YK: Created page with "=Calculations: Dimensions of the Mounting Rectangle between the Base Plate and the Base Flat Bar= We want the dimensions to enable the Cold Saw to swivel at least 90 degrees. A..."

2012-06-19T18:11:07Z

Created page with "=Calculations: Dimensions of the Mounting Rectangle between the Base Plate and the Base Flat Bar= We want the dimensions to enable the Cold Saw to swivel at least 90 degrees. A..."

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=Calculations: Dimensions of the Mounting Rectangle between the Base Plate and the Base Flat Bar=

We want the dimensions to enable the Cold Saw to swivel at least 90 degrees.

Assume that what rotates on the swivel hole will be a swivel plate, and that the swivel plate will be long towards the back of the Cold Saw.

Assume that the swivel plate's hole is centered along its width.

We are concerned about the width of that swivel plate because it is the swivel plate's width that determines the angle at which the swivel plate contacts the spacers (the ones that isolate the base plate from the base flat bar).

Assume that the spacer is round.

Let the length and width from the swivel hole to the spacer hole of the mounting rectangle be '''X''' and '''Y''', respectively.

Let the width of the swivel plate be '''W'''.

Let the radius of the spacer be '''R'''.

Let the swivel angle be '''A'''.

Let '''Angle B''', '''Length C''', '''Length D''', '''Angle E''' be placeholder variables that we use only for the calculation but do not include in the final equation.

[[Image: ColdSawSwivelAngle.png]]

We are solving for '''A'''.

From trigonometry, we know that '''cosine of an angle in a right triangle''' equals '''horizontal length''' divided by '''hypotenuse length.'''

*'''1''' So we know that the '''cos(A/2) = (W/2) / (X - Length C)'''

But we don't want '''Length C''' in our solution so let's put it in terms of the desired variables.

From trigonometry, we know that '''the length divided by the sine of its associated angle''' equals '''another length divided by the sine of its associated angle'''.

*'''2''' So we know that '''(Length C/sine[Angle B]) = ([Y + Length D]/sine[Angle E])'''.

We see that in the process of solving for '''Length C''', we've introduced 3 more placeholder variables, '''Length D''', '''Angle B''' and '''Angle E'''.

Let's quickly solve for these new variables in terms of what we want.

From trigonometry, we know that '''the sum of a triangle's inner angles''' is '''180 degrees''', equivalent to about '''3.14 radians'''.

So we know after a bit of angle calculations that '''Angle B = (A/2)''' and '''Angle E = 90deg - (A/2)'''.

From trigonometry, we know that '''the hypotenuse length of a right triangle''' is equal to '''the vertical length divided by the sine of its associated angle'''.

So we know that '''Length D = R / sine[Angle B]'''.

Filling in 3 placeholder values in '''2''', we get '''(Length C/sine[A/2]) = ([Y + [R/sine[A/2]] / sine[90deg - A/2])'''

*'''3''' Simplifying, we get '''Length C = (Y(sin[A/2]) + R) / (cos[A/2])'''.

Replacing '''Length C''' in '''1''' with '''3''', we get '''cos[A/2] = (W/2) / ( X - (Y(sin[A/2]) + R) / (cos[A/2]) )'''

Simplifying, we get '''Xcos(A/2) - Ysin(A/2) - R - W/2 = 0'''

Cold Saw/V1 Design Rationale/Hold System/Base/Elevated Mounting Calculation - Revision history

YK: Created page with "=Calculations: Dimensions of the Mounting Rectangle between the Base Plate and the Base Flat Bar= We want the dimensions to enable the Cold Saw to swivel at least 90 degrees. A..."