CN219406094U - Electric air outlet structure of instrument board - Google Patents

Abstract

The utility model discloses an electric air outlet structure of an instrument panel, which comprises an air outlet shell, upper and lower wind guide blades and a plurality of longitudinal blades which are arranged at intervals; the air outlet structure also comprises a left air adjusting component and a right air adjusting component which are integrated at the upper part of the air outlet shell and are in transmission connection with the longitudinal blades, and the left air adjusting component and the right air adjusting component drive the longitudinal blades to turn over so as to adjust left air outlet and right air outlet; and the up-down wind adjusting component is integrated on the side surface of the wind gap shell and is in transmission connection with the up-down wind guide blade, and the up-down wind adjusting component drives the up-down wind guide blade to turn over so as to adjust up-down wind outlet. According to the integrated mounting structure of the air outlet structure, the air outlet blades are hidden in the air outlet shell, so that the air outlet is smaller in size, concise and attractive in appearance and beneficial to arrangement of all parts on an instrument board.

Description

Electric air outlet structure of instrument board

Technical Field

The utility model relates to the technical field of vehicle air outlet structures, in particular to an electric air outlet structure of an instrument panel.

Background

The earliest instrument board air outlet appears in the 50 th century, and the design of the air outlet is crude and random; with the continuous development of the automobile industry, the number and arrangement positions of the air outlets enter a mature design stage.

The instrument board air outlet has the regulation effect of amount of wind and wind direction, through adjusting the air outlet, should be able to satisfy the air cycle and the refrigeration control requirement of whole car to can satisfy passenger's various travelling comfort requirement, will, from certain aspect, the design of air outlet is not solely subordinate to interior trim design, but should consider in whole car system synchronization.

With the continuous development of intelligent air conditioning systems, the arrangement position, size, type and other characteristics of an instrument board air outlet directly influence the airflow speed, flow direction and flow field organization in a vehicle, and have quite important influences on the performance of the air conditioning system, the quietness in the vehicle and the comfort of passengers.

Particularly, an intelligent cabin system has become a new trend of development of automotive interiors, as an important component in the cabin, the current wind direction adjustment operation of an instrument panel air outlet is complicated, and the problems of the complicated design of exposed blade and twisting structures and the like are needed to be improved.

Therefore, based on the above technical problems, a person skilled in the art needs to develop an electric air outlet structure of an instrument panel.

Disclosure of Invention

The utility model aims to provide an electric air outlet structure of an instrument board, which solves the problems of exposed blades, inconvenient manual adjustment and the like of the traditional air outlet in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model relates to an electric air outlet structure of an instrument board, which comprises:

an air port housing;

the upper and lower wind guide blades are integrated at the rear side inside the tuyere shell; and

a plurality of spaced apart longitudinal blades integrated into an interior front side of the tuyere housing;

an air door is arranged at the rear side of the air port shell, an air channel is formed in the air port shell, the air channel is divided into an upper air channel and a lower air channel through the upper air guide blade and the lower air guide blade, and air in the air channel controls left air outlet and right air outlet through the longitudinal blades;

the air outlet structure further comprises:

the left and right wind adjusting component is integrated at the upper part of the wind gap shell and is in transmission connection with the longitudinal blades, and the left and right wind adjusting component drives the longitudinal blades to turn over so as to adjust left and right wind outlet;

the up-down wind adjusting component is integrated on the side surface of the wind gap shell and is in transmission connection with the up-down wind guide blade, and the up-down wind adjusting component drives the up-down wind guide blade to turn over so as to adjust up-down wind outlet.

Further, the upwind and downwind adjusting assembly comprises:

the up-down wind adjusting motor is integrated on the side surface of the tuyere shell through a motor mounting bracket;

the first blade transmission connecting rod is in transmission connection with the output end of the up-down wind adjusting motor, and the first blade transmission connecting rod is connected with the up-down wind guide blade so as to drive the up-down wind guide blade to turn over through the up-down wind adjusting motor.

