CN110595039A - Air deflector control device of air conditioner - Google Patents

Abstract

The invention provides a control device of an air deflector of an air conditioner, which comprises a first rocker, a first potentiometer and a control signal generation module, wherein the first rocker is provided with a first control end for a user to operate and a first connecting end opposite to the first control end and is configured to be operated to move along a first direction, the first potentiometer is provided with a first control handle connected with the first connecting end and is configured to synchronously move along the first direction under the driving of the first rocker so that the first potentiometer outputs a corresponding first trigger signal, the control signal generation module is configured to generate a corresponding first control signal according to the first trigger signal output by the first potentiometer, and the first control signal is used for adjusting the air deflector to a first air guide position corresponding to the movement direction of the first rocker. Therefore, the adjusting precision of the air deflector can be improved, the adjusting flexibility of the air deflector is improved, and different requirements of different users are met.

Description

Air deflector control device of air conditioner

Technical Field

The invention relates to the technical field of air deflector control, in particular to an air deflector control device of an air conditioner.

Background

At present, the air deflector of an air conditioner generally includes an upper and lower air deflector for guiding air in an up-down direction, and a left and right air deflector for guiding air in a left-right direction. The up-and-down rotation of the up-and-down air guide plates and the left-and-right rotation of the left-and-right air guide plates are generally controlled by a remote controller of the air conditioner.

The existing remote controller is generally provided with a wind speed direction key, the remote controller is provided with an up-down rotation angle of an upper air deflector and a lower air deflector and a left-right rotation angle of a left air deflector and a right air deflector through a preset electric control program, a user respectively adjusts the rotation positions of the upper air deflector and the lower air deflector and the left-right air deflector through operating the key, the adjustable angles of the upper air deflector and the lower air deflector and the left-right air deflector are limited, and the requirements of the user can not be.

Disclosure of Invention

One object of the present invention is to provide an air deflector control device for an air conditioner, which can flexibly adjust the rotation angle of the air deflector.

Particularly, the present invention provides an air guide plate control device of an air conditioner, which comprises:

the first rocker is provided with a first control end operated by a user and a first connecting end opposite to the first control end, and is configured to be operated to move along a first direction;

the first potentiometer is provided with a first control handle, the first control handle is connected with the first connecting end and is configured to synchronously move along the first direction under the driving of the first rocker, so that the first potentiometer outputs a corresponding first trigger signal;

the control signal generation module is configured to generate a corresponding first control signal according to the first trigger signal output by the first potentiometer, and the first control signal is used for adjusting the air deflector to a first air guiding position corresponding to the movement direction of the first rocker.

Optionally, the air deflector control device further includes:

the second rocker is provided with a second control end operated by a user and a second connecting end opposite to the second control end, and is configured to be operated to move along a second direction, and the second direction is different from the first direction;

the second potentiometer is provided with a second control handle, the second control handle is connected with the second connecting end and is configured to synchronously move along the second direction under the driving of the second rocker, so that the second potentiometer outputs a corresponding second trigger signal;

the control signal generation module is further configured to generate a corresponding second control signal according to the second trigger signal output by the second potentiometer, and the second control signal is used for adjusting the air deflector to a second air guiding position corresponding to the movement direction of the second rocker.

Optionally, the first rocker, the first control handle, the second rocker and the second control handle all rotate in a movement manner, the first direction is a left-right direction, and the second direction is an up-down direction;

the first rocker has a first origin position in the left-right direction, the second rocker has a second origin position in the up-down direction, the first rocker is configured to be operatively rotated leftward or rightward from the first origin position, and the second rocker is configured to be operatively rotated upward or downward from the second origin position;

the first air guiding position is a position where the air guiding plate rotates leftwards or rightwards, and the second air guiding position is a position where the air guiding plate rotates upwards or downwards.

Optionally, the first rocker has a first position operatively rotated to the left from the first home position and a second position operatively rotated to the right from the first home position;

the first control signal is used for adjusting the air deflector to rotate leftwards by a first preset angle every time the first rocker rotates to the first position, and the first control signal is used for adjusting the air deflector to rotate rightwards by a second preset angle every time the first rocker rotates to the second position;

when the first rocker returns to the first origin position from the first position or the second position, the position of the air deflector is kept unchanged.

