CN207688381U - Air conditioner and air guide structure - Google Patents

Abstract

The utility model discloses a kind of air conditioner and air guide structure, the air guide structure for air conditioner includes：The air guide structure includes the first wind deflector and the second wind deflector of through-thickness setting, the lateral surface of first wind deflector is the arcwall face that Coanda effect is suitably formed towards the direction protrusion away from second wind deflector, first wind deflector is equipped with the first micropore of through-thickness perforation, second wind deflector is equipped with the second micropore of through-thickness perforation, and first wind deflector and second wind deflector connect with being relatively fixed.According to the air guide structure for air conditioner of the utility model embodiment, better wind effect may be implemented.

Description

Air conditioner and air guide structure

Technical field

The utility model is related to air-conditioning technique field, more particularly to a kind of air conditioner and air guide structure.

Background technology

With increasing for extreme weather, air conditioner has gradually gone to huge numbers of families, and air conditioner is the live and work of people Provide better environment, air conditioner it is applicable during, air-conditioning directly to people dry, be easy to cause discomfort, especially exist When human body and relatively low environment temperature, cold wind blow to can cause discomfort, especially for the elderly that the age is bigger, This discomfort is more obvious.

Utility model content

The utility model is intended to solve at least some of the technical problems in related technologies.For this purpose, this reality It is to propose that a kind of air guide structure for air conditioner, wind effect are good with a novel purpose.

According to the air guide structure for air conditioner of the utility model embodiment, including：The air guide structure includes along thickness The first wind deflector and the second wind deflector of direction setting are spent, the lateral surface of first wind deflector is towards away from second wind-guiding The direction protrusion of plate suitably forms the arcwall face of Coanda effect, and first wind deflector is equipped with the first of through-thickness perforation Micropore, second wind deflector are equipped with the second micropore of through-thickness perforation, and first wind deflector and described second is led Aerofoil connects with being relatively fixed.

According to the air guide structure for air conditioner of the utility model embodiment, better wind effect may be implemented.

In addition, according to the air guide structure for air conditioner of the utility model above-described embodiment, can also have following attached The technical characteristic added：

In one embodiment of the utility model, the ruler of micropore of the size more than described second of first micropore It is very little.

In one embodiment of the utility model, the first micropore on first wind deflector and second wind deflector On micropore include at least one of circle, polygon, strip, ellipse and wedge shape.

In one embodiment of the utility model, first wind deflector two sides in the width direction along respectively with institute The two sides of the second wind deflector in the width direction are stated along connected.

In one embodiment of the utility model, first wind deflector a side in the width direction is along with described the Two wind deflector grafting, and the other side edge of first wind deflector in the width direction and second wind deflector snap connection or Screw connects.

In one embodiment of the utility model, first wind deflector and the second wind deflector are integrally formed.

It is formed in one embodiment of the utility model, between first wind deflector and second wind deflector free Chamber.

In one embodiment of the utility model, the cavity is sky or is equipped with relieve heat wind turbine, freshener, bacteria remover At least one of.

In one embodiment of the utility model, the middle part on first wind deflector in the width direction is towards far from described The direction of second wind deflector is protruded, and the middle part on second wind deflector in the width direction is towards the side far from first wind deflector To protrusion.

The utility model also proposed a kind of air conditioner, including：Body, the body have air outlet；Air guide structure, institute It states air guide structure to be located at the air outlet of the body, and the air guide structure is the wind-guiding knot for being previously described for air conditioner Structure, and first wind deflector is located at the upstream of second wind deflector.

In one embodiment of the utility model, the air guide structure is rotatably arranged at the air outlet of the body Place, the air guide structure have closed position, the first wind-guiding position and the second wind-guiding position, and the air guide structure is in the closing The air outlet is closed in position, and the air guide structure in first wind-guiding position is located at the air outlet lower edge and along outlet air Direction tilts upwards, and the air guide structure in second wind-guiding position is located at the lower edge of the air outlet and along air-out direction It tilts down.

In one embodiment of the utility model, it is additionally provided with third wind deflector at the air outlet of the body, described Three wind deflectors are in the 4th water conservancy diversion position tilted down along air-out direction acclivitous third water conservancy diversion position and along air-out direction Between move.

Description of the drawings

Fig. 1 is the schematic diagram of the air guide structure of the utility model one embodiment.

Fig. 2 to Fig. 4 is the schematic diagram of the air conditioner of the utility model embodiment.

