You will place the float with these slots facing into your frame. These are like slots on the top of the float. To attach the floats, you’ll need some bolts and a large drill bit. There will be about a one-foot space between them. If you follow the link for floats in the equipment list, you’ll see that our floats are 2 feet wide and four feet long.Īfter we are finished installing, there will be two on each end with one in the middle. For our purposes, we are going to use three floats that run perpendicular to the dock. Now it’s time to connect the floats to your dock. Also, remember that you want to two by fours to be flush with the 2 by 8s. You want to ensure that everything is good and snug. Take the hanger brackets for your two by fours and begin installing the joists. This will give you five total parallel supports with 12-inch gaps.Īt this point, remember that you are constructing your dock upside down, and you will be flipping it over after you’ve placed the floats. So, you’re going to need three interior beams. For these, you’ll want to go parallel with the 8-foot sides. Now it’s time to attach the interior cross beams. After you’ve joined the corners, we recommend adding additional stability with metal corner braces. After making the cuts, take your four boards and form a perfect rectangle. If you’d rather no use pressure treated, you can look into aluminum or artificial board options. If you purchase untreated wood, your deck will begin to rot before you know it. Of course, you can modify these dimensions for your deck’s needs.Īlso, remember to use pressure-treated wood. Be sure to measure and cut them to proper length if needed. Most 2x8s can be purchased at 8 feet in length already. Since our deck will be eight feet long and four feet wide, we will need to make sure we measure and cut our boards accordingly. The maximum stress is not more than yield point of material.Take your 2x8s and prepare them first. The maximum stress is 0.142 x 109 N/m2 and maximum deflection is 4.019 mm. The minimum stress is 1042.36 N/m2 and minimum deflection is 0.447 mm. Design calculations were done by finite element analysis (FEA). Mild steel material is used to construction of spud housing with yield point 235 x 106 N/m2. The spud housing is used to keep of floating dock in the safe condition. The purpose of the research study is to design and calculate of spud housing construction for floating dock. The Floating docks have more advantages than the other type of ship docking for maintenance. The maximum stress is not more than yield point of material.ĪB - A floating dock is a type of pontoon for dry docking ships, possessing floodable buoyancy chambers. N2 - A floating dock is a type of pontoon for dry docking ships, possessing floodable buoyancy chambers. © The Authors, published by EDP Sciences, 2018. T1 - Design and Construction of Spud Housing for Floating Dock
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |