AU2022204089A1 - Display fine-adjustment device - Google Patents

Abstract

OF THE DISCLOSURE A display fine-adjustment device includes a display and a driving mechanism, the display being drivable by the driving mechanism to rotate; a support frame, which is connected to the display and includes supporting 5 arms rotatably interconnected for being switchable between a folded condition and an expanded condition; and a sensor, which is electrically connected to the driving mechanism. A user manually pulls the support frame from the folded condition to the expanded condition to make the display fast approach the user and uses the sensor to detect the user and use 10 the driving mechanism to drive the display to rotate to have the display facing the user, achieving an advantage of being time-saving and easy. In case of being not in use, folding can be made for space saving, while in use, the function of fine angle adjustment is performable to adjust the display to the most comfortable viewing angle. 15 CN CN 04 -EL CY)

Description

CN CN

04

-EL CY) TITLE: DISPLAY FINE-ADJUSTMENT DEVICE TECHNICAL FIELD OF THE INVENTION

The present invention relates generally to a display fine-adjustment

device, and more particularly to a display fine-adjustment device that

includes automatic tracking.

DESCRIPTION OF THE PRIORART

In the use of a screen 100, it is most appropriate that the screen 100 is

kept at an angle of 90 degrees with respect to the eyesight and the viewing

angle is kept between 15 and 25 degrees. Reference being had to FIG. 1,

the screen 100 generally has a best viewing angle range 0, and when a user A

is watching the screen within the best viewing angle range 0, the exhibition

of the image on the screen 100 would be the best. ForauserBwhois

watching the screen outside the best viewing angle range 0, the image on the

screen 100 would be distorted or being not clear.

A known liquid crystal display rotating structure disclosed in Taiwan

Patent No. 534422 interfaces between a backplane of the liquid crystal

display and a support frame, so that the liquid crystal display is allowed to

make adjustment through rotation up to a maximum range of 360 degrees,

realizing arbitrary tilting and rotating of the liquid crystal display by

following a direction of force applied manually by a user.

However, manual adjustment is simply rough, unprecise adjustment.

In addition, when a user is of reduced mobility, it is hard to do adjustment of

the screen 100 in such a manual way. Further, such a way of adjustment

does not enable automatic determination as to whether being located with the

best viewing angle range or not for timely performing readjustment of the

display.

SUMMARY OF THE INVENTION

To achieve the above purpose, the present invention provides a display

fine-adjustment device, which comprises: a display, which is drivable by a

driving mechanism to rotate; a support frame, which is connected to the

display, the support frame comprising a plurality of supporting arms that are

rotatably interconnected, the support frame being switchable between a

folded condition and an expanded condition; and a sensor, which is

electrically connected to the driving mechanism.

In the display fine-adjustment device, the driving mechanism comprises

a motor controller, at least one motor, and at least one axle. The at least one

axle is connected to the display, and the motor controller is operable to

control the at least one motor to drive the at least one axle to drive the display

to rotate.

In the display fine-adjustment device, the sensor comprises an image

sensor.

In the display fine-adjustment device, the plurality of supporting arms

are rotatably interconnected by a rotation axle.

In the display fine-adjustment device, the sensor is arranged on the

display or the support frame.

As such, a user may manually pull the support frame from the folded

condition to the expanded condition to make the display fast approach the

user and may also use the sensor to detect the user and use the driving

mechanism to drive the display to rotate for a minute extent, so as to have the

display facing the user, achieving a practical advantage of being time-saving

and easy. In case of being not in use, folding can be made for space saving,

while in use, the function of fine angle adjustment is performable to adjust

the display to the most comfortable viewing angle.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view illustrating a best viewing angle range of the

prior art.

FIG. 2 is a schematic view showing a display fine-adjustment device

according to the present invention.

FIG. 3 is a block diagram showing a sensor, a driving mechanism, and a

display of the present invention.

FIG. 4 is a schematic view demonstrating a user manually pulling a

support frame of the present invention from a folded condition to an

expanded condition.

FIG. 5 is a schematic view demonstrating the display rotating for a

minute extent.

FIG. 6 is a schematic view demonstrating the support frame of the

present invention set in the folded condition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 2, the present invention provides a display

fine-adjustment device, which comprises: a display 1, a support frame 2, and

a sensor 3.

The display 1 is drivable by a driving mechanism 11 to rotate.

