Patent ID: 9127822
Filing Date: 2015-09-08
Classification: F21S,F21V,F24S,G02B

Abstract:
1. An optical concentration and collimation system, comprising: A. a concave parabolic trough as a primary reflector, the primary reflector having a perimeter and a surface with a center, the primary reflector having a longitudinal axis and two ends and longitudinal tips at each end wherein the longitudinal axis passes through the longitudinal tips, the primary reflector having a length LP as measured along the longitudinal axis between the two tips wherein the longitudinal axis has a center point and the primary reflector has a vertex OP, being the center of the surface of the primary reflector, the primary reflector having an optical axis perpendicular to the longitudinal axis and passing through the vertex OP, the primary reflector having a transverse axis perpendicular to the longitudinal axis and passing through the vertex point OP, the primary reflector having a focal line toward which rays parallel to the optical axis incident on the primary reflector, following reflection from the primary reflector, converge, which focal line of the primary reflector is perpendicular to the optical axis and the longitudinal axis but parallel to the transverse axis, the primary reflector having a focal length, the focal length being a distance along the optical axis from the primary reflector transverse axis to the primary reflector focal line, the primary reflector's optical axis extending through the vertex OP and the longitudinal axis center point and perpendicular to both the longitudinal axis and the transverse axis, the primary reflector having a plane of symmetry that is perpendicular to the longitudinal axis and that extends through the vertex OP and the longitudinal axis center point, the primary reflector having a profile being a projection of the perimeter onto a plane perpendicular to the optical axis forming the shape of an ellipse with a semi-minor axis, and the primary reflector having a width WP that is twice the semi-minor axis of the ellipse of its profile and the primary reflector's length LP is twice the semi-major axis of its profile ellipse; B. a convex parabolic trough as a secondary reflector, the secondary reflector having a surface with a center, the secondary reflector having a perimeter and a profile, the secondary reflector having a transverse axis perpendicular to the longitudinal axis of the primary reflector and contained within the surface of the secondary reflector, the secondary reflector having a width WS as measured perpendicular to the primary reflectors longitudinal axis and having a center point or vertex OS, the secondary reflector having a focal length and an optical axis, the latter being an extension of the optical axis of the primary reflector through the vertex OS of the secondary reflector, the secondary vertex being at an intersection of the secondary reflectors optical axis with the secondary reflectors surface, the secondary reflector profile being a projection of the perimeter parallel to the optical axis onto a plane perpendicular to the optical axis, the secondary reflector having a focal line from which parallel rays parallel to the optical axis incident on the secondary reflector, following reflection, diverge, which focal line of the secondary reflector is perpendicular to the optical axis but parallel to the transverse axis of the secondary reflector, the secondary reflector having a focal length, the focal length of the secondary reflector being a distance along the optical axis from the secondary reflector vertex OS to the secondary reflector focal line, the secondary vertex being spaced from the primary vertex so as to place the focal lines of the primary and secondary reflectors into coincidence, the secondary reflector having a plane of symmetry perpendicular to the longitudinal axis and containing both the optical axis and the transverse axis of the secondary reflector, the secondary reflector profile being circular and having a diameter with a radius approximately equal to half the width of the primary reflector, wherein the longitudinal length of the primary reflector is at least greater than the diameter of the profile of the secondary reflector; and C. said primary and secondary reflectors arranged in a Mersenne-like Cassegrainian configuration, the primary reflector having a hole centered on the reflectors vertex OP, the hole having a perimeter, a projection of that hole's perimeter onto a plane perpendicular to the optical axis being circular with a diameter equal to or larger than the secondary reflectors profile, to allow a beam reflected from the secondary mirror to pass through it.