Shenzhen DS TECH, as a company engaged in the splicing display industry for more than ten years, often encounters questions from customers: Customers say I have a wall that needs to be installed with a set of LCD splicing screens, how should it be designed? We have provided many different solutions for similar needs to meet the needs of different customers and different scenarios.
Today we will simply analyze how we should design a wall with a length of 10 meters and a height of 4 meters?
When encountering this kind of problem, we must first understand the specific environment of the site with the customer: 1. Where is it used, such as a school classroom, a conference room, a company exhibition hall, etc. 2. The use area of the site, the overall structural diagram of the installation environment, or the size of the area. 3. The wall environment of the installation location, is it a brick wall or a wooden wall. Therefore, in this case, it is best to provide us with a video or photo of the site.
For example:
This is a conference hall with a stage.
From the picture we can see that
1.This is a conference hall with a stage. The area of the conference hall is relatively large, so the area of the screen can be made larger.
2.The wall is a brick wall, which can bear the weight of the screen, so a wall-mounted installation method is adopted.
The customer proposed a display area of 10 meters long and 4 meters high, which is close to this size.
Using a 55-inch 3.5mm seam screen, we can calculate: 10m/(screen length) 1.212 = 8.25, so 8 screens are needed for columns, 4/0.685 (screen height) = 5.8, so the number of screen rows is 5. We need to use a 5*8 splicing solution to complete the design of this screen.
Now, we have already selected the screen splicing arrangement according to the 5*8 combination, so the next step is to choose the appropriate installation bracket method.
Just choose the corresponding mounting bracket according to our on-site environment and customer preferences.If it is a wall-mounted method, most of our customers choose the POP-OUT Bracket, which is conducive to later maintenance and is also easy to install.
After selecting the installation method, we need to design our signal transmission method.
When designing signal transmission equipment, we must first determine the type and quantity of input and output signals. Based on this data, we can further match the relevant signal processing and transmission equipment.
Common signal processing and distribution equipment include: signal Splitter, matrix, multi-screen image processor, decoder.