Optionally, the second rocker has a third position operatively rotated upwardly from the second home position and a fourth position operatively rotated downwardly from the second home position;

when the second rocker rotates to the third position once, the second control signal is used for adjusting the air deflector to rotate upwards by a third preset angle, and when the second rocker rotates to the fourth position once, the second control signal is used for adjusting the air deflector to rotate downwards by a fourth preset angle;

when the second rocker returns to the second origin position from the third position or the fourth position, the position of the air deflector is kept unchanged.

Optionally, the first rocker has a left extreme position to the left of the first origin position and a right extreme position to the right of the first origin position;

the first rocker is operated to rotate any angle between the left limit position and the right limit position, and when the first rocker is operated to rotate a first angle to the left, the first control signal is used for adjusting the air deflector to rotate a second angle to the left, and the second angle is a first preset multiple of the first angle;

when the first rocker is operated to rotate rightwards by a third angle, the first control signal is used for adjusting the air deflector to rotate rightwards by a fourth angle, and the fourth angle is a second preset multiple of the third angle.

Optionally, the second rocker has an upper limit position on an upper side of the second origin position and a lower limit position on a lower side of the second origin position;

the second rocker is operated to rotate any angle between the upper limit position and the lower limit position, and when the second rocker is operated to rotate upwards by a fifth angle, the second control signal is used for adjusting the air deflector to rotate upwards by a sixth angle, and the sixth angle is a third preset multiple of the fifth angle;

when the second rocker is operated to rotate downwards by a seventh angle, the second control signal is used for adjusting the air deflector to rotate downwards by an eighth angle, and the eighth angle is a fourth preset multiple of the seventh angle.

Optionally, the air deflector control device further comprises:

the first potentiometer and the second potentiometer are arranged in the accommodating space and distributed in the left-right direction, and a first opening and a second opening are respectively formed in the positions, corresponding to the first potentiometer and the second potentiometer, of the front face of the shell;

the first connecting end of the first rocker is connected with the first control handle of the first potentiometer at the first opening, and the first control end of the first rocker is exposed outside the first opening;

the second connecting end of the second rocker is connected with the second control handle of the second potentiometer at the second opening, and the second control end of the second rocker is exposed outside the second opening;

the left and right extension path of the first opening is matched with the left and right rotation stroke of the first rocker, and the up and down extension path of the second opening is matched with the up and down rotation stroke of the second rocker.

Optionally, the upper side and the lower side of the first opening are respectively provided with a first limiting part for limiting the up-and-down displacement of the first rocker;

and second limiting parts are respectively formed at the left side and the right side of the second opening and used for limiting the left-right displacement of the second rocker.

Optionally, the air guide plates include a left air guide plate, a right air guide plate, an upper air guide plate and a lower air guide plate;

the left air deflector and the right air deflector correspond to the first rocker and are adjusted to rotate leftwards or rightwards by the first control signal, and the upper air deflector and the lower air deflector correspond to the second rocker and are adjusted to rotate upwards or downwards by the second control signal.

The air guide plate control device of the air conditioner utilizes the rocker and the potentiometer to control the air guide position of the air guide plate, and a user can randomly adjust the air guide position of the air guide plate according to the self requirement by operating the rocker in the movement stroke of the rocker and the potentiometer, so that the adjustment precision can be improved, the adjustment flexibility of the air guide plate is improved, and different requirements of different users are met.

Furthermore, the air guide plate control device of the air conditioner realizes the respective adjustment of the air guide position of the air guide plate in the vertical direction and the horizontal direction by arranging the two rocking rods distributed in the horizontal direction, and has the advantages of simple operation and convenient adjustment by users.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a front view schematically illustrating an air deflection panel control apparatus of an air conditioner according to an embodiment of the present invention;

fig. 2 is a perspective view illustrating an air deflection control apparatus of an air conditioner according to an embodiment of the present invention;

fig. 3 is an exploded view of an air deflection control apparatus of an air conditioner according to an embodiment of the present invention;

and

fig. 4 is a schematic view of an air deflector control apparatus of an air conditioner according to an embodiment of the present invention.

