CN112377745A

CN112377745A - Screen arc mobile control device

Info

Publication number: CN112377745A
Application number: CN202011259283.3A
Authority: CN
Inventors: 宁广良; 孙广; 赵洪鑫
Original assignee: Dalian Gooest Media Technology Co ltd
Current assignee: Dalian Gooest Media Technology Co ltd
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2021-02-19

Abstract

The invention relates to a screen arc-shaped movement control device, which relates to the technical field of movable screens and comprises a direct current motor, a driving belt, an aluminum alloy sliding rail, an arc-shaped supporting body, a screen support and nylon pulleys, wherein a cross beam is arranged inside the arc-shaped supporting body, the aluminum alloy sliding rail is arranged above the cross beam and on the rear side of the arc-shaped supporting body, the screen support is inverted L-shaped, the screen support is hung on the cross beam, a connecting rod is arranged at the top of the screen support, the nylon pulleys are fixed on the connecting rod, and the nylon pulleys fall into the aluminum alloy sliding rail and are matched with the aluminum alloy sliding rail; a direct current motor and a roller are respectively arranged above the aluminum alloy slide rail and at two ends of the rear side of the arc-shaped supporting body, a driving belt is sleeved on the output end of the direct current motor and the roller, and a connecting rod is fixed with the driving belt. The invention has the following beneficial effects: the invention has the advantages of simple installation, large bearing capacity, capability of being electrically pushed by hand, small moving noise, low manufacturing cost, small friction force during pushing and easy movement.

Description

Screen arc mobile control device

Technical Field

The invention relates to the technical field of movable screens, in particular to a screen arc-shaped movement control device.

Background

The mobile display is a novel expression form for displaying different pictures by moving a screen to different positions, has strong scientific and technological sense and various display modes, can independently set the positions, can randomly change contents, has an open control protocol, and is convenient for an owner or a first party to independently develop programs or nest the programs; various case pictures can be embedded on the display wall similar to the coordinate axis, and a group of slidable mechanical structures can be manufactured to hang the screen; the contents such as entity products, blueprints and the like can be displayed in a brand-new form in front of audiences by utilizing a sliding scanning form, so that the system is more interesting and scientific and technological.

The existing screen moving device is less suitable for arc-shaped wall surfaces, and also has the following defects:

1. the existing screen driving mode can only select a manual mode or an automatic mode, and the manual mode and the automatic mode cannot exist at the same time;

2. when the screen moves, if the weight of the screen is too large, great noise can be generated; if the screen weight is large, the screen size is necessary to be small, and the display effect is influenced;

3. the screen moving speed is slow, and the higher the speed is, the higher the noise is;

4. the existing arc-shaped moving carrier needs a customized arc-shaped sliding rail, an upper sliding rail and a lower sliding rail are needed to be responsible for moving a screen, and the cost of the used sliding rail is very high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a screen arc-shaped movement control device.

The invention relates to a screen arc-shaped movement control device which comprises a direct current motor, a driving belt, an aluminum alloy sliding rail, an arc-shaped supporting body, a screen bracket and a nylon pulley, wherein the arc-shaped supporting body is of a frame structure, a cross beam is arranged inside the arc-shaped supporting body, and two ends of the cross beam are respectively fixed on two side edges of the arc-shaped supporting body; aluminum alloy sliding rails are arranged above the cross beam and on the rear side of the arc-shaped supporting body, and two ends of each aluminum alloy sliding rail are respectively fixed on two side edges of the arc-shaped supporting body; the screen support is in an inverted L shape, the screen support is hung on the cross beam, a connecting rod is arranged at the top of the screen support, a nylon pulley is fixed on the connecting rod, and the nylon pulley falls in the aluminum alloy sliding rail and is matched with the aluminum alloy sliding rail; a direct current motor and a roller are respectively arranged above the aluminum alloy slide rail and at two ends of the rear side of the arc-shaped supporting body, a driving belt is sleeved on the output end of the direct current motor and the roller, and a connecting rod is fixed with the driving belt.

As a further improvement of the invention, the arc-shaped supporting body is an arc-shaped wall body or a steel arc-shaped frame.

As a further improvement of the invention, the bottom of the screen bracket is provided with a supporting pulley, the bottom edge of the arc-shaped supporting body is provided with a slideway, and the supporting pulley is matched with the slideway.

The invention has the following beneficial effects:

1. the installation method is similar to that of a sliding door, is simple and convenient, bears heavy weight, and can bear the weight of 200 KG;

2. the invention has various control modes, and the screen can be manually moved under special conditions, such as the failure of a motor or a controller and the need of rapidly moving the screen, and the direct current motor can be automatically moved when being electrified;

3. the aluminum alloy track is adopted, the aluminum alloy slide rail has certain softness, the aluminum alloy slide rail can be bent into an arc shape by being fixed on the arc-shaped carrier, and the track component is low;

4. the invention uses two pulleys as screen carriers and is driven by a direct current motor, so that the noise is low in the running process and the influence of the screen quality is basically avoided;

5. the invention adopts the nylon pulley, and the friction force between the nylon pulley and the aluminum alloy sliding rail is very small, so the invention is quite quiet during sliding operation, can not generate resonance phenomenon, and has very small manual pushing resistance.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of an arc-shaped support body on one side of the DC motor of the present invention;

FIG. 3 is a schematic view of the screen support structure of the present invention;

FIG. 4 is a schematic view of a nylon pulley of the present invention;

fig. 5 is a control circuit diagram of the present invention.

In the figure: direct current motor 1, drive belt 2, aluminum alloy slide rail 3, arc supporter 4, screen support 5, support pulley 6, nylon pulley 7, crossbeam 8, connecting rod 9, slide 10.

