CN116572711B - Air conditioner air outlet assembly and vehicle - Google Patents

Abstract

The invention provides an air conditioner air outlet assembly and a vehicle, which belong to the technical field of automobile parts, and comprise: the shell is internally provided with a first air channel, a second air channel and an air inlet channel, and the first air channel and the second air channel are communicated with the air inlet channel; the air flow adjusting mechanism comprises a first air guide piece, a second air guide piece, a first crank, a second crank and a rotary disc piece; the first air guide piece is rotatably arranged at the junction of the first air channel and the air inlet channel, the second air guide piece is rotatably arranged at the junction of the second air channel and the air inlet channel, the opening and closing degree of the first air channel is controlled by the position of the first air guide piece, and the opening and closing degree of the second air channel is controlled by the position of the second air guide piece; the beneficial effects of the invention are as follows: the rotating disc piece can control the rotation of the two air guide pieces, so that the air flow ratio of the double air channels and the opening and closing of the air door are controlled.

Description

Air conditioner air outlet assembly and vehicle

Technical Field

The invention belongs to the technical field of automobile parts, relates to an air conditioner air outlet assembly, and further relates to a vehicle with the air conditioner air outlet assembly.

Background

The air outlet assembly drives the air deflector to realize the opening and closing of the air door and the upper and lower air guide through the motor. At present, there are some air outlet assemblies with double air channels, for example, a chinese patent application No. 201811475419.7 entitled outlet device, which is actually a dual-channel air outlet assembly, but the air outlet assembly has only one air deflector, so that it is difficult to control the air flow ratio of the double air channels and the opening and closing of the air door.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an air outlet assembly of an air conditioner and a vehicle.

The aim of the invention can be achieved by the following technical scheme: an air conditioner air outlet assembly, comprising:

the air conditioner comprises a shell, wherein a first air channel, a second air channel and an air inlet channel are arranged in the shell, and the first air channel and the second air channel are communicated with the air inlet channel;

the air flow adjusting mechanism comprises a first air guide piece, a second air guide piece, a first crank, a second crank and a rotary disc piece;

the first air guide piece is rotatably arranged at the junction of the first air channel and the air inlet channel, the second air guide piece is rotatably arranged at the junction of the second air channel and the air inlet channel, the opening and closing degree of the first air channel is controlled by the position of the first air guide piece, and the opening and closing degree of the second air channel is controlled by the position of the second air guide piece;

the first crank is fixedly connected with the rotating shaft part of the first air guide piece, the second crank is fixedly connected with the rotating shaft part of the second air guide piece, the first crank is connected with the rotary disc piece, the rotary disc piece can drive the first air guide piece to rotate through the first crank, the second crank is connected with the rotary disc piece, and the rotary disc piece can drive the second air guide piece to rotate through the second crank;

the rotating disc piece can sequentially rotate to a first position, a second position and a third position, a wind direction adjusting section is formed between the first position and the second position, and a throttle closing section is formed between the second position and the third position;

when the rotary table piece rotates in the wind direction adjusting section, the rotary table piece drives at least one of the first wind guide piece and the second wind guide piece to rotate so as to adjust the wind flow ratio between the first wind channel and the second wind channel;

when the rotary table piece rotates in the closing interval of the air door, the rotary table piece drives the first air guide piece to rotate so as to adjust the opening and closing degree of the first air channel, and the second air channel is always closed by the second air guide piece.

Preferably, when the rotary disc piece is located at the first position, the rotary disc piece enables the positions of the first air guide piece and the second air guide piece to be in a closed state and a full open state respectively;

when the rotary disc piece is positioned at the second position, the rotary disc piece enables the positions of the first air guide piece and the second air guide piece to be in a full open state and a closed state respectively;

when the rotary disc piece is positioned at the third position, the rotary disc piece enables the first air guide piece and the second air guide piece to be in a closed state.

