CN211975601U - Spliced type LED display screen steel structure support - Google Patents

Abstract

A spliced LED display screen steel structure bracket comprises an upper edge pipe, a lower edge pipe, a left edge pipe, a right edge pipe and a screen locking pipe; the upper edge pipe, the lower edge pipe, the left edge pipe and the right edge pipe are fixedly connected through tenon connectors and self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; the screen locking pipes are fixedly arranged between the upper side pipe and the lower side pipe at equal intervals through self-tapping screws and are used for fixedly connecting the LED display module; the screen locking pipe is fixedly provided with a transverse reinforcing pipe and an inclined reinforcing pipe through self-tapping screws, so that the requirements of the display screen steel structure support on dimensional accuracy, connection rigidity and flatness are met; the spliced LED display screen steel structure bracket of the utility model is transported to the client in a component form, thereby greatly reducing the transportation cost; when the client side is assembled, the display screen steel structure support can be assembled only through the self-tapping screws, so that the assembling cost of the display screen steel structure support is greatly reduced.

Description

Spliced type LED display screen steel structure support

Technical Field

The utility model relates to a steel structure support technical field for the LED display screen, concretely relates to concatenation formula LED display screen steel structure support.

Background

The existing indoor LED display screen steel structure support is a non-standard product, is designed and processed according to the actual required size, is mostly manufactured by adopting a welding process to ensure the size precision, the connection rigidity and the flatness requirement of the display screen steel structure support, and is transported to a field or a terminal factory for installing and debugging an LED display module after being produced at a professional factory end, so that the production and transportation costs of the display screen steel structure support are high; however, as the market of the LED display screen is developed to a large size and the requirement for the cost of the LED display screen is higher and higher, the conventional method of welding the display screen steel structure bracket by a professional factory end and then transferring the display screen steel structure bracket to a field or a terminal factory cannot meet the market requirement more and more; in order to reduce the manufacturing and transportation cost of the display screen steel structure support, the display screen steel structure support is transported to a field or a terminal manufacturer in a component mode, so that the reduction of the production and transportation cost becomes a necessary development direction.

However, the assembly from the components to the display screen steel structure support is completed on a construction site or a terminal manufacturer, and due to the lack of experienced operators, the assembly manufacturability problem must be solved, namely, non-professional operators can assemble the components into the display screen steel structure support with the dimensional accuracy, the connection rigidity and the flatness meeting the requirements, so that the component structure of the display screen steel structure support must be specially designed, and the special assembly process requirements are avoided; in addition, in the construction and installation process of some indoor LED display screens, a welding process is not allowed, so that the problem of welding construction of a traditional display screen steel structure support must be solved in the field construction and installation process; and the production and transportation mode of the existing display screen steel structure support obviously cannot meet the requirement of the current market development of the LED display screen steel structure support.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the background art, the utility model discloses a steel structure bracket of a spliced LED display screen; comprises an upper edge pipe, a lower edge pipe, a left edge pipe, a right edge pipe and a screen locking pipe; the upper edge pipe, the lower edge pipe, the left edge pipe and the right edge pipe are fixedly connected through tenon connectors and self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; the screen locking tubes are fixedly arranged between the upper edge tube and the lower edge tube at equal intervals through self-tapping screws and are used for fixedly connecting the LED display module; the screen locking pipe is fixedly provided with a transverse reinforcing pipe and an inclined reinforcing pipe through self-tapping screws, so that the requirements of the display screen steel structure support on dimensional accuracy, connection rigidity and flatness are met; the utility model discloses a splicing type LED display screen steel structure support connection structure is through special design, and its subassembly structure accomplishes production in professional mill, and size precision and connecting hole position precision can all fully be guaranteed; the display screen steel structure bracket is transported to a construction site or a terminal factory in a component mode, so that the transportation cost is reduced due to small size, and meanwhile, the welding processing cost is saved; the display screen steel structure support can be assembled on a construction site or by a terminal manufacturer through the self-tapping screws, so that the assembly and production cost of the display screen steel structure support is reduced, and the requirements of the current LED display screen market development are met.

