Range-finding optical system

1. A range-finding optical system of a light projection type arranged that light emitted from a light emitting element is projected onto an object through a light projecting lens located in front of said light emitting element and said light reflected by said object is received by a light receiving element through a light receiving lens, said range-finding optical system comprising a supporting member for supporting and holding said light emitting element and said light receiving element by leaving a predetermined distance there between, and a supporting member for supporting and holding said light projecting lens and said light receiving lens by leaving a predetermined distance therebetween, said range-finding optical system being arranged so that said supporting member for supporting and holding said light emitting element and said light receiving element by leaving a predetermined distance therebetween and said supporting member for supporting and holding said light projecting lens and said light receiving lens by leaving a predetermined distance therebetween respectively have individually different coefficients of thermal linear expansion and that the displacement of the focus point of the photographic lens system to be caused by temperature variation is compensated by means of the difference between thermal expansion and contraction of the former supporting member and thermal expansion and contraction of the latter supporting member, wherein said light projecting lens and said light receiving lens are formed to be integral with a plate-like supporting member which interconnects said light projecting and said light receiving lens so as to maintain the distance between said lenses at a predetermined value and wherein said plate-like supporting member can freely expand and contract in the direction of a straight line that interconnects said light projecting lens and said light receiving lens.