Optical system
First Claim
1. An integrated optical system for the simultaneous viewing of a first object and an image of a second object superposed on said first object, comprising:
- a lens having an optical axis and including a first surface facing a viewer and a second, curved surface facing said first surface and constituting a partially reflecting mirror, said lens being divided into two parts by a planar third surface defined by an interface constituting a semitransparent mirror which slantingly transverses said lens from said first surface towards said second surface; and
a fourth surface intersecting said first and second surfaces, produced by truncating said lens, said fourth surface facing said image of said second object;
relative positions between said semitransparent mirror, said second surface, said second object and the optical axis of said lens being such that a light beam originating in said image passes said fourth surface and is intercepted by said semitransparent mirror, which reflects it onto said second surface that, acting as a collimating mirror, reflects said beam via said first surface towards a viewer in a direction substantially parallel to said optical axis;
wherein said first surface is concave with a radius of curvature substantially equal to a radius of curvature of said second, curved surface.
1 Assignment
0 Petitions
Accused Products
Abstract
An optical system for viewing data, possibly superpositioned on the view of scenery. The optical system consists of a lens divided into two parts by a beam splitter, and it has a surface facing the viewer and a second surface which is convex and defines a mirror facing the surface close to the viewer. The thick lens has a truncated surface facing the data source and the beam from the data source is reflected by the beam splitter to the concave surface of the mirror which reflects it to the eye of the viewer. When the data is superpositioned on a direct view of the scenery, the mirror is partially reflecting.
59 Citations
8 Claims
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1. An integrated optical system for the simultaneous viewing of a first object and an image of a second object superposed on said first object, comprising:
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a lens having an optical axis and including a first surface facing a viewer and a second, curved surface facing said first surface and constituting a partially reflecting mirror, said lens being divided into two parts by a planar third surface defined by an interface constituting a semitransparent mirror which slantingly transverses said lens from said first surface towards said second surface; and a fourth surface intersecting said first and second surfaces, produced by truncating said lens, said fourth surface facing said image of said second object; relative positions between said semitransparent mirror, said second surface, said second object and the optical axis of said lens being such that a light beam originating in said image passes said fourth surface and is intercepted by said semitransparent mirror, which reflects it onto said second surface that, acting as a collimating mirror, reflects said beam via said first surface towards a viewer in a direction substantially parallel to said optical axis; wherein said first surface is concave with a radius of curvature substantially equal to a radius of curvature of said second, curved surface. - View Dependent Claims (2, 3, 4, 5)
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6. An integrated optical system for the simultaneous viewing of a first object and an image of a second object superposed on said first object, comprising:
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a lens having an optical axis and including a first surface facing a viewer and a second, curved surface facing said first surface and constituting a partially reflecting mirror, said lens being divided into two parts by a planar third surface defined by an interface constituting a semitransparent mirror which slantingly traverses said lens from said first surface towards said second surface; and a fourth surface intersecting said first and second surfaces, produced by truncating said lens, said fourth surface facing said image of said second object; relative positions between said semitransparent mirror, said second surface, said second object and the optical axis of said lens being such that a light beam originating in said image passes said fourth surface and is intercepted by said semitransparent mirror, which reflects it onto said second surface that, acting as a collimating mirror, reflects said beam via said first surface towards a viewer in a direction substantially parallel to said optical axis; wherein, apart from said fourth surface, an edge of said lens defines a portion of a surface of a cone, with its base facing said first object and its imaginary apex being located beyond a viewer'"'"'s eye. - View Dependent Claims (7)
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8. An integrated optical system for the simultaneous viewing of a first object and an image of a second object superposed on said first object, comprising:
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a lens having an optical axis and including a first surface facing a viewer and a second, curved surface facing said first surface and constituting a partially reflecting mirror, said lens being divided into two parts by a planar third surface defined by an interface constituting a semitransparent mirror which slantingly traverses said lens from said first surface towards said second surface; a fourth surface intersecting said first and second surfaces, produced by truncating said lens, said fourth surface facing said image of said second object; relative positions between said semitransparent mirror, said second surface, said second object and the optical axis of said lens being such that a light beam originating in said image passes said fourth surface and is intercepted by said semitransparent mirror, which reflects it onto said second surface that, acting as a collimating mirror, reflects said beam via said first surface towards a viewer in a direction substantially parallel to said optical axis; and a plano-concave lens with a radius of curvature substantially equalling a radius of curvature of said second, curved surface and cemented, with its plane surface, to said first surface.
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Specification