In order to realize the utility model aims at, the utility model adopts the following technical scheme: a spliced LED display screen steel structure support comprises an upper side pipe, a lower side pipe, a left side pipe, a right side pipe and a screen locking pipe, wherein a plurality of through holes for connecting with tenon connectors are formed in the pipe walls of the upper side pipe, the lower side pipe, the left side pipe and the right side pipe; the upper edge pipe, the lower edge pipe, the left edge pipe and the right edge pipe are fixedly connected through tenon connectors and self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; the LED display module is characterized in that the screen locking pipes are arranged between the upper side pipe and the lower side pipe at equal intervals through self-tapping screws, wherein the screen locking pipes are used for fixedly connecting the LED display module, the distance between the screen locking pipes and the through hole positions, used for fixing the LED display module, on the screen locking pipes are required to be designed and processed according to the LED display module.

Furthermore, the upper side pipe, the lower side pipe, the left side pipe and the right side pipe are all in a rectangular pipe shape, two ends of each upper side pipe and two ends of each lower side pipe are planes vertical to the length direction of the pipes, and the side walls of the two end pipes are provided with a plurality of through holes connected with the tenon connecting pieces; the upper side wall and the lower side wall of the upper side pipe are uniformly provided with through rectangular holes, the rectangular holes are used for assembling the screen locking pipe, and after the outer frame structure of the display screen steel structure support is assembled, the screen locking pipe is inserted into the rectangular holes in the upper side wall and the lower side wall of the upper side pipe; the upper side wall of the lower side pipe is uniformly provided with a plurality of through rectangular holes, the rectangular holes are used for inserting the screen locking pipe into the pipe cavity of the lower side pipe, and the lower end of the screen locking pipe is finally contacted with the inner wall of the lower side pipe and is used for positioning in the vertical direction when the screen locking pipe is assembled; the tenon connecting piece is a flat head tenon which is in a rectangular groove shape, one end of the rectangular groove is provided with a flat head tenon plate, the left and right groove walls, the groove bottom and the flat head tenon plate of the flat head tenon are provided with a plurality of connecting holes A, and the groove bottom is also provided with a screen locking pipe through hole A; when the flat tenon is connected with the left and right side pipes, the outer side surfaces of the flat tenon plates are attached to the inner side surfaces of the upper and lower ends of the left and right side pipes and are fixedly connected with the left and right side pipes through self-tapping screws.

Preferably, the two ends of the upper pipe, the lower pipe, the left pipe and the right pipe are planes with included angles in the pipe length direction, the side walls of the two pipes are provided with a plurality of through holes connected with tenon connectors, and the upper pipe, the lower pipe, the left pipe and the right pipe are fixedly connected through the tenon connectors and self-tapping screws; the tenon connecting piece is a right-angle tenon which is in a rectangular tube shape connected at a right angle, the tube wall of the tenon connecting piece is provided with a plurality of connecting holes B, and the perpendicular tube wall is also provided with screen locking tube through holes B; when the right-angle tenon is connected with the left and right side pipes, one section of the rectangular pipe of the right-angle tenon is inserted into the rectangular pipe cavities at the upper and lower ends of the left and right side pipes, and the right-angle tenon and the left and right side pipes are fixedly connected through self-tapping screws.

Further, the upper side pipe, the lower side pipe, the left side pipe and the right side pipe are fixedly provided with an upper edge covering, a lower edge covering, a left edge covering and a right edge covering through strong magnets; the upper and lower wrapping edges and the left and right wrapping edges are used for covering exposed self-tapping screw heads on the upper edge pipe, the lower edge pipe and the left and right edge pipes, so that the assembled LED display screen is neat and attractive in appearance.

Furthermore, a transverse reinforcing pipe and an inclined reinforcing pipe connecting hole are fixedly arranged on the screen locking pipe; the screen locking tube is fixedly provided with a transverse reinforcing tube and an inclined reinforcing tube through self-tapping screws; the transverse reinforcing pipes are used for fixedly connecting all the screen locking pipes into a whole, so that the rigidity of the screen locking pipes is improved, and the flatness of the screen locking pipes is ensured; the oblique reinforcement pipe is used for reinforcing the rigidity of the outer frame structure of the display screen steel structure support, and the outer frame structure is prevented from being deformed in the diagonal direction and becoming a rhombus.

