import static uk.co.nickthecoder.foocad.arrange.v1.Arrange.* import static uk.co.nickthecoder.foocad.layout.v1.Layout2d.* import static uk.co.nickthecoder.foocad.layout.v1.Layout3d.* import static uk.co.nickthecoder.foocad.screws.v1.Screws.* include HingeLayingFlat.feather /** Print Notes I've used PLA and PETG for hinges, and both have held up for more than a year. History I printed two pairs for my garden cupboard, one pair in PETG and the other in PLA. Both still work after over a year. */ class DoorHinge : Model { @Custom( about="Diameter of the hinge's outer cylinder" ) var outerD = 10.0 @Custom( about="Diameter of the core inside the hinge" ) var innerD = 6.0 @Custom( about="Length of the hinge" ) var length = 60.0 @Custom( about="Number of pieces on one side of the hinge barrel. Other side has one more" ) var pieces = 2 @Custom( about="Thickness of the hinge plates. Must be less than outerD/2" ) var thickness = 4.0 @Custom( about="Width of the hinge plate" ) var width = 20.0 @Custom( about="Diameter of the hole for the screws" ) var screwD = 4 @Custom( about="Diameter of the countersink hole for the screw head" ) var screwHeadD = 8 @Custom( about="Number of screw holes per plate" ) var holeCount = 3 @Custom( about="Corner rounding radius. 0 for square corners") var radius = 1 override fun build() : Shape3d { val hinge = HingeLayingFlat(outerD, innerD, length, pieces) val plate = Square( width-1, length) .roundCorner(2,radius) .roundCorner(1,radius) .extrude( thickness ).centerY() .leftTo(1) val hole = countersink( screwD, screwHeadD ) .translateX(outerD/4 + width/2) // Center the holes .topTo(plate.top+0.01) val holes = hole.repeatY(holeCount, length/holeCount ).centerY() val plates = (plate - holes).mirrorX().also() return (hinge and plates) } }