CN107599790B

CN107599790B - Air conditioner air outlet structure and vehicle

Info

Publication number: CN107599790B
Application number: CN201710743227.9A
Authority: CN
Inventors: 王宾星; 曲广辉
Original assignee: Beiqi Foton Motor Co Ltd
Current assignee: Beiqi Foton Motor Co Ltd
Priority date: 2017-08-25
Filing date: 2017-08-25
Publication date: 2019-12-20
Anticipated expiration: 2037-08-25
Also published as: CN107599790A

Abstract

The present disclosure relates to an air conditioner outlet structure and a vehicle. The air conditioner air outlet structure comprises a shell for limiting an air duct, a plurality of blades and a blade fixing beam fixed on the shell at the air outlet position of the air duct, wherein the blades are arranged at intervals along the width direction of the air outlet; in the diffusing position, the distance between the front ends of the adjacent two blades in the air blowing direction is smaller than the distance between the rear ends to blow out the diffused air. Through above-mentioned technical scheme, this air conditioner air outlet structure that openly provides can improve user's use travelling comfort.

Description

Air conditioner air outlet structure and vehicle

Technical Field

The disclosure relates to the technical field of vehicle air conditioners, in particular to an air conditioner air outlet structure and a vehicle.

Background

In the prior art, the wind blown out from the air outlet of the automobile air conditioner is generally parallel wind, the wind power is strong, and the wind directly blows a certain part of the body of a user, so that the user is easy to feel uncomfortable.

Disclosure of Invention

The purpose of this disclosure is to provide an air conditioner air outlet structure to improve user's travelling comfort.

In order to achieve the above object, the present disclosure provides an air-conditioning outlet structure, where the air-conditioning outlet structure includes a casing defining an air duct, a plurality of blades extending along a length direction of the air outlet and spaced apart from each other along a width direction of the air outlet, and a blade fixing beam fixed to the casing at an outlet position of the air duct, the air duct defining an air supply direction perpendicular to the length direction and the width direction at the outlet position, a middle portion of each of the blades corresponding to the air supply direction being hinged to the blade fixing beam through a respective first hinge point, respectively, the air-conditioning outlet structure further includes a linking member and a driving member, front ends of the blades in the air supply direction being hinged to the linking member through respective second hinge points, the driving member being capable of driving the linking member to move along the air supply direction and the width direction, so that the plurality of blades rotate about the first hinge point and the second hinge point to have a advection position where the plurality of blades are parallel to each other to blow out a parallel wind and a divergence position; in the diffusing position, a distance between the front ends of the adjacent two blades in the air blowing direction is smaller than a distance between the rear ends to blow out diffused air.

Optionally, the linkage member is configured as a flat plate, the linkage member is disposed parallel to a plane defined by the air supply direction and the width direction, the linkage plate is provided with first strip-shaped holes corresponding to the blades one to one, the first strip-shaped holes extend at an angle to the air supply direction and extend as follows: two adjacent first bar hole is in distance between the ascending front end of air supply direction is less than the distance between the rear end, the second pin joint passes correspondingly first bar hole can be followed the extending direction in first bar hole removes.

Optionally, the air outlet structure further comprises a retainer configured to retain the second hinge point of each of the blades at a desired position in the corresponding first strip-shaped hole.

Optionally, the holder is configured as a flat plate and is arranged parallel to the linkage, and the holder is provided with arc-shaped holes corresponding to the blades one to one, the arc-shaped holes use the first hinge points of the corresponding blades as circle centers, and the corresponding circle center angles correspond to the included angles between the corresponding first bar-shaped holes and the air supply direction.

Optionally, the plurality of blades are odd-numbered, and are a plurality of the first strip-shaped holes are arranged symmetrically with respect to the first strip-shaped holes corresponding to the blades and the arc-shaped holes, and are located in the middle, the central angles of the arc-shaped holes corresponding to the blades are zero, the included angles of the corresponding first strip-shaped holes and the air supply direction are zero, and the other included angles between the central angles of the arc-shaped holes corresponding to the blades and the air supply direction are all in direct proportion to the size of the interval between the blades and the middle blades.