Fig. 5 is the schematic diagram of the air guide structure of another embodiment of the utility model.

Fig. 6 is the schematic diagram of the air guide structure of the utility model another embodiment.

Fig. 7 is the schematic diagram of the air guide structure of another embodiment of the utility model.

Reference numeral：Air conditioner 100, air guide structure 1, the first wind deflector 121, the second wind deflector 122, micropore 101, body 2, air outlet 201, third wind deflector 21,

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

Such as Fig. 1, according to the air guide structure 1 for air conditioner 100 of the utility model embodiment, including：First wind deflector 121 and second wind deflector 122.

First wind deflector 121 and the second wind deflector 122 are arranged along the thickness direction of air guide structure 1, and the second wind deflector 122 is set In the air side (with reference to the front side of the first wind deflector 121 in Fig. 2) of the first wind deflector 121, blow along perpendicular to air guide structure 1 When, air-flow can first pass through the first wind deflector 121 then using the second wind deflector 122.First wind deflector 121 and the second wind deflector 122 are connected as one and (are relatively fixed or movable), after the air guide structure 1 is installed on air conditioner 100, the first wind deflector 121 and second wind deflector 122 can act together, the first wind deflector 121 be equipped with the first micropore 101, the first micropore is along thickness Direction penetrates through the first wind deflector 121, and the second wind deflector 122 is equipped with the second micropore 102, the second micropore through-thickness perforation the Two wind deflectors 122, and the arcwall face that the lateral surface for being away from the side of the second wind deflector 122 on the first wind deflector 121 is evagination, In other words, the lateral surface (side for deviating from the second wind deflector 122) of the first wind deflector 121 is arcwall face, and arcwall face court deviates from The direction protrusion of second wind deflector 122, and suitably form Condar effect.That is, air-flow is along generally tangentially by first When the lateral surface of wind deflector, air-flow can be flowed along the lateral surface of the first wind deflector generates Coanda effect.Wherein, it is generally tangentially Refer to, the front edge of the direction of air-flow and Condar wind-guiding face is substantially tangent, and (front of the direction of air-flow and Condar wind-guiding face is along tangent； The tangential angle at less than predetermined angular in the direction of air-flow and the front edge of Condar wind-guiding face, predetermined angular at 0 ° to 15 ° In the range of).

When air guide structure 1 closes the air outlet 201 of air conditioner 100, the air-flow that air conditioner 100 is sent out will pass sequentially through First wind deflector 121 and the second wind deflector 122, due to being all provided with micropore on the first wind deflector 121 and the second wind deflector 122 101, a part of of air-flow can be discharged from micropore 101, to realize calm sense.

In addition, due to 121 evagination of the first wind deflector, pass through first along the direction equal with the first wind deflector 121 in air-flow When wind deflector 121, the first wind deflector 121 of evagination can provide guiding to air-flow.

According to the air guide structure 1 for air conditioner 100 of the utility model embodiment, ensureing wind pushing air circular flow While reduce the scale of turbulence, improve tumbling frequency, increase the velocity decay rate along flow direction, to reduce blowing feeling, improve comfortable Degree.

In addition, such as Fig. 5, in some embodiments of the utility model, the first micropore and the second micropore are on air-out direction It shifts to install, gas flow guiding is better achieved, it is preferable that the first micropore and the second micropore are staggered completely on air-out direction.

As the first micropore and the second micropore can also be arranged to by Fig. 6 in some embodiments of the utility model Wind is aligned on direction, it is preferable that the first micropore and the second micropore are perfectly aligned on air-out direction.

As Fig. 7 is set furthermore it is also possible to which partition board 123 is arranged between the first wind deflector and the second wind deflector on partition board 123 It is equipped with third micropore 103, thickness direction perforation third micropore 103 of the third micropore 103 along partition board 123.It is spaced by partition board 103 Better calm sense effect may be implemented in air-flow, and partition board can further break up air-flow.

In addition, the partition board between the first wind deflector and the second wind deflector may include one or more.

For example, setting is spaced apart more along the thickness direction of air guide structure between the first wind deflector and the second wind deflector Layer partition board；In another example being arranged between width direction, length direction of wind deflector etc. between the first wind deflector and the second wind deflector Every multiple partition boards of arrangement.

In addition, it is different according to the current rate of air conditioner wind outlet everywhere, partition board can be arranged to separate the first wind-guiding The whole or part of plate and the second wind deflector.For example, partition board is separated to the intermediate region of the first wind deflector and the second wind deflector, And it is not provided with partition board between the both ends of both ends and the second wind deflector along its length of the first wind deflector along its length.

