CN203258813U

CN203258813U - Wind-guiding reposition of redundant personnel mechanism

Info

Publication number: CN203258813U
Application number: CN 201320297239
Authority: CN
Inventors: 张磊; 陈绍林; 韩义; 孟宪运; 张玉忠; 曾庆和; 李宏详; 陈国豪; 文超; 赖桂枝; 朱林
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2013-05-27
Filing date: 2013-05-27
Publication date: 2013-10-30
Anticipated expiration: 2023-05-27

Abstract

The utility model provides a wind-guiding reposition of redundant personnel mechanism, include: a cross-flow air guide part provided with a cross-flow air duct; the air guide shunting part is provided with a first outer wall and a second outer wall, the air guide shunting part is arranged at an air outlet of the through-flow air channel, the first outer wall and the inner wall of the through-flow air channel form a first overflowing channel, and the second outer wall and the inner wall of the through-flow air channel form a second overflowing channel; and the cross-flow fan blade is arranged at an air inlet of the cross-flow air duct. The utility model discloses the aviation baffle of sheet structure blocks too much problem that leads to influencing the air output among the prior art air conditioner to the air outlet effectively.

Description

The wind-guiding diversion mechanism

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of wind-guiding diversion mechanism.

Background technology

In prior art, the through-flow fan blade of air-conditioner is arranged on the air inlet place in through-flow air channel, and the wind deflector that arranges at the air outlet place in through-flow air channel is common be the thin plate of arcuate structure, or with the thin plate of bending angle necessarily.Wind deflector adopts the shortcoming of this thin-slab structure to be: after the wind deflector rotation reaches certain angle, air outlet is stopped too much cause affecting air output.

The utility model content

The utility model aims to provide a kind of wind-guiding diversion mechanism, and in air-conditioner, the wind deflector of thin-slab structure stops the problem that too much causes affecting air output on air outlet to solve in prior art.

To achieve these goals, according to an aspect of the present utility model, provide a kind of wind-guiding diversion mechanism, having comprised: the through-flow air dam has the through-flow air channel; The wind-guiding distributary division has the first outer wall and the second outer wall, and the wind-guiding distributary division is arranged on the air outlet place in through-flow air channel, and the inwall in the first outer wall and through-flow air channel forms the first flow channels, inwall formation second flow channels in the second outer wall and through-flow air channel; Through-flow fan blade is arranged on the air inlet place in through-flow air channel.

Further, the first outer wall and the second outer wall intersect at the first end of wind-guiding distributary division, and the first end of wind-guiding distributary division arranges towards the upstream in through-flow air channel.

Further, the cross section of wind-guiding distributary division is wedge shape.

Further, the cross section of wind-guiding distributary division is triangular in shape.

Further; The first outer wall has the first side edge towards the through-flow duct outlet; The second outer wall has the Second Edge edge towards the through-flow duct outlet; The axis of through-flow fan blade and first side are the first plane along the plane at common place; The axis of through-flow fan blade and Second Edge are the second plane along the plane at common place; First side is the 3rd plane along the plane with common place, Second Edge edge; Siping City's face vertically passes the axis of through-flow fan blade and perpendicular to the 3rd plane; Has the first angle between the first plane and Siping City's face; Has the second angle between the second plane and Siping City's face.

Further, the first angle is greater than the second angle.

Further, the first angle equals four times of the second angle.

Further, the first angle is less than the second angle.

Further, the second angle equals three times of the first angle.

Further, the first outer wall and the second outer wall intersect at the 3rd edge, first side is the 5th plane along the plane with the 3rd common place, edge, Second Edge is the 6th plane along the plane with the 3rd common place, edge, form the 3rd angle between the first plane and the second plane, form the 4th angle between the 5th plane and the 6th plane, the 3rd angle is less than the 4th angle.

Use the technical solution of the utility model, the wind-guiding diversion mechanism comprises: the through-flow air dam has the through-flow air channel; The wind-guiding distributary division has the first outer wall and the second outer wall, and the wind-guiding distributary division is arranged on the air outlet place in through-flow air channel, and the inwall in the first outer wall and through-flow air channel forms the first flow channels, inwall formation second flow channels in the second outer wall and through-flow air channel; Through-flow fan blade is arranged on the air inlet place in through-flow air channel.By increase the wind-guiding diversion mechanism at the ducting outlet place, air-flow to the through-flow ducting outlet is shunted, air-out passage is divided into two flow channels, outlet is divided into two air outlets, make the wind can be from two air outlets, avoided like this that in the prior art, thin plate affects the problem of other direction air-out to a direction wind-guiding time, and can enlarge blowing range owing to having formed two flow channels, reduced noise.

