CN209839524U - Intelligent adjusting base of display - Google Patents

Abstract

The application discloses an intelligent adjusting base of a display, which comprises a base, a front-back moving device, an up-down moving device, a left-right rotating device, a left-right moving device, a display frame, a control device and a human body distance sensor, wherein the front-back moving device, the up-down moving device, the left-right rotating device, the left-right moving device, the display frame; the front-back moving device can control the display frame to move back and forth; the up-down moving device can control the up-down movement of the display frame; the left-right rotating device can control the display frame to rotate left and right; the left-right moving device can control the display frame to move left and right; the display device frame is provided with a display device; the human body distance sensor can detect the distance between a user and the base; and sending the distance signal to a control device; the control device is respectively and electrically connected with the front-back moving device, the up-down moving device, the left-right rotating device and the left-right moving device. Therefore, the controller can automatically adjust the placing position of the display or the healthy distance between the controller and a user, and prevents discomfort or health problems of the body caused by long-time sitting at a certain fixed position.

Description

Intelligent adjusting base of display

Technical Field

The utility model relates to a display base especially relates to display intelligent regulation base.

Background

Computers are used for a lot of help in life of people, but the computer has great harm to eyes, people can properly rest the eyes after 1-2 hours, visual fatigue, myopia, dry eyes and other chronic hazards are easily caused when people look at a computer screen for a long time, people can easily suffer from wrist injury syndrome and arthritis when people play the computer for a long time, strong electromagnetic waves can be generated during the operation of the computer, the electromagnetic waves have great radiation to human bodies, and the human bodies are greatly influenced in a long time. However, some people need to use computers for a long time due to work reasons, for example, the time for using computers in government units and company enterprises is half of the daily life of the people, and the long-time use of computers in a day can bring annoying diseases to the people.

As described above, keeping a posture for a long time to use a computer or watching a computer at a close distance increases the physical fatigue burden and the visual deterioration, and this item is obtained in order to alleviate this problem: display intelligent regulation base.

SUMMERY OF THE UTILITY MODEL

The quantity of using the computer is more and more along with the rapid development of science and technology now, and the time of using is more and more for a long time, and the crowd who suffers from myopia, spondylopathy for a long time also can be more and more so, and these diseases are because the display is watched to fixed and long-time closely of display, for the consideration to people's health, has designed display intelligent regulation base, can change into originally fixed unchangeable display and can follow people's action and begin to remove.

According to one aspect of the utility model, the intelligent adjusting base for the display is provided, which comprises a base, a front-back moving device, a vertical moving device, a left-right rotating device, a left-right moving device, a display frame, a control device and a human body distance sensor, wherein the front-back moving device, the vertical moving device, the left-right rotating device, the left-right moving device, the display frame, the;

the front-back moving device can control the display frame to move back and forth;

the up-down moving device can control the up-down movement of the display frame;

the left-right rotating device can control the display frame to rotate left and right;

the left-right moving device can control the display frame to move left and right;

the display device frame is provided with a display device;

the human body distance sensor can detect the distance between a user and the base; and sending the distance signal to a control device;

the control device is respectively and electrically connected with the front-back moving device, the up-down moving device, the left-right rotating device and the left-right moving device.

The utility model discloses a controller can the automatically regulated display the locating place or with the user between healthy distance, prevent to sit for a long time with certain fixed position and lead to the discomfort or the health problem of health.

In some embodiments: the front and rear sliding seats are arranged on the front and rear guide rails in a sliding manner, the front and rear sliding seats drive the front and rear sliding seats to reciprocate along the front and rear guide rails, and the front and rear sliding seats can drive the display frame to move back and forth.

In some embodiments: the front end and the rear end of the front guide rail and the rear guide rail are respectively provided with a front proximity switch and a rear proximity switch which are matched with the front sliding seat and the rear sliding seat, and the front proximity switch and the rear proximity switch are electrically connected with the control device.

In some embodiments: the up-down moving device comprises an upper guide rail, a lower guide rail, an upper sliding seat, a lower sliding seat and an upper and lower driving device, wherein the upper guide rail and the lower guide rail are arranged on the front sliding seat and the rear sliding seat, the upper sliding seat and the lower sliding seat are arranged on the upper guide rail and the lower sliding seat in a sliding manner, the upper and lower driving device drives the upper and lower sliding seats to reciprocate.

In some embodiments: the upper end and the lower end of the upper guide rail and the lower guide rail are respectively provided with an upper proximity switch and a lower proximity switch which are matched with the upper sliding seat and the lower sliding seat, and the upper proximity switch and the lower proximity switch are electrically connected with a control device.