Detailed Description

For convenience of description, the directions of "up", "down", "left", "right", and the like described for the air deflector control device 100 in the description are defined according to the positional relationship indicated in fig. 1, and the directions of "up", "down", "left", "right", and the like described for the air deflector are defined according to the spatial positional relationship in the normal operating state of the air conditioner.

Fig. 1 is a front view schematically illustrating an air deflector control apparatus 100 of an air conditioner according to an embodiment of the present invention, fig. 2 is a perspective view schematically illustrating the air deflector control apparatus 100 of the air conditioner according to an embodiment of the present invention, fig. 3 is an exploded view schematically illustrating the air deflector control apparatus 100 of the air conditioner according to an embodiment of the present invention, and fig. 4 is a schematic view schematically illustrating the air deflector control apparatus 100 of the air conditioner according to an embodiment of the present invention.

The air deflector control device 100 includes a first rocker 110, a first potentiometer 140, and a control signal generating module 161. The first rocker 110 has a first control end 111 for a user to operate and a first connection end 112 opposite to the first control end 111, and is configured to be operated to move along a first direction, the first potentiometer 140 has a first control handle 141, the first control handle 141 is connected to the first connection end 112 and is configured to move along the first direction synchronously under the driving of the first rocker 110, so that the first potentiometer 140 outputs a corresponding first trigger signal, the control signal generation module 161 is configured to generate a corresponding first control signal according to the first trigger signal output by the first potentiometer 140, and the first control signal is used for adjusting the air deflector to a first air guiding position corresponding to the movement direction of the first rocker 110.

The air guide plate control device of the embodiment utilizes the rocker and the potentiometer to control the air guide position of the air guide plate, and in the movement stroke of the rocker and the potentiometer, a user can adjust the air guide position of the air guide plate at will according to own requirements by operating the rocker, so that the adjustment precision can be improved, and different requirements of different users can be met.

The air deflection control device 100 can also include a second rocker 120 and a second potentiometer 150. The second rocker 120 has a second control end 121 for operation by a user and a second connection end 122 opposite to the second control end 121, and is configured to be operatively moved in a second direction, which is a different direction from the first direction. The second potentiometer 150 should have a second control handle 151, and the second control handle 151 is connected to the second connection end 122 and configured to move along the second direction synchronously under the driving of the second rocker 120, so that the second potentiometer 150 outputs a corresponding second trigger signal. Correspondingly, the control signal generating module 161 is further configured to generate a corresponding second control signal according to the second trigger signal output by the second potentiometer 150, and the second control signal is used to adjust the air deflector to a second air guiding position corresponding to the moving direction of the second rocking bar 120. Therefore, the second rocker 120 and the second potentiometer 150 can adjust the air deflector to a second air guiding position different from the first air guiding position, thereby enriching the functions of the air deflector control device.

In this embodiment, the first rocking bar 110, the first control handle 141, the second rocking bar 120 and the second control handle 151 all move in a rotating manner, and the first direction is a left-right direction and the second direction is an up-down direction. The first rocking bar 110 has a first origin position in the left-right direction, the second rocking bar 120 has a second origin position in the up-down direction, and the first rocking bar 110 is configured to be operatively rotated leftward or rightward from the first origin position, and the second rocking bar 120 is configured to be operatively rotated upward or downward from the second origin position. Accordingly, the first control handle 141 should rotate leftwards or rightwards synchronously with the first rocking bar 110 under the driving of the first rocking bar 110, and the second control handle 151 should rotate upwards or downwards synchronously with the second rocking bar 120 under the driving of the second rocking bar 120. The first wind guiding position is the position where the wind guiding plate rotates leftwards or rightwards, and the second wind guiding position is the position where the wind guiding plate rotates upwards or downwards. Because the air deflector of the conventional air conditioner generally comprises the air deflector capable of rotating left and right and the air deflector capable of rotating up and down, the rotation directions of the first rocker 110, the first potentiometer 140, the second rocker 120 and the second potentiometer 150 are specially designed in the embodiment, so that the air deflector control device of the embodiment can be widely applied to the air deflector of the conventional air conditioner, and the application prospect is improved.