Further, the up-down wind adjusting component adjusts the up-down effective wind outlet angle of the up-down wind guide blade turning to be 0-74 degrees;

the upper limit and the lower limit of the upper air outlet and the lower air outlet of the upper air guide blade and the lower air guide blade are controlled to be 36 degrees and 38 degrees respectively.

Further, the air outlet structure further comprises:

the second blade transmission connecting rod is connected with the first blade transmission connecting rod and is connected with the upwind and downwind adjusting motor through the first blade transmission connecting rod;

the second blade transmission connecting rod is connected with the air door to drive the air door to turn over.

Further, the left and right wind adjusting assembly includes:

a left and right wind adjusting motor integrated at the top of the tuyere housing;

the longitudinal blade transmission structure is connected to the output end of the left and right wind adjusting motor;

the longitudinal blades are connected through a longitudinal blade connecting rod, and the longitudinal blade transmission structure is connected with the longitudinal blade positioned in the middle and drives all the longitudinal blades to synchronously turn over through the longitudinal blade and the longitudinal blade connecting rod.

Further, the tuyere shell and one end of the air door matched with the air door are provided with tuyere sponges.

Further, the front side inside the tuyere shell is connected with a tuyere shell patch in a clamping way;

the front side of the air port shell patch is sequentially clamped with an air deflector inner plate, an air deflector outer plate and an air deflector mounting frame;

the front end of the air outlet shell is provided with a left air outlet panel framework, and the left air outlet panel framework is connected with an air outlet panel in a clamping mode.

In the technical scheme, the electric air outlet structure of the instrument panel has the following beneficial effects:

according to the integrated mounting structure of the air outlet structure, the air outlet blades are hidden in the air outlet shell, so that the air outlet is smaller in size, concise and attractive in appearance and beneficial to arrangement of all parts on an instrument board.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a schematic structural diagram of an electric air outlet structure of an instrument panel according to an embodiment of the present utility model;

fig. 2 is a structural exploded view of an electric air outlet structure of an instrument panel according to an embodiment of the present utility model;

fig. 3 is a schematic longitudinal section view of an electric air outlet structure of an instrument panel according to an embodiment of the present utility model;

fig. 4 is a schematic transverse cross-sectional view of an electric air outlet structure of an instrument panel according to an embodiment of the present utility model.

Reference numerals illustrate:

1. an air deflector mounting frame; 2. an air deflector outer plate; 3. an air deflector inner plate; 4. a left air outlet panel framework; 5. an air port panel; 6. an iron clip; 7. longitudinal vanes; 8. a longitudinal blade link; 9. an air port housing; 10. a longitudinal blade transmission structure; 11. a left-right wind adjusting motor; 12. repairing the tuyere shell; 13. upwind and downwind wind guide blades; 14. a damper; 15. a second blade drive link; 16. a first blade drive link; 17. a motor mounting bracket; 18. a motor is adjusted by upwind and downwind; 19. installing a screw; 20. and (5) an air port sponge.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

See fig. 1-4;

an instrument board electric type air outlet structure of this embodiment, this air outlet structure includes:

a tuyere housing 9;

upper and lower wind guide vanes 13 integrated at the rear side inside the tuyere housing 9; and

a plurality of spaced longitudinal blades 7 integrated at the inner front side of the tuyere housing 9;

an air door 14 is arranged at the rear side of the air port shell 9, an air channel is formed in the air port shell 9, the air channel is divided into an upper air channel and a lower air channel through upper and lower air guide blades 13, and air in the air channel controls left and right air outlet through longitudinal blades 7;

the air outlet structure further comprises:

the left and right wind adjusting component is integrated at the upper part of the wind gap shell 9 and is in transmission connection with the longitudinal blades 7, and the left and right wind adjusting component drives the longitudinal blades 7 to turn over so as to adjust left and right wind outlet;

and the up-down wind adjusting component is integrated on the side surface of the wind gap shell 9 and is in transmission connection with the up-down wind guide blade 13, and the up-down wind adjusting component drives the up-down wind guide blade 13 to turn over so as to adjust up-down wind outlet.

