阅读说明：本技术 一种led显示屏结构的快速安装工艺 (Rapid installation process of LED display screen structure ) 是由 杨继超 杨继朋 于 2021-08-02 设计创作，主要内容包括：本发明涉及显示屏工程安装技术领域,其公开了一种LED显示屏结构的快速安装工艺,包括以下步骤：S1、在LED模块面板背部安装能够被磁铁吸附的金属片；S2、在现场搭建金属桁架,且金属桁架上开设有滑移槽；S3、安装最顶部第一层的所述LED模块面板；S4、安装顶部第二层的所述LED模块面板；S5、安装顶部第N层的所述LED模块面板；S6、安装工作人员身高以下高度的所述LED模块面；S7、LED模块面板铺设完成。根据以上技术方案,本发明利用竖向滑动安装和电磁铁吸附固定的两种方式进行配合安装,无需工作人员现场搬动扶梯且利用扶梯提高安装高度进行安装,同时无需利用复杂的安装结构进行固定,以达到简化安装步骤复杂程度和高效作业的目的。(The invention relates to the technical field of display screen engineering installation, and discloses a rapid installation process of an LED display screen structure, which comprises the following steps: s1, mounting a metal sheet capable of being attracted by a magnet on the back of the LED module panel; s2, constructing a metal truss on site, wherein the metal truss is provided with a sliding groove; s3, installing the LED module panel of the topmost first layer; s4, mounting the LED module panel on the second layer at the top; s5, mounting the LED module panel of the top Nth layer; s6, installing the LED module surface with the height below the height of a worker; and S7, finishing the laying of the LED module panel. According to the technical scheme, the escalator is installed in a matching mode through the vertical sliding installation mode and the electromagnet adsorption fixing mode, workers do not need to move the escalator on site, installation is carried out through the escalator by improving the installation height, and meanwhile fixing is carried out through a complex installation structure, so that the purposes of simplifying the complexity degree of installation steps and efficiently operating are achieved.)

1. A quick installation process of an LED display screen structure is characterized by comprising the following steps:

s1, mounting a metal sheet capable of being attracted by a magnet on the back of the LED module panel;

s2, constructing a metal truss on site, wherein the metal truss is used for installing an LED module panel and serves as a support carrier of an integral structure, electromagnets are respectively arranged on the metal truss corresponding to the positions where the LED module panel is installed, a plurality of rows of electromagnets of the metal truss from top to bottom are respectively controlled by an independent electric switch, and a sliding groove is formed in the metal truss;

s3, installing the LED module panel of the topmost first layer;

during installation, the LED module panel is slidably installed in a sliding groove on the metal truss at the bottom, an electric switch of an electromagnet on the first layer at the top of the metal truss is turned on, the electromagnet on the first layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel is adsorbed on the installation position of the first layer at the top of the metal truss;

s4, mounting the LED module panel on the second layer at the top;

during installation, the LED module panel is slidably installed in a sliding groove on the metal truss at the bottom, and then an electric switch of an electromagnet on the second layer at the top of the metal truss is opened, so that the electromagnet on the second layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel is adsorbed on the installation position of the second layer at the top of the metal truss;

S5、...；

s6, installing the LED module panel on the top Nth layer according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the height which can be contacted by the height of a worker, and the sliding installation mode is not needed;

s7, installing the LED module panel with the height below the height of a worker according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the bottommost part of the metal truss, and paving the whole metal truss;

and S8, finishing the laying of the LED module panel.

2. The rapid mounting process of an LED display screen structure according to claim 1, characterized in that: when the LED module panel on the first layer at the top is mounted in step S3, a boosting rod may be used to push the LED module panel to slide upward along the sliding groove.

3. The rapid mounting process of an LED display screen structure according to claim 2, characterized in that: when the power-assisted rod is used for pushing the LED module panels to slide upwards along the sliding grooves, a plurality of groups of LED module panels can be pushed by the power-assisted rod to slide and install simultaneously.