In some embodiments: the left and right rotating device comprises a left and right rotating frame and a left and right rotating driving device, the left and right rotating frame is hinged to the upper and lower sliding seats, the left and right rotating driving device can drive the left and right rotating frame to rotate left and right in the horizontal direction, and the left and right rotating frame can drive the display frame to rotate left and right.

In some embodiments: the left and right rotating frames are provided with infrared sensors.

In some embodiments: the left-right moving device comprises a left-right guide rail, a left-right sliding seat and a left-right driving device, the left-right guide rail is arranged on the left-right rotating frame, the left-right sliding seat is arranged on the left-right guide rail in a sliding mode, the left-right driving device drives the left-right sliding seat to reciprocate along the left-right guide rail, and the display device frame is arranged on the.

In some embodiments: the left end and the right end of the left guide rail and the right end of the right guide rail are respectively provided with a left proximity switch and a right proximity switch which are matched with the left sliding seat and the right sliding seat, and the left proximity switch and the right proximity switch are electrically connected with a control device.

In some embodiments: the control device comprises a controller, a timing module and a control button, the controller is respectively and electrically connected with the front and rear driving device, the up and down driving device, the left and right rotation driving device, the left and right driving device, the timing module and the control button, the control button can control the on and off of the front and rear driving device, the up and down driving device, the left and right rotation driving device and the left and right driving device, the timing module can set a cycle time T, the controller controls the up and down driving device to drive the upper and lower sliding seats to move upwards or downwards at intervals of time T, and the time T is 10-240 min; the controller can set a preset distance range L1-L2, and when the human body distance sensor detects that the distance between the user and the base is smaller than L1, the controller controls the front and rear driving devices to drive the front and rear sliding seats to move backwards; when the human body distance sensor detects that the distance between the user and the base is larger than L2, the controller controls the front and rear driving device to drive the front and rear sliding seats to move forwards.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent adjusting base of a display according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, wherein the front side is the side of the base facing the user, and the other sides are the corresponding positions of the base.

As shown in fig. 1, the intelligent adjusting base for the display comprises a base 1, a front-back moving device 2, a front-back moving device 3, a left-right rotating device 4, a left-right moving device 5, a display frame 6, a control device and a human body distance sensor 8, wherein the front-back moving device, the left-right moving device 3, the left-right rotating device 4, the left-right moving device 5, the; the forward and backward moving device 2 can control the display frame 6 to move forward and backward; the up-down moving device 3 can control the display frame 6 to move up and down; the left-right rotating device 4 can control the display frame 6 to rotate left and right; the left-right moving device 5 can control the display frame 6 to move left and right; the display stand 6 is provided with a display; the human body distance sensor 8 can detect the distance between a user and the base, and the human body distance sensor 8 is an infrared human body distance sensor; and sending the distance signal to a control device; the control device is electrically connected with the front-back moving device 2, the up-down moving device 3, the left-right rotating device 4 and the left-right moving device 5 respectively.

The front-back moving device 2 comprises a front-back guide rail 21, a front-back sliding seat 22 and a front-back driving device 23, the front-back guide rail 21 is fixedly arranged on the base 1, the front-back sliding seat 22 is arranged on the front-back guide rail 21 in a sliding mode, the front-back driving device 23 drives the front-back sliding seat 22 to move back and forth along the front-back guide rail 21 through gears or tracks, and the front-back sliding seat 22 can drive the display.

The front and rear ends of the front and rear guide rails 21 are respectively provided with a front proximity switch 24 and a rear proximity switch 25 which are matched with the front and rear sliders 22, the front proximity switch 24 and the rear proximity switch 25 are electrically connected with a control device, and the front proximity switch 24 and the rear proximity switch 25 are used for limiting the moving distance of the front and rear sliders 22 and detecting whether the front and rear sliders 22 are located at the front end or the rear end.

The up-down moving device 3 comprises an upper-down guide rail 31, an upper-down sliding seat 32 and an upper-down driving device 33, wherein the upper-down guide rail 31 is fixedly arranged on the front-back sliding seat 22, the upper-down sliding seat 32 is arranged on the upper-down guide rail 31 in a sliding manner, the upper-down driving device 33 drives the upper-down sliding seat 32 to reciprocate along the upper-down guide rail 31 through a gear or a crawler belt, and the upper-down sliding seat 32 can drive.

