CN112253910A

CN112253910A - Artificial intelligence screen of angle intelligent regulation

Info

Publication number: CN112253910A
Application number: CN202011075070.5A
Authority: CN
Inventors: 程松林
Original assignee: Anhui Fastcall Information Technology Co ltd
Current assignee: Anhui Fastcall Information Technology Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-22
Anticipated expiration: 2040-10-09
Also published as: CN112253910B

Abstract

The invention discloses an artificial intelligence screen with an intelligently-adjusted angle, which comprises a display screen and a controller, wherein the back of the display screen is provided with a mounting device, the mounting device is controlled by the controller, and the mounting device comprises a transverse rotating mechanism and an axial rotating mechanism, wherein the transverse rotating mechanism and the axial rotating mechanism are respectively used for realizing transverse rotation of the display screen; the axial rotating mechanism comprises a first end axial rotating mechanism and a second end axial rotating mechanism, and the first end axial rotating mechanism and the second end axial rotating mechanism realize that the display screen respectively rotates around a vertical axis of the end position of the display screen; the transverse rotating mechanism realizes that the display screen rotates around a transverse shaft perpendicular to the vertical shaft; the artificial intelligent screen for intelligently adjusting the angle realizes the adjustment in multiple directions and in large angle.

Description

Artificial intelligence screen of angle intelligent regulation

Technical Field

The invention belongs to the field of display screens, and particularly relates to an artificial intelligent screen capable of intelligently adjusting angles.

Background

The display screen is a necessary component or device of the existing electronic product, and along with the development and intellectualization of science and technology, people have more and more requirements on the display screen. In the prior art, the rotation angle and the rotation direction of the display screen are single, and the requirements of people on some special environments or special functions cannot be met.

Disclosure of Invention

The invention aims to provide an artificial intelligent screen for intelligently adjusting angles, which realizes multi-direction and large-angle adjustment.

The invention provides an artificial intelligence screen with an intelligently-adjusted angle, which comprises a display screen and a controller, wherein the back of the display screen is provided with a mounting device, the mounting device is controlled by the controller, and the mounting device comprises a transverse rotating mechanism and an axial rotating mechanism, wherein the transverse rotating mechanism and the axial rotating mechanism are respectively used for realizing transverse rotation of the display screen;

the axial rotating mechanism comprises a first end axial rotating mechanism and a second end axial rotating mechanism, and the first end axial rotating mechanism and the second end axial rotating mechanism realize that the display screen respectively rotates around a vertical axis of the end position of the display screen; the transverse rotating mechanism enables the display screen to rotate around a transverse shaft perpendicular to the vertical shaft.

Preferably, the transverse rotating mechanism comprises a horizontal rotating shaft which is arranged at the back of the display screen and is parallel to the display screen, two separated third mounting blocks penetrate through and are fixed on the horizontal rotating shaft, and the two third mounting blocks realize the fixed mounting of the display screen and the horizontal rotating shaft; and the horizontal rotating shaft is connected with a third driving mechanism, and the third driving mechanism drives the horizontal rotating shaft to rotate.

Preferably, the third driving mechanism comprises a first driven wheel fixedly sleeved on the horizontal rotating shaft, the first driven wheel is connected with a first driving wheel for driving the first driven wheel to rotate, a first servo motor for driving the first driving wheel to rotate is fixedly connected to the first driving wheel, and the first servo motor is controlled by the controller.

Preferably, the first driven wheel and the first driving wheel are both gears, the first driving wheel is meshed with a gear surface of the first driven wheel far away from the display screen, and the bottom of the first servo motor is connected with a mounting seat.

Preferably, the first end axial rotation mechanism and the second end axial rotation mechanism respectively comprise a first connecting shaft and a second connecting shaft which are arranged at two ends of the back of the display screen, and the first connecting shaft and the second connecting shaft are respectively connected with a first rotating assembly and a second rotating assembly;

the axes of the first connecting shaft and the second connecting shaft are superposed with the axis of the horizontal rotating shaft; two first mounting blocks and two second mounting blocks penetrate through the first connecting shaft and the second connecting shaft respectively, and the first mounting blocks and the second mounting blocks are fixed with the display screen and can rotate synchronously around the axis of the horizontal rotating shaft along with the display screen.