In an alternative embodiment, the first rocking bar 110 and the second rocking bar 120 may move in a sliding manner, the first rocking bar 110 may slide in a left-right direction, the second rocking bar 120 may slide in an up-down direction, the first wind guiding position is a position where the wind deflector rotates left or right, and the second wind guiding position is a position where the wind deflector rotates up or down.

The air deflectors of the air conditioner comprise a left air deflector, a right air deflector and an upper air deflector, wherein the left air deflector and the right air deflector are respectively a left air deflector, a right air deflector and an upper air deflector, correspond to the first rocker 110, and are adjusted to rotate leftwards or rightwards by a first control signal; the upper and lower air guiding plates correspond to the second rocking bar 120 and are adjusted to rotate upwards or downwards by a second control signal. That is, the air deflector control device of the present embodiment utilizes the first rocking bar 110 and the first potentiometer 140 to adjust the left and right air deflectors to rotate in the left and right direction, and utilizes the second rocking bar 120 and the second potentiometer 150 to adjust the upper and lower air deflectors to rotate in the up and down direction.

As will be appreciated by those skilled in the art, generally, the left and right air deflectors are disposed at the air outlet of the indoor unit of the air conditioner, the left and right air deflectors are used for adjusting the air outlet direction of the air outlet in the left-right direction to guide the air outlet forward, forward left or forward right, and the upper and lower air deflectors are used for adjusting the air outlet direction in the height direction (up-down direction) of the air outlet to guide the air outlet forward, forward up-down direction or forward down direction. The air deflector control device of the present embodiment can be applied to a cabinet air conditioner, a wall-mounted air conditioner, or other types of air conditioners.

In an alternative embodiment, the air guiding plate may be a kind of air guiding plate, that is, the air guiding plate can rotate left, right, upward or downward, in which the air guiding plate control device of the present embodiment utilizes the first rocking bar 110 and the first potentiometer 140 to adjust the air guiding plate to rotate left or right, and utilizes the second rocking bar 120 and the second potentiometer 150 to adjust the air guiding plate to rotate upward or downward.

As will be appreciated by those skilled in the art, a potentiometer generally comprises a resistive element and a slidable or rotatable member, and is moved on the resistive element by means of a movable contact to obtain a resistance, voltage or current value at an output in relation to the amount of displacement. Therefore, in the air deflector control device 100 of the present embodiment, the first trigger signal output by the first potentiometer 140 and the second trigger signal output by the second potentiometer 150 may be resistance signals, voltage signals or current signals. When the position of the rocker is changed, the position of the control handle of the potentiometer rotating synchronously with the rocker is changed, so that the potentiometer outputs different trigger signals, the different trigger signals correspond to different control signals, the corresponding relation between the trigger signals and the control signals is written into a control program in advance, the control signal generating module 161 outputs corresponding control signals when receiving the trigger signals output by the potentiometer, controls the driving motor of the air deflector according to the control signals, and drives the air deflector to rotate to the corresponding position by the driving motor, so that the air guiding position of the air deflector is adjusted.

The control signal generating module 161 is disposed on the circuit board 160 and may be a single chip or a microprocessor.

The first rocking bar 110 and the second rocking bar 120 of the air deflector control device of the present embodiment can have two different rotation processes, and accordingly, the first control handle 141 of the first potentiometer 140 and the second control handle 151 of the second potentiometer 150 have two different rotation processes, and the first trigger signal and the first control signal, and the second trigger signal and the second control signal have two different corresponding relationships.