The upper end and the lower end of the upper and the lower guide rails 31 are respectively provided with an upper proximity switch 34 and a lower proximity switch 35 which are matched with the upper and the lower sliding seats 32, and the upper proximity switch 34 and the lower proximity switch 35 are both electrically connected with a control device. The upper and lower proximity switches 34 and 35 are used to limit the moving distance of the upper and lower sliders 32 and detect whether the upper and lower sliders 32 are positioned at the upper or lower ends.

The left-right rotating device 4 includes a left-right rotating frame 41 and a left-right rotating driving device 42, the left-right rotating frame 41 is hinged to the upper and lower sliding seats 32 through a hinge shaft, the hinge shaft is arranged in the vertical direction and is perpendicular to the front and rear guide rails 21, the left-right rotating driving device 42 can drive the left-right rotating frame 41 to rotate left and right in the horizontal direction through a gear, and the left-right rotating frame 41 can drive the display frame 6 to rotate left and right.

The bottom of the left and right rotating frames 41 is provided with an infrared sensor (not shown) for detecting whether the display faces the user, and if not, the infrared sensor can be adjusted by the control device.

The left-right moving device 5 includes left and right guide rails 51, left and right slide bases 52, and left and right driving devices 53, the left and right guide rails 51 are fixedly attached to the left and right rotating frames 41, the left and right slide bases 52 are slidably provided on the left and right guide rails 51, the left and right driving devices 53 drive the left and right slide bases 52 to reciprocate along the left and right guide rails 51 via gears or crawler belts, and the display stand 6 is provided on the left and right slide bases 52.

The left and right ends of the left and right guide rails 51 are respectively provided with a left proximity switch 54 and a right proximity switch 55 which are matched with the left and right sliders 52, and both the left proximity switch 54 and the right proximity switch 55 are electrically connected with the control device. The left and right proximity switches 54 and 55 are used to limit the moving distance of the left and right sliders 52 and detect whether the left and right sliders 52 are positioned at the left or right ends.

The front-rear driving device 23, the up-down driving device 33, the left-right rotation driving device 42, and the left-right driving device 53 are all DC24V self-locking stepping motors.

The control device comprises a controller 71, a timing module 72 and a control button 73, wherein the controller 71 is electrically connected to the front-back driving device 23, the up-down driving device 33, the left-right rotation driving device 42, the left-right driving device 53, the timing module 72 and the control button 73 respectively, the controller 71 is located at S7-200PLC, and the control button 73 can control the opening and closing, the forward rotation and the reverse rotation of the front-back driving device 23, the up-down driving device 33, the left-right rotation driving device 42 and the left-right driving device 53. The control buttons 73 may include forward, backward, left, right, up, down, left turn, and right turn buttons to control forward and backward movement of the front and rear sliders, left and right movement of the left and right sliders, up and down movement of the up and down sliders, and left and right turn of the left and right rotary frames, respectively.

The timing module 72 can set a cycle time T, and the controller 71 controls the up-down driving device 33 to drive the up-down sliding seat 32 to move up or down every time T, and the controller 71 can also control the left-right driving device 53 to drive the left-right sliding seat 52 to move left or right, wherein the time T is 10min to 240min, and in this embodiment, T is 120 min. Prevent the user from causing physical discomfort or health problems due to sitting for a long time in a fixed position.

The controller 71 can set a predetermined distance range L1-L2, wherein L1 is smaller than L2, L1 is 20cm-50cm, L2 is 40 cm-100 cm, and in the embodiment, the predetermined distance range is 40 cm-80 cm. When the human body distance sensor 8 detects that the distance between the user and the base 1 is less than L1, the controller 71 controls the front-rear driving device 23 to drive the front-rear sliding seat 22 to move backwards; when the human body distance sensor 8 detects that the distance between the user and the base 1 is greater than L2, the controller 71 controls the front-rear driving device 23 to drive the front-rear slide 22 to move forward. Therefore, the distance between the display and the user can be adjusted to be the optimal distance, and the eyes of the user can be protected.

The above description is only one embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of similar modifications and improvements can be made without departing from the inventive concept, and these should also be considered as within the protection scope of the present invention.

Claims (10)

1. Display intelligent regulation base, its characterized in that: comprises a base (1), a front-back moving device (2), a front-back moving device (3), a left-right rotating device (4), a left-right moving device (5), a display frame (6), a control device and a human body distance sensor (8), wherein the front-back moving device, the left-right moving device, the display frame and the control device are arranged on the base (1);

the front-back moving device (2) can control the display frame (6) to move back and forth;

the up-down moving device (3) can control the display frame (6) to move up and down;

the left-right rotating device (4) can control the display frame (6) to rotate left and right;

the left-right moving device (5) can control the display frame (6) to move left and right;

the display frame (6) is provided with a display;

the human body distance sensor (8) can detect the distance between a user and the base; and sending the distance signal to the control device;

the control device is respectively and electrically connected with the front-back moving device (2), the up-down moving device (3), the left-right rotating device (4) and the left-right moving device (5).