Preferably, the first rotating assembly comprises a first connecting block fixed with the first connecting shaft, a first rotating shaft arranged in the vertical direction and fixed with the first connecting block, and a first driving mechanism for driving the first rotating shaft to rotate, wherein the first driving mechanism drives the first rotating shaft and the first connecting block to synchronously rotate around the axis of the first rotating shaft;

the second rotating assembly comprises a second connecting block fixed with a second connecting shaft, a second rotating shaft arranged in the vertical direction and fixed with the second connecting block, and a second driving mechanism rotating with the second rotating shaft, and the second driving mechanism drives the second rotating shaft and the second connecting block to rotate around the axis of the second rotating shaft synchronously.

Preferably, the first driving mechanism comprises a first driven wheel fixed with the first rotating shaft, the first driven wheel is connected with a first driving wheel, and the first driving wheel is connected with a first servo motor;

the second driving mechanism comprises a second driven wheel fixed with a second rotating shaft, a second driving wheel is connected onto the second driven wheel, and a second servo motor is connected onto the second driving wheel; the first servo motor and the second servo motor are controlled by a controller.

Preferably, the first driving wheel, the first driven wheel, the second driving wheel and the second driven wheel are all gears, the first driving wheel is meshed with a tooth surface of the first driven wheel far away from the display screen, the second driving wheel is meshed with a tooth surface of the second driven wheel far away from the display screen, and the first servo motor and the second servo motor are fixedly mounted with the mounting seat.

Preferably, a first U-shaped groove and a second U-shaped groove with vertical axes are arranged on the side, close to the display screen, of the mounting seat, and the first rotating shaft and the second rotating shaft are respectively arranged in the first U-shaped groove and the second U-shaped groove; the first rotating shaft and the second rotating shaft are respectively and fixedly provided with a first supporting shoulder and a second supporting shoulder, and the first supporting shoulder and the second supporting shoulder are arranged on the upper surface of the mounting seat.

Preferably, an avoiding groove is formed in the side face, close to the display screen, of the mounting seat, and a first limiting hole and a second limiting hole which are coaxial are formed in the two ends of the avoiding groove respectively; a limiting rod is arranged in the avoiding groove; two ends of the limiting rod are respectively arranged in the first limiting hole and the second limiting hole and respectively limit the first rotating shaft and the second rotating shaft; the middle part of the limiting rod is fixed with a rack parallel to the axis of the limiting rod, a pinion is meshed with the rack, a fourth servo motor is connected to the pinion, and the fourth servo motor is controlled by a controller.

The artificial intelligent screen with the intelligently adjusted angle has the beneficial effects that:

1. the intelligent screen (display screen) can be continuously adjusted in multiple directions, multiple angles and large angles. The display screen can rotate by a horizontal central axis of the display screen and can rotate by vertical axes at two ends.

2. The structure and the components for realizing rotation are simple in structure and convenient to install, automatic control is realized by using the controller, and the operation is convenient and reliable.

Drawings

FIG. 1 is a structural diagram of a mounting device at the back of an artificial intelligence screen with intelligently adjustable angle according to the technical scheme of the invention,

figure 2 is a front view of figure 1,

figure 3 is a structural schematic view of an axial rotating mechanism,

figure 4 is a schematic structural view of a transverse rotating mechanism,

figure 5 is a schematic view of the rotation,

figure 6 is a schematic view of a mounting block,

fig. 7 is a cross-sectional view of fig. 6.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

