Pete. Thanks for those. I'll store them away for another day should I need them again.
Thanks Sgian Dubh (What does the Gaelic mean?). You have it exactly right so that's just what I need.
As Adam said, a hopper type thing in a windmill I strongly suspect is more likely to be butted together at the corners than mitred. Given that, instead of dividing the dihedral angle by 2 to establish the bevel cut to form the mitre, you subtract 90º from the dihedral angle in order to set the bevel cuts required. In this case then, the sum is 114.4º - 90º = 24.4º. You then need to use this 24.4º as the basis for working out how to mark the joint and set any tilt on your saw. This might mean using the complementary angle to 24.4º which is 65.6º calculated 90º - 24.4º = 65.6º.You have it exactly right so that's just what I need.
"a finely wrought and delicate piece of furniture"! You've got to be joking. We're talking windmills. There's nothing that is finely wrought or delicate on a mill unless it's about to fall to pieces. So humour accepted
Hello can you help me out, I’m looking for a trig formula, it’s for a Compound angle with a butt joint, for a box with sides splaying out at 50 degrees, not the saw set angle, the angle for the edge bevel when marking out on sides with square edges.
| Use the formulae given to calculate tablesaw or compound mitre saw angle settings for any combination of corner and tilt angles. In the drawing below: A = Corner angle formed by the two workpieces. A = 90 for a square corner, 45 for an octagon, 60 for a hexagon and 0 for a straight line. B = Tilt angle of each workpiece away from the base plane. X = Crosscut angle setting. This is the setting for your table saw mitre gauge or SCMS turntable. X = 0 for a square cut. Use the complement of X (90-X) if your saw labels a square cut as 90°. Y = Bevel angle setting. This is the blade tilt setting for your saw. Y = 0 for a square cut. Use the complement of Y (90-Y) if your saw labels a perpendicular cut as 90°. Formulae X = arctan(cos(B) * tan(A/2)) Y = arcsin(sin(B) * sin(A/2)) |
Getting into Practical Stereotomy here! It's all about the angles...Thanks for your reply and I have a fair idea about this and other practical ways but I’m more interested in the trig formula.
This is an example of a box with the sides splayed out at 60 degrees, these sides have beveled edges top and bottom. I’m interested in the trig formula for the butt joint angle when marking out on square edge material. It’s all part of angle studies and the same formula would apply when marking out a roof Purlin combination joint on a Hip roof, let’s say in a case where the Purlin has combination Butt joint and not a mitered combination mitered joint.
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Thanks for your reply and I have a fair idea about this and other practical ways but I’m more interested in the trig formula.
This is an example of a box with the sides splayed out at 60 degrees, these sides have beveled edges top and bottom. I’m interested in the trig formula for the butt joint angle when marking out on square edge material. It’s all part of angle studies and the same formula would apply when marking out a roof Purlin combination joint on a Hip roof, let’s say in a case where the Purlin has combination Butt joint and not a mitered combination mitered joint.
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At least we are on a similar wavelength, it’s not just a matter of subtracting from 90 because the square edge is also tilted and these angles will be marked out with a tee bevel. I’ve never used cad but of course it’s a very handy tool.