Preferably, third micropore can be arranged to the form for being misaligned or being aligned with the first micropore and the second micropore, for example, On air-out direction, at least two dislocation (all dislocation or partial transposition) in the first micropore, the second micropore and third micropore.

Alternatively, it is also possible to which the first micropore, the second micropore and third micropore are arranged to all align on air-out direction.

In addition, the partition board of the utility model can be arc panel, or surface plate, specifically, partition board can be Arc towards the first wind deflector protrusion, the arc towards the second wind deflector protrusion.Can also partition board be arranged to each section is Arc towards the first wind deflector protrusion, combination a variety of in the arc and tablet towards the second wind deflector protrusion.Partition board is set It is set to arc panel, scheduled direction can be directed flow into, to improve calm sense and wind effect.

For example, the partition board is arc of the middle part towards the first wind deflector protrusion；Or the partition board is middle part direction second The arc of wind deflector protrusion；Or the partition board is tabular；Or the partition board is waveform.

Further, on the length direction along the air guide structure, during the aperture of the third micropore on the partition board is Between area size is small, both ends area size is big.Advantageously, first micropore, the third micropore and second micropore Size be sequentially increased, be sequentially reduced, first increases and then decreases or first reduce increases afterwards.Certainly, the first micropore, the second micropore and The size of three micropores may be at least two identical.

In some embodiments of the utility model, the first wind deflector 121 and the second wind deflector 122 are relatively fixed, In air guide structure motion process, the first wind deflector 121 and the second wind deflector 122 are synchronously carried out movement.

In other embodiments of the utility model, the first wind deflector and the second wind deflector are relatively removable, for example, the One wind deflector and the second wind deflector are converted between the state being mutually unfolded and the state mutually closed up.It is moved through in air guide structure Cheng Zhong can be realized the effect of multi-layer microporous wind-guiding by the first wind deflector and the activity simultaneously of the second wind deflector, can also be selected Single layer wind deflector carries out wind-guiding.Furthermore it is possible to Coanda effect be formed using the first wind deflector, at this point, air-flow can pass through simultaneously First micropore realizes calm sense, and the first wind deflector and the second wind deflector close up and be unfolded that different calm senses may be implemented Effect.

Wherein, the first wind deflector and the second wind deflector are controllable independently of one another.

In addition, when the air guide structure is applied to air conditioner, the second wind deflector 122 can be used as switch gate.Cause This, the first wind deflector 121 and the second wind deflector can be to interconnect, or form separated from each other, for example, One end in the width direction of first wind deflector 121 and one end in the width direction of the second wind deflector are hinged, the first wind deflector 121 other end in the width direction and the other end in the width direction of the second wind deflector are separable.

Certainly, the first wind deflector and the second wind deflector may be fully separatedly form.

In addition, first wind deflector and second wind deflector could be provided as relatively slidably.By sliding come real Show the expansion of the first wind deflector and the second wind deflector and closes up.

Such as Fig. 1, in one embodiment of the utility model, the size of the first micropore 102 is more than the ruler of the second micropore 102 It is very little.When air conditioner 100 sends out air-flow, air-flow first passes around the first wind deflector 121, and micro- from first on the first wind deflector 121 Hole 101 is discharged, and then air-flow is using the second micropore 102 on the second wind deflector 122, due to micro- on the first wind deflector 121 101 size of hole is bigger, and 101 size of micropore on the second wind deflector 122 is smaller, can improve the transfer efficiency of cold, And further reduce wind sense.

Such as Fig. 1, further, the first wind deflector 121 and the second wind deflector 122 have along the opposite positions air-out direction A Micropore of different shapes.

Advantageously, one micropore in the first wind deflector 121 and the second wind deflector 122 be circular hole and another be strip Shape hole；Or first one micropore in wind deflector 121 and the second wind deflector 122 is the elongate holes extended transversely and another A is along perpendicular to the lateral elongate holes being longitudinally extended；Or the first micropore on wind deflector 121 and the second wind deflector 122 exists It is staggered on outgassing direction.To improve calm sense effect.

Front and back multistage 101 panel of micropore works at the same time, and after multistage micropore 101 (slit), wind speed dissipates faster, really Realize seamless effect.