Optionally, the number of the blades is even, the first strip-shaped holes and the arc-shaped holes are symmetrically arranged about a middle axis, and a central angle of the arc-shaped hole corresponding to the blade and an included angle between the first strip-shaped hole and the air supply direction are both in direct proportion to the size of an interval between the blade and the middle axis, wherein the middle axis is parallel to the air supply direction and passes through a middle point of a connecting line of the first hinge points.

Optionally, the driving member includes a first driving member for driving the linkage member to move relative to the holder in parallel to the air supply direction, and optionally, the first driving member includes a first link having a first end provided with a second strip-shaped hole and a second end serving as a driving end, a third strip-shaped hole is further provided at a position near the first end in an intermediate portion between the first end and the second end, the linkage member is provided with a fourth strip-shaped hole extending in the air supply direction and a first circular boss located at one side of the fourth strip-shaped hole, the holder is provided with a second circular boss, the first circular boss is received in the second strip-shaped hole, and the second circular boss is received in the third strip-shaped hole through the fourth strip-shaped hole.

Optionally, the driving member includes a second link and a diffusion control button mounted on the housing and exposed outside the housing, a first end of the second link is hinged to a second end of the first link, and a second end of the second link is connected to the diffusion control button.

Optionally, the drive member comprises a second drive member connected to a rear end of one of the plurality of blades.

On the basis of the technical scheme, the air conditioner air outlet structure comprises an air conditioner air outlet structure body, and the shell is an instrument board or a vehicle interior trim panel.

Through the technical scheme, the air outlet structure of the air conditioner can provide the parallel wind with strong wind power and relatively concentrated wind blowing range and the diffused wind with relatively weak wind power and relatively large wind blowing range for the user, so that the user can select a proper air conditioner wind type according to the condition of the user. The vehicle that this disclosure provided includes the air-conditioning outlet structure that this disclosure provided, consequently has above-mentioned advantage equally, can improve user's riding comfort.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 is a simplified schematic diagram of one embodiment of an air outlet structure for an air conditioner provided according to the present disclosure, wherein solid line blades indicate advective positions and dashed line blades indicate divergent positions.

Description of the reference numerals

1, a shell; 2, blades; 3, a blade fixing beam; 4 a linkage; 41 a first bar aperture; 42 a fourth aperture; 43 a first circular boss; 51a first link; 51a first end; 51b a second end; 51c a middle portion; 52a second link; 52a first end; 52b a second end; 53 a flood control button; 54 a second drive member; 6 a holder; 61 arc-shaped holes; 62 second circular boss.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise specified, the use of directional terms such as "front and rear" generally refers to the direction from which the wind blows and the direction to which the wind blows, and "inner and outer" generally refers to the inner and outer relative to the contour of each component itself. The above directional terms are used only to explain and illustrate the present disclosure, and are not meant to be limiting.

Fig. 1 illustrates a specific embodiment of an air outlet structure of an air conditioner provided according to the present disclosure. Referring to fig. 1, the air-conditioning outlet structure includes a housing 1 defining an air duct F, a plurality of blades 2, and a blade fixing beam 3 fixed to the housing 1 at an outlet position of the air duct F, the plurality of blades 2 extending in a length direction of the outlet and being spaced apart in a width direction of the outlet, the air duct defining a blowing direction (refer to an arrow direction in fig. 1) perpendicular to the length direction and the width direction at the outlet position, a middle portion of each of the blades 2 corresponding to the blowing direction being hinged to the blade fixing beam 3 through a respective first hinge point a, respectively, a linkage member 4 and a driving member, front ends of the plurality of blades 2 in the blowing direction being hinged to the linkage member 4 through respective second hinge points B, the driving member being capable of driving the linkage member 4 to move in the blowing direction and the width direction, so that the plurality of blades 2 are rotated about the first hinge point a and the second hinge point B to have a advection position where the plurality of blades 2 are parallel to each other to blow out parallel wind and a divergence position; in the diffusing position, the distance between the front ends of the adjacent two blades 2 in the air blowing direction is smaller than the distance between the rear ends to blow out the diffused wind.

