supplying distance of air-conditioning can be made farther.
5th, do not raise up without backflow and exit flow to ensure exit, horizontal segment also non-equidistance arrangement, wherein, outlet
Height is respectively L3>L2>L4>L1.Wherein, horizontal segment is to sweep air blade, and sweeping air blade can change under refrigeration or heating condition
Become airflow direction, horizontal range is equal.
6th, air guide structure outside keeps arc structure, its diameter and discharge pipe equal diameters, it is ensured that air-flow is from discharge pipe point
Flow at air conditioner outlet, flow loss is minimized.
7th, to carrying out rounding on rear side of air guide structure, scope increases the area in middle air inducing face, together in 10mm~30mm
Shi Zengjia sweeps the outlet of the inner side at air blade, and then increases absorbing quantity.
8th, air channel outboard structure is different, and it, first to the segment distance of air channel inner transition one, is then entered back into point at connection ring
In wind passage, the 4th ducting outlet air-flow is mainly avoided to raise up.
9th, the inner panel that keeps out the wind is set, it mainly avoids nethermost air outlet air-flow from raising up, it is ensured that the horizontal blast of air-conditioning,
Can so make air supplying distance farther.
10th, the determination of the height of the vertical plate of split-wind plate is to carry out circular arc with vertical plate according to after each outlet height determination
The vertical height for excessively determining, circular arc excessively mainly avoids gas shock from losing, and circular arc carries out effective water conservancy diversion and keeps away to air-flow
Exempt from gas shock loss, arc radius are sequentially reduced from top to bottom.
As can be seen from the above description, the utility model the above embodiments realize following technique effect:
1st, air-conditioner air outlet rotation air-supply is made by increasing with spinfunction air guide structure at discharge pipe, increases cabinet
The blowing range of air conditioner, accelerates the fast-refrigerating in room or heats, while avoiding cold air or hot-air from concentrating blows people
Phenomenon.
2nd, the uniform air supplying distance of air conditioner outlet wind speed is remote, and exit flow can be made more fully to exchange heat with space air, plus
The outlet spinfunction of upper air-conditioning, further increases air-flow heat exchange, increased the comfortableness of air-conditioning.
Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for this
For the technical staff in field, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle
Within, any modification, equivalent substitution and improvements made etc. should be included within protection domain of the present utility model.
Claims (19)
1. a kind of air-out component, it is characterised in that include:
Discharge pipe, with air outlet;
Air guide structure (20), is rotatably arranged in the air outlet, the air guide structure (20) with wind guide chamber and with institute
The wind-guiding import and wind-guiding outlet of wind guide chamber connection are stated, the wind-guiding import is connected with the air outlet.
2. air-out component according to claim 1, it is characterised in that the air intake direction of the wind-guiding import and the wind-guiding
There is angle between the air-out direction of outlet.
3. air-out component according to claim 2, it is characterised in that the air intake direction of the wind-guiding import and the wind-guiding
The air-out direction of outlet is vertically arranged.
4. air-out component according to claim 2, it is characterised in that the rotation axis of the air guide structure (20) and described
The air intake direction of wind-guiding import be arranged in parallel.
5. air-out component according to claim 2, it is characterised in that be provided with from the wind-guiding import in the wind guide chamber
The air-flow that place comes in is divided into point wind structure (40) of multiply air-flow.
6. air-out component according to claim 5, it is characterised in that the air guide structure (20) includes for being oppositely arranged
One housing (21) and the second housing (22), first housing (21) connects with the first wind guide chamber and with first wind guide chamber
The first wind-guiding import and the first wind-guiding outlet, second housing (22) with the second wind guide chamber and with second wind guide chamber
Second wind-guiding import of connection and the outlet of the second wind-guiding, first wind guide chamber and second wind guide chamber are collectively forming described leading
Wind chamber, first wind-guiding import and the second wind-guiding import are collectively forming the wind-guiding import, the first wind-guiding outlet
The wind-guiding outlet is collectively forming with second wind-guiding outlet, between first housing (21) and second housing (22)
Form air-inducing passage (50).
7. air-out component according to claim 6, it is characterised in that be provided with from described in first wind guide chamber
The air-flow that one wind-guiding entrance is come in is divided into first point of wind structure (41) of multiply air-flow, be provided with second wind guide chamber by
The air-flow come in from the second wind-guiding entrance is divided into second point of wind structure (42) of multiply air-flow, first point of wind structure
And second point of wind structure (42) is collectively forming described point of wind structure (40) (41).
8. air-out component according to claim 7, it is characterised in that first point of wind structure (41) and described second point
Wind structure (42) includes multiple split-wind plates (411), multiple split-wind plate (411) interval settings.
9. air-out component according to claim 6, it is characterised in that first housing (21) and second housing
(22) outside plate (211), inner panel (212), the back plate being connected between the outside plate (211) and the inner panel (212) are included respectively
(213) and top board (214), the outside plate (211), the inner panel (212), the back plate (213) and the top board (214) are surrounded
Cavity.