Preferably, the rotating disc piece is provided with a rotating shaft, the rotating shaft is provided with a first sliding block, the first crank is provided with a first sliding groove, and the first sliding block is connected with the first sliding groove.

Preferably, the turntable part is further provided with a second chute, the second crank is provided with a second sliding block, and one end of the second chute is provided with an opening for the second sliding block to enter and exit the second chute; when the rotary disc piece rotates in the closing interval of the air door, the second sliding block is positioned in the second sliding groove so as to lock the second air guide piece in a closing state.

Preferably, the rotating shaft is further provided with a first tooth part, and the second crank is provided with a second tooth part; and the first tooth part and the second tooth part are meshed for transmission when the turntable part rotates in the wind direction adjusting section.

Preferably, the first chute is a V-shaped chute, and the second chute is an arc chute with the rotating shaft as a center.

Preferably, the turntable member is provided with a third chute and a fourth chute, the first crank is provided with a third slider, the second crank is provided with a fourth slider, the third slider is connected with the third chute and can move along the third chute, and the fourth slider is connected with the fourth chute and can move along the fourth chute.

Preferably, the rotating shaft part of the first air guide piece and the rotating shaft part of the second air guide piece are located at one end of the side face and are respectively close to the inner walls of the two sides of the shell.

Preferably, the rotary table further comprises a driving element, wherein the driving element is connected with the rotary table member and can drive the rotary table member to rotate; the rotating plate piece is rotatably mounted on the outer side wall of the shell.

There is also proposed a vehicle comprising: the air conditioner air outlet assembly.

Compared with the prior art, the invention has the beneficial effects that:

1. the rotating disc piece can control the rotation of the two air guide pieces, so that the air flow ratio of the double air channels and the opening and closing of the air door are controlled;

2. when the rotating disc member rotates, the first air guide member is driven to rotate clockwise or anticlockwise through the first crank;

3. the first tooth part and the second tooth part can realize the intermittent motion effect, when the rotating disc part rotates in the wind direction adjusting interval, the rotating disc part drives the second wind guide part to rotate through the first tooth part and the second tooth part, and when the rotating disc part rotates in other positions, the rotating disc part does not drive the second wind guide part to rotate;

4. the second sliding block can lock the second air guide piece when being positioned in the second sliding groove, so that the second air guide piece is kept in a closed state.

Drawings

Fig. 1 is an exploded view of an air outlet assembly of an air conditioner according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a rotor member according to a first embodiment of the present invention.

Fig. 3 is a schematic view of the first air guiding member in the closed state and the second air guiding member in the fully opened state according to the first embodiment of the present invention.

Fig. 4 is a schematic diagram illustrating a connection relationship between the turntable and the first and second cranks when the turntable is at the first position.

Fig. 5 is a schematic diagram of the first air guiding member in the fully opened state and the second air guiding member in the closed state according to the first embodiment of the present invention.

Fig. 6 is a schematic diagram illustrating a connection relationship between the turntable and the first crank and between the turntable and the second crank when the turntable is at the second position.

Fig. 7 is a schematic diagram of a first air guiding member and a second air guiding member in a closed state according to a first embodiment of the present invention.

Fig. 8 is a schematic diagram illustrating a connection relationship between the turntable and the first and second cranks when the turntable is in the third position.

Fig. 9 is an exploded view of an air outlet assembly of an air conditioner according to a second embodiment of the present invention.

Fig. 10 is a schematic diagram of a first air guiding member in a closed state and a second air guiding member in a fully opened state according to a second embodiment of the present invention.

Fig. 11 is a schematic view of a turntable member in a first position according to a second embodiment of the present invention.

Fig. 12 is a schematic diagram of a first air guiding member and a second air guiding member in a fully opened state according to a second embodiment of the present invention.

Fig. 13 is a schematic diagram of a position of a rotating disc member when both the first air guiding member and the second air guiding member are in a fully opened state according to an embodiment of the present invention.