Through the air-conditioning air outlet structure, parallel wind with strong wind power but relatively concentrated wind blowing range and diffused wind with relatively weak wind power but relatively large wind blowing range can be provided for a user, so that the user can select a proper air-conditioning wind type according to the condition of the user.

In the particular embodiments provided by the present disclosure, the linkage 4 may be configured in any suitable manner. Alternatively, referring to fig. 1, the linkage member 4 is configured as a flat plate, the linkage member 4 is disposed parallel to a plane defined by the air supply direction and the width direction, the linkage plate is provided with first strip-shaped holes 41 corresponding to the blades 2 one to one, the first strip-shaped holes 41 extend at an angle to the air supply direction and extend as follows: two adjacent first bar hole 41 is in distance between the front end on the air supply direction is less than the distance between the rear end, second pin joint B passes corresponding first bar hole 41 and can follow first bar hole 41's extending direction removes.

Therefore, when the second hinge point B is located at the rear end of the corresponding first bar-shaped hole 41, the blown wind is parallel wind, when the second hinge point B moves forward in the corresponding first bar-shaped hole 41, the range of the blown diffused wind is increased, and when the second hinge point B is located at the foremost end of the corresponding first bar-shaped hole 41, the range of the blown diffused wind is the largest.

Wherein the air outlet structure further comprises a retainer 6, and the retainer 6 is configured to retain the second hinge point B of each blade 2 at a desired position in the corresponding first strip-shaped hole 41. In this case, even if the air-conditioning outlet structure receives an unexpected external force, the range of the blown wind does not change.

In the specific embodiments provided by the present disclosure, the retaining member 6 may be configured in any suitable manner. Alternatively, referring to fig. 1, the holder 6 is configured as a flat plate and is disposed in parallel with the linkage 4, and the holder 6 is provided with arc-shaped holes 61 corresponding to the blades 2 one by one, the arc-shaped holes 61 are centered on the first hinge points a of the respective corresponding blades 2, and the corresponding central angle corresponds to the included angle between the corresponding first strip-shaped hole 41 and the air blowing direction.

Through the crossed arrangement of the first strip-shaped hole 41 and the arc-shaped hole 61, the movement of the second hinge point B can be limited, and the second hinge point B can be kept at the position without external force, so that the blowing range is not changed.

Additionally, in the specific embodiments provided by the present disclosure, the drive member may be configured in any suitable manner. Alternatively, the drive member comprises a first drive member for driving the link member 4 relative to the holder member 6 to move parallel to the air blowing direction. Referring to fig. 1, the driving member includes a first link 51, a first end 51a of the first link 51 is provided with a second bar-shaped hole 511, a second end 51b serves as a driving end, a third bar-shaped hole 512 is further provided at a position near the first end 52a on a middle portion 51c between the first end 51a and the second end 51b, the link 4 is provided with a fourth hole 42 extending in the air blowing direction and a first circular boss 43 located at one side of the fourth hole 42, the holder 6 is provided with a second circular boss 62, the first circular boss 43 is received in the second bar-shaped hole 511, and the second circular boss 62 is received in the third bar-shaped hole 512 through the fourth hole 42.

When the second end 51b of the first link 51 is driven, the first link 51 rotates around the second circular boss 62, and the linkage member 4 is driven to move relative to the holder 6 in the air blowing direction through the cooperation of the first circular boss 43 and the second strip-shaped hole 511, so that the blade 2 is switched between the advection position and the diffusion position. Wherein the second circular boss 62 moves along the fourth strip-shaped hole 42 during movement of the link 4.

