It might work, but it seems like the main difficulty would be the laptop hinge.
The hinge would be taking way more force than it is intended to take. And from my experience, it is somewhere around 3kg for macbook air 13 (your model is likely different) - so a M156 mounted 35cm above the hinge might produce quite a bit of stress.
Indeed! But these are side loads instead of directly above the hinges.
Imagine this… you are a hinge. You are designed to take loads that roughly matches the motion of opening and closing of the lid + a bit of additional tolerance. But when someone mounts something heavy on the side of the laptop, you are mostly annoyed but OK with it because the side load will try to rip out the hinges out of their respective housing in different directions—the housing is usually plastic on cheaper computers, but perhaps aluminum on macs?
The problem with have that much weight on the top of your laptop would be… that your hinges would want to close when you don’t want them to—they not designed to be stable while holding onto that much weight + the leverage given to the new screen from being far away from the hinge assembly.
I’m imagining positioning this so that it’s vertical and balanced, and isn’t loading the hinge very much towards either opening further or closing?
Consider that it’s designed to hold the normal-weight screen in whatever position you leave it, including the maximum-leverage nearly-closed position, and it seems like it should be able to handle a somewhat heavier weight when close to the ideal angle?
It is very possible that it works—though I am somewhat doubtful and I don’t have a unit to test it.
A quick way for us to learn more would be to I guess duct tape the screen to the laptop at the angle/height your want—and work with it for a bit. Might be able to get more experimental data than our theory crafting.
It might work, but it seems like the main difficulty would be the laptop hinge.
The hinge would be taking way more force than it is intended to take. And from my experience, it is somewhere around 3kg for macbook air 13 (your model is likely different) - so a M156 mounted 35cm above the hinge might produce quite a bit of stress.
I see people doing this with side monitors (ex) but possibly these all have kickstands?
Indeed! But these are side loads instead of directly above the hinges.
Imagine this… you are a hinge. You are designed to take loads that roughly matches the motion of opening and closing of the lid + a bit of additional tolerance. But when someone mounts something heavy on the side of the laptop, you are mostly annoyed but OK with it because the side load will try to rip out the hinges out of their respective housing in different directions—the housing is usually plastic on cheaper computers, but perhaps aluminum on macs?
The problem with have that much weight on the top of your laptop would be… that your hinges would want to close when you don’t want them to—they not designed to be stable while holding onto that much weight + the leverage given to the new screen from being far away from the hinge assembly.
I’m imagining positioning this so that it’s vertical and balanced, and isn’t loading the hinge very much towards either opening further or closing?
Consider that it’s designed to hold the normal-weight screen in whatever position you leave it, including the maximum-leverage nearly-closed position, and it seems like it should be able to handle a somewhat heavier weight when close to the ideal angle?
It is very possible that it works—though I am somewhat doubtful and I don’t have a unit to test it.
A quick way for us to learn more would be to I guess duct tape the screen to the laptop at the angle/height your want—and work with it for a bit. Might be able to get more experimental data than our theory crafting.
I don’t think duct tape would work: I’d need something rigid. But duct tape and something strong and light would work.
(I probably also would want a tape that doesn’t leave a residue.)