/* 79-character width
012345678.012345678.012345678.012345678.012345678.012345678.012345678.012345678
*/
///////////////////////////////////////////////////////////////////////////////
// LibFile: asm_proto_0001a.scad
// FileGroup: SKU2689999
// FileSummary: The metal wire stacking and placement of an array
//
//                                                                     DETAILS:
// The potetial is a conveyor belt - or a catepillar track
// Todo: NONE
///////////////////////////////////////////////////////////////////////////////

include <pgsm_sixinch.scad>


/*
Sliding the stamps minus the entire length of the stamp.
No image published.
Not yet mapped for potential uses.
-------------------------------------------------------------------------- */
*hinged_conveyor_stacked(slideY=(-wMidHeight), stackZ = wd);

/*
The COTS wire is not flat, so a 3*wd reduction is more accurate
No image pulished.
Not yet mapped for potential uses.
-------------------------------------------------------------------------- */
arcCompensate = 3*wd;
*hinged_conveyor_stacked(slideY=(-(wMidHeight-arcCompensate)), stackZ = wd);


/*
The arcCompenstate param could present the 'standard' slide recipes
No image published.
Not yet mapped for potential uses.
-------------------------------------------------------------------------- */
hindge_conveyor_standarSlideY(dimSlideY=8, drawPairs=3);
module hindge_conveyor_standarSlideY(dimSlideY, drawPairs) {

minSlideX = wClosedEnd-(1.25*wd); // Minium distance for a functional print
arrayMoveX = (2*wClosedEnd)-(2.5*wd); // moves the stamps in locked pairs
//centerX = ((0.5*drawPairs)*arrayMoveX)-(wClosedEnd-(1.25*wd));
centerX = 0.5*(drawPairs*arrayMoveX)+(wClosedEnd-(1.25*wd));

translate([-centerX, 0, 0]) // move back to center
 for (i = [1:drawPairs]) { translate([(i*arrayMoveX), 0, 0])
    hinged_conveyor_sided(slideX=minSlideX, slideY=dimSegmentY[dimSlideY]);
  }
}