In addition, in order to facilitate the driving of the first link 51, the driving member may include a second link 52 and a circulation control button 53 installed on the housing 1 and exposed outside the housing 1, a first end 52a of the second link 52 is hinged to a second end 52b of the first link 51, and a second end 52a of the second link 52 is connected to the circulation control button 53. By pressing/pulling the diffuser control button 53, the vanes 2 can be switched between the advection position and the diffuser position at will.

In addition, the driving member may include a second driving member 54, and the second driving member 54 is connected to a rear end of one of the plurality of blades 2.

By operating the second driving member 54 to drive the blade 2 to rotate around the first hinge point a, the second hinge point B can drive the linking member 4 and the retaining member 6 to move together in the width direction synchronously, thereby changing the included angle between the blade 2 and the air supply direction, i.e. the included angle between the wind direction of the parallel wind and the air supply direction.

In addition, in the specific embodiments provided in the present disclosure, the number of blades is not particularly limited. The plurality of blades 2 can be odd number, and are a plurality of first strip-shaped holes 41 are a plurality of arc-shaped holes 61 respectively about with the centre first strip-shaped holes 41 that blade 2 corresponds and arc-shaped holes 61 symmetrical arrangement, be located the centre blade 2 corresponds first strip-shaped holes 41 that arc-shaped holes 61's central angle is zero, corresponds with air supply direction's contained angle is zero, other blade 2 corresponds the central angle of arc-shaped holes 61 with first strip-shaped holes 41 with contained angle between the air supply direction all with this blade 2 and the middle interval size between the blade 2 is directly proportional.

Of course, the plurality of blades 2 may also be an even number, the plurality of first bar-shaped holes 41 and the plurality of arc-shaped holes 61 are symmetrically arranged about a middle axis, and a central angle of the arc-shaped hole corresponding to the blade 2 and an included angle between the first bar-shaped hole 41 and the air supply direction are both in direct proportion to the size of an interval between the blade 2 and the middle axis, wherein the middle axis is parallel to the air supply direction and passes through a middle point of a connecting line of the plurality of first hinge points a.

On the basis of the technical scheme, the vehicle comprises the air outlet structure of the air conditioner, and the shell is an instrument board or an interior trim panel of the vehicle.

Of course, the application environment of the air outlet structure of the air conditioner provided by the present disclosure is not limited, and the air outlet structure of the air conditioner can be applied to vehicles and different application environments such as household air conditioners.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, various possible combinations will not be separately described in this disclosure.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims

1. An air outlet structure of an air conditioner is characterized by comprising a shell (1) defining an air duct (F), a plurality of blades (2) and a blade fixing beam (3) fixed to the shell (1) at an air outlet position of the air duct (F), wherein the blades (2) extend along the length direction of the air outlet and are arranged at intervals along the width direction of the air outlet, the air duct defines an air supply direction perpendicular to the length direction and the width direction at the air outlet position, the middle part of each blade (2) corresponding to the air supply direction is hinged to the blade fixing beam (3) through a first hinge point (A), the air outlet structure of the air conditioner further comprises a linkage piece (4) and a driving piece, the front ends of the blades (2) in the air supply direction are hinged to the linkage piece (4) through second hinge points (B), the driving part can drive the linkage part (4) to move along the air supply direction and the width direction, so that the plurality of blades (2) rotate around the first hinge point (A) and the second hinge point (B) to have a advection position and a dispersion position, and in the advection position, the plurality of blades (2) are mutually parallel to blow out parallel wind; in the diffusing position, the distance between the front ends of the adjacent two blades (2) in the air supply direction is smaller than the distance between the rear ends so as to blow out diffused air;

the linkage piece (4) is of a flat plate shape, the linkage piece (4) is arranged in parallel to a plane defined by the air supply direction and the width direction, and first strip-shaped holes (41) corresponding to the blades (2) one by one are formed in the linkage piece (4);

the air-conditioning outlet structure further comprises a retainer (6), the retainer (6) being configured to retain the second hinge point (B) of each blade (2) in a desired position in the corresponding first strip-shaped hole (41);

the retaining piece (6) is flat and arranged in parallel with the linkage piece (4), arc-shaped holes (61) corresponding to the blades (2) one by one are formed in the retaining piece (6), the arc-shaped holes (61) take first hinge points (A) of the corresponding blades (2) as circle centers, and the corresponding circle center angles correspond to included angles between the corresponding first strip-shaped holes (41) and the air supply direction.

