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5 Nov 2024 07:19:51 EST (-0500)
  Iris Diaphragm -> Help Please! (Message 1 to 3 of 3)  
From: Anthony D  Baye
Subject: Iris Diaphragm -> Help Please!
Date: 13 Feb 2009 19:10:00
Message: <web.49960b7e1af53e3ce65c467e0@news.povray.org>
I need to design an Iris diaphragm, preferably like the ones in the following
pictures:

http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle6.jpg
http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle7.jpg
http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle8.jpg
http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle9.jpg

or something similar.  I need to be able to re-size it to fit my project, and I
would like to be able to control the aperture size.

I would like to be able to do all of these things, without using a mechanics
simulator, which is difficult because the shutter blades are interleaved.

Any suggestions would be greatly appreciated.

A.D.B.


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From: Chris B
Subject: Re: Iris Diaphragm -> Help Please!
Date: 13 Feb 2009 20:39:49
Message: <499620e5$1@news.povray.org>
"Anthony D. Baye" <Sha### [at] spamnomorehotmailcom> wrote in message 
news:web.49960b7e1af53e3ce65c467e0@news.povray.org...
>I need to design an Iris diaphragm, preferably like the ones in the 
>following
> pictures:
>
> http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle6.jpg
> http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle7.jpg
> http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle8.jpg
> http://www.microscopy-uk.org.uk/mag/imgmar06/dismantle9.jpg
>
> or something similar.  I need to be able to re-size it to fit my project, 
> and I
> would like to be able to control the aperture size.
>
> I would like to be able to do all of these things, without using a 
> mechanics
> simulator, which is difficult because the shutter blades are interleaved.
>
> Any suggestions would be greatly appreciated.
>

The following code should do it.

The ApertureAngle is the angle through which the elements of the Iris 
Diaphragm are turned inwards.
The element is created as a spiral of small boxes with a circular end. You 
can obviously make that piece as complicated as you like, with the lugs etc. 
I've used random colors so you can clearly distinguish each piece.

Regards,
Chris B.

camera {location <0,5,-15> look_at 0}
light_source {<30,70,-10> color rgb 1}

#include "math.inc"

#declare ApertureAngle = 30;
#declare InnerRadius   = 5;
#declare OuterRadius   = 6.5;
#declare Thickness     = 0.03;

#declare Increment     = 0.2;
#declare Width = OuterRadius-InnerRadius;
#declare MySeed = seed(1);

// Define a single moving part
#declare MetalPiece = difference {
  union {
    #local I = 0;
    #while (I<50)
      box {<-Increment/2,0,0>,<Increment/2,Thickness,Width> rotate z*1 
translate z*InnerRadius
        rotate I*y*asind(Increment/OuterRadius)
        translate y*sind(I*Increment)
      }
      #local I = I+1;
    #end
    rotate -y*180*Width/(2*pi*(InnerRadius+Width/2))
    translate -z*(InnerRadius+Width/2)
  }
  difference {
    box {<-Width,-0.1,-Width><0,2*Thickness,Width>}
    cylinder {-0.2*y,(2*Thickness+0.1)*y,Width/2}
  }
  rotate y*ApertureAngle
  translate z*(InnerRadius+Width/2)
}

// Draw 20 moving parts in a circle
#local I = 0;
#while (I<20)
  object {MetalPiece rotate I*y*360/20 pigment {rgb 
<rand(MySeed),rand(MySeed),rand(MySeed)>}}
  #local I = I+1;
#end


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From: triple r
Subject: Re: Iris Diaphragm -> Help Please!
Date: 13 Feb 2009 21:50:00
Message: <web.49963066e4df7abef2b9ba40@news.povray.org>
"Anthony D. Baye" <Sha### [at] spamnomorehotmailcom> wrote:
> Any suggestions would be greatly appreciated.

Of course I needn't emphasize that you should try to understand this rather than
just use it, but, based on some pre-existing code, here's an approximation of
the iris in the photo you provided.  To prevent overlap, you just have to
rotate the blades a little in the right direction.  Interestingly, if you put
this right in front of the camera and use focal blur, you can use this physical
aperture to give you the right bokeh pattern.  Kinda neat, but it takes a lot of
samples.  Anyway:

- Ricky



camera{
    location <0,2,-2>
    look_at <0,0,0>
    sky z
}

light_source{
    <25,8,-10>
    rgb 2
    area_light 10*x,10*y,10,10
    circular
    orient
    jitter
    adaptive 2
}

#declare eps = 1.0e-5;
#declare major_rad = 1.0;            //outer radius of the blades
#declare minor_rad = 0.15;           //width of the blades
#declare hole_rad = 0.02;            //radius of the holes
#declare blade_thickness = 0.005;
#declare blade_angle_span = 135;     //where does the blade end?
#declare blade_angle = 30;           //rotate the blades!
#declare num_blades = 7;
#declare casing_rim_width = 0.02;
#declare casing_rim_height = 0.04;
#declare casing_width = 0.02;

// The angle to rotate a blade by (degrees) so that
// the blades layer rather than collide.
#declare blade_overlap_fudge_factor = 0.4;

#declare blade =
    difference{
        union{
            cylinder{-y*(blade_thickness-eps), y*(blade_thickness-eps),
                      minor_rad}
            difference{
                cylinder{<0,-blade_thickness,-major_rad+minor_rad>,
                         <0, blade_thickness,-major_rad+minor_rad>,
                         major_rad
                }
                cylinder{<0,-blade_thickness-eps,-major_rad+minor_rad>,
                         <0, blade_thickness+eps,-major_rad+minor_rad>,
                         major_rad-minor_rad*2
                }
                plane{ vrotate(-z,blade_angle_span*y), -minor_rad }
                plane{ -x, 0 }
            }
        }
        cylinder{<0,-blade_thickness-2*eps,0>,
                 <0, blade_thickness+2*eps,0>,hole_rad}
        rotate y*blade_angle_span/2
        rotate z*blade_overlap_fudge_factor
        rotate -y*blade_angle_span/2
        translate y*0.01
    }

#declare casing =
    difference{
        cylinder{<0,-casing_width,0>,
                 <0,casing_rim_height,0>,major_rad+casing_rim_width}
        cylinder{<0,-casing_width-2*eps,0>,
                 <0,casing_rim_height+2*eps,0>,major_rad-2*minor_rad}
        cylinder{<0,0,0>,<0,casing_rim_height+eps,0>,major_rad}
        // punch a hole in the casing
        #declare b=0;
        #while(b<num_blades)
            cylinder{<0,-casing_width-3*eps,0>,
                     <0,casing_rim_height+2*eps,0>,hole_rad
                translate z*(major_rad-minor_rad)
                rotate y*360*b/num_blades
            }
            #declare b=b+1;
        #end
    }

#declare iris =
    union{
        object{casing}
        #declare b=0;
        #while(b<num_blades)
            object{blade
                rotate -y*blade_angle
                translate z*(major_rad-minor_rad)
                rotate y*360*b/num_blades
            }
            #declare b=b+1;
        #end
        translate y*casing_width
        pigment{rgb 1.0}
        finish{
            ambient 0
            diffuse 0.05
            reflection 0.2
            specular 1.0
            roughness 0.1
        }
    }


plane{y,0
    pigment{rgb <0.9,0.75,0.6>}
    finish{ambient 0 diffuse 1.0}
}

sky_sphere{
    pigment{
        gradient y
        color_map{
            [0 rgb 0]
            [0.5 rgb 0]
            [1 rgb 1]
        }
        scale 1.2
        turbulence 0.5
    }
}

object{iris}


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