CN208620541U - A kind of air guide structure and the air conditioner with the structure - Google Patents

Abstract

The utility model is directed to a kind of air guide structure and the air conditioner with the structure, comprising: an at least wind-guiding door；For hanging the connection sheet of the wind-guiding door；The wind-guiding door rotates around the connection sheet and switches between open and close status；In the air duct that the wind-guiding door is set to the surface frame and the wind guiding rack is defined, and in the closed state, at least part of cover the air duct end；In the on-state, the flow direction via the wind for blowing to the air duct end inside the air duct is guided；The wind-guiding door is set to front panel bottom in the width direction；The wind-guiding door is along its length between center；The wind-guiding door is rotated around the connection sheet, the region that at least part of can be covered the front panel bottom and be defined with center two sides frame.A kind of air guide structure described in the utility model can improve the flow direction of wind, meet differentiated demand.

Description

A kind of air guide structure and the air conditioner with the structure

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of air guide structure.

Background technique

In the prior art, wind-guiding door is usually provided on air conditioner, wind-guiding door, which can play, changes blowout in air conditioner The flow direction of wind acts on, but common wind-guiding door is smaller to the change of wind direction, is unable to satisfy user to the differentiated demand of wind direction, wind It is only guided by level-one, inevitably there is a problem of that wind direction is single, angle is difficult to control；Meanwhile existing wind-guiding door and surrounding structure Between design gaps it is unreasonable, after longtime running, occur also easily to cause movement interference with surrounding structure compared with small deformation.

Utility model content

In view of this, the utility model is directed to a kind of air guide structure, to improve the flow direction of wind, meet differentiation need It asks, and adjusts structure interval, reduce movement interference, guarantee operation steady in a long-term.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

A kind of air guide structure, comprising:

An at least wind-guiding door；

For hanging the connection sheet of the wind-guiding door；The wind-guiding door rotates around the connection sheet and in shape on and off Switch between state；

In the air duct that the wind-guiding door is set to the surface frame and the wind guiding rack is defined, and in the closed state, extremely It is least a portion of to cover the air duct end；In the on-state, guidance is via blowing to the air duct end inside the air duct The flow direction of wind；

The wind-guiding door is set to front panel bottom in the width direction；

The wind-guiding door is along its length between center；

The wind-guiding door is rotated around the connection sheet, being capable of at least part of masking front panel bottom and the center The region that two sides frame is defined.

Further, the wind-guiding door is preset with multistage wind-guiding state, with the rotation of the wind-guiding door, the wind-guiding door Switch between wind-guiding states at different levels；The air guide structure further includes at least one wind blade, and the wind blade is set to In the air duct, for changing the flow direction of wind in air duct；The wind blade is used to carry out the first order to the wind in the air duct Flow direction changes, and the wind-guiding door is used to carry out the wind in the air duct second level flow direction to change；The first order flow direction and institute The angle stated between the flow direction of the second level is consistently less than 90 degree.

Further, when the wind-guiding door (1) is located at the center (13) two sides frame middle position, the wind-guiding Door is D5 with center two sides frame gap, wherein when the length of the wind-guiding door is less than 720mm, the 1.5≤D5≤3mm； When the length of the wind-guiding door is greater than 720mm, the 3mm≤D5≤6mm.

Further, the wind-guiding door includes the first wind deflector and the second wind deflector, first wind deflector and described the It is hingedly fixed between two wind deflectors via support chip, first wind deflector and second wind deflector are around the connection sheet On shaft axially bored line rotate synchronously.

Further, first wind deflector includes in closed state a big end close to the end of described wind guiding rack one end With a small end, the small end is extended outwardly by the big end, and the big end and the small end transitional region form an accommodating Slot, under the first wind deflector closed state, the small end covers the wind guiding rack edge at least part of.

