Difference between revisions of "User:Vincecate/GeodesicVessel"
(New page: Idea is that both a hull and roof could be 1/8th sphere geodesic domes. This would sort of be a thick flying saucer shape (will try to generate an image). With a size of 80 foot diamet...) |
|||
Line 1: | Line 1: | ||
− | |||
Idea is that both a hull and roof could be 1/8th sphere geodesic domes. This would sort of be a thick flying saucer shape (will try to generate an image). With a size of 80 foot diameter we could have two levels inside the saucer and then a small building on top for when people wanted to enjoy the view. The living area might be 50 foot diameter with storage closets and emergency flotation foam in the thinner part around the living area. | Idea is that both a hull and roof could be 1/8th sphere geodesic domes. This would sort of be a thick flying saucer shape (will try to generate an image). With a size of 80 foot diameter we could have two levels inside the saucer and then a small building on top for when people wanted to enjoy the view. The living area might be 50 foot diameter with storage closets and emergency flotation foam in the thinner part around the living area. | ||
Line 8: | Line 7: | ||
Bolting together could be done near the launch site by a small group with a crane in a few days. This would not be very costly. Might even ship the parts to another country before assembling. Could make it where we put a rubber gasket around each triangle and then bolted them together. The bolts would be put through stiffeners at the edges and completely inside. As they tightened the rubber would make the joint water tight even if there were some slight imperfections in the sizes of the triangles. | Bolting together could be done near the launch site by a small group with a crane in a few days. This would not be very costly. Might even ship the parts to another country before assembling. Could make it where we put a rubber gasket around each triangle and then bolted them together. The bolts would be put through stiffeners at the edges and completely inside. As they tightened the rubber would make the joint water tight even if there were some slight imperfections in the sizes of the triangles. | ||
− | The triangles could be | + | The triangles could be steel or maybe aluminum. |
Should be very strong, very stable, very safe, and not very costly for the amount of living space. | Should be very strong, very stable, very safe, and not very costly for the amount of living space. |
Revision as of 03:14, 7 July 2008
Idea is that both a hull and roof could be 1/8th sphere geodesic domes. This would sort of be a thick flying saucer shape (will try to generate an image). With a size of 80 foot diameter we could have two levels inside the saucer and then a small building on top for when people wanted to enjoy the view. The living area might be 50 foot diameter with storage closets and emergency flotation foam in the thinner part around the living area.
The geodesic shape should mean you don't need as much, or maybe any, internal bracing. This can open up the inside space and make it cheaper to build.
The triangles and stiffeners would be easy things for regular shipyard robots to make. So this can be automated and done for a reasonable price.
Bolting together could be done near the launch site by a small group with a crane in a few days. This would not be very costly. Might even ship the parts to another country before assembling. Could make it where we put a rubber gasket around each triangle and then bolted them together. The bolts would be put through stiffeners at the edges and completely inside. As they tightened the rubber would make the joint water tight even if there were some slight imperfections in the sizes of the triangles.
The triangles could be steel or maybe aluminum.
Should be very strong, very stable, very safe, and not very costly for the amount of living space.