Specifically, this embodiment discloses an electric air outlet structure, which uses an air outlet shell 9 as a main body, and an upper and a lower air guide blades 13 and a longitudinal blade 7 are arranged inside the air outlet structure and are respectively used for adjusting and controlling the upper and lower air output and the left and right air directions. Meanwhile, in order to control the up-down wind and the left-right wind, a left-right wind adjusting component and an up-down wind adjusting component are integrated on the wind gap housing 9 of the embodiment and are used for respectively driving the up-down wind guide blades 13 and the turning of the longitudinal blades 7, so that the adjustment of the up-down wind and the left-right wind is realized. The up-down wind guide vanes 13 and the longitudinal vanes 7 of the embodiment are integrated in the air port shell 9, so that the concealment is good, and the size of the air outlet can be smaller.

Preferably, the upwind and downwind adjustment assembly of the present embodiment includes:

a wind up-down adjusting motor 18 integrated on the side surface of the tuyere housing 9 through a motor mounting bracket 17;

the first blade transmission connecting rod 16 is in transmission connection with the output end of the up-down wind adjusting motor 18, and the first blade transmission connecting rod 16 is connected with the up-down wind guide blade 13 to drive the up-down wind guide blade 13 to turn over through the up-down wind adjusting motor 18.

Wherein, the up-down wind adjusting component of the embodiment adjusts the up-down effective wind outlet angle of the turnover of the up-down wind guide vanes 13 to be 0-74 degrees;

the upper and lower wind guide blades 13 control the upper limit of the upper and lower wind outlet to be 36 degrees and the lower limit to be 38 degrees.

The upwind and downwind adjusting motor 18 of the present embodiment is assembled and fixed with the motor mounting bracket 17 by screws. The output end of the up-down wind adjusting motor 18 drives the first blade transmission connecting rod 16 to move so as to drive the up-down wind guide blade 13 connected with the first blade transmission connecting rod to turn over, thereby adjusting up-down wind.

Preferably, based on the structure of the above-mentioned upwind and downwind adjusting assembly, the air outlet structure of this embodiment further includes:

a second blade transmission link 15 connected to the first blade transmission link 16 and connected to the upwind and downwind adjustment motor 18 through the first blade transmission link 16;

a second vane drive link 15 is connected to the damper 14 to drive the damper 14 in a flip.

The present embodiment designs a second blade transmission link 15 connected to the first blade transmission link 16, and the damper 14 can be driven to turn over by the second blade transmission link 15 under the driving of the up-down wind adjusting motor 18.

As a preferred embodiment, in order to realize intelligent control, the up-down wind adjusting motor 18 of the embodiment is controlled by a controller of an automobile, and drives the up-down wind guiding blade 13 to turn over after receiving a control signal of the controller.

Preferably, the left and right wind adjustment assembly of the present embodiment includes:

a left and right wind adjusting motor 11 integrated at the top of the tuyere housing 9;

a longitudinal blade transmission structure 10 connected to the output end of the left and right wind adjusting motor 11;

the plurality of longitudinal blades 7 are connected through a longitudinal blade connecting rod 8, and the longitudinal blade transmission structure 10 is connected with the longitudinal blade 7 positioned in the middle and drives all the longitudinal blades 7 to synchronously turn over through the longitudinal blade 7 and the longitudinal blade connecting rod 8.

The left-right wind adjusting assembly of the embodiment drives the longitudinal blades 7 to move through the left-right wind adjusting motor 11, a plurality of longitudinal blades 7 are installed on the longitudinal blade connecting rod 8 at intervals, the longitudinal blade transmission structure 10 is connected with one longitudinal blade 7 positioned in the middle, and the longitudinal blade 7 is driven to drive the longitudinal blade transmission structure 10 to move so as to drive all the longitudinal blades 7 to synchronously overturn to adjust left wind and right wind.

Preferably, the tuyere housing 9 of this embodiment is provided with a tuyere sponge 20 at one end thereof which cooperates with the damper 14.

Preferably, the front side inside the tuyere housing 9 of the present embodiment is connected with a tuyere housing patch 12 in a clamping manner;

the front side of the air port shell patch 12 is sequentially clamped with an air deflector inner plate 3, an air deflector outer plate 2 and an air deflector mounting frame 1;

the front end of the air outlet shell 9 is provided with a left air outlet panel framework 4, and the left air outlet panel framework 4 is connected with an air outlet panel 5 in a clamping way.