2. The intelligent adjustment base for displays of claim 1, wherein: the front-back moving device (2) comprises a front-back guide rail (21), a front-back sliding seat (22) and a front-back driving device (23), the front-back guide rail (21) is arranged on the base (1), the front-back sliding seat (22) is arranged on the front-back guide rail (21) in a sliding mode, the front-back driving device (23) drives the front-back sliding seat (22) to reciprocate along the front-back guide rail (21), and the front-back sliding seat (22) can drive the display frame (6) to move back and forth.

3. The intelligent adjustment base for displays of claim 2, wherein: the front end and the rear end of the front guide rail (21) and the rear guide rail (21) are respectively provided with a front proximity switch (24) and a rear proximity switch (25) which are matched with the front sliding seat and the rear sliding seat (22), and the front proximity switch (24) and the rear proximity switch (25) are electrically connected with the control device.

4. The intelligent adjustment base for displays of claim 3, wherein: the up-down moving device (3) comprises an upper guide rail (31), a lower slide seat (32) and an upper-lower driving device (33), the upper guide rail (31) and the lower guide rail (31) are arranged on the front-back slide seat (22), the upper slide seat (32) and the lower slide seat (32) are arranged on the upper guide rail (31) in a sliding mode, the upper-lower driving device (33) drives the upper slide seat (32) and the lower slide seat (32) to move in a reciprocating mode along the upper guide rail (31), and the upper slide seat (32) and the lower slide seat (.

5. The intelligent adjustment base for displays of claim 4, wherein: go up lower guide rail (31) upper end and lower extreme be provided with respectively with proximity switch (34) and proximity switch (35) down are gone up to upper and lower slide (32) complex, go up proximity switch (34) and proximity switch (35) down all with controlling means electricity is connected.

6. The intelligent adjustment base for displays of claim 5, wherein: the left-right rotating device (4) comprises a left-right rotating frame (41) and a left-right rotating driving device (42), the left-right rotating frame (41) is hinged to the upper-lower sliding seat (32), the left-right rotating driving device (42) can drive the left-right rotating frame (41) to rotate left and right in the horizontal direction, and the left-right rotating frame (41) can drive the display frame (6) to rotate left and right.

7. The intelligent adjustment base for displays of claim 6, wherein: the left and right rotating frames (41) are provided with infrared sensors.

8. The intelligent adjustment base for displays of claim 7, wherein: the left-right moving device (5) comprises a left-right guide rail (51), a left-right sliding seat (52) and a left-right driving device (53), the left-right guide rail (51) is arranged on the left-right rotating frame (41), the left-right sliding seat (52) is arranged on the left-right guide rail (51) in a sliding manner, the left-right driving device (53) drives the left-right sliding seat (52) to move along the left-right guide rail (51) in a reciprocating manner, and the display device frame (6) is arranged on the left-right sliding seat (52.

9. The intelligent adjustment base for displays of claim 8, wherein: the left end and the right end of the left guide rail (51) and the right guide rail are respectively provided with a left proximity switch (54) and a right proximity switch (55) which are matched with the left sliding seat (52) and the right sliding seat (52), and the left proximity switch (54) and the right proximity switch (55) are electrically connected with the control device.

10. The intelligent adjustment base for displays of claim 9, wherein: the control device comprises a controller (71), a timing module (72) and a control button (73), wherein the controller (71) is respectively and electrically connected with the front and rear driving device (23), the up and down driving device (33), the left and right rotation driving device (42), the left and right driving device (53), the timing module (72) and the control button (73), the control button (73) can control the opening and closing of the front and rear driving device (23), the up and down driving device (33), the left and right rotation driving device (42) and the left and right driving device (53), the timing module (72) can set a cycle time T, the controller (71) controls the up and down driving device (33) to drive the upper and lower sliding seat (32) to move upwards or downwards at intervals of T, and the time T is 10-240 min; the controller (71) can set a preset distance range L1-L2, and when the human body distance sensor (8) detects that the distance between a user and the base (1) is less than L1, the controller (71) controls the front-back driving device (23) to drive the front-back sliding seat (22) to move backwards; when the human body distance sensor (8) detects that the distance between the user and the base (1) is larger than L2, the controller (71) controls the front-back driving device (23) to drive the front-back sliding seat (22) to move forwards.