In one embodiment of the utility model, be equipped on the first wind deflector 121 and the second wind deflector 122 it is round, The micropore of at least one of polygon, strip, ellipse and wedge shape shape, in other words, the first micropore 101 and the second micropore 102 include at least one of circle, polygon, strip, ellipse and wedge shape shape.The shape of above-mentioned micropore 101 is only It is some specific examples of the utility model, is not intended to limit the scope of the present invention, micropore (the first micropore and second Micropore) shape may be arc, semicircle etc., the micro-pore shape of the requires of the utility model protection also include this practicality newly Type other shapes impossible to exhaust.

In one embodiment of the utility model, the first wind deflector 121 two sides in the width direction are along respectively with the The two sides of two wind deflectors 122 in the width direction are along connected.

Such as Fig. 1, further, the first wind deflector 121 is protruded towards the direction far from the second wind deflector 122, in the first wind-guiding Cavity is formed between plate 121 and the second wind deflector 122, the micropore 101 that air-flow can pass through on the first wind deflector 121 enters empty Then chamber is discharged from cavity by the micropore 101 on the second wind deflector 122 again.

Preferably, such as Fig. 1, a side of the first wind deflector 121 in the width direction along and 122 grafting of the second wind deflector, and The other side edge of first wind deflector 121 in the width direction is snapped connection with the second wind deflector 122 or screw is connect.Facilitate first The installation of wind deflector 121 and the second wind deflector 122, moreover, the cavity between the first wind deflector 121 and the second wind deflector 122 Inside there is impurity is, can easily dismantle the first wind deflector 121 and the second wind deflector 122, complete clean process.

In addition, the first wind deflector and the second wind deflector may be to be integrally formed.

Further, such as Fig. 1, cavity is formed between the first wind deflector 121 and the second wind deflector 122.Improve wind-guiding effect Fruit.

In addition cavity is empty or at least one of is equipped with relieve heat wind turbine, freshener, bacteria remover.

Preferably, such as Fig. 1, middle part on the first wind deflector 121 in the width direction is towards the direction far from the second wind deflector 122 It protrudes, the middle part on the second wind deflector 122 in the width direction is protruded towards the direction far from the first wind deflector 121.Further carry The effect of high wind-guiding.

In addition, on the cross section of air guide structure 2, on the basis of the line of two free ends of the lateral surface of the first wind-guiding face The length of line, the benchmark line is L, and the lateral surface of the first wind-guiding face and the longest protrusion distance of the benchmark line are B, Wherein 1/10≤B/L≤1/4.

In conjunction with Fig. 1 to Fig. 4, the utility model also proposed a kind of air conditioner 100, including：Body 2, body 2 have outlet air Mouth 201；Air guide structure 1, air guide structure 1 are located at the air outlet 201 of body 2, and air guide structure 1 is to be previously described for air conditioner 100 air guide structure 1, and the first wind deflector 121 is located at the upstream of the second wind deflector 122.

It may be implemented more as a result of air guide structure 1 above-mentioned according to the air conditioner 100 of the utility model embodiment Good wind-guiding and Condar wind effect.

Such as Fig. 2 to Fig. 3, in one embodiment of the utility model, air guide structure 1 is rotatably arranged at going out for body 2 At air port 201, air guide structure 1 has closed position, the first wind-guiding position and the second wind-guiding position, and air guide structure 1 is in close stance It sets and closes air outlet 201, air guide structure 1 is located at 201 lower edge of air outlet and along air-out direction to updip in the first wind-guiding position Tiltedly, air guide structure 1 is located at the lower edge of air outlet 201 in the second wind-guiding position and is tilted down along air-out direction.

Such as Fig. 2, the effect of calm sense, such as Fig. 3 may be implemented in closed position in air guide structure 1, and air guide structure 1 is led first Upward wind-guiding, such as Fig. 4 when wind position, the downward wind-guiding at the second position of air guide structure 1, at this point, what air guide structure 1 tilted down Angle changing rate is big, and air-flow is when by the first wind deflector 121, it will it circulates along the arc-shaped outer surface of the first wind deflector 121, from And realize the effect for warming up foot.

In addition, in conjunction with Fig. 2 to Fig. 4, in one embodiment of the utility model, it is additionally provided at the air outlet 201 of body 2 Third wind deflector 21, third wind deflector 21 dip down along air-out direction acclivitous third water conservancy diversion position and along air-out direction It is moved between the 4th oblique water conservancy diversion position.The guiding effect to air-flow can be further improved by third wind deflector 21.