Due to the adoption of the technical scheme, the utility model discloses a steel structure bracket of a spliced LED display screen; comprises an upper edge pipe, a lower edge pipe, a left edge pipe, a right edge pipe and a screen locking pipe; the upper edge pipe, the lower edge pipe, the left edge pipe and the right edge pipe are fixedly connected through tenon connectors and self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; the screen locking tubes are fixedly arranged between the upper edge tube and the lower edge tube at equal intervals through self-tapping screws and are used for fixedly connecting the LED display module; the screen locking pipe is fixedly provided with a transverse reinforcing pipe and an inclined reinforcing pipe through self-tapping screws, so that the requirements of the display screen steel structure support on dimensional accuracy, connection rigidity and flatness are met; the utility model discloses a splicing type LED display screen steel structure support connection structure is through special design, and its subassembly structure accomplishes production in professional mill, and size precision and connecting hole position precision can all fully be guaranteed; the display screen steel structure bracket is transported to a construction site or a terminal factory in a component mode, so that the transportation cost is reduced due to small size, and meanwhile, the welding processing cost is saved; the display screen steel structure bracket can be assembled on a construction site or a terminal manufacturer through self-tapping screws, so that the assembly and production cost of the display screen steel structure bracket is reduced, and the requirements of the current LED display screen market development are met; especially, the transportation cost is reduced, so that the market coverage of display screen steel structure bracket enterprises is greatly expanded, and huge market space is brought to the enterprise development.

Drawings

FIG. 1 is a first schematic view of assembling a steel structure bracket of a spliced LED display screen;

FIG. 2 is an enlarged view of part A;

FIG. 3 is a schematic view of the appearance of a tenon;

FIG. 4 is a schematic view of assembling a steel structure bracket of the spliced LED display screen;

FIG. 5 is an enlarged view of a portion B;

FIG. 6 is a schematic view of the appearance of the right-angled tenon;

FIG. 7 is an assembly view of upper and lower wrapping edges and left and right wrapping edges;

FIG. 8 is an appearance schematic diagram of a steel structure bracket of the spliced LED display screen;

FIG. 9 is a schematic view of the exterior of the upper header;

FIG. 10 is a schematic view of the appearance of the lower duct;

FIG. 11 is a schematic view of the left and right side pipes;

fig. 12 is an appearance schematic diagram of the upper and lower wrapping edges.

In the figure: 1. an upper edge tube; 2. a lower edge tube; 3. a left and a right side pipe; 4. a flat tenon; 4.1, a flat tenon plate; 4.2, connecting hole A; 4.3, screen locking pipe perforation A; 5. a screen locking pipe; 6. A right-angle tenon; 6.1, connecting hole B; 6.2, screen locking pipe perforation B; 9.1, connecting hole B; 9.2, screen locking pipe perforation B; 10. upper and lower edge covers; 11. left and right wrapping edges; 12. a strong magnet; 13. a transverse reinforcing pipe; 14. and (4) an oblique reinforcing pipe.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

A spliced LED display screen steel structure bracket comprises an upper edge tube 1, a lower edge tube 2, a left edge tube 3, a right edge tube 3 and a screen locking tube 5; the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are fixedly connected through the flat tenon 4 and the self-tapping screw to form an outer frame structure of the steel structure bracket of the spliced LED display screen; nine screen locking tubes 5 with the spacing of 320 mm are fixedly arranged between the upper edge tube 1 and the lower edge tube 2 through self-tapping screws;

the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are all rectangular pipes, two ends of each pipe are planes vertical to the length direction of the pipe, and the side walls of the pipes at the two ends are provided with six through holes connected with the flat tenons 4; nine penetrating rectangular holes are uniformly distributed on the upper side wall and the lower side wall of the upper side pipe 1; nine penetrating rectangular holes are uniformly distributed in the upper side wall of the lower side pipe 2; the flat tenon 4 is in a rectangular groove shape, a flat tenon plate 4.1 is arranged at one end of the rectangular groove, two connecting holes A4.2 are respectively arranged on the left and right groove walls of the flat tenon 4, the groove bottom and the flat tenon plate 4.1, and a screen locking pipe through hole A4.3 is also arranged at the groove bottom; the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are fixedly provided with an upper binding edge 10, a lower binding edge 10 and a left binding edge 11 through fifty strong magnets 12; the screen locking pipe 5 is provided with connecting holes for a transverse reinforcing pipe 13 and an oblique reinforcing pipe 14, and the screen locking pipe 5 is fixedly provided with the transverse reinforcing pipe 13 and the oblique reinforcing pipe 14 through self-tapping screws.