Description of drawings

The Figure of description that consists of the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the wind direction flow schematic diagram of the first embodiment of wind-guiding diversion mechanism of the present utility model;

Fig. 2 shows the cross sectional representation of the first embodiment of wind-guiding diversion mechanism of the present utility model;

Fig. 3 shows the cross sectional representation of the second embodiment of wind-guiding diversion mechanism of the present utility model;

Fig. 4 shows the cross sectional representation of the 3rd embodiment of wind-guiding diversion mechanism of the present utility model.

The specific embodiment

Need to prove, in the situation that do not conflict, embodiment and the feature in embodiment in the application can make up mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

The utility model provides the first embodiment of the wind-guiding diversion mechanism that is applied on air-conditioner; Specifically referring to Fig. 1 and Fig. 2; The wind-guiding diversion mechanism of the present embodiment comprises through-flow air dam 10; Wind-guiding distributary division 20 and through-flow fan blade 30; Through-flow air dam 10 has through-flow air channel 11; Wind-guiding distributary division 20 has the first outer wall 21 and the second outer wall 22; Wind-guiding distributary division 20 is arranged on the air outlet place in through-flow air channel 11; The first outer wall 21 forms the first flow channels 13 with the inwall in through-flow air channel 11; The second outer wall 22 forms the second flow channels 15 with the inwall in through-flow air channel 11; Through-flow fan blade 30 is arranged on the air inlet place in through-flow air channel 11.

By increase the wind-guiding diversion mechanism at the ducting outlet place, air-flow to the through-flow ducting outlet is shunted, air-out passage is divided into two flow channels, outlet is divided into two air outlets, make the wind can be from two air outlets, avoided like this that in the prior art, thin plate affects the problem of other direction air-out to a direction wind-guiding time, and can enlarge blowing range owing to having formed two flow channels, reduced noise.Simultaneously the wind-guiding diversion mechanism maintains static, air-conditioner under the opening and closing state on it without impact, can make on its outer surface decoration.

The first outer wall 21 and the second outer wall 22 intersect at the first end of wind-guiding

distributary division

20, and 11 air-out upstream arranges the first end of wind-guiding shunting towards the through-flow air channel.The cross section of wind-guiding distributary division 20 is wedge shape.In unshowned other embodiment, only be with the difference of the first embodiment, the cross section of wind-guiding distributary division is triangular in shape.The wind-guiding distributary division of cross-sectional triangle can reach same technique effect.

The present embodiment further preferably; The cross sectional representation of wind-guiding distributary division concrete shown in Figure 2; The first outer wall 21 has the first side edge towards through-flow air channel 11 air outlets; The second outer wall 22 has the Second Edge edge towards through-flow air channel 11 air outlets; The axis of through-flow fan blade 30 and first side are the first plane OM along the plane at common place; The axis of through-flow fan blade 30 and Second Edge are the second plane ON along the plane at common place; First side is the 3rd plane MN along the plane with common place, Second Edge edge; The face OQ of Siping City vertically passes the axis of through-flow fan blade 30 and perpendicular to the 3rd plane MN; Has the first angle a between the first plane OM and the face OQ of Siping City; Has the second angle b between the second plane ON and the face OQ of Siping City.The line that in figure, each plane forms on cross section is specially: OQ represents Siping City's face, and OM represents the first plane, and ON represents the second plane.In the present embodiment, the first angle a is slightly larger than the second angle, need to prove, the magnitude relationship of the first angle and the second angle affects the wind-guiding distributary division with respect to the position of through-flow fan blade, and the width of first flow channels and the second flow channels, when the location positioning in through-flow fan blade and through-flow air channel, the wind-guiding distributary division is arranged in the left side of figure through-flow ducting outlet or the size that the first angle and the second angle are depended in the right side.

In the wind-guiding diversion mechanism of the present embodiment, the first angle a is greater than the second angle b.The first outer wall 21 and the second outer wall 22 intersect at the 3rd edge, first side is the 5th plane MP along the plane with the 3rd common place, edge, Second Edge is the 6th plane N P along the plane with the 3rd common place, edge, form the 3rd angle c between the first plane OM and the second plane ON, form the 4th angle d between the 5th plane MP and the 6th plane N P, the 3rd angle c is less than the 4th angle d, the 3rd angle and the 4th angle illustrate in Fig. 2, and the M in figure, N, 3 of P are three points that wind-guiding distributary division three edges form in cross section.The magnitude relationship of the 3rd angle and the 4th angle determines the shape size of wind-guiding distributary division and the position that is positioned at the through-flow duct outlet.

