CN108001167B

CN108001167B - Air outlet adjusting structure of air outlet

Info

Publication number: CN108001167B
Application number: CN201711078954.4A
Authority: CN
Inventors: 贺刚
Original assignee: Dongfeng Faurecia Automotive Trim Co ltd
Current assignee: Dongfeng Faurecia Automotive Trim Co ltd
Priority date: 2017-11-06
Filing date: 2017-11-06
Publication date: 2023-12-01
Anticipated expiration: 2037-11-06
Also published as: CN108001167A

Abstract

The invention relates to the field of automobile part manufacturing, and discloses an air outlet adjusting structure which comprises an outer shell with two open ends and an inner shell arranged in the outer shell, wherein the middle parts of the outer shell and the inner shell are convex, a first air outlet channel and a second air outlet channel which are symmetrically arranged are formed at an air outlet of the outer shell by the inner wall of the outer shell and the outer wall of the inner shell, an air inlet air door assembly is arranged at an air inlet of the outer shell, an inner shell upper cover plate is covered on the inner shell, a toggle switch assembly is arranged on the inner shell upper cover plate, a connecting rod assembly controlled by the toggle switch assembly is arranged in the inner shell, an upper air guide blade group which is in linkage with the connecting rod assembly is arranged outside the inner shell, a lower air guide blade controlled by the toggle switch assembly is arranged at the bottom of the inner shell, and the connecting rod assembly is in linkage with the air inlet air door assembly by a fourth connecting rod. The invention realizes stepless regulation of wind direction, has convenient control and simple operation, conceals the shutter-shaped structure and has beautiful appearance.

Description

Air outlet adjusting structure of air outlet

Technical Field

The invention relates to the field of automobile part manufacturing, in particular to an air outlet adjusting structure of an air outlet.

Background

In the prior art, air outlets are used on many parts in the field of automobile part manufacturing, and in the prior art, the air outlets have no air quantity control structure or simple air quantity control structures, such as a shutter-shaped structure of a common air quantity control structure, but the air quantity control structures are poor in appearance, unsatisfactory in control effect and inconvenient to use and adjust.

Disclosure of Invention

The invention aims at overcoming the defects of the technology, and provides an air outlet adjusting structure which realizes stepless adjustment of the air direction in four directions of up, down, left and right and closing and opening, is convenient to control and simple to operate, conceals a shutter-shaped structure and has attractive appearance.

In order to achieve the above purpose, the air outlet adjusting structure comprises an outer shell with two open ends and an inner shell arranged in the outer shell, wherein the outer shell and the inner shell are both convex in the middle, a first air outlet channel and a second air outlet channel which are symmetrically arranged are formed at the air outlet of the outer shell by the inner wall of the outer shell and the outer wall of the inner shell, an air inlet air door assembly is arranged at an air inlet of the outer shell, an inner shell upper cover plate is covered on the inner shell, a toggle switch assembly is arranged on the inner shell upper cover plate through a rotating shaft, a connecting rod assembly which is linked with the toggle switch assembly is arranged in the inner shell through a movement guide groove, an upper air guide blade group which is linked with the connecting rod assembly and changes the left and right directions of air outlet is arranged outside the inner shell, a lower air guide blade which is linked with the toggle switch assembly and closes a space between the bottom of the inner shell and the inner wall of one side of the outer shell is arranged at the bottom of the inner shell, and the connecting rod assembly is linked with the air inlet air door assembly through a fourth connecting rod.

Preferably, the toggle switch assembly comprises a toggle button arranged on the upper cover plate of the inner shell through a rotating shaft and a toggle wheel arranged in the toggle button.

Preferably, a first linkage pile is arranged on the lower-layer wind guide blade, the first linkage pile stretches into the poking button, the poking button is adjusted to enable the poking button to rotate around the rotating shaft, and the lower-layer wind guide blade is driven to rotate to achieve adjustment of wind direction.

Preferably, the connecting rod assembly includes first connecting rod, second connecting rod, third connecting rod, the both ends of first connecting rod are equipped with first guide slot and second guide slot respectively, stretch to have in the first guide slot and establish the driving lever on the driving wheel circumference, second connecting rod one end is fixed on the driving lever, this end of second connecting rod supports first connecting rod, the second connecting rod other end is equipped with the hole, the lower part of second connecting rod is equipped with the linkage upper wind guiding vane group's spacing groove, the third connecting rod is the triangle connecting rod, one of them angle of third connecting rod outwards extends to form the slide bar, be equipped with on one angle of third connecting rod and install the motion round pin in the first guide slot, be equipped with on another angle of third connecting rod and install the motion round pin in the hole, the fourth connecting rod top is equipped with the third guide slot of horizontal direction, third connecting rod top is equipped with the motion round pin of assembly in the third guide slot.