Specifically, in one embodiment, the first rocking lever 110 has a first position operatively rotated to the left from the first origin position and a second position operatively rotated to the right from the first origin position, and when the first rocking lever 110 rotates to the first position once, the first control signal is used to adjust the air deflector to rotate to the left by a first preset angle, and when the first rocking lever 110 rotates to the second position once, the first control signal is used to adjust the air deflector to rotate to the right by a second preset angle, and when the first rocking lever 110 returns to the first origin position from the first position or the second position, the position of the air deflector remains unchanged. That is, the first rocker 110 has three positions in the rotation stroke, one is a first origin position, the other two are a first position rotating to the left and a second position rotating to the right, respectively, the corresponding first potentiometer 140 has three trigger positions corresponding to the three positions of the first rocker 110, when the first control handle 141 rotating synchronously with the first rocker 110 rotates to the three trigger positions, respectively, the first potentiometer 140 outputs different first trigger signals, respectively, the control signal generating module 161 generates a corresponding first control signal according to the received first trigger signal, the corresponding relationship between the first control signal and the first trigger signal is that the air deflector is controlled to rotate by a fixed preset angle each time the first trigger signal is received, the first position corresponds to the first preset angle, and the second position corresponds to the second preset angle.

In the air deflector control device 100 of the air conditioner of the present embodiment, the user can repeatedly operate the first rocker 110 to rotate left or right, so as to adjust the air deflector to the air guiding angle required by the user, and at the same time, the interactivity between the user and the air conditioner is increased.

The first preset angle and the second preset angle may be the same or different. For example, the first preset angle and the second preset angle are both 10 °, if the user needs to adjust the air deflector to be 50 ° to the left, and the current position of the air deflector is the center direction, the user needs to rotate the first rocker 110 to the left for 5 times.

In the present embodiment, the rotation process of the second rocking lever 120 may be the same as the rotation process of the first rocking lever 110, and in particular, the second rocking lever 120 may have one third position operatively rotated upward from the second home position and one fourth position operatively rotated downward from the second home position. When the second rocker 120 rotates to the third position once, the second control signal is used for adjusting the air deflector to rotate upwards by a third preset angle, when the second rocker 120 rotates to the fourth position once, the second control signal is used for adjusting the air deflector to rotate downwards by a fourth preset angle, and when the second rocker 120 returns to the second origin position from the third position or the fourth position, the position of the air deflector is kept unchanged. That is, the second rocking bar 120 also has three positions in the rotation stroke, one is a second origin position, the other two are a third position rotating upward and a fourth position rotating downward, the corresponding second potentiometer 150 has three trigger positions corresponding to the three positions of the second rocking bar 120, when the second control handle 151 rotating synchronously with the second rocking bar 120 rotates to the three trigger positions, the second potentiometer 150 outputs different second trigger signals, respectively, the corresponding relationship between the second control signal and the second trigger signal is that the air deflector is controlled to rotate by a fixed preset angle each time the second trigger signal is received, the third position corresponds to a third preset angle, and the fourth position corresponds to a fourth preset angle.

In the air guide plate control device 100 of the air conditioner according to the present embodiment, the user may repeatedly operate the second rocker 120 to rotate up or down for a plurality of times to adjust the air guide plate to the air guide angle required by the user. The third preset angle and the fourth preset angle may be the same or different. For example, the third preset angle and the fourth preset angle are both 5 °, 10 °, 15 °, or the like.

In this embodiment, the limit position of the air deflector can be set by the limit structure of the air deflector, and when the air deflector rotates to the limit position, and the user rotates the air deflector in the direction exceeding the limit position by the first rocker 110 and the second rocker 120, the control signal generating module does not generate any control signal for controlling the rotation of the air deflector.

In the above embodiment, although the process of adjusting the air guiding position of the air guiding plate by the first rocking bar 110 and the second rocking bar 120 can increase the interactivity between the user and the air conditioner and the interest of the operation, when the difference between the air guiding angle required by the user and the current air guiding angle of the air guiding plate is large, the increase of the operation times can be brought, and the use experience of the user can be influenced to a certain extent. For this reason, another embodiment of the present embodiment provides another process of adjusting the air deflector by the first rocking lever 110 and the second rocking lever 120, so as to avoid the aforementioned problems.