The utility model also provides the second embodiment of wind-guiding diversion mechanism, the wind-guiding diversion mechanism of the second embodiment and the structure of the first embodiment are basic identical, include through-flow air dam 10, wind-guiding distributary division 20 and through-flow fan blade 30, the difference of the present embodiment and the first embodiment only is the magnitude relationship of the first angle a and the second angle b, as shown in Figure 3, the first angle a of the present embodiment equals four times of the second angle b.As can be seen from the figure the first flow channels is less than the width of the second flow channels, and the first outer wall is pressed close to the inwall in through-flow air channel more than the second outer wall.

The utility model also provides the 3rd embodiment of wind-guiding diversion mechanism, the wind-guiding diversion mechanism of the 3rd embodiment and the structure of the first embodiment are basic identical, include through-flow air dam 10, wind-guiding distributary division 20 and through-flow fan blade 30, the difference of the present embodiment and the first embodiment only is the magnitude relationship of the first angle a and the second angle b, as shown in Figure 4, in the present embodiment the first angle a less than the second angle b.The second angle b equals three times of the first angle a.As can be seen from the figure the first flow channels is larger than the width of the second flow channels, and the second outer wall is pressed close to the inwall in through-flow air channel more than the first outer wall.

The above is only preferred embodiment of the present utility model, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims

1. a wind-guiding diversion mechanism, is characterized in that, comprising:

Through-flow air dam (10) has through-flow air channel (11);

Wind-guiding distributary division (20), have the first outer wall (21) and the second outer wall (22), described wind-guiding distributary division (20) is arranged on the air outlet place in described through-flow air channel (11), described the first outer wall (21) forms the first flow channels (13) with the inwall in described through-flow air channel (11), and described the second outer wall (22) forms the second flow channels (15) with the inwall in described through-flow air channel (11);

Through-flow fan blade (30) is arranged on the air inlet place in described through-flow air channel (11).

2. wind-guiding diversion mechanism according to claim 1, it is characterized in that, described the first outer wall (21) and described the second outer wall (22) intersect at the first end of described wind-guiding distributary division (20), and the first end of described wind-guiding distributary division (20) arranges towards the upstream in described through-flow air channel (11).

3. wind-guiding diversion mechanism according to claim 2, is characterized in that, the cross section of described wind-guiding distributary division (20) is wedge shape.

4. wind-guiding diversion mechanism according to claim 3, is characterized in that, the cross section of described wind-guiding distributary division (20) is triangular in shape.

5. wind-guiding diversion mechanism according to claim 3; It is characterized in that; Described the first outer wall (21) has the first side edge towards described through-flow air channel (11) air outlet; Described the second outer wall (22) has the Second Edge edge towards described through-flow air channel (11) air outlet; The axis of described through-flow fan blade (30) and described first side are the first plane (OM) along the plane at common place; The axis of described through-flow fan blade (30) and described Second Edge are the second plane (ON) along the plane at common place; Described first side is the 3rd plane (MN) along the plane with common place, described Second Edge edge; Siping City's face (OQ) vertically passes the axis of described through-flow fan blade (30) and perpendicular to described the 3rd plane (MN); Has the first angle (a) between described the first plane (OM) and described Siping City face (OQ); Has the second angle (b) between described the second plane (ON) and described Siping City face (OQ).

6. wind-guiding diversion mechanism according to claim 5, is characterized in that, described the first angle (a) is greater than described the second angle (b).

7. wind-guiding diversion mechanism according to claim 6, is characterized in that, described the first angle (a) equals four times of described the second angle (b).

8. wind-guiding diversion mechanism according to claim 5, is characterized in that, described the first angle (a) is less than described the second angle (b).

9. wind-guiding diversion mechanism according to claim 8, is characterized in that, described the second angle (b) equals three times of described the first angle (a).

10. wind-guiding diversion mechanism according to claim 5; It is characterized in that; Described the first outer wall (21) intersects at the 3rd edge with described the second outer wall (22); Described first side is the 5th plane (MP) along the plane with described the 3rd common place, edge; Described Second Edge is the 6th plane (NP) along the plane with described the 3rd common place, edge; Form the 3rd angle (c) between described the first plane (OM) and described the second plane (ON); Form the 4th angle (d) between described the 5th plane (MP) and described the 6th plane (NP); Described the 3rd angle (c) is less than described the 4th angle (d).