Preferably, the upper layer wind guiding blade group comprises a plurality of left and right wind guiding blades and a fifth connecting rod connected in series with the left and right wind guiding blades, wherein one of the left and right wind guiding blades stretches into the limiting groove, so that the second connecting rod controls the left and right wind guiding blades.

Preferably, the air inlet air door assembly comprises a first air door blade and a second air door blade which are arranged side by side, a first gear connecting rod is connected to the first air door blade, a second gear connecting rod is connected to the second air door blade, the first gear connecting rod is meshed with the second gear connecting rod through a gear, a fourth guide groove is formed in the top end of the first gear connecting rod, and a second linkage pile located at the tail end of the fourth connecting rod is installed in the fourth guide groove.

Compared with the prior art, the invention has the following advantages:

1. the air inlet air door assembly is arranged at the air inlet of the outer shell, the upper layer air guide blade group and the lower layer air guide blade are arranged in the outer shell, the shutter-shaped structure is hidden, the appearance is attractive, and the inner device can be adjusted outside the structure by arranging the toggle switch assembly and the connecting rod assembly;

2. the upper layer wind guide blade group, the lower layer wind guide blade and the air inlet door assembly are adjusted, so that the stepless adjustment of the air outlet direction in the up-down, left-right directions and the closing and opening is realized, the control is convenient, and the operation is simple.

Drawings

FIG. 1 is a schematic diagram of an air outlet adjusting structure of an air outlet of the present invention;

FIG. 2 is a schematic side view of the structure of FIG. 1;

FIG. 3 is a schematic diagram illustrating a left and right wind guiding blades swinging to the left in FIG. 2;

FIG. 4 is a schematic diagram illustrating a structure in which the left and right air guiding blades swing rightward in FIG. 2;

FIG. 5 is a schematic view of the structure of the lower air guiding blade in FIG. 1, wherein the end of the lower air guiding blade moves to the left limit;

FIG. 6 is a schematic view of the structure of the lower air guiding vane in FIG. 1, wherein the end of the lower air guiding vane moves to the right limit.

The reference numerals of the components in the drawings are as follows:

the air conditioner comprises an outer shell 1, an inner shell 2, an air outlet 3, a first air outlet channel 4, a second air outlet channel 5, an air inlet 6, an air inlet door assembly 7, an inner shell upper cover plate 8, a rotating shaft 9, a toggle switch assembly 10, a connecting rod assembly 11, an upper air guide blade group 12, a lower air guide blade 13, a fourth connecting rod 14, a second linkage pile 15, a toggle 16, a deflector wheel 17, a first linkage pile 18, a first connecting rod 19, a second connecting rod 20, a third connecting rod 21, a first guide groove 22, a second guide groove 23, a deflector rod 24, a hole 25, a limit groove 26, a slide rod 27, a motion pin 28, a third guide groove 29, a fifth connecting rod 30, a first air door blade 31, a second air door blade 32, a first gear connecting rod, a second gear connecting rod 34, a fourth guide groove 35 and a left air guide blade 36.

Detailed Description

The invention will now be described in further detail with reference to the drawings and to specific examples.

As shown in fig. 1, the air outlet adjusting structure comprises an outer shell 1 with two open ends and an inner shell 2 arranged in the outer shell 1, wherein the middle parts of the outer shell 1 and the inner shell 2 are protruded, a first air outlet channel 4 and a second air outlet channel 5 which are symmetrically arranged are formed at an air outlet 3 of the outer shell 1 by the inner wall of the outer shell 1 and the outer wall of the inner shell 2, an air inlet air door assembly 7 is arranged at an air inlet 6 of the outer shell 1, an inner shell upper cover plate 8 is covered on the inner shell 2, a toggle switch assembly 10 is arranged on the inner shell upper cover plate 8 through a rotating shaft 9, a connecting rod assembly 11 controlled by the toggle switch assembly 10 is arranged in the inner shell 2 through a moving guide groove, an upper air guide blade group 12 which is linked with the connecting rod assembly 11 and changes the left and right directions of air outlet is arranged outside the inner shell 2 through a clamping groove, a lower air guide blade 13 which is controlled by the toggle switch assembly 10 and closes a space between the bottom of the inner shell 2 and the inner wall of one side of the outer shell 1 is arranged at the bottom of the inner shell 2, and the connecting rod assembly 11 is linked with the air inlet air door assembly 7 through a fourth connecting rod 14.