Fig. 14 is a schematic view of a first air guiding member in a fully opened state and a second air guiding member in a closed state according to a second embodiment of the present invention.

Fig. 15 is a schematic view of a turntable member in a second position according to a second embodiment of the present invention.

Fig. 16 is a schematic diagram illustrating a first air guiding member and a second air guiding member in a closed state according to a second embodiment of the present invention.

Fig. 17 is a schematic view of a turntable member in a third position according to the second embodiment of the present invention.

100, a housing; 110. a first air duct; 120. a second air duct; 130. an air inlet channel; 200. a first air guide; 300. a second air guide; 400. a first crank; 500. a second crank; 510. a second tooth portion; 600. a rotating disc member; 610. a rotating shaft; 620. a first tooth portion; 700. a first slider; 800. a first chute; 900. a second chute; 1000. a second slider; 1100. a driving element; 1200. a third chute; 1300. a fourth chute; 1400. a third slider; 1500. and a fourth slider.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 17, an air conditioner air outlet assembly includes: the device comprises a shell 100 and an airflow regulating mechanism, wherein a first air channel 110, a second air channel 120 and an air inlet channel 130 are arranged in the shell 100, and the first air channel 110 and the second air channel 120 are communicated with the air inlet channel 130; the air flow adjusting mechanism comprises a first air guide piece 200, a second air guide piece 300, a first crank 400, a second crank 500 and a rotary disc piece 600; the first air guide member 200 is rotatably disposed at the junction of the first air duct 110 and the air inlet channel 130, the second air guide member 300 is rotatably disposed at the junction of the second air duct 120 and the air inlet channel 130, the opening and closing degree of the first air duct 110 is controlled by the position of the first air guide member 200, and the opening and closing degree of the second air duct 120 is controlled by the position of the second air guide member 300; the first crank 400 is fixedly connected with the rotating shaft part of the first air guiding piece 200, the second crank 500 is fixedly connected with the rotating shaft part of the second air guiding piece 300, the first crank 400 is connected with the rotary table piece 600, the rotary table piece 600 can drive the first air guiding piece 200 to rotate through the first crank 400, the second crank 500 is connected with the rotary table piece 600, and the rotary table piece 600 can drive the second air guiding piece 300 to rotate through the second crank 500; the rotating disc 600 can rotate to a first position, a second position and a third position in sequence, wherein a wind direction adjusting section is formed between the first position and the second position, and a throttle closing section is formed between the second position and the third position; when the rotating disc member 600 rotates in the wind direction adjusting interval, the rotating disc member 600 drives at least one of the first wind guide member 200 and the second wind guide member 300 to rotate so as to adjust the wind flow ratio between the first wind channel 110 and the second wind channel 120; when the rotating disc member 600 rotates in the air door closing interval, the rotating disc member 600 drives the first air guiding member 200 to rotate to adjust the opening and closing degree of the first air duct 110, and the second air duct 120 is always closed by the second air guiding member 300.

When the rotating disc piece 600 is located at the first position, the rotating disc piece 600 makes the positions of the first air guide piece 200 and the second air guide piece 300 respectively be in a closed state and a full open state; when the rotary disc piece 600 is located at the second position, the rotary disc piece 600 makes the positions of the first air guide piece 200 and the second air guide piece 300 respectively be in a full open state and a closed state; when the rotor 600 is in the third position, the rotor 600 makes the first air guide 200 and the second air guide 300 both in the closed state.

It should be added that the first crank 400, the second crank 500 and the rotating disc 600 are all located at the outer side of the housing 100, the rotating shaft portion of the first air guiding member 200 is hinged to the housing 100 and connected to the first crank 400 through the housing 100, and the rotating shaft portion of the second air guiding member 300 is hinged to the housing 100 and connected to the second crank 500 through the housing 100.

