Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I don't need a physically accurate function, but something that hints at the involute curves, etc. I was just using r = 2 + sin^2, which gets the idea across, but it looks like - ahem. Googling around, you can find plenty of information on how to draft a 'correct' gear, but nothing in the way of a bare-bones approximation.

EDIT: The 'look' that I'm after: http://www.cartertools.com/involute.html

share|improve this question
    
What is it you are trying to do? –  user21714 Feb 25 '09 at 0:36
1  
You might get better responses with a picture. And on a math forum. –  Brian Feb 25 '09 at 5:56

4 Answers 4

from pylab import *

nteeth = 30
inner = 10
outer = 12

# these are in teeth-hundredths, but half the actual measurement
bottom_width = 22
top_width = 15

def involute_r(angle):
    '''angle is given in teeth-hundredths'''
    angle = angle % 100
    if angle > 50:
        # symmetry
        angle = 100 - angle

    if angle < bottom_width:
        return inner
    if angle > (50 - top_width):
        return outer
    halfway = (inner + outer) / 2.0
    transition_width = 50 - top_width - bottom_width
    curve = 1.0 - (angle - (50 - top_width))**2 / (transition_width ** 2)
    return   halfway +  curve * (outer - halfway)


fig = figure()
ax = fig.add_subplot(111, polar=True)
theta = np.arange(0, 2*pi, 0.001)
r = [involute_r(t * nteeth * 100 / (2 * pi)) for t in theta]
ax.plot(theta, r)
ax.set_ylim(inner, outer+1)
show()
share|improve this answer

How about r = 2 + sin(24*theta)^12? It's sort of hard to know what you want without you being more specific in your question.

share|improve this answer
    
It does look a bit like a gear, but more like the escapement gear on a watch than something to take torque. It's the bulky, angular shape of teeth that you get with an involute construction that I'm after. (See the new link, above.) –  Sniggerfardimungus Feb 25 '09 at 1:12
    
This isn't really programming-related, so I'm not going to get into details, but you're probably going to need a piecewise function, which you could probably approximate using a Fourier series. –  David Z Feb 25 '09 at 4:38

It looks to me as though the Wikipedia article on involute curves answers your question. It says:

“In polar coordinates (r, θ) the involute of a circle has the parametric equation:

r = a sec α

θ = tan α − α

where a is the radius of the circle and α is the parameter.”

If you need this in a form parameterized by θ instead of α, then you're going to need to solve it numerically, as I don't think there's a symbolic solution. You'll also need to take care, since there are infinitely many solutions for r in terms of θ (because of the way the involute spirals about the circle):

share|improve this answer

That equation for the involute is correct. You use it relative to the pitch radius. I know you're not going for exact, but in practice, that's not quite the right shape. A good gear design book will walk you through all of the quirky details about things like the radius at the base for stress relief. You can read old versions online using Google Books, and this isn't something that has really gone out of date. It's really pretty fascinating, and you might find some details there which would help make your shape look authentic.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.