As shown in fig. 1, the artificial intelligence screen for intelligently adjusting the angle according to the technical scheme of the invention comprises a display screen and a controller, wherein a mounting device is arranged at the back of the display screen and is controlled by the controller. The mounting device comprises a transverse rotating mechanism 2 and an axial rotating mechanism, wherein the transverse rotating mechanism 2 and the axial rotating mechanism respectively realize transverse rotation of the display screen 1. By lateral rotation is meant that the display is rotated about its horizontal axis, i.e. the display is rotated towards the upper or lower part, i.e. the display may be in an upward or an orientation after rotation. The rotation of the axis here means rotation on a vertical axis on the display screen, that is, when facing the display screen, the display screen rotates to the left or to the right, so as to change the left and right angles of the display screen. Therefore, the display screen has various rotating directions and adjustable rotating angle. Simultaneously, the horizontal rotation and the vertical rotation of this display screen can also make up the use, and after one of them rotation angle took place promptly, the rotation that can carry out next direction need not necessarily that the display screen resets. In brief, the display screen can be rotated to the left or right and tilted up or down. It is noted that the combined rotation requires a transverse rotation before a longitudinal rotation.

The axial rotating mechanism comprises a first end axial rotating mechanism 3 and a second end axial rotating mechanism 5, and the first end axial rotating mechanism 3 and the second end axial rotating mechanism 3 realize that the display screen rotates around the vertical axis of the end positions at the two ends of the display screen respectively. The transverse rotation mechanism 2 enables the display screen 1 to rotate around a transverse axis perpendicular to the vertical axis. The first end axial rotation mechanism 3 and the second end axial rotation mechanism 5 are respectively installed at both ends of the back of the display screen so that the display screen is respectively rotated with both ends thereof.

As shown in fig. 1, 2 and 4, the transverse rotation mechanism 2 includes a horizontal rotation shaft 21 disposed at the back of the display screen 1 and parallel to the display screen, and two separate third installation blocks 22 are passed through and fixed on the horizontal rotation shaft 21, i.e. the horizontal rotation shaft 21 is fixed with the two third installation blocks 22. The two third mounting blocks 22 realize the fixed mounting of the display screen 1 and the horizontal rotation shaft 21. The horizontal rotation shaft 21 is connected with a third driving mechanism, and the third driving mechanism drives the horizontal rotation shaft 21 to rotate. The third driving mechanism starts to work to drive the horizontal rotating shaft 21 to rotate, and at the moment, the two third mounting blocks 22 and the display screen 1 rotate synchronously with the horizontal rotating shaft 21, namely, the display screen rotates around the axis of the horizontal rotating shaft 21.

As shown in fig. 1 and 4, the third driving mechanism includes a first driven wheel 23 fixedly sleeved on the horizontal rotating shaft 21, the first driven wheel 23 is connected with a first driving wheel 24 for driving the first driven wheel 23 to rotate, the first driving wheel 24 is fixedly connected with a first servo motor 25 for driving the first driving wheel 24 to rotate, and the first servo motor 25 is controlled by the controller. The controller controls the first servo motor 25 to operate, and drives the horizontal rotating shaft 21 to rotate. The first driven wheel 23 and the first driving wheel 24 are both gears, the first driving wheel 24 is meshed with the tooth surface of the first driven wheel 23 far away from the display screen 1, and the bottom of the first servo motor 25 is connected with the mounting seat 6. The controller controls the rotating speed and angle of the first servo motor 25, the first servo motor 25 has a self-locking function, and when the first servo motor stops, the display screen also stops rotating immediately and keeps at the angle of just stopping rotating.

In the above technical solution, the first driving wheel 24 and the first driven wheel 23 are engaged with the tooth surface of the side far away from the display screen 1, so that the first driven wheel 23 rotates along with the display screen in the longitudinal rotation of the display screen, and interference with the first driving wheel 24 is avoided. In the reset of the display screen, the first driven wheel 23 can be directly close to and meshed with the first driving wheel 24, and the temperature of interference does not occur. When the horizontal rotation is performed, the display screen cannot be rotated to the left or right.