Specifically, the driving mechanism 11 may comprise a motor controller, at

least one motor, and at least one axle 111. The at least one axle 111 is

connected to the display 1. The motor controller is operable to control the

at least one motor to drive the at least one axle 111 to drive the display 1 to

rotate. For example, a first motor and a first axle (which serves as a

horizontal rotating axle of the display 1 to allow the display 1 to rotate

upwards/downwards about a center defined by the first axle) may be

provided to enable the display 1 to rotate upwards/downwards, and

additionally or alternatively, a second motor and a second axle (which serves

as a vertical rotating axle of the display 1 to allow the display 1 to rotate

leftwards/rightwards about a center defined by the second axle) may be

provided to enable the display 1 to rotate leftwards/rightwards, so that the

display may possess both functions of rotating upwards/downwards and

rotating leftwards/rightwards.

Referring to FIGS. 3 and 4, the support frame 2 and the display 1 are

connected to each other. The support frame 2 comprises a plurality of

supporting arms 21 that are rotatably interconnected, and the support frame 2

is switchable between a folded condition and an expanded condition.

Specifically, the interconnection between the plurality of supporting arms 21

is achieved by means of a rotation axle 211.

The sensor 3 is electrically connected to the driving mechanism 11.

Specifically, the sensor 3 functions to detect a user. The sensor 3 may be an

image sensor, which captures an image of a face and is operable to apply

facial recognition technology to identify a position of a face according to

distances among the eyebrows, the eyes, the nose, the teeth, and the mouth so

as to identify an orientation of the head. The orientation of the head can be

for example head upwards, head downwards, head leftwards, or head

rightwards. The sensor 3 may then transmit information of the position of

the face and the orientation of the head toward the driving mechanism 11.

The sensor 3 is arrangeable on the display 1 or the support frame 2.

Referring to FIGS. 5 and 6, in use of the present invention, firstly, a user

4 is located in front of the display 1 and manually pulls the support frame 2

from the folded condition to the expanded condition to make the display 1

approaching the user 4. Further, the sensor 3 detects the user 4, and the driving mechanism 11 drives the display 1 to do rotation for a minute extent, so as to have the display 1 facing the user, achieving a practical advantage of being time-saving and easy. In case of being not in use, folding can be made for space saving, while in use, the function of fine angle adjustment is performable to adjust the display to the most comfortable viewing angle.

As an example of illustration, the first motor and the first axle may be

used as a horizontal rotating axle of the display 1, in order to allow the

display 1 to rotate upwards/downwards about a center defined by the first

axle to thereby enable the display 1 to rotate upwards/downwards for setting

the display 1 and the eyesight of the user in a range of 15-25 degrees (where

the locations of the eyes of the face can be recognized through the human

face recognition technology). Further, the second motor and the second axle

may be used as a vertical rotating axle of the display 1 to allow the display 1

to rotate leftwards/rightwards about a center defined by the second axle to

thereby enable the display 1 to rotate leftwards/rightwards for setting the

display 1 to exactly face the user.

As such, the user may manually pull the support frame 2 from the folded

condition to the expanded condition to make the display 1 fast approach the

user and may also use the sensor 3 to detect the user and use the driving

mechanism 11 to drive the display 1 to rotate for a minute extent, so as to have the display 1 facing the user, achieving a practical advantage of being time-saving and easy. In case of being not in use, folding can be made for space saving, while in use, the function of fine angle adjustment is performable to adjust the display to the most comfortable viewing angle.

Claims (5)

I CLAIM:

1. A display fine-adjustment device, comprising:

a display, which is drivable by a driving mechanism to rotate;

a support frame, which is connected to the display, the support

frame comprising a plurality of supporting arms that are rotatably

interconnected, the support frame being switchable between a

folded condition and an expanded condition; and

a sensor, which is electrically connected to the driving

mechanism.

2. The display fine-adjustment device according to claim 1, wherein

the driving mechanism comprises a motor controller, at least one

motor, and at least one axle, the at least one axle being connected to

the display, the motor controller being operable to control the at

least one motor to drive the at least one axle to drive the display to

rotate.

3. The display fine-adjustment device according to claim 1, wherein

the sensor comprises an image sensor.

4. The display fine-adjustment device according to claim 1, wherein

the plurality of supporting arms are rotatably interconnected by a

rotation axle.

5. The display fine-adjustment device according to claim 1, wherein

the sensor is arranged on the display or the support frame.

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