The air outlet assembly of the air conditioner further comprises a driving element 1100, wherein the driving element 1100 is connected with the rotary disc piece 600 and can drive the rotary disc piece 600 to rotate; the rotation plate 600 is rotatably installed at an outer sidewall of the housing 100. The drive element 1100 is preferably a motor or an electric machine.

When the dial 600 is rotated to the first position, the first air guide 200 is in a closed state to close the first air duct 110, and the second air guide 300 is in a fully opened state to fully open the second air duct 120.

When the rotary disc member 600 passes over the first position and reaches the wind direction adjustment interval, the rotary disc member 600 is linked with at least one of the first wind guide member 200 and the second wind guide member 300 to adjust the air output of the first air duct 110 and the second air duct 120.

When the dial 600 is rotated to the second position, the first air guide 200 is in a fully opened state to fully open the first air duct 110, and the second air guide 300 is in a closed state to close the second air duct 120.

When the rotary disc piece 600 passes over the second position and reaches the air door closing interval, the rotary disc piece 600 only links with the first air guide piece 200, and when the rotary disc piece 600 rotates, the rotary disc piece 600 drives the first air guide piece 200 to rotate, so that the air output of the first air duct 110 is regulated.

When the rotary disc 600 rotates to the third position, the first air duct 110 and the second air duct 120 are both closed.

The rotary plate 600 may control the rotation of the two wind guides, thereby controlling the wind flow ratio of the double wind channels and the opening and closing of the damper.

Embodiment one:

as shown in fig. 1 to 8, the rotary plate 600 is provided with a rotary shaft 610, the rotary shaft 610 is provided with a first slider 700, the first crank 400 is provided with a first slide groove 800, and the first slider 700 is connected with the first slide groove 800.

The rotating disc 600 is further provided with a second sliding groove 900, the second crank 500 is provided with a second sliding block 1000, and one end of the second sliding groove 900 is provided with an opening for the second sliding block 1000 to enter and exit the second sliding groove 900; when the rotor 600 rotates in the damper closing interval, the second slider 1000 is located in the second chute 900, so as to lock the second air guide 300 in the closed state.

The rotation shaft 610 is further provided with a first tooth 620, and the second crank 500 is provided with a second tooth 510; the first tooth 620 is engaged with the second tooth 510 for driving rotation of the rotor 600 during the wind direction adjustment interval.

Preferably, the first chute 800 is configured as a V-shaped chute, and the second chute 900 is configured as an arc chute centered on the rotation shaft 610.

The first sliding block 700 is slidably disposed in the first sliding groove 800, so that the rotating disc member 600 is in linkage connection with the first crank 400, and when the rotating disc member 600 rotates, the first air guiding member 200 is driven to rotate clockwise or anticlockwise through the first crank 400; the first tooth 620 and the second tooth 510 can achieve the intermittent motion effect; when the rotary table 600 rotates in the wind direction adjusting region, the rotary table 600 drives the first wind guiding member 200 to move through the first tooth 620 and the second tooth 510, and drives the second wind guiding member 300 to rotate, so that the first wind guiding member 200 and the second wind guiding member 300 move simultaneously; when the rotary disc piece 600 rotates at other positions, the second air guide piece 300 is not driven to rotate; the second slider 1000 can lock the second air guide 300 when located in the second chute 900, so that the second air guide 300 is kept in a closed state.

Specific adjustment procedure of example one: the first air guiding member 200 is kept in the closed state and the second air guiding member 300 is in the fully opened state when the turntable 600 is in the first position; when the rotary plate 600 rotates towards the second position in the wind direction adjusting section, the first wind guide 200 and the second wind guide 300 rotate anticlockwise, so that the wind flow rate is adjusted, and when the rotary plate 600 rotates to the second position, the first wind guide 200 is in a fully opened state and the second wind guide 300 is in a closed state; when the rotary plate 600 rotates towards the third position in the air door closing region, the first air guiding piece 200 rotates clockwise, the second air guiding piece 300 remains stationary, and when the rotary plate 600 rotates to the third position, the first air guiding piece 200 and the second air guiding piece 300 are both in a closed state.