Specifically, in another embodiment, the first rocking lever 110 has a left limit position at the left side of the first origin position and a right limit position at the right side of the first origin position, the first rocking lever 110 is operated to rotate by any angle between the left limit position and the right limit position, and when the first rocking lever 110 is operated to rotate by a first angle to the left, the first control signal is used to adjust the air deflector to rotate by a second angle to the left, the second angle is a first preset multiple of the first angle, and when the first rocking lever 110 is operated to rotate by a third angle to the right, the first control signal is used to adjust the air deflector to rotate by a fourth angle to the right, and the fourth angle is a second preset multiple of the third angle. That is, the first rocker 110 has an infinite number of positions within the rotation stroke defined by the left limit position and the right limit position, the corresponding first potentiometer 140 has an infinite number of trigger positions corresponding to the respective positions of the first rocker 110, when the first control handle 141 synchronously rotating with the first rocker 110 rotates to the respective trigger positions, the first potentiometer 140 outputs different first trigger signals, the control signal generating module 161 generates a corresponding first control signal according to the received first trigger signal, and the corresponding relationship between the first control signal and the first trigger signal is that when the first trigger signal is received, the air deflector is controlled to rotate by an angle that is a fixed preset multiple of the rotation angle of the first rocker 110 reflected by the first trigger signal. The first rocking bar 110 rotates to the left corresponding to a first preset multiple, and the first rocking bar 110 rotates to the right corresponding to a second preset multiple.

In the air deflector control device 100 of the present embodiment, the user can operate the first rocker 110 to rotate to any position between the left limit position and the right limit position, the position of the air deflector in the left-right direction is set at will according to personal wishes, and the user can directly rotate the first rocker 110 to the target position at one time, which is simple to operate.

The first preset multiple and the second preset multiple may be the same or different, for example, both the first preset multiple and the second preset multiple are 1, that is, the angle of the air deflector rotating in the left-right direction is the same as the angle of the first rocking bar 110 rotating in the left-right direction.

In this embodiment, the second rocking lever 120 may also have an upper limit position at an upper side of the second origin position and a lower limit position at a lower side of the second origin position, the second rocking lever 120 is operated to rotate by any angle between the upper limit position and the lower limit position, and when the second rocking lever 120 is operated to rotate upward by a fifth angle, the second control signal is used to adjust the air deflector to rotate upward by a sixth angle, the sixth angle is a third preset multiple of the fifth angle, when the second rocking lever 120 is operated to rotate downward by a seventh angle, the second control signal is used to adjust the air deflector to rotate downward by an eighth angle, and the eighth angle is a fourth preset multiple of the seventh angle. That is, the second rocking bar 120 has an infinite number of positions within the rotation stroke defined by the upper limit position and the lower limit position, the corresponding second potentiometer 150 has an infinite number of triggering positions corresponding to the respective positions of the second rocking bar 120, when the second control handle 151 synchronously rotating with the second rocking bar 120 rotates to the respective triggering positions, the second potentiometer 150 outputs different second triggering signals, respectively, and the corresponding relationship between the second control signal and the second triggering signal is that when the second triggering signal is received, the air deflector is controlled to rotate by an angle which is a fixed preset multiple of the rotation angle of the second rocking bar 120 reflected by the second triggering signal. The second rocking bar 120 rotates upward by a third preset multiple, and the second rocking bar 120 rotates downward by a fourth preset multiple.

In the air deflector control device 100 of the present embodiment, the user can operate the second rocker 120 to rotate to any position between the upper limit position and the lower limit position, the position of the air deflector in the up-down direction is set at will according to personal wishes, and the user can directly rotate the second rocker 120 to the target position at one time, which is simple to operate.

The third preset multiple and the fourth preset multiple may be the same or different, for example, both the third preset multiple and the fourth preset multiple are 1, that is, the angle of rotation of the air deflector in the up-down direction is the same as the angle of rotation of the second rocker 120 in the up-down direction.

