First, I have to express that I'm not an engineer and I struggled to find an appropriate place to ask questions like these. I hope this is the place.
Right now I simply have an idea to address a problem with a product I own. I know it frustrates other owners, so ultimately I'd like to market a solution. I'm at a VERY early stage of just seeing if this is possible and what might be the way to tackle it.
In summary, there's a heavy lid which is supported by gas struts and when closed there is a latching mechanism holding the lid shut tight. This latching mechanism is very stiff and requires a lot (some would say too much) force to fully close. I envision installing a motor that will somehow "grab" the lid and pull it the final 20mm to its fully latched position. It takes very little force (thanks to gravity vs. the gas struts) to lift and lower the lid, but that final 20mm requires about 450N (measured by adding weights to the lid until it latched and summing those weights).
At this point I'm not overly concerned with how the "grab" will take place. I'm initially concerned with if there's going to be a suitable motor for the task, which will fit in the very limited space. But I can't even begin to search for such a motor until I understand the spec requirements of said motor. My limited knowledge is the problem here and I'm hoping for some help.
I carefully measured the latch mechanism and put it into a 3D model, which is below. Not shown are the strong spring (between points A and B) and the coil spring which bias both of the rotating armatures in the clockwise direction. The right armature is the latch - and what we're primarily concerned with - and the left one is the catch/release mechanism.
I'm envisioning a motor along the same axis of rotation as the right armature, which engages the edge near point C and forces it counterclockwise into the locked position (~47 degrees).
Like I said, it takes 450N of downward force to overcome the friction of that armature, the strong spring, and all other applicable forces. I have no idea how to translate that into torque required for a motor doing what I describe. I'm sure it is pretty basic, but I get lost simply at the units (Newtons vs. Newton-Meters).
Can someone provide some help? Is there more information needed? I am most interested in solving my problem as stated rather than looking for clever "have you considered doing this?", as at this point this is more a learning exercise than a practical application. But I thank all input
Right now I simply have an idea to address a problem with a product I own. I know it frustrates other owners, so ultimately I'd like to market a solution. I'm at a VERY early stage of just seeing if this is possible and what might be the way to tackle it.
In summary, there's a heavy lid which is supported by gas struts and when closed there is a latching mechanism holding the lid shut tight. This latching mechanism is very stiff and requires a lot (some would say too much) force to fully close. I envision installing a motor that will somehow "grab" the lid and pull it the final 20mm to its fully latched position. It takes very little force (thanks to gravity vs. the gas struts) to lift and lower the lid, but that final 20mm requires about 450N (measured by adding weights to the lid until it latched and summing those weights).
At this point I'm not overly concerned with how the "grab" will take place. I'm initially concerned with if there's going to be a suitable motor for the task, which will fit in the very limited space. But I can't even begin to search for such a motor until I understand the spec requirements of said motor. My limited knowledge is the problem here and I'm hoping for some help.
I carefully measured the latch mechanism and put it into a 3D model, which is below. Not shown are the strong spring (between points A and B) and the coil spring which bias both of the rotating armatures in the clockwise direction. The right armature is the latch - and what we're primarily concerned with - and the left one is the catch/release mechanism.
I'm envisioning a motor along the same axis of rotation as the right armature, which engages the edge near point C and forces it counterclockwise into the locked position (~47 degrees).
Like I said, it takes 450N of downward force to overcome the friction of that armature, the strong spring, and all other applicable forces. I have no idea how to translate that into torque required for a motor doing what I describe. I'm sure it is pretty basic, but I get lost simply at the units (Newtons vs. Newton-Meters).
Can someone provide some help? Is there more information needed? I am most interested in solving my problem as stated rather than looking for clever "have you considered doing this?", as at this point this is more a learning exercise than a practical application. But I thank all input