I have decided that the Moonlite Telescopes truss connector system isn't going to work for my situation. This is not because there is anything wrong with it; it is well-designed and beautifully made. The problem is that it is really intended for telescopes with much stiffer lower cages than I have. (The truss is very strong and very stiff -- and thus exposed a flaw in using it on a .125" aluminum wall tube.) I could probably make it work, but at this point, it is simpler, cheaper, less frustrating, and to my surprise, less weight, to use a solid tube for the rebuild of Big Bertha, the ill-behaved 17.5" reflector. I'll probably be able to resell at least the truss blocks; I suspect that unless I find someone building a truss 13" or 15" f/4 reflector, the tubes now cut to 55" length will end up being recycled as scrap aluminum.
Along the way, however, I discovered a very useful trick for how to mount flat bases on round tubes.
In this case, I epoxied the rod in place to the round tube, creating a plane upon which the truss block can stably rest. (No matter how you do this: there is one point of contact between a plane and a cylinder.) The epoxy is just to hold the rods in place like enough to bolt the truss block in place; once the bolts are locked down, those rods are not going anywhere.
What diameter of rods do you need? Remember that the formula for calculating the equation of a circle is x2 + y2 = r2. In this case, the outer diameter of the round tube was 20.25"; if you want the supports 1" from the center contact point, solve for y to determine how much elevation (diameter of round rod) you need to clear the space between the tube and the plane (the y axis, assuming that you remember high school geometry).
y = square root of (r2 - x2)
For this example: y = 10.075"; subtract from the radius of the tube, meaning that you need a rod 0.0495" thick. Your local hardware store will have a variety of diameters of steel and aluminum rod available; by cutting it slightly shorter than the base it will be supporting, it will be invisible, and add effectively no weight to your telescope.
I still think a self-cast epoxy spacer is a very good solution, especially if you've got a bunch of resin (and filler) around from a boat project anyway. :-)
ReplyDeleteAnd about this: "...the tubes ... will end up being recycled as scrap aluminum."
Don't you have a garage??? Stick them away, you never know when you'll need some Al tubing!
Personally, I might have used a parting agent and epoxy with a good, solid filler (Epoxy and Microballoons, for example) to make a perfectly molded filler. The parting agent would prevent the epoxy from sticking to the tube in the meantime.
ReplyDeleteMicroballoons take up space nicely, but are not recommended for high-strength applications. How strong does the molded filler need to be, you ask? Well, how thin does it get out toward the edge? I reply.
ReplyDeleteColloidal silica would be a better choice for filler, probably.