As shown in fig. 1 to 3, the first end axial rotation mechanism 3 and the second end axial rotation mechanism 5 respectively include a first connection shaft 31 and a second connection shaft 51 disposed at two ends of the back of the display screen 1, and the first connection shaft 31 and the second connection shaft 51 are respectively connected to a first rotation assembly and a second rotation assembly. The first connecting shaft 31 and the second connecting shaft 51 are axially coincident with the horizontal rotating shaft 21. Two first mounting blocks 32 and two second mounting blocks 52 are respectively penetrated on the first connecting shaft 31 and the second connecting shaft 51, and the first mounting block 31 and the second mounting block 52 are both fixed with the display screen 1 and can synchronously rotate around the axis of the horizontal rotating shaft 21 along with the display screen 1. When the transverse rotating mechanism 2 works, namely the display screen 1 rotates around the axis of the horizontal rotating shaft 21, the display screen 1 and the first mounting block 32 and the second mounting block 52 fixed with the display screen are driven to synchronously rotate, the first mounting block 32 and the second mounting block 52 rotate around the axes of the first connecting shaft 31 and the second connecting shaft 51 respectively, the first connecting shaft 31 and the second connecting shaft 51 are fixed with the first rotating assembly and the second rotating assembly respectively, and at the moment, the rotation does not occur. The structure realizes the installation and fixation of the position of the display screen on one hand, and ensures the stability of the display screen; on the other hand, the installation position is provided for the first rotating assembly and the second rotating assembly, and the supporting is improved for the first rotating assembly and the second rotating assembly to rotate.

As shown in fig. 1 and 3, the first rotating assembly includes a first connecting block 32 fixed to the first connecting shaft 31, a first rotating shaft 36 vertically disposed and fixed to the first connecting block 32, and a first driving mechanism for driving the first rotating shaft 36 to rotate. The first driving mechanism drives the first rotating shaft 36 and the first connecting block 33 to rotate around the first rotating shaft 36 synchronously. The first rotating shaft 36 rotates to drive the first connecting block 33 and the display screen 1 fixed with the first rotating shaft to rotate around the axis of the first rotating shaft 36, so that the display screen rotates leftwards in the longitudinal direction.

The second rotating assembly comprises a second connecting block 52 fixed with the second connecting shaft 51, a second rotating shaft 56 arranged in the vertical direction and fixed with the second connecting block 52, and a second driving mechanism for driving the second rotating shaft 56 to rotate, wherein the second driving mechanism drives the second rotating shaft 56 and the second connecting block 53 to synchronously rotate around the axis of the second rotating shaft 56. The second rotating shaft 56 rotates to drive the second connecting block 53 fixedly connected with the second rotating shaft and the display screen 1 to rotate around the axis of the second rotating shaft 56, so that the display screen rotates towards the right longitudinal direction. In the above technical solution, in the rotation of the first rotating assembly or the second rotating assembly, the other rotating assembly moves synchronously with the rotation of the display screen.

As shown in fig. 1 and 3, the first driving mechanism includes a first driven wheel 34 fixed to a first rotating shaft 36, a first driving wheel 35 connected to the first driven wheel 34, and a first servo motor 38 connected to the first driving wheel 35. The second driving mechanism comprises a second driven wheel 54 fixed with a second rotating shaft 56, the second driven wheel 54 is connected with a second driving wheel 55, and the second driving wheel 55 is connected with a second servo motor; the first servomotor 28 and the second servomotor are both controlled by a controller. The controller controls whether the first servo motor 28 and the second servo motor work or not, the working time and the rotating angle respectively, and the rotating direction and the rotating angle of the display screen are controlled.