The air conditioner 100 (can be air conditioner indoor unit, mobile air conditioner etc.) of the utility model, including body 2, from body 2 tops are equipped with downwards air inlet, heat exchanger assembly, wind wheel component, air outlet 201 and wind guide component etc. successively.

The air guide structure 1 of the utility model consists of two parts：First wind deflector 121 and the second wind deflector 122, two panels On be designed with the different grid exhaust vent of arragement direction, two panels are installed by being clamped, wherein the first wind deflector 121 is one Convex globoidal.

Advantageous effect：Air guide structure 1 can be totally-enclosed and opens air outlet 201, is wind sense mould when air guide structure is opened Formula meets user's blowing feeling demand, when opening refrigeration mode, and closing air guide structure, it can be achieved that calm sense refrigeration air-supply.By In air guide structure upper wind guiding surface be convex globoidal, in air-conditioning heating, using Coanda effect principle (wall attachment effect) can effectively by Thermal current is sent to ground, realizes warm sufficient function.

When present design had both met refrigeration " cool feeling, calm " and " warm foot, the warm heart " when realizing heating, greatly carry High user experience.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with It can be combined in any suitable manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field Technical staff can by the feature of different embodiments or examples described in this specification and different embodiments or examples into Row combines and combination.

Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is Illustratively, it should not be understood as limiting the present invention, those skilled in the art are in the scope of the utility model Inside it can make changes, modifications, alterations, and variations to the above described embodiments.

Claims (12)

1. a kind of air guide structure for air conditioner, which is characterized in that including：The air guide structure includes through-thickness setting The first wind deflector and the second wind deflector, the lateral surface of first wind deflector is convex towards the direction away from second wind deflector The arcwall face for suitably forming Coanda effect is acted, first wind deflector is equipped with the first micropore of through-thickness perforation, described Second wind deflector is equipped with the second micropore of through-thickness perforation, and first wind deflector and second wind deflector are relatively solid Surely it connects.

2. the air guide structure according to claim 1 for air conditioner, which is characterized in that the size of first micropore is big In the size of second micropore.

3. the air guide structure according to claim 1 for air conditioner, which is characterized in that on first wind deflector Micropore on one micropore and second wind deflector includes at least one in circle, polygon, strip, ellipse and wedge shape Kind.

4. the air guide structure according to claim 1 for air conditioner, which is characterized in that first wind deflector is along width The two sides in direction are along respectively with second wind deflector two sides in the width direction along being connected.

5. the air guide structure according to claim 4 for air conditioner, which is characterized in that first wind deflector is along width The a side in direction along and the second wind deflector grafting, and first wind deflector other side edge in the width direction and institute State the second wind deflector snap connection or screw connection.

6. the air guide structure according to claim 1 for air conditioner, which is characterized in that first wind deflector and second Wind deflector is integrally formed.

7. the air guide structure for air conditioner according to any one of claim 1-6, which is characterized in that described first leads It is formed with cavity between aerofoil and second wind deflector.

8. the air guide structure according to claim 7 for air conditioner, which is characterized in that the cavity is empty or is equipped with At least one of relieve heat wind turbine, freshener, bacteria remover.

9. the air guide structure for air conditioner according to any one of claim 1-6, which is characterized in that described first leads Middle part on aerofoil in the width direction is protruded towards the direction far from second wind deflector, the second wind deflector upper edge width side To middle part towards far from first wind deflector direction protrude.

10. a kind of air conditioner, which is characterized in that including：

Body, the body have air outlet；

Air guide structure, the air guide structure are located at the air outlet of the body, and the air guide structure is according to right It is required that the air guide structure for air conditioner described in any one of 1-9, and first wind deflector is located at second wind deflector Upstream.

11. air conditioner according to claim 10, which is characterized in that the air guide structure is rotatably arranged at the body Air outlet at, there is the air guide structure closed position, the first wind-guiding position and the second wind-guiding position, the air guide structure to exist The air outlet is closed in the closed position, and the air guide structure is located at the air outlet lower edge in first wind-guiding position And tilted upwards along air-out direction, the air guide structure is located at the lower edge of the air outlet and edge in second wind-guiding position Air-out direction tilts down.

12. air conditioner according to claim 10, which is characterized in that be additionally provided with third wind-guiding at the air outlet of the body Plate, the third wind deflector along air-out direction acclivitous third water conservancy diversion position and tilted down along air-out direction the 4th It is moved between water conservancy diversion position.