Embodiment two:

as shown in fig. 9 to 17, the turntable 600 is provided with a third slide groove 1200 and a fourth slide groove 1300, the first crank 400 is provided with a third slider 1400, the second crank 500 is provided with a fourth slider 1500, the third slider 1400 is connected with the third slide groove 1200 and movable along the third slide groove 1200, and the fourth slider 1500 is connected with the fourth slide groove 1300 and movable along the fourth slide groove 1300.

The shapes of the third chute 1200 and the fourth chute 1300 are specifically designed so that the first air guide 200 and the second air guide 300 can be rotated to the corresponding positions when the rotation plate 600 is rotated to a certain position. Since the third sliding block 1400 is located in the third sliding groove 1200, the fourth sliding block 1500 is located in the fourth sliding groove 1300, when the rotating disc 600 rotates, the first air guiding member 200 can be forced to rotate by the third sliding groove 1200 and the third sliding block 1400, and the second air guiding member 300 can be forced to rotate by the fourth sliding groove 1300 and the fourth sliding block 1500, so as to regulate the air flow of the first air duct 110 or the second air duct 120 and control the opening and closing of the air duct.

The rotating shaft portion of the first air guide 200 and the rotating shaft portion of the second air guide 300 are located at one end of the side surface and respectively close to the inner walls of the two sides of the housing 100. The structure of the first wind guiding member 200 is similar to that of the second wind guiding member 300, taking the first wind guiding member 200 as an example, the rotating shaft portion of the first wind guiding member 200 is located at one end of the side portion thereof, and the rotating shaft portion of the first wind guiding member 200 is close to the inner top surface of the casing 100, so that the first wind guiding member 200 and the second wind guiding member 300 can be completely attached to the inner wall of the casing 100 in the fully opened state, and air flow obstruction is avoided.

Unlike the first embodiment, the rotary disc 600 in the second embodiment can only drive one of the first air guiding member 200 and the second air guiding member 300 to move when rotating in the wind direction adjusting region, and cannot drive both to move at the same time.

Specific adjustment procedure of example two: the first air guiding member 200 is kept in the closed state and the second air guiding member 300 is in the fully opened state when the turntable 600 is in the first position; then, the rotating disc piece 600 is driven to rotate towards the second position in the wind direction adjusting interval, the second wind guiding piece 300 is kept motionless, the first wind guiding piece 200 is gradually opened and rotated to a fully opened state, at the moment, the first wind guiding piece 200 and the second wind guiding piece 300 are all in the fully opened state, the rotating disc piece 600 continues to rotate, the first wind guiding piece 200 is kept motionless, the second wind guiding piece 300 is gradually closed, and the second wind guiding piece 300 is in a closed state when the rotating disc piece 600 rotates to the second position; the rotary plate 600 rotates toward the third position in the air door closing region, the first air guide 200 is gradually closed, the second air guide 300 is kept still, and when the rotary plate 600 is located at the third position, the first air guide 200 and the second air guide 300 are both located in the closed state.

There is also proposed a vehicle comprising: the air outlet assembly of the air conditioner in the first embodiment or the second embodiment.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to herein as "first," "second," "a," and the like are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

In the present invention, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise.

In addition, the technical solutions of the embodiments of the present invention may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present invention.

