Integrated Control LED Display System

Abstract

An integrated control LED display system, comprising a number of module screens (100) which are assembled together to form a large display screen, each of the module screens (100) comprises several unit screens (200), a splicing frame (300) and a control box (400), several unit screens (200) are assembled in the splicing frame (300) to form a said module screen (100), the control box (400) is arranged on the back of the module screen (100), and the control box (400) can simultaneously control the work mode of the unit screens (200).

Claims

1. An integrated control LED display system, comprising a number of module screens (100) which are assembled together to form a large display screen, each of the module screens (100) comprises several unit screens (200), a splicing frame (300) and a control box (400), several unit screens (200) are assembled in the splicing frame (300) to form a said module screen (100), the control box (400) is arranged on the back of the module screen (100), and the control box (400) can simultaneously control the work mode of the unit screens (200).

2. An integrated control LED display system according to claim 1, wherein the control box (400) comprises a lead-in cable (410) and a lead-out cable (420), when several module screens (100) are assembled together to form the large display screen, the lead-in cable (410) and the lead-out cable (420) are connected between different module screens (100), the control boxes (400) of different module screens (100) are connected together by the lead-in cable (410) and the lead-out cable (420).

3. An integrated control LED display system according to claim 2, wherein both the lead-in cable (410) and the lead-out cable (420) are integrated with power lines and signal lines.

4. An integrated control LED display system according to claim 2, wherein the ends of the lead-in cable (410) and the lead-out cable (420) are provided with plugs (460).

5. An integrated control LED display system according to claim 2, wherein the lead-in cable (410) and the lead-out cable (420) are connected to the two sides of the box (430).

6. An integrated control LED display system according to claim 2, wherein the control box (400) further comprises a box body (430), a element module (440) and several connection sockets (450), wherein the element module (440) is arranged in the box body (430), a number of the connection sockets (450) are provided on the box body (430), and the number of the connection sockets (450) is equal to the number of the unit screens (200) constituting the module screen (100), each unit screen (200) is provided with a lead-out wire (240), the connection sockets (450) and the lead-out wires (240) of the unit screens (200) constituting the module screen (100) are in one-to-one correspondence, the lead-out wires (240) are correspondingly plugged into the connection sockets (450).

7. An integrated control LED display system according to claim 6, wherein the element module (440) comprises a power control module and a signal control module.

8. An integrated control LED display system according to claim 1, wherein each unit screen (200) is provided with a fixed lock (250) which can fix the unit screen (200) on the splicing frame (300).

9. An integrated control LED display system according to claim 1, wherein each of the unit screens (200) comprises a bottom plate (210), an LED lamp board (220) and a cage (230), each unit screen (200) is connected with a lead-out wire (240) on the back, the bottom plate (210), the LED lamp board (220) and the cage (230) are all plate-shaped, the LED lamp board (220) is fixed on the bottom plate (210), and the cage (230) is arranged in the front of the LED lamp board (220). the unit screen (200) is in flat shape, the lead-out wire (240) is connected with the LED lamp board (220) of the unit screen (200).

10. An integrated control LED display system according to claim 9, wherein the power lines and the signal lines are integrated in the lead-out wire (240).

11. An integrated control LED display system according to claim 9, wherein the LED lamp board (220) is spliced by a plurality of LED lamp boards.

12. An integrated control LED display system according to claim 1, wherein a number of the module screens (100) are horizontally assembled together to form a large display screen.

13. An integrated control LED display system according to claim 1, wherein a number of the module screens (100) are longitudinally assembled together to form a large display screen.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is a schematic diagram of assembling several small LED display screens into a large display screen in the conventional technology.

[0016] FIG. 2 is a schematic diagram of the back of a conventional small LED display screen.

[0017] FIG. 3 is a perspective view of the module screen of the present invention.

[0018] FIG. 4 is a schematic diagram of a unit screen of the present invention.

[0019] FIG. 5 is a schematic diagram of assembling the module screens of the present invention horizontally to form a large display screen.

[0020] FIG. 6 is a perspective view of the collective power box of the present invention.

[0021] FIG. 7 is a schematic diagram of the connection of two module screens of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0022] As shown in FIGS. 3 to 7, an integrated control LED display system includes several module screens (100).

[0023] As shown in FIG. 5, a number of the module screens (100) are assembled together to form a large display screen which can display information such as texts, images, and videos.

[0024] In specific implementation, the module screens (100) can be assembled together in various ways such as horizontal assembly and vertical assembly to form a large display screen.