As shown in fig. 1 and 3, the first driving wheel 35, the first driven wheel 34, the second driving wheel 55 and the second driven wheel 54 are all gears, the first driving wheel 35 is meshed with a gear surface of the first driven wheel 34 far away from the display screen 1, the second driving wheel 55 is meshed with a gear surface of the second driven wheel 54 far away from the display screen 1, and both the first servo motor 58 and the second servo motor are fixedly mounted on the mounting base 6. In this structure, the arrangement of the positions of the first driving wheel 35 and the second driving wheel 55 ensures that in the rotation of one of the rotating shafts (the first rotating shaft or the second rotating shaft), the other rotating shaft drives the driven wheel gear fixed with the other rotating shaft to move together, so that interference does not occur, rotation is not affected, and after the reset, the driven wheel can be close to the driving wheels and meshed with the driving wheels.

As shown in fig. 5, 6 and 7, a first U-shaped groove 61 and a second U-shaped groove 62, the axes of which are vertical, are disposed on the side of the mounting base 6 close to the display screen 1, and the first rotating shaft 36 and the second rotating shaft 56 are respectively disposed in the first U-shaped groove 61 and the second U-shaped groove 62. The first rotating shaft 26 and the second rotating shaft 56 are respectively fixed with a first supporting shoulder 37 and a second supporting shoulder 57, and the first supporting shoulder 37 and the second supporting shoulder 57 are both arranged on the upper surface of the mounting seat 6. The first and second lifting shoulders 37 and 57 respectively lift and fix the first and second

rotating shafts

36 and 56, that is, respectively lift and fix the first and second connecting

blocks

32 and 54 connected to the first and second

rotating shafts

36 and 56 and the display screen. In order to further ensure the stability of the display screen, a limiting rod 66 is specially arranged for ensuring that the rotating shaft does not slide in the groove of the U-shaped groove when the first rotating shaft 36 or the second rotating shaft 56 rotates. The limiting rod 66 is specifically arranged, an avoiding groove 63 is formed in the side face, close to the display screen 1, of the mounting seat 6, the two ends of the avoiding groove 63 are respectively provided with a first limiting hole 65 and a second limiting hole 61 which are coaxial, the first limiting hole 65 and the second limiting hole 61 are respectively arranged in the outer sides, close to the display screen, of the first U-shaped groove 61 and the second U-shaped groove 62, the first rotating shaft 36 and the second rotating shaft 56 are tightly attached to the first U-shaped groove 61 and the second U-shaped groove 62, limiting of the first rotating shaft 36 and the second rotating shaft 56 is achieved, and the problem that the surface slides or even slides out of the U-shaped groove when the rotating shaft rotates around the axis of the rotating shaft is solved. A limiting rod 66 is arranged in the avoiding groove 63; the two ends of the limiting rod 66 are respectively arranged in the first limiting hole 65 and the second limiting hole 60 and respectively limit the first rotating shaft 36 and the second rotating shaft 56. A rack 67 parallel to the axis of the limiting rod 66 is fixed in the middle of the limiting rod 66, a pinion 68 is meshed with the rack 67, a fourth servo motor 69 is connected to the pinion 68, and the fourth servo motor 69 is controlled by a controller. Fourth servo motor 69 drives the rack and removes under the control of controller, with rack fixed gag lever post 66 respectively to the first spacing hole 65 at both ends or the spacing hole 60 removal of second, when one of them pivot is rotatory around self axis, gag lever post 66 just to this spacing rod end motion around self axis is rotatory, and the gag lever post tip passes the U type groove of this gag lever post, the realization is rotatory to this pivot, release another pivot simultaneously, make the pivot of being released can rotate out U type groove, the rotation of time display screen.

As shown in FIG. 5, in a rotated state of the display screen, the display screen is in a display screen structure in dotted lines, the display screen rotates around the axis of the first rotating shaft 36, and the second rotating shaft 56 rotates along a path of a dot-dash line.

