Don't wanna be here? Send us removal request.
Text
First of all, I plan to make a cooler that is needed when the laptop runs efficiently - LAPTOP COOLER.
Laptop/laptop coolers, cooling pads, cooling pads or cooling pads are accessories for laptops designed to reduce the operating temperature of the laptop when it cannot cool sufficiently on its own. Laptop coolers are designed to protect laptops from overheating and users suffering from heat-related discomfort. Cooling pads can be active or passive cooling methods and are located under the laptop. Active coolers move air or liquid to quickly remove heat from the laptop, while passive coolers may rely on thermally conductive materials or increase passive airflow. -by Wikipedia
This is my blueprint. It can monitor the temperature of the notebook to adjust the wind power of the fans.
My material list is: fan Scissors adhesive tape cardboard thermometer and some additional non-primary materials
First, merge the two cardboards together to make its bottom bracket.
Cut out their center sections to place the fans, this step requires a pencil to trace the edges of the fans. Then use scissors to cut out the outline.
But there was a problem in this way, the weight of the fan could not be supported by the cardboard, and the whole model could easily collapse.
So I used a new piece of cardboard, made a flat outline and fastened to the bottom of the stand surface.
In this way I made the initial structure of a radiator and fixed it.
At this point I need to make it more "high-tech", I need a thermometer to monitor the cooling temperature of the notebook, so I dug a groove on the right side of the surface.
But I found an additional problem, because the length of both ends of the bracket is too long, the center of the plane is unstable, and it is still forced to deform when it is pressed by gravity. I tried a lot of things, such as adding an extra cardboard, changing the flat material, etc. I even wanted to add pressure on both sides of the cardboard to fix the center of the cardboard.
When I found that I fell into a misunderstanding of cardboard, I found another angle - adding a force point.
The stability of the triangle! An inverted triangle can support the extra pressure from the cardboard surface and also stabilize the entire structure.
I finally managed to solve the problem about its compression resistance and stability, which is the core problem of a fragile and cheap cardboard material.
Finally, the heat generated when the notebook is working and rendering is carried away by the fan. And we can observe its temperature from the right side (for special reasons, a thermometer at this price will have some errors)
I can only post one video due to site restrictions, but it turns out this laptop cooler can do a very good job. In the end I guess if I change to better plastic material, then it can carry more weight and dissipate heat more stably, and even carry water in the cooler for more efficient heat dissipation.
Finally, thank you very much for browsing.
2 notes
·
View notes