The specific implementation mode is as follows:

example 1

A screen arc movement control device is composed of a direct current motor 1, a driving belt 2, an aluminum alloy sliding rail 3, an arc supporting body 4, a screen support 5 and a nylon pulley 7, wherein the arc supporting body 4 is of a steel arc frame structure, a cross beam 8 (shown in figure 1) is arranged inside the arc supporting body 4, and two ends of the cross beam 8 are respectively fixed on two side edges of the arc supporting body 4; aluminum alloy slide rails 3 are arranged above the cross beam 8 and on the rear side of the arc-shaped support body 4, two ends of each aluminum alloy slide rail 3 are respectively fixed on two side edges of the arc-shaped support body 4, and the aluminum alloy slide rails naturally form arc-shaped rails with the same radian as the arc-shaped support body 4 along with the radian of the arc-shaped wall body; the screen support 5 is in an inverted L shape (as shown in figure 3), the screen support 5 is hung on a cross beam 8, a connecting rod 9 is arranged at the top of the screen support 5, the connecting rod 9 is in a single-layer step shape (as shown in figure 3), the bottom of the connecting rod 9 is fixed with the screen support 5, a nylon pulley 7 is fixed on one side of the top of the connecting rod 9, and the other side of the top of the connecting rod is fixed with the driving belt 2; the nylon pulley 7 falls in the aluminum alloy slide rail 3 and is matched with the aluminum alloy slide rail 3; a direct current motor 1 (shown in figure 2) and a roller (not marked in the figure) are respectively arranged above the aluminum alloy slide rail 3 and at two ends of the rear side of the arc-shaped support body 4, a driving belt 2 is sleeved on the output end of the direct current motor 1 and the roller, and a connecting rod 9 is fixed with the driving belt 2; the bottom of the screen support 5 is provided with a supporting pulley 6, the bottom edge of the arc-shaped support body 4 is provided with a slideway 10, and the supporting pulley 6 is matched with the slideway 10 to play a role in stabilizing and supporting.

Example 2

The difference between the embodiment 2 and the embodiment 1 is limited to the arc-shaped supporting body 4 being an arc-shaped wall.

During the use, display screen snap-on is in screen support 5, is driven by direct current motor 1 through drive belt 2, and drive belt 2 drives screen support 5 simultaneously and moves along aluminum alloy slide rail 3, and then reaches the purpose of removing the display screen.

The invention is used in cooperation with a control end, a motion instruction is sent by the control end (a computer end or a flat plate end), a controller and a motor are installed on the leftmost side or the rightmost side of a track together to drive a belt, USB communication is carried out between the computer end and the controller, relay control is carried out between the controller and a direct current motor, the controller can control the direct current motor 1 to move or stop according to the instruction content after receiving the instruction, a plurality of point position detection sensors (8 can be set as shown in figure 4) are embedded on an arc-shaped wall body, the content on a display screen is switched according to the positions of the point position sensors, and the display screen is a USB line which is a communication carrier of the computer end (an all-in-; when the direct current motor 1 is powered off, the screen support 5 can be pushed by a hand to move the slide rail to reach the designated point position to play the designated content.

The control circuit diagram of the device is shown in fig. 4, the control circuit diagram of the device is that eight detection point positions (the number of which is variable) are arranged from S1 to S8, whether a screen support reaches the point positions or not is monitored in real time through a chip U1, point position information is sent to a computer end if the point positions are reached, motion direction information is sent to the U1 by the computer end or a flat plate end through a USB, the U1 controls a direct current motor (1) to rotate forward and backward through an M1 motor interface, so that the screen support (5) is controlled to move left and right, current point position information is sent to the computer end when the screen support (5) moves to the detection point positions, if the current point position information is met, the screen support (5) stops moving, and the screen starts.

In practical use, the direct current motor is a CEICK-V1.0 direct current motor produced by Shanghai Yigan gating equipment limited, the controller is a GOOEST-V1.0 controller produced by Daqingsitt media technology limited, the point position detection sensor CJH-MC-51 point position detection sensor is adopted, and the ATMEGA328P chip is adopted as a chip U.

Claims

1. A screen arc-shaped movement control device is composed of a direct current motor (1), a driving belt (2), an aluminum alloy sliding rail (3), an arc-shaped supporting body (4), a screen support (5) and a nylon pulley (7), and is characterized in that the arc-shaped supporting body (4) is of a frame structure, a cross beam (8) is arranged inside the arc-shaped supporting body (4), and two ends of the cross beam (8) are respectively fixed on two side edges of the arc-shaped supporting body (4); an aluminum alloy sliding rail (3) is arranged above the cross beam (8) and on the rear side of the arc-shaped supporting body (4), and two ends of the aluminum alloy sliding rail (3) are respectively fixed on two side edges of the arc-shaped supporting body (4); the screen support (5) is inverted L-shaped, the screen support (5) is hung on the cross beam (8), the top of the screen support (5) is provided with a connecting rod (9), a nylon pulley (7) is fixed on the connecting rod (9), and the nylon pulley (7) falls in the aluminum alloy sliding rail (3) and is matched with the aluminum alloy sliding rail (3); a direct current motor (1) and a roller are respectively arranged above the aluminum alloy sliding rail (3) and at two ends of the rear side of the arc-shaped supporting body (4), a driving belt (2) is sleeved on the output end of the direct current motor (1) and the roller, and a connecting rod (9) is fixed with the driving belt (2).

2. The arc-shaped screen movement control device of claim 1, wherein the arc-shaped support body (4) is an arc-shaped wall body or a steel arc-shaped frame.

3. The arc-shaped screen movement control device according to claim 1, wherein the bottom of the screen support (5) is provided with a support pulley (6), the bottom edge of the arc-shaped support body (4) is provided with a slide way (10), and the support pulley (6) is matched with the slide way (10).