[0025] Each module screen (100) includes several unit screens (200), a splicing frame (300) and a control box (400).

[0026] Several unit screens (200) are assembled in the splicing frame (300) to form a module screen (100).

[0027] The control box (400) is arranged on the back of the module screen (100), and the control box (400) can simultaneously control the work mode of several unit screens (200).

[0028] The specific description is that the control box (400) provides power supply for several unit screens (200), and the control box (400) simultaneously controls the lighting and image displaying methods of the unit screens (200).

[0029] As shown in FIG. 6, the control box (400) includes a lead-in cable (410) and a lead-out cable (420).

[0030] As shown in FIG. 7, the lead-in cable (410) and the lead-out cable (420) are connected to the two sides of the box (430).

[0031] As shown in FIGS. 5 and 7, when several module screens (100) are assembled together horizontally or vertically to form the large display screen, the lead-in cable (410) and the lead-out cable (420) are connected to different module screens (100).

[0032] The control boxes (400) of different module screens (100) are connected together by the lead-in cable (410) and the lead-out cable (420).

[0033] Both the lead-in cable (410) and the lead-out cable (420) are integrated with power lines and signal lines.

[0034] In a specific implementation, the ends of the lead-in cable (410) and the lead-out cable (420) are provided with plugs (460) to facilitate connection.

[0035] When a plurality of the module screens (100) are assembled together horizontally or vertically to form the large display screen, the lead-out cable (420) of one module screen (100) is connected with the lead-in cable (410) of another module screen (100) so as to connect the control boxes (400) of different module screens (100) together.

[0036] Firstly, according to the present invention, a plurality of the unit screens (200) of the same structure are connected to form the module screen (100), and then a plurality of the module screens (100) are assembled horizontally or vertically to form the large display screen. The assembling is simple, and is convenient for assembly and disassembly.

[0037] In addition, according to the present invention, a plurality of power control modules and signal control modules of the unit screens (200) constituting the module screen (100) are centrally arranged in the control box (400), so as to greatly simplify the structure of the unit screen (200), standardize the unit screen (200), and facilitate separate assembly and disassembly. At the same time, the control box (400) realizes centralized setting of circuits and electronic components, centralized heat dissipation, centralized electromagnetic shielding, and centralized protection.

[0038] Finally, according to the present invention, the control boxes (400) of different module screens (100) are connected together by the lead-in cable (410) and the lead-out cable (420), so as to greatly simplify the connection Lines, and greatly reduce the difficulty of assembling wires.

[0039] In the specific implementation, the control box (400) further includes a box body (430), an element module (440), and several connection sockets (450).

[0040] Wherein the element module (440) is arranged in the box body (430), the element module (440) includes a power control module and a signal control module.

[0041] Several connection sockets (450) are provided on the box body (430), and the number of the connection sockets (450) is equal to the number of the unit screens (200) constituting the module screen (100), for example, if the module screen (100) is formed by three unit screens (200), the box body (430) is provided with three connection sockets (450).

[0042] Each unit screen (200) is provided with a lead-out wire (240).

[0043] The connection sockets (450) and the lead-out wires (240) of the unit screens (200) constituting the module screen (100) are in one-to-one correspondence. The lead-out wire (240) is correspondingly plugged into the connection socket (450).

[0044] In specific implementation, each unit screen (200) is provided with a fixed lock (250) which can fix the unit screen (200) on the splicing frame (300).

[0045] As shown in FIG. 4, each unit screen (200) includes a bottom plate (210), an LED lamp board (220), and a cage (230).

[0046] As shown in FIG. 3, each unit screen (200) is connected with a lead-out wire (240) on the back.

[0047] The bottom plate (210), the LED lamp board (220) and the cage (230) are all plate-shaped.

[0048] The LED lamp board (220) is fixed on the bottom plate (210), and the cage (230) is arranged in the front of the LED lamp board (220).

[0049] The unit screen (200) is in flat shape.

[0050] The lead-out wire (240) is connected with the LED lamp board (220) of the unit screen (200).

[0051] The power lines and the signal lines are integrated in the lead-out wire (240).

[0052] The lead-out wire (240) is used to supply power to the LED lamp board (220) of the unit screen (200), and transmit various signals to the LED lamp board (220) of the unit screen (200), such as control signals, data signals, etc.

[0053] In specific implementation, the LED lamp board (220) may be spliced by multiple LED lamp boards.