Further, in the wind-guiding door in the connection sheet rotation process, second wind deflector is away from the shaft The distalmost end in hole, the rotation path streaked are S；And the circle that the rotation path of first wind deflector at least one end end is formed Have a diameter larger than the minimum clearance in the air duct in week；The minimum clearance of the wind blade and rotation path S are D4, wherein 4mm≤D4≤10mm。

Further, in closed state, first wind deflector is close to described surface frame one end away from described for the wind-guiding door The maximal clearance of surface frame is D2, wherein 9mm≤D2≤16mm.

Further, in the wind-guiding door in the connection sheet rotation process, first wind-guiding of the wind-guiding door The circumference that plate and the rotation path of any one end end of second wind deflector are formed, diameter are consistently less than the air duct most Small―gap suture；First wind deflector of the wind-guiding door or the distalmost end of second wind deflector away from the shaft hole, are streaked Rotation path be T；First wind deflector in closed state close to described wind guiding rack one end end and the panel it Between gap be D1, wherein 5mm < D1≤13mm.

Further, the minimum clearance of the wind guiding rack and the rotation path T are D3, wherein D3 >=4mm；State wind-guiding The minimum clearance of blade and rotation path T are D4, wherein 4mm≤D4≤10mm；The wind-guiding door is in closed state, described First wind deflector is D2 close to the maximal clearance of the surface frame one end away from the surface frame, wherein 9mm≤D2≤16mm.

Compared with the existing technology, air guide structure described in the utility model has the advantage that

(1) air guide structure can carry out multistage flow direction change to the wind in air duct, so as to improve the flow direction of wind, satisfaction The differentiated demand of user improves comfort level；

(2) air guide structure carries out reasonable regulations to the structure interval of existing wind-guiding door, so that movement interference is reduced, Guarantee that there is a situation where compared with small deformation and the generation of surrounding structure movement interference for the air guide structure after longtime running, it is ensured that long-term Stable operation.

The another object of the utility model is to propose that a kind of air conditioner, the air conditioner have wind-guiding knot described above Structure.

Possessed advantage is identical compared with the existing technology with above-mentioned air guide structure for the air conditioner, and details are not described herein.

Detailed description of the invention

The attached drawing for constituting a part of the utility model is used to provide a further understanding of the present invention, this is practical new The illustrative embodiments and their description of type are not constituteed improper limits to the present invention for explaining the utility model.? In attached drawing:

Fig. 1 is sectional view of the utility model air guide structure perpendicular to length direction；

Fig. 2 is partial view one of the utility model air guide structure perpendicular to length direction section；

Fig. 3 is enlarged drawing at A in Fig. 2；

Fig. 4 is partial view two of the utility model air guide structure perpendicular to length direction section；

Fig. 5 is the front view of the utility model air guide structure；

Fig. 6 is enlarged drawing at B in Fig. 6；

Fig. 7 is the perspective view under the utility model air guide structure closed state；

Fig. 8 is the perspective view under the utility model air guide structure opening state；

Fig. 9 is the partial view under the utility model air guide structure opening state；

Figure 10 is the partial view of the utility model embodiment six.

Description of symbols:

1- wind-guiding door, 2- connection sheet, 3- wind guiding rack, 4- surface frame；5- wind blade；The first wind deflector of 6-；The second wind-guiding of 7- Plate；8- wind-guiding recess portion；9- shaft hole；10- big end；11- accommodation groove；12- small end；13- center；14- wind deflector notch；15- One card；The second card of 16-；17- rotating assembly；18- support chip；20- front panel.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

Below in conjunction with attached drawing, technical characteristic above-mentioned to the utility model patent and other and advantage are made in more detail It is bright.

Embodiment one

As shown in figs 1-9, the utility model provides a kind of air guide structure, including an at least wind-guiding door 1, described for hanging The connection sheet 2 of wind-guiding door 1；The wind-guiding door 1 rotates around the connection sheet 2 and switches between open and close status；

In the air duct that the wind-guiding door 1 is set to the surface frame 4 and the wind guiding rack 3 is defined, and in the closed state, It is at least part of to cover the air duct end；In the on-state, guidance is via blowing to the air duct end inside the air duct Wind flow direction.