As shown in fig. 2, the toggle switch assembly 10 comprises a toggle 16 arranged on an upper cover plate 8 of the inner shell through a rotating shaft 9 and a toggle wheel 17 arranged in the toggle 16, a first linkage pile 18 is arranged on the lower layer wind guiding blade 13, and the first linkage pile 18 extends into the toggle 16; the connecting rod assembly 11 comprises a first connecting rod 19, a second connecting rod 20 and a third connecting rod 21, wherein a first guide groove 22 and a second guide groove 23 are respectively arranged at two ends of the first connecting rod 19, a deflector rod 24 arranged on the circumference of a deflector wheel 17 extends in the first guide groove 22, one end of the second connecting rod 20 is fixed on a deflector knob 16, the other end of the second connecting rod 20 is provided with a hole 25, the lower part of the second connecting rod 20 is provided with a limit groove 26 for linking the upper layer wind-guiding blade group 12, the upper layer wind-guiding blade group 12 comprises six left and right wind-guiding blades 36 and a fifth connecting rod 30 connected with the left and right wind-guiding blades 36 in series, one of the left and right wind-guiding blades 36 extends into the limit groove 26, the third connecting rod 21 is a triangular connecting rod, one corner of the third connecting rod 21 extends outwards to form a slide bar 27, one corner of the third connecting rod 21 is provided with a moving pin 28 arranged in the first guide groove 22, the other corner of the third connecting rod 21 is provided with a moving pin 28 arranged in the hole 25, the top end of the fourth connecting rod 14 is provided with a third guide groove 29 in the horizontal direction, and the top end of the third connecting rod 21 is provided with a third moving pin 28 arranged in the third guide groove 29 arranged in the slide bar 27; the air inlet air door assembly 7 comprises a first air door blade 31 and a second air door blade 32 which are arranged side by side, a first gear connecting rod 33 is connected to the first air door blade 31, a second gear connecting rod 34 is connected to the second air door blade 32, the first gear connecting rod 33 is meshed with the second gear connecting rod 34 through gears, a fourth guide groove 35 is formed in the top end of the first gear connecting rod 33, and a second linkage pile 15 positioned at the tail end of the fourth connecting rod 14 is installed in the fourth guide groove 35.

When the embodiment is used, as shown in fig. 2, the adjusting knob 16 makes the knob 16 rotate around the rotating shaft 9, the lower layer wind guiding blade 13 is rotated by driving the first linkage pile 18 to realize the left and right adjustment of wind direction, and when the knob 16 moves to the left limit, the first wind guiding channel 4 is closed, and the wind quantity is blown out from the second wind outlet channel 5 by driving the first linkage pile 18 to further make the tail end of the lower layer wind guiding blade 13 move to the left limit as shown in fig. 5; referring to fig. 6, when the knob 16 moves to the right limit, the first linkage pile 18 is driven to further move the tail end of the lower air guiding blade 13 to the right limit, the second air guiding channel 5 is closed, and the air quantity is blown out from the first air outlet channel 4; when the shifting knob 16 moves to the vertical position, the tail ends of the lower-layer wind guide blades 13 are further moved to the vertical position by driving the first linkage pile 18, the first wind guide channel 4 and the second wind guide channel 3 are both opened, and the wind quantity is blown out from the first wind guide channel 4 and the second wind guide channel 3 simultaneously.

In addition, as shown in fig. 2, the setting knob 16 is adjusted to enable the setting knob 16 to slide horizontally on the rotating shaft 9, so as to drive the second connecting rod 20 to slide horizontally, the second connecting rod 20 drives the left and right air guide blades 36 extending into the limiting groove 16 to swing left and right through the limiting groove 16, and then all the left and right air guide blades 36 swing left and right under the driving of the fifth connecting rod 30, as shown in fig. 3 and 4 respectively; at this time, the dial knob 16 drives the dial wheel 17 to move horizontally at the same time, so as to drive the first link 19 to move horizontally, and since the first link 19 and the second link 20 move horizontally synchronously, all the third links 21 connected to the first link 19 and the second link 20 move horizontally, the slide bar 27 slides in the third guide groove 29 of the fourth link 14, and the fourth link 14 does not move.

As shown in fig. 1 and 2, the shift lever 24 drives the first link 19 to move horizontally, the second link 20 is also not moved due to the fixed shift knob 16, the third link 21 rotates around the hole 25 of the second link 20 under the pushing of the first link 19, the third link 21 drives the fourth link 14 to move up and down through the third guide slot 29 of the fourth link 14 and the moving pin 28, as shown in fig. 1, the fourth link 14 drives the first gear link 33 to rotate through the second linkage pile 15 at the tail end and the fourth guide slot 35 on the first gear link 33, the first gear link 33 synchronously rotates the second gear link 34 through gears, and simultaneously drives the first air door blade 31 and the second air door blade 32 to rotate while the first gear link 33 and the second gear link 34 rotate, so as to open and close the air door.

