Backlight module and method for manufacturing the same

What is claimed is: 1. A backlight module, comprising: a light guiding plate; a diffusing layer adhered on a top of the light guiding plate to form a first interface between the diffusing layer and the light guiding plate; a prism film adhered on a top of the diffusing layer; a pattern structure adhered on a bottom of the light guiding plate to form a second interface between the pattern structure and the light guiding plate; a plurality of LEDs adhered on the bottom of the light guiding plate; and a reflecting plate adhered on a bottom of the pattern structure to form a third interface between the reflecting plate and the pattern structure; wherein when the LEDs are powered to emit light, a first part of light emitted from the LEDs directly travels through the light guiding plate, the diffusing layer, and the prism film in sequence to an outside of the backlight module; a second part of light emitted from the LEDs directly radiates on the first interface between the diffusing layer and the light guiding plate, and then is reflected by the diffusing layer to the second interface between the pattern structure and the light guiding plate, and then is reflected by the pattern structure to the light guiding plate, and then travels through the light guiding plate, the diffusing layer and the prism film in sequence to the outside of the backlight module; and a third part of light emitted from the LEDs directly radiates on the first interface between the diffusing layer and the light guiding plate, and then is reflected by the diffusing layer to the third interface between the pattern structure and the reflecting plate, and then is reflected by the reflecting layer to the pattern structure, and then travels through the pattern structure, the light guiding plate, the diffusing layer and the prism film in sequence to the outside of the backlight module. 2. The backlight module of claim 1 , wherein the light guiding plate is made of glass and has a thickness in a range from 0.1 mm to 0.2 mm. 3. The backlight module of claim 1 , wherein the pattern structure comprises a plurality of dots, each of the dots having a spherical surface for reflecting light emitted from the LEDs. 4. The backlight module of claim 1 , wherein the LEDs are arranged in a matrix on the bottom of the light guiding plate. 5. The backlight module of claim 4 , wherein a plurality of through holes arranged in a matrix are defined in the reflecting plate and the pattern structure, the LEDs extending through the plurality of through holes. 6. The backlight module of claim 1 , wherein the pattern structure is made of a material selected from an optical-grade acryl material with high reflecting ability. 7. The backlight module of claim 1 , wherein the prism film has a thickness in a range from 50 microns to 300 microns. 8. The backlight module of claim 1 , wherein the prism film comprises a plurality of prism protrusions evenly arranged on a top face of the diffusing layer. 9. The backlight module of claim 8 , wherein each prism protrusion has a cross section with a shape of a triangle. 10. The backlight module of claim 8 , wherein the prism protrusions are continuously connected together and cover substantially the whole top face of the diffusing layer. 11. The backlight module of claim 8 , wherein a base angle of each prism protrusion is 45 degrees. 12. A method for manufacturing a backlight module comprising steps: providing a light guiding plate; forming a pattern structure on a bottom of the light guiding plate via screen printing process or embossed printing process; adhering a plurality of LEDs on the bottom of the light guiding plate; forming a reflecting plate via spraying, vacuum coating or screen printing reflecting material on a bottom of the pattern structure; spraying, coating or screen printing diffusing grains on a top of the light guiding plate to form a diffusing layer; and forming a prism film on a top of the diffusing layer via roll to roll process or embossed printing process. 13. The method for manufacturing the backlight module of claim 12 , wherein the material of the light guiding plate is glass with good heat-resistant property and good scratch-resistant capability. 14. The method for manufacturing the backlight module of claim 12 , wherein the light guiding plate is formed by glass rolling process. 15. The method for manufacturing the backlight module of claim 12 , wherein the pattern structure is formed by printing an optical-grade acryl material with high reflecting ability on the bottom of the light guiding plate. 16. The method for manufacturing the backlight module of claim 12 , wherein the diffusing grains are made of a material selected from silicon dioxide powder or alumina powder. 17. The method for manufacturing the backlight module of claim 12 , wherein the prism film is made of a material selected from an optical-grade acryl material. 18. A backlight module, comprising: a glass light guiding plate; a diffusing layer adhered on a top of the light guiding plate to form a first interface between the diffusing layer and the light guiding plate; a prism film adhered on a top of the diffusing layer; a pattern structure adhered on a bottom of the light guiding plate to form a second interface between the pattern structure and the light guiding plate; a reflecting plate adhered on a bottom of the pattern structure to form a third interface between the reflecting plate and the pattern structure; and a plurality of LEDs adhered on the bottom of the light guiding plate and extending downwardly through the pattern structure and the reflecting plate. 19. The backlight module of claim 18 , wherein the glass light guiding plate, the pattern structure, the reflecting plate, the plurality of LEDs, the diffusing layer and the prism film in combination have a thickness less than 0.85 mm. 20. The backlight module of claim 18 , wherein the LEDs are arranged in a matrix on the bottom of the light guiding plate; a plurality of through holes arranged in a matrix are defined in the reflecting plate and the pattern structure, the LEDs extending through the plurality of through holes.