10. air-out component according to claim 9, it is characterised in that the outside plate (211) in arc surface structure,
The radius of the arc surface structure is equal to the radius of the discharge pipe.
11. air-out components according to claim 9, it is characterised in that the connection of the top board (214) and back plate (213)
Place passes through arc transition.
12. air-out components according to claim 6, it is characterised in that the air guide structure (20) also includes sweeping air blade
(60), the air blade (60) of sweeping is pivotally disposed at the first wind-guiding outlet and the second wind-guiding exit.
13. air-out components according to claim 12, it is characterised in that first wind-guiding outlet away from described second
The outside of wind-guiding outlet is provided with first and keeps out the wind outside plate (83), and described first keeps out the wind outside plate (83) positioned at the air blade (60) of sweeping
Outside, and/or, the outside away from first wind-guiding outlet of second wind-guiding outlet is provided with second and keeps out the wind outside plate (84),
Described second keeps out the wind outside plate (84) positioned at the outside for sweeping air blade (60).
14. air-out components according to claim 13, it is characterised in that
Described first outside plate (83) that keeps out the wind is provided with first gathering sill (831) of arc, and the air-out component also includes multiple the
One swing part (100), one end of first swing part (100) is pivotably coupled to described first and keeps out the wind on outside plate (83),
The other end of first swing part (100) is connected by first gathering sill (831) with the air blade (60) of sweeping, and/
Or,
Described second outside plate (84) that keeps out the wind is provided with the second gathering sill of arc, and the air-out component also swings including multiple second
Portion, one end of second swing part is pivotably coupled to described second and keeps out the wind on outside plate (84), second swing part
The other end is connected by second gathering sill with the air blade (60) of sweeping.
15. air-out components according to claim 6, it is characterised in that first wind-guiding outlet away from described first
The side of wind-guiding import is provided with first and keeps out the wind top board (85), and/or, the second wind-guiding outlet is entered away from second wind-guiding
Mouthful side be provided with second and keep out the wind top board (86).
16. air-out components according to claim 6, it is characterised in that the air guide structure (20) also includes connection ring
(26), first housing (21) and second housing (22) be both connected to the connection ring (26) along its axis direction
In first end, second end along its axis direction of the connection ring (26) is connected with the discharge pipe.
17. air-out components according to claim 16, it is characterised in that the air-out component also includes transition part (90),
The transition part (90) is arranged on the air outlet, and the connection ring (26) is rotatably arranged in the transition part
(90) on, the transition part (90) is with the transition air channel for connecting the air outlet and the wind-guiding import.
18. air-out components according to claim 1, it is characterised in that the air-out component also includes drive mechanism, described
Drive mechanism and the air guide structure (20) drive connection are rotated with driving the air guide structure (20).
A kind of 19. air-conditioners, including air-out component, it is characterised in that the air-out component is any one of claim 1 to 18
Described air-out component.
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CN201621051761.0U CN206094466U (en) | 2016-09-12 | 2016-09-12 | Air outlet assembly and air conditioner with same |
Applications Claiming Priority (1)
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CN201621051761.0U CN206094466U (en) | 2016-09-12 | 2016-09-12 | Air outlet assembly and air conditioner with same |
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WO2018045998A1 (en) * | 2016-09-12 | 2018-03-15 | 珠海格力电器股份有限公司 | Air outlet assembly and air conditioner having the same |
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WO2019061911A1 (en) * | 2017-09-27 | 2019-04-04 | 格力电器(武汉)有限公司 | Air outlet structure, air conditioner and method for adjusting attitude of air outlet |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2018045998A1 (en) * | 2016-09-12 | 2018-03-15 | 珠海格力电器股份有限公司 | Air outlet assembly and air conditioner having the same |
CN107816789A (en) * | 2016-09-12 | 2018-03-20 | 珠海格力电器股份有限公司 | Air outlet assembly and air conditioner with same |
CN107560138A (en) * | 2017-08-12 | 2018-01-09 | 章伟 | A kind of idle call throttling air guide structure |
CN107560138B (en) * | 2017-08-12 | 2020-05-15 | 安徽枫雅轩科技信息服务有限公司 | Throttle air guide structure for air conditioner |
WO2019061911A1 (en) * | 2017-09-27 | 2019-04-04 | 格力电器(武汉)有限公司 | Air outlet structure, air conditioner and method for adjusting attitude of air outlet |
CN108954643A (en) * | 2018-06-29 | 2018-12-07 | 林翔 | A kind of air flow regulator for ventiduct system |
CN108954643B (en) * | 2018-06-29 | 2020-06-16 | 江苏省同远节能科技有限公司 | Airflow adjusting device for ventilation pipeline system |
CN108917010A (en) * | 2018-09-26 | 2018-11-30 | 珠海格力电器股份有限公司 | Air outlet panel assembly and air outlet device |
CN108917010B (en) * | 2018-09-26 | 2023-10-10 | 珠海格力电器股份有限公司 | Air-out panel component and air-out device |
CN110260580A (en) * | 2019-07-22 | 2019-09-20 | 中集冷链发展有限公司 | A kind of cold storage plant of adjustable air-out chamber |
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