According to the air outlet adjusting structure of the air outlet, the air inlet air door assembly 7 is arranged at the air inlet 6 of the outer shell 1 through the outer shell 1 and the inner shell 2 with the raised middle parts, the upper layer air guide blade group 12 and the lower layer air guide blade 13 are arranged in the outer shell 1, the shutter-shaped structure is hidden, the appearance is attractive, and the internal device can be adjusted outside the structure through the toggle switch assembly 10 and the connecting rod assembly 11; in addition, through the regulation to upper wind guiding blade group 12, lower floor wind guiding blade 13 and air inlet air door assembly 7, realize the electrodeless regulation that the air-out direction is four directions about and close, open, control is convenient, easy operation.

Claims

1. The utility model provides an air outlet air-out regulation structure, includes both ends open-ended shell body (1) and installs interior casing (2) in shell body (1), its characterized in that: the utility model discloses a wind turbine is characterized by comprising an outer shell (1) and an inner shell (2), wherein the middle part of the outer shell (1) is protruding, the inner wall of the outer shell (1) and the outer wall of the inner shell (2) are in an air outlet (3) of the outer shell (1) to form a first air outlet channel (4) and a second air outlet channel (5) which are symmetrically arranged, an air inlet air door assembly (7) is installed at an air inlet (6) of the outer shell (1), an inner shell upper cover plate (8) is covered on the inner shell (2), a toggle switch assembly (10) is installed on the inner shell upper cover plate (8) through a rotating shaft (9), a connecting rod assembly (11) controlled by the toggle switch assembly (10) is installed in the inner shell (2) through a moving guide groove, an upper air guide blade group (12) which is linked with the connecting rod assembly (11) and changes the left and right directions of air outlet, a closed inner shell (2) bottom which is controlled by the toggle switch assembly (10) is installed at the bottom of the inner shell (2), and a connecting rod assembly (14) is linked with the air inlet air guide assembly (13) on one side of the inner shell (1).

2. The outlet air conditioning structure according to claim 1, wherein: the toggle switch assembly (10) comprises a toggle button (16) arranged on the upper cover plate (8) of the inner shell through a rotating shaft (9) and a toggle wheel (17) arranged in the toggle button (16).

3. The outlet air conditioning structure according to claim 2, wherein: the lower layer wind guide blade (13) is provided with a first linkage pile (18), and the first linkage pile (18) stretches into the poking button (16).

4. The outlet air conditioning structure according to claim 2, wherein: the connecting rod assembly (11) comprises a first connecting rod (19), a second connecting rod (20) and a third connecting rod (21), wherein a first guide groove (22) and a second guide groove (23) are respectively arranged at two ends of the first connecting rod (19), a deflector rod (24) arranged on the circumference of the deflector wheel (17) is arranged in the first guide groove (22) in an extending mode, one end of the second connecting rod (20) is fixed on the deflector (16), a hole (25) is formed in the other end of the second connecting rod (20), a limiting groove (26) for linkage of the upper-layer wind guiding blade group (12) is formed in the lower portion of the second connecting rod (20), the third connecting rod (21) is a triangular connecting rod, one corner of the third connecting rod (21) extends outwards to form a sliding rod (27), a first moving pin (28) arranged in the first guide groove (22) is arranged in one corner of the third connecting rod (21), a second moving pin arranged in the hole (25) is arranged in the other corner of the third connecting rod (21), and the top end of the third connecting rod (14) is provided with a third guide groove (29) and the top end of the third connecting rod is provided with a third guide groove (29).

5. The outlet air conditioning structure according to claim 4, wherein: the upper layer wind guide blade group (12) comprises a plurality of left and right wind guide blades (36) and a fifth connecting rod (30) connected with the left and right wind guide blades (36) in series, wherein one of the left and right wind guide blades (36) stretches into the limiting groove (26).

6. The outlet air conditioning structure according to claim 1, wherein: the air inlet air door assembly (7) comprises a first air door blade (31) and a second air door blade (32) which are arranged side by side, a first gear connecting rod (33) is connected to the first air door blade (31), a second gear connecting rod (34) is connected to the second air door blade (32), the first gear connecting rod (33) is meshed with the second gear connecting rod (34) through a gear, a fourth guide groove (35) is formed in the top end of the first gear connecting rod (33), and a second linkage pile (15) positioned at the tail end of the fourth connecting rod (14) is installed in the fourth guide groove (35).