In the technical scheme, the electric air outlet structure of the instrument panel has the following beneficial effects:

according to the integrated mounting structure of the air outlet structure, the air outlet blades are hidden in the air outlet shell 9, so that the air outlet is smaller in size, concise and attractive in appearance and beneficial to arrangement of all parts on an instrument board.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (7)

1. An instrument panel electric air outlet structure, characterized in that the air outlet structure comprises:

a tuyere housing (9);

upper and lower wind guide vanes (13) integrated at the rear side inside the tuyere housing (9); and

a plurality of spaced longitudinal blades (7) integrated into the interior front side of the tuyere housing (9);

an air door (14) is arranged at the rear side of the air port shell (9), an air channel is formed in the air port shell (9), the air channel is divided into an upper air channel and a lower air channel through the upper air guide blade (13) and the lower air guide blade, and air in the air channel controls left air outlet and right air outlet through the longitudinal blades (7);

the air outlet structure further comprises:

the left and right wind adjusting component is integrated at the upper part of the wind gap shell (9) and is in transmission connection with the longitudinal blades (7), and the left and right wind adjusting component drives the longitudinal blades (7) to turn over so as to adjust left and right wind outlet;

the up-down wind adjusting component is integrated on the side face of the wind gap shell (9) and is in transmission connection with the up-down wind guide blade (13), and the up-down wind adjusting component drives the up-down wind guide blade (13) to turn over to adjust up-down wind.

2. The structure of an electric air outlet for an instrument panel according to claim 1, wherein the up-down wind adjusting assembly comprises:

an up-down wind adjusting motor (18) integrated on the side surface of the wind gap shell (9) through a motor mounting bracket (17);

the first blade transmission connecting rod (16) is in transmission connection with the output end of the up-down wind adjusting motor (18), and the first blade transmission connecting rod (16) is connected with the up-down wind guiding blade (13) so as to drive the up-down wind guiding blade (13) to turn over through the up-down wind adjusting motor (18).

3. The electric air outlet structure of the instrument panel according to claim 2, wherein the up-down air adjusting component adjusts the up-down effective air outlet angle of the turning up-down air guide blade (13) to be 0 ° -74 °;

the upper and lower wind guide vanes (13) control the upper limit of upper and lower wind outlet to be 36 degrees and the lower limit to be 38 degrees.

4. The structure of claim 2, further comprising:

a second blade transmission link (15) connected to the first blade transmission link (16) and connected to the upwind and downwind adjustment motor (18) via the first blade transmission link (16);

the second blade transmission connecting rod (15) is connected with the air door (14) to drive the air door (14) to turn over.

5. The structure of an electric air outlet of an instrument panel according to claim 1, wherein the left and right wind adjusting assembly comprises:

a left and right wind adjusting motor (11) integrated at the top of the wind gap shell (9);

a longitudinal blade transmission structure (10) connected to the output end of the left and right wind adjusting motor (11);

the plurality of longitudinal blades (7) are connected through a longitudinal blade connecting rod (8), the longitudinal blade transmission structure (10) is connected with the longitudinal blades (7) positioned in the middle, and all the longitudinal blades (7) are driven to synchronously turn over through the longitudinal blades (7) and the longitudinal blade connecting rod (8).

6. An electric air outlet structure of an instrument panel according to claim 1, characterized in that an air outlet sponge (20) is mounted at one end of the air outlet housing (9) which cooperates with the air door (14).

7. The electric air outlet structure of the instrument panel according to claim 1, wherein the front side inside the air outlet shell (9) is connected with an air outlet shell patch (12) in a clamping way;

the front side of the air port shell patch (12) is sequentially clamped with an air deflector inner plate (3), an air deflector outer plate (2) and an air deflector mounting frame (1);

the front end of the air outlet shell (9) is provided with a left air outlet panel framework (4), and the left air outlet panel framework (4) is connected with an air outlet panel (5) in a clamping mode.