Patent ID: 7934858

Claim:
A lighting lens that allows incidence of white light emitted from a light emitting element and that adjusts the incident white light to light of desired light distribution characteristics and emits the white light to an illuminated surface side, the lighting lens comprising: an opposing surface part that opposes the light emitting element and that is arranged to oppose the light emitting element; an emission surface part that is formed on an opposite side of the light emitting element opposing the opposing surface part that opposes the light emitting element; and a side surface part that extends from an outer peripheral end part of the opposing surface part that opposes the light emitting element, to an outer peripheral end part of the emission surface part, wherein: a concave part that allows the white light to enter inside the lighting lens is formed in the opposing surface part that opposes the light emitting element; the concave part comprises: a first incidence surface that is formed as a plane orthogonal to an optical axis; and a second incidence surface that is formed to extend from an outer peripheral end part of the first incidence surface to the light emitting element side and expand a diameter gradually toward the light emitting element; the side surface part comprises a total reflection surface that is formed to expand a diameter gradually from the side of the opposing surface part that opposes the light emitting element, to the emission surface part side such that light having been incident on the second incidence surface is totally reflected toward the emission surface part; the emission surface part comprises: a first emission surface that mainly allows incidence of light having been incident on the first incidence surface and that emits the incident light to the illuminated surface side; and a second emission surface that is connected to an outer peripheral end part of the first emission surface, surrounding the first emission surface, that allows incidence of the light having been incident on the second incidence surface and totally reflected by the total reflection surface, and that emits the incident light to the illuminated surface side; and the second emission surface is formed such that positive power in the second emission surface is weaker than positive power in the first emission surface and radiates light upon the illuminated surface by mixing the light emitted from the first emission surface and the light emitted from the second emission surface.