Temperature-controlled dimming film with a function of shielding near-infrared light and preparation method thereof

The invention claimed is: 1. A temperature-controlled dimming film with a function of shielding near-infrared light, characterized in that said dimming film comprises a polymer network skeleton and liquid crystal molecules, wherein the polymer network skeleton consists of a polymer-dispersed liquid crystal network structure and a polymer-stabilized liquid crystal network structure and comprises a polymer matrix with pores inside which polymer networks are vertically aligned; and the liquid crystal molecules are dispersed in the polymer network skeleton and have smectic-cholesteric phase transition; between the skeleton and the liquid crystal molecules, nanoparticles, having absorption at 800-3000 nm, are dispersed. 2. The temperature-controlled dimming film according to claim 1 , wherein the polymer network skeleton is prepared from polymerizable monomers by stepwise polymerization. 3. The temperature-controlled dimming film according to claim 1 , wherein the liquid crystal material, the polymerizable monomers, and the nanoparticles are at a ratio by weight of: liquid crystal material: 10.0˜90.0 parts by weight; polymerizable monomers: 10.0˜80.0 parts by weight; nanoparticles: 1.0 to 30.0 parts by weight; in the raw materials to prepare the dimming temperature-controlled dimming film. 4. The temperature-controlled dimming film according to claim 1 , wherein the nanoparticles comprise one or more selected from indium tin oxide, antimony tin oxide, tungsten trioxide, molybdenum trioxide, tungsten bronze or copper sulfide with oxygen defects. 5. The temperature-controlled dimming film according to claim 1 , wherein the liquid crystal material is a liquid crystal material having SmA˜N* phase transition and its phase transition temperature is −10° C. or higher. 6. The temperature-controlled dimming film according to claim 3 , wherein the polymerizable monomers are ultraviolet-polymerizable monomers, comprising non-liquid crystal ultraviolet-polymerizable monomers and liquid crystal ultraviolet-polymerizable monomers. 7. The temperature-controlled dimming film according to claim 1 , wherein the nanoparticles are grafted with surfactant on their surfaces. 8. The temperature-controlled dimming film according to claim 1 , wherein the temperature-controlled dimming film shields 80% or more of near-infrared light and has a transmittance higher than 75% in visible light waveband while existing at a temperature lower than the phase transition temperature of the liquid crystal, and has a transmittance lower than 10% in both the visible and near-infrared light wavebands while existing at a temperature higher than the phase transition temperature of the liquid crystal. 9. A method for preparing the temperature-controlled dimming film according to claim 1 , comprising: mixing liquid crystal material, polymerizable monomers, an initiator, and spacer particles to obtain a uniform mixture; adding the mixture into a solution containing nanoparticles and mixing it evenly; then removing the solvent and placing the obtained liquid between conductive films; allowing an incomplete polymerization reaction between the non-liquid crystal polymerizable monomers and the liquid crystal polymerizable monomers in the system; and then polymerizing the remaining polymerizable monomers by applying an electric field to the conductive films, so as to generate the temperature-controlled dimming film. 10. The temperature-controlled dimming film prepared according to claim 9 , wherein the surfactant is grafted on the surfaces of the nanoparticles by a microemulsion method, a reversed-phase microemulsion method or a surfactant method.