Optical modulating device, back light module, display apparatus, and fabricating method thereof

What is claimed is: 1. A back light module, comprising an optical modulating device having a light transmissive region and a light blocking region, and one or more light sources; wherein the optical modulating device comprises: a base substrate; a plurality of protrusions on the base substrate in the light transmissive region and configured to allow light, emitted from the one or more light sources and transmitted through the base substrate, emitting out of a protruding side of the optical modulating device; a reflective layer on the base substrate in the light blocking region and configured to block light, emitted from the one or more light sources and transmitted through the base substrate, from emitting out of the protruding side of the optical modulating device; a plurality of recesses in the light transmissive region; and an insulating layer comprising a plurality of insulating blocks; wherein a respective one of the plurality of protrusions protrudes away from the base substrate toward the protruding side; and the one or more light sources are on a side of the optical modulating device other than the protruding side; wherein the respective one of the plurality of protrusions has a first surface on which the reflective layer is absent and a second surface on which the reflective layer is present; the first surface is in the light transmissive region; and the second surface and a surface of the base substrate between adjacent protrusions of the plurality of protrusions are in the light blocking region; wherein a respective one of the plurality of recesses and a respective one of the plurality of insulating blocks are successively on a side of the respective one of the plurality of protrusions distal to the base substrate, configured to allow the light from the one or more light sources emitting sequentially from the respective one of the plurality of protrusions, through the respective one of the plurality of recesses and the respective one of the plurality of insulating blocks, then out of the protruding side of the optical modulating device; the respective one of the plurality of insulating blocks is at least partially in the respective one of the plurality of recesses and in direct contact with a top portion of the respective one of the plurality of protrusions and not in contact with the base substrate; an orthographic projection of the plurality of recesses on the base substrate is substantially non-overlapping with an orthographic projection of the reflective layer on the base substrate; and an orthographic projection of the respective one of the plurality of insulating blocks on the base substrate is substantially non-overlapping with the orthographic projection of the reflective layer on the base substrate. 2. The back light module of claim 1 , wherein the second surface connecting the first surface with the base substrate; and the reflective layer is on the second surface and the surface of the base substrate between adjacent protrusions of the plurality of protrusions. 3. The back light module of claim 1 , wherein an orthographic projection of the plurality of protrusions on the base substrate is at least partially non-overlapping with the orthographic projection of the reflective layer on the base substrate; and an orthographic projection of the first surface of the plurality of protrusions on the base substrate is substantially non-overlapping with the orthographic projection of the reflective layer on the base substrate. 4. The back light module of claim 1 , wherein the base substrate and the plurality of protrusions are formed as an integral light transmission layer. 5. The back light module of claim 1 , wherein the plurality of protrusions are a plurality of nanoscale protrusions. 6. The back light module of claim 1 , wherein the optical modulating device is a light guide plate. 7. The back light module of claim 1 , wherein a cross-section of the respective one of the plurality of protrusions along a plane perpendicular to a surface of the base substrate and intersecting the adjacent protrusions of the plurality of protrusions has a first base in contact with the base substrate, a second base opposite to the first base, a first connecting side and a second connecting side respectively connecting the first base and the second base; the second base forms a bottom of the respective one of the plurality of recesses, and is in contact with the respective one of the plurality of insulating blocks; the respective one of the plurality of protrusions is configured to allow light emitted from the one or more light sources to sequentially transmit through the first base and the second base, through the respective one of the plurality of recesses and the respective one of the plurality of insulating blocks, then emit out of the protruding side of the optical modulating device; and the first connecting side and the second connecting side are at least partially covered by the reflective layer. 8. A display apparatus, comprising the back light module of claim 1 , and a liquid crystal display panel configured to receive light emitted out of the protruding side of the optical modulating device. 9. A method of fabricating a back light module comprising an optical modulating device having a light transmissive region and a light blocking region, comprising: forming a light transmission layer comprising a plurality of protrusions on a base substrate in the light transmissive region and configured to allow light, emitted from one or more light sources and transmitted through the base substrate, emitting out of a protruding side of the plurality of protrusions, wherein a respective one of the plurality of protrusions is formed to protrude away from the base substrate toward the protruding side; forming an insulating layer having a plurality of insulating blocks, a respective one of the plurality of insulating blocks formed in direct contact with a top portion of the respective one of the plurality of protrusions; forming a reflective layer on the base substrate in the light blocking region and configured to block light, emitted from the one or more light sources and transmitted through the base substrate, from emitting out of the light transmission layer; providing one or more light sources on a side of the optical modulating device other than the protruding side; forming a plurality of recesses in the light transmissive region; and forming an insulating layer comprising a plurality of insulating blocks; wherein each of the plurality of protrusions is formed to have a first surface on which the reflective layer is absent and a second surface on which the reflective layer is present; the first surface is in the light transmissive region; and the second surface and a surface of the base substrate between adjacent protrusions of the plurality of protrusions are in the light blocking region; wherein forming the reflective layer comprises forming a reflective material layer, the reflective material layer is formed to be a unitary layer at least partially covering lateral surfaces of the plurality of protrusions and covering a surface of a portion of the light transmission layer between adjacent protrusions of the plurality of protrusions, the reflective material layer is at least partially absent on surfaces of top portions of the plurality of protrusions; a respective one of the plurality of recesses and a respective one of the plurality of insulating blocks are successively on a side of the respective one of the plurality of protrusions distal to the base substrate, configured to allow the light from the one or more light sources emitting sequentially from the respective one of the plurality of protrusions, throug