Preferably, the wind-guiding door 1 is preset with multistage wind-guiding state, and with the rotation of the wind-guiding door 1, the wind-guiding door 1 switches between wind-guiding states at different levels.

The air guide structure further includes at least one wind blade 5, and the wind blade 5 is set in the air duct, is used In the flow direction for changing wind in air duct；

Preferably, the wind blade 5 is used to carry out the wind in the air duct first order flow direction to change, the wind-guiding door 1 for carrying out second level flow direction to the wind in the air duct for changing；Between the first order flow direction and second level flow direction Angle be consistently less than 90 degree.

Preferably, the wind-guiding door 1 is rotated around the axis of the shaft hole 9 of the connection sheet 2.

Embodiment two

Air guide structure as described above, the present embodiment is different from place and is, described to lead in conjunction with shown in Fig. 2, Fig. 9 Air door 1 includes the first wind deflector 6 and the second wind deflector 7, via branch between first wind deflector 6 and second wind deflector 7 Blade 18 is hingedly fixed, 9 axis of shaft hole of first wind deflector 6 and second wind deflector 7 in the connection sheet 2 Line locking rotation；

6 surface of the first wind deflector of the wind-guiding door 1 extends vertically upwards out towards 7 side of the second wind deflector At least one the first card 15 and at least one second card 16, first card 15 and second card 16 are parallel side by side Setting；It is provided with shaft hole 9 in the connection sheet 2, installation corresponding with the shaft hole 9 is provided on first card 15 The connection sheet 2 is placed between first card 15 and second card 16 by hole in the mounted state, will at least one Rotating assembly 17 is also cross the shaft hole 9 and the mounting hole, to the wind-guiding door 1 is rotatably coupled to described In connection sheet 2；First wind deflector 6 and second wind deflector 7 are rotated synchronously around 9 axis of shaft hole of the connection sheet 2.

First card 15 engages the connection sheet 2 with second card 16 simultaneously, reduces the wind-guiding door 1 along axis It to the play in direction, while realizing precise positioning, is easily installed.

Second wind deflector 7 is provided with wind deflector notch 14 with 2 corresponding position of connection sheet, for the company 2 slot milling of contact pin rotates convenient for the wind-guiding door 1 around the connection sheet 2.

Preferably, limiting a wind-guiding between first wind deflector 6, second wind deflector 7 and the support chip 18 Recess portion 8.

Embodiment three

Air guide structure as described above, the present embodiment are different from place and are that as shown in connection with fig. 3, described first leads Aerofoil 6 in closed state close to described 3 one end of wind guiding rack end include a big end 10 and a small end 12, the small end 12 by The big end 10 extends outwardly, and the big end 10 forms an accommodation groove 11 with 12 transitional region of small end, described the Under one wind deflector, 6 closed state, the small end 12 covers 3 edge of wind guiding rack at least part of；

Preferably, the accommodation groove 11 is bonded with 3 edge of wind guiding rack under 6 closed state of the first wind deflector.

Example IV

Air guide structure as described above, the present embodiment are different from place and are that the wind-guiding door 1 is around the connection sheet In 2 rotation processes, second wind deflector 7 of the wind-guiding door 1 is away from the distalmost end of the shaft hole 9, the rotation road streaked Diameter is S；

In the present embodiment, the wind-guiding door 1 has first wind deflector 6 and second wind deflector 7, in the wind-guiding Door 1 is in 2 rotation process of connection sheet, the rotation path of first wind deflector 6 at least one end end of the wind-guiding door 1 The circumference of formation has a diameter larger than the minimum clearance in the air duct；

The minimum clearance of the wind blade 5 and rotation path S is D4, wherein 4mm≤D4≤10mm.

