RU2012110482A - LED LIGHT SOURCE FOR MEDICAL LUMINAIRES - Google Patents

Abstract

1. The light source on the LEDs for medical lighting, consisting of a printed circuit board; a package of LED matrix fixed on said printed circuit board; a beam splitter having a cup shape with a cavity, said beam splitter consisting of a first lens opposite the opening of said cavity and an annular second lens between the opening of said cavity and said first lens, and wherein the beam splitter is placed upside down on said printed circuit board so that said LED package matrix was closed by a beam splitter; a reflector was placed on top of said beam splitter, said reflector having a reflective layer on its inner surface, characterized in that the light projected from said LED array package in the direction of said first lens 211 is directed outward and the light projected from said LED package the matrix in the direction of said annular second lens, is reflected in the direction of the inner wall of said reflector and is captured by it to reflect it outward. 2. An LED light source according to claim 1, characterized in that several through holes are provided on said printed circuit board around said LED matrix package. The LED light source according to claim 2, characterized in that said reflector is attached to said through holes on said printed circuit board; and said beam splitter is attached by said reflector to said printed circuit board. The light source on the LEDs according to claim 1, characterized in that the opening of the cavity of the aforementioned

Claims (11)

1. The light source on the LEDs for medical lighting, consisting of a printed circuit board; a package of LED matrix fixed on said printed circuit board; a beam splitter having a cup shape with a cavity, said beam splitter consisting of a first lens opposite the opening of said cavity and an annular second lens between the opening of said cavity and said first lens, and wherein the beam splitter is placed upside down on said printed circuit board so that said LED package matrix was closed by a beam splitter; a reflector was placed on top of said beam splitter, said reflector having a reflective layer on its inner surface, characterized in that the light projected from said LED array package in the direction of said first lens 211 is directed outward and the light projected from said LED package the matrix in the direction of said annular second lens is reflected in the direction of the inner wall of said reflector and is captured by it to reflect it outward. 2. The LED light source according to claim 1, characterized in that several through holes are provided on said printed circuit board around said LED matrix package. 3. The light source on the LEDs according to claim 2, characterized in that said reflector is attached to said through holes on said printed circuit board; and said beam splitter is attached by said reflector to said printed circuit board. 4. The light source on the LEDs according to claim 1, characterized in that the opening of the cavity of said beam splitter is surrounded by a curved edge; a recess is provided around the end of said reflector next to said printed circuit board; said recess has a shape and size corresponding to the shape and size of said curved edge. 5. The light source on the LEDs according to claim 1, characterized in that said beam splitter is made of high transparency material. 6. The light source on the LEDs according to claim 1, characterized in that several positioning racks are provided around the circumference of said reflector. 7. The light source on the LEDs according to claim 1, characterized in that said beam splitter and said reflector are jointly made as a single object. 8. The LED light source according to claim 1, characterized in that said printed circuit board is made of a material with a high coefficient of thermal conductivity. 9. The light source on the LEDs of claim 8, characterized in that the said material with a high coefficient of thermal conductivity is an aluminum alloy. 10. The light source on the LEDs of claim 8, characterized in that the said material with a high coefficient of thermal conductivity is a ceramic product. 11. The LED light source according to claim 1, characterized in that said LED array package has a color rendering index of at least 85 and a color temperature from 3000 K to 6700 K.