2. Air conditioning outlet structure according to claim 1, wherein said first strip-shaped holes (41) extend at an angle to said air blowing direction and are such as to: two adjacent first bar holes (41) are in distance between the front end on the air supply direction is less than the distance between the rear end, second pin joint (B) pass corresponding first bar hole (41) and can follow the extending direction of first bar hole (41) removes.

3. The air outlet structure of the air conditioner according to claim 1, wherein the plurality of blades (2) are odd, the plurality of first strip-shaped holes (41) and the plurality of arc-shaped holes (61) are symmetrically arranged with respect to the first strip-shaped hole (41) and the arc-shaped hole (61) corresponding to the middle blade (2), a central angle of the arc-shaped hole (61) corresponding to the middle blade (2) is zero, an included angle between the corresponding first strip-shaped hole (41) and the air supply direction is zero, and central angles of the arc-shaped holes (61) corresponding to the other blades (2) and included angles between the corresponding first strip-shaped holes (41) and the air supply direction are in direct proportion to the size of the gap between the blade (2) and the middle blade (2).

4. The air outlet structure of the air conditioner according to claim 1, wherein the plurality of blades (2) are even, the plurality of first strip-shaped holes (41) and the plurality of arc-shaped holes (61) are symmetrically arranged about a middle axis, and a central angle of the arc-shaped hole corresponding to the blade (2) and an included angle between the first strip-shaped hole (41) and the air supply direction are both in direct proportion to the size of the interval between the blade (2) and the middle axis, wherein the middle axis is parallel to the air supply direction and passes through a middle point of a connecting line of the plurality of first hinge points (a).

5. Air-conditioning outlet structure according to claim 1, characterized in that said actuating means comprise first actuating means for actuating the movement of said linkage means (4) with respect to said retaining means (6) parallel to the air blowing direction.

6. The air-conditioning outlet structure according to claim 5, characterized in that the first driving member comprises a first link (51), a first end (51a) of the first link (51) is provided with a second strip-shaped hole (511), a second end (51b) of the first link (51) serves as a driving end, a third strip-shaped hole (512) is further provided on an intermediate portion (51c) between the first end (51a) of the first link (51) and the second end (51b) of the first link (51) at a position close to the first end (51a) of the first link (51), the link (4) is provided with a fourth strip-shaped hole (42) extending in the air blowing direction and a first circular boss (43) located at one side of the fourth strip-shaped hole (42), the holder (6) is provided with a second circular boss (62), and the first circular boss (43) is received in the second strip-shaped hole (511), the second circular boss (62) is received in the third strip-shaped aperture (512) through the fourth strip-shaped aperture (42).

7. The air-conditioning outlet structure according to claim 6, characterized in that the driving member comprises a second connecting rod (52) and a diffusion control button (53) mounted on the housing (1) and exposed outside the housing (1), the first end (52a) of the second connecting rod (52) is hinged to the second end (51b) of the first connecting rod (51), and the second end (52b) of the second connecting rod (52) is connected to the diffusion control button (53).

8. The air-conditioning outlet structure according to claim 1, characterized in that said drive member comprises a second drive member (54), said second drive member (54) being connected to the rear end of one of said plurality of blades (2).

9. A vehicle comprising the air outlet structure of any one of claims 1 to 8, wherein the housing is an instrument panel or a vehicle interior panel.