4. The rapid mounting process of an LED display screen structure according to claim 1, characterized in that: and step S6, the LED module panel with the height below the height of the worker is directly installed manually without the aid of a power-assisted rod.

5. The rapid mounting process of an LED display screen structure according to claim 1, characterized in that: the electromagnet and the metal sheet are directly provided with an anti-drop safety structure.

6. The rapid installation process of an LED display screen structure according to claim 5, characterized in that: the anti-falling safety structure is arranged to be installed in a bayonet structure inside the sliding groove.

7. The rapid mounting process of an LED display screen structure according to claim 1, characterized in that: the LED module panel is a unit module.

8. The rapid mounting process of an LED display screen structure according to claim 1, characterized in that: the boosting rod is a metal rod.

Technical Field

The invention relates to the technical field of display screen engineering installation, in particular to a rapid installation process of an LED display screen structure.

Background

The LED display screen is a flat panel display, is composed of small LED module panels, and is used for displaying various information such as characters, images, videos, video signals and the like. LEDs are english acronyms for light emitting diodes. It is a diode made of gallium, arsenic, phosphorus, nitrogen, indium compounds, which can radiate visible light when electrons and holes are recombined, by controlling the display mode of a semiconductor light emitting diode, and thus can be used to make a light emitting diode. In circuits and instruments as indicator lights or to form text or numerical displays. The gaas diode emits red light, the gan diode emits green light, the sic diode emits yellow light, and the ingan diode emits blue light.

Because the LED display screen is composed of small LED module panels, the LED module panels are installed on a metal truss on site in the existing installation process, the metal truss serves as a back supporting structure, and the LED module panels are required to be vertically arranged on the metal truss, so that firm matching structures are required to be used for connecting the adjacent LED module panels, the LED display screen is not easy to fall off after being used for a long time, the installation process is complicated when the LED module panels are installed, and improvement is achieved.

Disclosure of Invention

Aiming at the technical problem that the installation process of the LED module panel is complicated in the background technology, the LED module panel is installed in a matching mode through vertical sliding installation and electromagnet adsorption and fixation, workers do not need to move the escalator on site, the installation height of the escalator is improved, and meanwhile, the installation is carried out without complex installation structures, so that the purposes of simplifying the complexity of installation steps and efficiently operating are achieved.

In order to achieve the purpose, the invention provides the following technical scheme:

a quick installation process of an LED display screen structure comprises the following steps:

s1, mounting a metal sheet capable of being attracted by a magnet on the back of the LED module panel;

s2, constructing a metal truss on site, wherein the metal truss is used for installing an LED module panel and serves as a support carrier of an integral structure, electromagnets are respectively arranged on the metal truss corresponding to the positions where the LED module panel is installed, a plurality of rows of electromagnets of the metal truss from top to bottom are respectively controlled by an independent electric switch, and a sliding groove is formed in the metal truss;

s3, installing the LED module panel of the topmost first layer;

during installation, the LED module panel is slidably installed in a sliding groove on the metal truss at the bottom, an electric switch of an electromagnet on the first layer at the top of the metal truss is turned on, the electromagnet on the first layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel is adsorbed on the installation position of the first layer at the top of the metal truss;

s4, mounting the LED module panel on the second layer at the top;

during installation, the LED module panel is slidably installed in a sliding groove on the metal truss at the bottom, and then an electric switch of an electromagnet on the second layer at the top of the metal truss is opened, so that the electromagnet on the second layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel is adsorbed on the installation position of the second layer at the top of the metal truss;

S5、...；

s6, installing the LED module panel on the top Nth layer according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the height which can be contacted by the height of a worker, and the sliding installation mode is not needed;

s7, installing the LED module panel with the height below the height of a worker according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the bottommost part of the metal truss, and paving the whole metal truss;

and S8, finishing the laying of the LED module panel.