Claims (8)

1. An air conditioner air outlet assembly, comprising:

the air conditioner comprises a shell (100), wherein a first air channel (110), a second air channel (120) and an air inlet channel (130) are arranged in the shell (100), and the first air channel (110) and the second air channel (120) are communicated with the air inlet channel (130);

the air flow adjusting mechanism comprises a first air guide piece (200), a second air guide piece (300), a first crank (400), a second crank (500) and a rotating disc piece (600), wherein the first air guide piece (200) and the second air guide piece (300) are arranged in a non-coaxial mode;

the first air guide piece (200) is rotatably arranged at the junction of the first air channel (110) and the air inlet channel (130), the second air guide piece (300) is rotatably arranged at the junction of the second air channel (120) and the air inlet channel (130), the opening and closing degree of the first air channel (110) is controlled by the position of the first air guide piece (200), and the opening and closing degree of the second air channel (120) is controlled by the position of the second air guide piece (300);

the first crank (400) is fixedly connected with the rotating shaft part of the first air guide piece (200), the second crank (500) is fixedly connected with the rotating shaft part of the second air guide piece (300), the first crank (400) is connected with the rotating disc piece (600) and the rotating disc piece (600) can drive the first air guide piece (200) to rotate through the first crank (400), the second crank (500) is connected with the rotating disc piece (600) and the rotating disc piece (600) can drive the second air guide piece (300) to rotate through the second crank (500);

the rotating disc (600) can sequentially rotate to a first position, a second position and a third position, a wind direction adjusting section is formed between the first position and the second position, and a throttle closing section is formed between the second position and the third position;

when the rotating disc piece (600) rotates in the wind direction adjusting section, the rotating disc piece (600) drives the first wind guide piece (200) and the second wind guide piece (300) to rotate simultaneously so as to adjust the wind flow ratio between the first wind channel (110) and the second wind channel (120);

when the rotating disc piece (600) rotates in the air door closing section, the rotating disc piece (600) drives the first air guide piece (200) to rotate so as to adjust the opening and closing degree of the first air duct (110), and the second air duct (120) is always closed by the second air guide piece (300).

2. An air conditioner air outlet assembly as set forth in claim 1 wherein:

when the rotating disc (600) is positioned at the first position, the rotating disc (600) enables the positions of the first air guide piece (200) and the second air guide piece (300) to be respectively in a closed state and a full open state;

when the rotating disc piece (600) is positioned at the second position, the rotating disc piece (600) enables the positions of the first air guide piece (200) and the second air guide piece (300) to be respectively in a full open state and a closed state;

when the rotating disc (600) is located at the third position, the rotating disc (600) enables the first air guide piece (200) and the second air guide piece (300) to be in a closed state.

3. An air conditioner air outlet assembly as set forth in claim 1 wherein: the rotating disc piece (600) is provided with a rotating shaft (610), the rotating shaft (610) is provided with a first sliding block (700), the first crank (400) is provided with a first sliding groove (800), and the first sliding block (700) is connected with the first sliding groove (800).

4. An air conditioner air outlet assembly as set forth in claim 3 wherein: the rotating disc (600) is further provided with a second sliding groove (900), the second crank (500) is provided with a second sliding block (1000), and one end of the second sliding groove (900) is provided with an opening for the second sliding block (1000) to enter and exit the second sliding groove (900); when the rotating disc (600) rotates in the air door closing interval, the second sliding block (1000) is positioned in the second sliding groove (900) so as to lock the second air guide piece (300) in a closed state.

5. An air conditioner air outlet assembly as set forth in claim 3 wherein: the rotating shaft (610) is also provided with a first tooth part (620), and the second crank (500) is provided with a second tooth part (510); the first tooth part (620) and the second tooth part (510) are meshed for transmission when the rotating disc piece (600) rotates in the wind direction adjusting section.

6. An air conditioner air outlet assembly as set forth in claim 4 wherein: the first sliding groove (800) is arranged as a V-shaped sliding groove, and the second sliding groove (900) is arranged as an arc-shaped sliding groove taking the rotating shaft (610) as a circle center.

7. An air conditioner outlet assembly as defined in any one of claims 1-6 wherein: the device also comprises a driving element (1100), wherein the driving element (1100) is connected with the turntable (600) and can drive the turntable (600) to rotate; the rotor (600) is rotatably mounted to an outer sidewall of the housing (100).

8. A vehicle, characterized by comprising: the air conditioner air outlet assembly of any one of claims 1-7.