Among this technical scheme, the display screen can time be greater than 180 degrees rotations in the rotation of horizontal direction, and upwards or the rotation that is greater than 90 degrees angles all can be realized to the downward direction rotation angle. Rotation in the longitudinal direction enables rotation of not less than 180 degrees.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The artificial intelligent screen with the intelligently-adjusted angle is characterized by comprising a display screen and a controller, wherein the back of the display screen is provided with a mounting device, the mounting device is controlled by the controller, and the mounting device comprises a transverse rotating mechanism and an axial rotating mechanism, wherein the transverse rotating mechanism and the axial rotating mechanism respectively realize transverse rotation of the display screen;

2. The artificial intelligence screen of claim 1 wherein the lateral rotation mechanism includes a horizontal rotation axis disposed at the back of the display screen and parallel to the display screen, and two separate third mounting blocks pass through and are fixed to the horizontal rotation axis, and the two third mounting blocks realize the fixed mounting of the display screen and the horizontal rotation axis; and the horizontal rotating shaft is connected with a third driving mechanism, and the third driving mechanism drives the horizontal rotating shaft to rotate.

3. The artificial intelligence screen of claim 2, wherein the third driving mechanism includes a first driven wheel fixedly mounted on the horizontal rotation axis, the first driven wheel is connected to a first driving wheel for driving the first driven wheel to rotate, the first driving wheel is fixedly connected to a first servo motor for driving the first driving wheel to rotate, and the first servo motor is controlled by the controller.

4. The artificial intelligent screen for intelligently adjusting the angle of claim 3, wherein the first driven wheel and the first driving wheel are both gears, the first driving wheel is meshed with a gear surface of the first driven wheel on the side far away from the display screen, and a mounting seat is connected to the bottom of the first servo motor.

5. The artificial intelligence screen of claim 1, wherein the first and second axial rotation mechanisms comprise a first and second connecting shafts disposed at two ends of the back of the display screen, respectively, and the first and second connecting shafts are connected to a first and second rotation assemblies, respectively;

6. The artificial intelligence screen of claim 5 wherein the first rotation assembly includes a first connection block fixed to the first connection shaft, a first rotation shaft vertically disposed and fixed to the first connection block, and a first driving mechanism for driving the first rotation shaft to rotate, the first driving mechanism driving the first rotation shaft and the first connection block to rotate synchronously around the first rotation shaft axis;

7. The artificial intelligence screen of claim 6, wherein the first driving mechanism includes a first driven wheel fixed to the first rotating shaft, the first driven wheel is connected to a first driving wheel, and the first driving wheel is connected to a first servo motor;

8. The artificial intelligence screen of claim 7, wherein the first driving wheel, the first driven wheel, the second driving wheel and the second driven wheel are all gears, the first driving wheel is meshed with a tooth surface of the first driven wheel on the side away from the display screen, the second driving wheel is meshed with a tooth surface of the second driven wheel on the side away from the display screen, and the first servo motor and the second servo motor are both fixedly mounted on the mounting base.

9. The artificial intelligent angle adjusting screen according to claim 8, wherein the mounting base is provided with a first U-shaped groove and a second U-shaped groove with vertical axes on the side close to the display screen, and the first rotating shaft and the second rotating shaft are respectively arranged in the first U-shaped groove and the second U-shaped groove; the first rotating shaft and the second rotating shaft are respectively and fixedly provided with a first supporting shoulder and a second supporting shoulder, and the first supporting shoulder and the second supporting shoulder are arranged on the upper surface of the mounting seat.

10. The artificial intelligent screen for intelligently adjusting the angle according to claim 9, wherein an avoiding groove is formed in a side surface of the mounting base close to the display screen, and a first limiting hole and a second limiting hole which are coaxial are respectively formed in two ends of the avoiding groove; a limiting rod is arranged in the avoiding groove; two ends of the limiting rod are respectively arranged in the first limiting hole and the second limiting hole and respectively limit the first rotating shaft and the second rotating shaft; the middle part of the limiting rod is fixed with a rack parallel to the axis of the limiting rod, a pinion is meshed with the rack, a fourth servo motor is connected to the pinion, and the fourth servo motor is controlled by a controller.