The air deflector control device 100 of the present embodiment further includes a housing 130 having an accommodating space. The first potentiometer 140 and the second potentiometer 150 are disposed in the accommodating space and distributed in the left-right direction, the front surface of the housing 130 and the positions corresponding to the first potentiometer 140 and the second potentiometer 150 are respectively provided with a first opening 101 and a second opening 102, the first connection end 112 of the first rocker 110 is connected with the first control handle 141 of the first potentiometer 140 at the first opening 101, and the first control end 111 of the first rocker 110 is exposed outside the first opening 101, so that the operation of a user is facilitated. Accordingly, the second connection end 122 of the second rocking bar 120 is connected with the second control handle 151 of the second potentiometer 150 at the second opening 102, and the second control end 121 of the second rocking bar 120 is exposed outside the second opening 102. Further, the left-right extension path of the first opening 101 matches with the left-right rotation stroke of the first rocking bar 110, and the up-down extension path of the second opening 102 matches with the up-down rotation stroke of the second rocking bar 120. Therefore, the first rocking bar 110 and the second rocking bar 120 are arranged left and right, so that the operation of a user is facilitated, and the appearance attractiveness of the air deflector control device is improved.

In the embodiment shown in the drawings, the housing 130 includes a box 132 having an opening and a cover 131 covering the opening of the box 132, and both the first opening 101 and the second opening 102 may be formed on the cover 131.

The upper and lower sides of the first opening 101 may be respectively formed with a first limiting portion 103, the left and right sides of the second opening 102 may be respectively formed with a second limiting portion 104, the first limiting portion 103 may limit the up-and-down displacement of the first rocking bar 110 to prevent the first rocking bar 110 from swinging up and down, and the second limiting portion 104 may limit the left and right positions of the second rocking bar 120 to prevent the second rocking bar 120 from swinging left and right.

Accordingly, it can be understood by those skilled in the art that the first potentiometer 140 should have a left and right extension slot matching with the left and right rotation stroke of the first control handle 141, the second potentiometer 150 should have an up and down extension slot matching with the up and down rotation stroke of the second control handle 151, the first and second control handles 141 and 151 are respectively engaged in the left and right extension slot and the up and down extension slot, the control handle can rotate along the corresponding extension slot only when the user operates the rocker, and the control handle stays at the current position when the user releases the rocker.

The casing 130 may further include a display screen 105, and the display screen 105 may display the rotation direction and angle of the first rocking bar 110 and the second rocking bar 120 on the front surface of the casing 130, and display the rotation direction and angle of the air deflector corresponding to the rotation direction and angle of the first rocking bar 110 and the second rocking bar 120, so that a user may intuitively know the rotation position of the operated rocking bar and the rotation position of the air deflector, and the adjustment by the user is facilitated.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. An air deflector control device of an air conditioner, comprising:

the first rocker is provided with a first control end operated by a user and a first connecting end opposite to the first control end, and is configured to be operated to move along a first direction;

the first potentiometer is provided with a first control handle, the first control handle is connected with the first connecting end and is configured to synchronously move along the first direction under the driving of the first rocker, so that the first potentiometer outputs a corresponding first trigger signal;

the control signal generation module is configured to generate a corresponding first control signal according to the first trigger signal output by the first potentiometer, and the first control signal is used for adjusting the air deflector to a first air guiding position corresponding to the movement direction of the first rocker.

2. The air deflection control device of claim 1, further comprising:

the second rocker is provided with a second control end operated by a user and a second connecting end opposite to the second control end, and is configured to be operated to move along a second direction, and the second direction is different from the first direction;

the second potentiometer is provided with a second control handle, the second control handle is connected with the second connecting end and is configured to synchronously move along the second direction under the driving of the second rocker, so that the second potentiometer outputs a corresponding second trigger signal;

the control signal generation module is further configured to generate a corresponding second control signal according to the second trigger signal output by the second potentiometer, and the second control signal is used for adjusting the air deflector to a second air guiding position corresponding to the movement direction of the second rocker.

3. The air deflection control device of claim 2, wherein the air deflection assembly includes a first actuator and a second actuator

The first rocker, the first control handle, the second rocker and the second control handle all rotate in a movement mode, the first direction is a left-right direction, and the second direction is an up-down direction;

the first rocker has a first origin position in the left-right direction, the second rocker has a second origin position in the up-down direction, the first rocker is configured to be operatively rotated leftward or rightward from the first origin position, and the second rocker is configured to be operatively rotated upward or downward from the second origin position;

the first air guiding position is a position where the air guiding plate rotates leftwards or rightwards, and the second air guiding position is a position where the air guiding plate rotates upwards or downwards.