A spliced LED display screen steel structure bracket comprises an upper edge tube 1, a lower edge tube 2, a left edge tube 3, a right edge tube 3 and a screen locking tube 5; the upper edge pipe 1, the lower edge pipe 2, the left edge pipe and the right edge pipe 3 are fixedly connected through the right-angle tenon 6 and the self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; nine screen locking tubes 5 with the spacing of 320 mm are fixedly arranged between the upper edge tube 1 and the lower edge tube 2 through self-tapping screws; the two ends of the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are planes with included angles in the pipe length direction, and the side walls of the two end pipes are provided with two through holes connected with the right-angle tenon 6; the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are fixedly connected through a right-angle tenon 6 and a self-tapping screw; the right-angle tenon 6 is in a rectangular tube shape connected at a right angle, three connecting holes B6.1 are formed in the parallel tube walls of the right-angle tenon, and screen locking tube through holes B6.2 are formed in the perpendicular tube walls of the right-angle tenon; the upper side pipe 1, the lower side pipe 2, the left side pipe 3 and the right side pipe 3 are fixedly provided with an upper binding edge 10, a lower binding edge 10 and a left binding edge 11 through fifty strong magnets 12; the screen locking pipe 5 is provided with connecting holes of a transverse reinforcing pipe 13 and an inclined reinforcing pipe 14; the screen locking pipe 5 is fixedly provided with a horizontal reinforcing pipe 13 and an inclined reinforcing pipe 14 through self-tapping screws.

The space between the screen locking pipes 5 of the steel structure support of the spliced LED display screen is different according to the specifications of LED display modules, and the specifications comprise 320 mm, 256 mm, 240 mm, 192 mm, 160 mm, 128 mm, 120 mm and the like.

The part of the utility model not detailed is prior art.

Claims (5)

1. The utility model provides a concatenation formula LED display screen steel structure support, characterized by: comprises an upper side pipe (1), a lower side pipe (2), a left side pipe, a right side pipe (3) and a screen locking pipe (5); the upper side pipe (1), the lower side pipe (2), the left side pipe and the right side pipe (3) are fixedly connected through tenon connectors and self-tapping screws to form an outer frame structure of the steel structure bracket of the spliced LED display screen; the screen locking pipes (5) are fixedly arranged between the upper side pipe (1) and the lower side pipe (2) at equal intervals through self-tapping screws.

2. The spliced LED display screen steel structure bracket as claimed in claim 1, wherein: the upper side pipe (1), the lower side pipe (2), the left side pipe and the right side pipe (3) are all in a rectangular pipe shape, two ends of the upper side pipe and the lower side pipe are planes vertical to the length direction of the pipes, and the side walls of the two end pipes are provided with a plurality of through holes connected with tenon connecting pieces; the upper side wall and the lower side wall of the upper side pipe (1) are uniformly provided with through rectangular holes; a plurality of through rectangular holes are uniformly distributed on the upper side wall of the lower side pipe (2); the tenon connecting piece is a flat head tenon (4) which is in a rectangular groove shape, a flat head tenon plate (4.1) is arranged at one end of the rectangular groove, a plurality of connecting holes A (4.2) are formed in the left and right groove walls of the flat head tenon (4), the groove bottom and the flat head tenon plate (4.1), and a screen locking pipe through hole A (4.3) is further formed in the groove bottom.

3. The spliced LED display screen steel structure bracket as claimed in claim 1, wherein: the two ends of the upper side pipe (1), the lower side pipe (2), the left side pipe and the right side pipe (3) are planes with included angles in the pipe length direction, the side walls of the two side pipes are provided with a plurality of through holes connected with tenon connecting pieces, and the upper side pipe (1), the lower side pipe (2), the left side pipe and the right side pipe (3) are fixedly connected through the tenon connecting pieces and self-tapping screws; the tenon connecting piece is a right-angle tenon (6) which is in a rectangular tube shape connected at a right angle, the tube wall of the tenon connecting piece is provided with a plurality of connecting holes B (6.1), and the tube wall which is vertical to the tenon connecting piece is also provided with screen locking tube through holes B (6.2).

4. The spliced LED display screen steel structure bracket as claimed in claim 3, wherein: the upper edge pipe (1), the lower edge pipe (2), the left edge pipe and the right edge pipe (3) are fixedly provided with an upper edge covering (10), a lower edge covering (10) and a left edge covering (11) through strong magnets (12).

5. The spliced LED display screen steel structure bracket as claimed in claim 4, wherein: the screen locking pipe (5) is provided with a transverse reinforcing pipe (13) and an inclined reinforcing pipe (14) connecting hole; the screen locking pipe (5) is fixedly provided with a transverse reinforcing pipe (13) and an inclined reinforcing pipe (14) through self-tapping screws.

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