Patent ID: 8613532
Filing Date: 2013-12-24
Classification: F21V,F21W,F21Y,G02B

Abstract:
1. A light emitting device comprising: a light emitting element implemented on a substrate; a light flux controlling member that is placed such that a reference optical axis, which is a traveling direction of light in a center of a three dimensional output light flux, and an optical axis, which is a traveling direction of light in a center of a three dimensional output light flux of the light emitting element, are located on a same axis, and that controls the traveling direction of the light flux output from the light emitting element, the light flux controlling member comprising: an input surface that is formed in a non-spherical surface of rotational symmetry with respect to the optical axis, by forming a recess in a surface opposing the light emitting element, and receives as input the light from the light emitting element; and a light control output surface that is formed on an opposite side from a back surface and outputs the light received as input in the input surface, wherein: when an angle formed between an optical path and the optical axis is θ2, the optical path being a path on which light that is output from a light emission center of the light emitting element at angle θ1 with respect to the optical axis and is incident on the input surface travels inside the light flux controlling member, and angle θ1 of light to arrive at an outermost edge of the light control output surface in the light output from the light emitting element is θ1max; the input surface and the light control output surface are formed such that, in a range where 0<θ1≦θ1max, a relationship in size between θ1 and θ2 gradually changes from θ1<θ2 to θ1>θ2, following an increase of θ1; and the input surface is formed in a shape such that a deepest part of the input surface is included within a virtual circle when the virtual circle having a radius of r is formed at the light emission center of the light emitting element as a center, and a gap between a peak part of the virtual circle and the deepest part of the input surface is produced when the virtual circle is moved to a location to inscribe the input surface, where the radius of r is a dimension of light arriving at the outermost edge of the light control output surface, from the input point into the light flux controlling member, to the light emission center of the light emitting element.