In closed state, first wind deflector 6 is close to described 4 one end of surface frame away from the surface frame 4 for the wind-guiding door 1 Maximal clearance is D2, wherein 9mm≤D2≤16mm.

Embodiment five

Air guide structure as described above, the present embodiment is different from place and is, described to lead in conjunction with shown in Fig. 5 to Fig. 8 Air door 1 is set to 20 bottom of front panel in the width direction, and the wind-guiding door 1 is along its length between center 13；It is described to lead Air door 1 rotates around the connection sheet 2 and switches between open and close status, for at least part of masking front panel The region that 20 bottoms and the 13 two sides frame of center are defined；

When the wind-guiding door 1 is located at the 13 two sides frame middle position of center, the wind-guiding door 1 with 13 liang of center Side frame gap is D5, wherein when the length of the wind-guiding door 1 is less than 720mm, the 1.5mm≤D5≤3mm；So set The purpose set is that, when the length of the wind-guiding door 1 is less than 720mm, the minimum clearance of D5 is greater than 1.5mm, to avoid Heat expansion causes wind-guiding door is elongated to interfere with center, and the maximal clearance of D5 will control in 3mm, so that it is guaranteed that overall structure gap compared with It is small, appearance looks elegant；

When the length of the wind-guiding door 1 is greater than 720mm, the 3mm≤D5≤6mm；The purpose of such setting is, when When the length of the wind-guiding door 1 is greater than 720mm, the minimum clearance of D5 is greater than 3mm, so that heat expansion be avoided to cause wind-guiding door elongated To interfere with center, the maximal clearance of D5 will control in 6mm, so that it is guaranteed that overall structure gap is smaller, appearance looks elegant.

Embodiment six

Air guide structure as described above, it is unlike the embodiments above, as shown in connection with fig. 10, and in this implementation, the wind-guiding Door 1 has first wind deflector 6 and second wind deflector 7, in the wind-guiding door 1 in 2 rotation process of connection sheet, The circle that first wind deflector 6 of the wind-guiding door 1 and the rotation path of any one end end of second wind deflector 7 are formed Week, diameter are consistently less than the minimum clearance in the air duct；And in the present embodiment, first wind deflector 6 of the wind-guiding door 1 Or distalmost end of second wind deflector 7 away from the shaft hole 9, the rotation path streaked are T；

At this point, first wind deflector 6 in closed state close to described 3 one end of wind guiding rack end and the panel it Between gap be D1, wherein 5mm < D1≤13mm；

The minimum clearance of the wind guiding rack 3 and rotation path T is D3, wherein D3 >=4mm.

The minimum clearance of the wind blade 5 and rotation path T is D4, wherein 4mm≤D4≤10mm.

In closed state, first wind deflector 6 is close to described 4 one end of surface frame away from the surface frame 4 for the wind-guiding door 1 Maximal clearance is D2, wherein 9mm≤D2≤16mm.

Embodiment seven

Air guide structure as described above, unlike the embodiments above, in this implementation, the wind-guiding door 1 only has first Wind deflector 6, in closed state, first wind deflector 6 is close to described 4 one end of surface frame away from the surface frame 4 for the wind-guiding door 1 Maximal clearance is D2, wherein 9mm≤D2≤16mm.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (10)

1. a kind of air guide structure characterized by comprising

An at least wind-guiding door (1)；

For hanging the connection sheet (2) of the wind-guiding door (1)；The wind-guiding door (1) rotates and is opening around the connection sheet (2) Switch between closed state；

In the air duct that the wind-guiding door (1) is set to surface frame (4) and the wind guiding rack (3) is defined, and in the closed state, extremely It is least a portion of to cover the air duct end；In the on-state, guidance is via blowing to the air duct end inside the air duct The flow direction of wind；

The wind-guiding door (1) is set to front panel (20) bottom in the width direction；

The wind-guiding door (1) is along its length between center (13)；

The wind-guiding door (1) rotates around the connection sheet (2), at least part of can cover front panel (20) bottom and institute State the region that center (13) two sides frame is defined.