Through the technical scheme, the escalator is adopted as a tool in the traditional construction scheme, an operator stands on the escalator to construct the LED module panel at a higher height position, the whole metal truss is fully paved with the LED module panel, and the paving mode has certain danger and low working efficiency. When the LED module panel is disassembled, the same technical problem exists as that of installation, and the working efficiency is low. Therefore, the invention aims to provide a process capable of conveniently realizing display screen installation, providing actual working efficiency and having good effect

The invention is further configured to: when the LED module panel on the first layer at the top is mounted in step S3, a boosting rod may be used to push the LED module panel to slide upward along the sliding groove.

Through the technical scheme, the power-assisted rod refers to the fact that a worker can hold a rod-shaped object to push and install the LED module panel.

The invention is further configured to: when the power-assisted rod is used for pushing the LED module panels to slide upwards along the sliding grooves, a plurality of groups of LED module panels can be pushed by the power-assisted rod to slide and install simultaneously.

Through the technical scheme, the head of the power-assisted rod can be single or a combined multi-head structure, and the multi-head structure can simultaneously push a plurality of LED module panels to be installed, so that the installation efficiency is further improved.

The invention is further configured to: and step S6, the LED module panel with the height below the height of the worker is directly installed manually without the aid of a power-assisted rod.

Through above-mentioned technical scheme, because the mounting height is not high, the staff can directly touch the mounted position, therefore can the direct mount, and need not to install with the help of the helping hand pole.

The invention is further configured to: the electromagnet and the metal sheet are directly provided with an anti-drop safety structure.

The invention is further configured to: the anti-falling safety structure is arranged to be installed in a bayonet structure inside the sliding groove.

The invention is further configured to: the LED module panel is a unit module.

The invention is further configured to: the boosting rod is a metal rod.

In conclusion, the invention has the following beneficial effects:

(1) the installation is simple;

(2) the installation efficiency is high;

(3) the danger coefficient in the installation process is low.

Drawings

FIG. 1 is a block diagram of a process flow.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

A rapid installation process of an LED display screen structure is shown in figure 1 and comprises the following steps:

s1, mounting a metal sheet capable of being attracted by a magnet on the back of the LED module panel;

s2, constructing a metal truss on site, wherein the metal truss is used for installing an LED module panel and serves as a support carrier of an integral structure, electromagnets are respectively arranged on the metal truss corresponding to the positions where the LED module panel is installed, a plurality of rows of electromagnets of the metal truss from top to bottom are respectively controlled by an independent electric switch, and a sliding groove is formed in the metal truss;

s3, installing the LED module panel of the first layer at the top;

during installation, the LED module panel is slidably installed in the sliding groove on the metal truss at the bottom, the electric switch of the electromagnet on the first layer at the top of the metal truss is turned on, the electromagnet on the first layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel can be adsorbed on the installation position of the first layer at the top of the metal truss;

s4, mounting the LED module panel on the second layer on the top;

during installation, the LED module panel is slidably installed in the sliding groove on the metal truss at the bottom, and then the electric switch of the electromagnet on the second layer at the top of the metal truss is opened, so that the electromagnet on the second layer at the top of the metal truss has magnetic force, and the LED module panel is pushed upwards with force, so that the LED module panel can be adsorbed on the installation position of the second layer at the top of the metal truss;

...

s5, installing the LED module panel on the top Nth layer according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the height which can be contacted by the height of a worker, and the sliding installation mode is not needed;

s6, installing the LED module panel with the height below the height of the staff according to the installation mode in the steps S3 and S4 until the LED module panel is installed to the bottommost part of the metal truss, and paving the whole metal truss;

and S7, finishing the laying of the LED module panel.

When the LED module panel on the first layer at the top is mounted in step S3, a boosting rod may be used to push the LED module panel to slide upward along the sliding groove.

When the assistance rod is used for pushing the LED module panels to slide upwards along the sliding grooves, the assistance rod can be used for pushing the LED module panels of multiple groups to slide and install simultaneously.

In the step S6, the LED module panel with the height below the height of the worker is directly installed manually without the help of a power-assisted rod.

The electromagnet and the metal sheet are directly provided with an anti-drop safety structure.

The anti-falling safety structure is arranged as a bayonet structure arranged in the sliding groove.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.