4. The air deflection control device of claim 3, wherein

Said first rocker having a first position operatively rotated to the left from said first home position and a second position operatively rotated to the right from said first home position;

the first control signal is used for adjusting the air deflector to rotate leftwards by a first preset angle every time the first rocker rotates to the first position, and the first control signal is used for adjusting the air deflector to rotate rightwards by a second preset angle every time the first rocker rotates to the second position;

when the first rocker returns to the first origin position from the first position or the second position, the position of the air deflector is kept unchanged.

5. The air deflection control device of claim 3, wherein

Said second rocker having a third position operatively rotated upwardly from said second home position and a fourth position operatively rotated downwardly from said second home position;

when the second rocker rotates to the third position once, the second control signal is used for adjusting the air deflector to rotate upwards by a third preset angle, and when the second rocker rotates to the fourth position once, the second control signal is used for adjusting the air deflector to rotate downwards by a fourth preset angle;

when the second rocker returns to the second origin position from the third position or the fourth position, the position of the air deflector is kept unchanged.

6. The air deflection control device of claim 3, wherein

The first rocker has a left extreme position to the left of the first origin position and a right extreme position to the right of the first origin position;

the first rocker is operated to rotate any angle between the left limit position and the right limit position, and when the first rocker is operated to rotate a first angle to the left, the first control signal is used for adjusting the air deflector to rotate a second angle to the left, and the second angle is a first preset multiple of the first angle;

when the first rocker is operated to rotate rightwards by a third angle, the first control signal is used for adjusting the air deflector to rotate rightwards by a fourth angle, and the fourth angle is a second preset multiple of the third angle.

7. The air deflection control device of claim 3, wherein

The second rocker has an upper limit position on the upper side of the second origin position and a lower limit position on the lower side of the second origin position;

the second rocker is operated to rotate any angle between the upper limit position and the lower limit position, and when the second rocker is operated to rotate upwards by a fifth angle, the second control signal is used for adjusting the air deflector to rotate upwards by a sixth angle, and the sixth angle is a third preset multiple of the fifth angle;

when the second rocker is operated to rotate downwards by a seventh angle, the second control signal is used for adjusting the air deflector to rotate downwards by an eighth angle, and the eighth angle is a fourth preset multiple of the seventh angle.

8. The air deflection control device of claim 3, further comprising:

the first potentiometer and the second potentiometer are arranged in the accommodating space and distributed in the left-right direction, and a first opening and a second opening are respectively formed in the positions, corresponding to the first potentiometer and the second potentiometer, of the front face of the shell;

the first connecting end of the first rocker is connected with the first control handle of the first potentiometer at the first opening, and the first control end of the first rocker is exposed outside the first opening;

the second connecting end of the second rocker is connected with the second control handle of the second potentiometer at the second opening, and the second control end of the second rocker is exposed outside the second opening;

the left and right extension path of the first opening is matched with the left and right rotation stroke of the first rocker, and the up and down extension path of the second opening is matched with the up and down rotation stroke of the second rocker.

9. The air deflection control device of claim 8, wherein the air deflection assembly includes a first actuator and a second actuator

The upper side and the lower side of the first opening are respectively provided with a first limiting part for limiting the up-and-down displacement of the first rocker;

and second limiting parts are respectively formed at the left side and the right side of the second opening and used for limiting the left-right displacement of the second rocker.

10. The air deflection control device of claim 3, wherein

The air guide plates comprise a left air guide plate, a right air guide plate, an upper air guide plate and a lower air guide plate;

the left air deflector and the right air deflector correspond to the first rocker and are adjusted to rotate leftwards or rightwards by the first control signal, and the upper air deflector and the lower air deflector correspond to the second rocker and are adjusted to rotate upwards or downwards by the second control signal.