2. air guide structure as described in claim 1, which is characterized in that the wind-guiding door (1) is preset with multistage wind-guiding state, with The rotation of the wind-guiding door (1), the wind-guiding door (1) switch between wind-guiding states at different levels；The air guide structure further includes At least one wind blade (5), the wind blade (5) is set in the air duct, for changing the flow direction of wind in air duct；Institute It states wind blade (5) to change for carrying out first order flow direction to the wind in the air duct, the wind-guiding door (1) is used for the wind Wind in road carries out second level flow direction and changes；Angle between the first order flow direction and second level flow direction is consistently less than 90 Degree.

3. air guide structure as described in claim 1, which is characterized in that when the wind-guiding door (1) is located at the center (13) two When the position of side frame middle, the wind-guiding door (1) and center (13) two sides frame gap are D5, wherein when the wind-guiding door (1) when length is less than 720mm, the 1.5≤D5≤3mm；It is described when the length of the wind-guiding door (1) is greater than 720mm 3mm≤D5≤6mm。

4. air guide structure as claimed in claim 2, which is characterized in that the wind-guiding door (1) includes the first wind deflector (6) and the Two wind deflectors (7) carry out hingedly admittedly between first wind deflector (6) and second wind deflector (7) via support chip (18) Fixed, first wind deflector (6) is synchronous with shaft hole (9) axis of second wind deflector (7) on the connection sheet (2) to be turned It is dynamic.

5. air guide structure as claimed in claim 4, which is characterized in that first wind deflector (6) is close in closed state The end of described wind guiding rack (3) one end includes a big end (10) and a small end (12), and the small end (12) is by the big end (10) Extend outwardly, the big end (10) and the small end (12) transitional region form an accommodation groove (11), lead described first Under aerofoil (6) closed state, the small end (12) covers wind guiding rack (3) edge at least part of.

6. air guide structure as claimed in claim 4, which is characterized in that rotated in the wind-guiding door (1) around the connection sheet (2) In the process, the distalmost end of the second wind deflector (7) away from the shaft hole (9), the rotation path streaked are S；And described The circumference that the rotation path of one wind deflector (6) at least one end end is formed, has a diameter larger than the minimum clearance in the air duct；It is described The minimum clearance of wind blade (5) and rotation path S are D4, wherein 4mm≤D4≤10mm.

7. air guide structure as claimed in claim 6, which is characterized in that the wind-guiding door (1) in closed state, described first Wind deflector (6) is D2 close to maximal clearance of the surface frame (4) one end away from the surface frame (4), wherein 9mm≤D2≤16mm.

8. air guide structure as claimed in claim 4, which is characterized in that rotated in the wind-guiding door (1) around the connection sheet (2) In the process, the rotation of first wind deflector (6) of the wind-guiding door (1) and any one end end of the second wind deflector (7) The circumference that path is formed, diameter are consistently less than the minimum clearance in the air duct；First wind deflector of the wind-guiding door (1) (6) or the distalmost end of second wind deflector (7) away from the shaft hole (9), the rotation path streaked are T；Described first leads The gap between the end and the panel of the wind guiding rack (3) one end is D1 to aerofoil (6) in closed state, wherein 5mm < D1≤13mm.

9. air guide structure as claimed in claim 8, which is characterized in that the minimum of the wind guiding rack (3) and the rotation path T Gap is D3, wherein D3 >=4mm；The minimum clearance for stating wind blade (5) and rotation path T is D4, wherein 4mm≤D4≤ 10mm；In closed state, first wind deflector (6) is close to the surface frame (4) one end away from the surface frame for the wind-guiding door (1) (4) maximal clearance is D2, wherein 9mm≤D2≤16mm.

10. a kind of air conditioner, which is characterized in that the air conditioner has as described in claim 1-9 any one claim Air guide structure.