Preparation method of low-pH controlled-release intelligent corrosion inhibitor

What is claimed is: 1. A preparation method of a low-pH controlled-release corrosion inhibitor, comprising the steps of: (a) dissolving a monomer in an aqueous solution of an acidic medium with a mass fraction of 0.5-1.0% to prepare a monomer-acidic medium aqueous solution wherein said monomer has a mass fraction of 1.2%-1.8%, then adding an aqueous solution of a crosslinking agent with a mass fraction of 1%-2% to said monomer-acidic medium aqueous solution, and stirring and reacting, wherein said monomer is chitosan, said acidic medium is acetic acid, and said crosslinking agent is glutaraldehyde; (b) cooling, washing, freezing, and drying the product prepared in step (a) to obtain a pH-responsive hydrogel; and (c) adding said pH-responsive hydrogel into an aqueous solution of a corrosion inhibiting substance having a concentration of 1-5 mg/mL, and then lyophilizing in vacuum to prepare said low-pH controlled-release corrosion inhibitor, wherein said corrosion inhibiting substance is benzotriazole, wherein said low pH is 2-5. 2. The preparation method of the low-pH controlled-release corrosion inhibitor according to claim 1 , wherein said step (a) comprises: formulating the aqueous solution of said acidic medium with a mass fraction of 0.5-1.0%, then dissolving said monomer in said aqueous solution, uniformly stirring and standing to prepare a monomer-acidic medium aqueous solution wherein said monomer has a mass fraction of 1.2%-1.8%, then adding an aqueous solution of the crosslinking agent with a mass fraction of 1%-2% into said monomer-acidic medium aqueous solution, continuously stirring the obtained mixture at a speed of 1000-1500 rotations/min for 20-30 min, and reacting at 30-35° C. for 24-28 h. 3. The preparation method of the low-pH controlled-release corrosion inhibitor according to claim 1 , wherein said step (b) comprises: cooling the product prepared in step (a) to room temperature, then washing the product with ethanol and deionized water, freezing the washed product at −25 to −20° C. for 24-28 h, and then lyophilizing in vacuum to constant weight, to obtain the pH-responsive hydrogel. 4. The preparation method of the low-pH controlled-release corrosion inhibitor according to claim 1 , wherein said step (c) comprises: adding said pH-responsive hydrogel into the aqueous solution of said corrosion inhibiting substance having a concentration of 1-5 mg/mL, soaking for 2-3 days, freezing at −25 to −20° C. for 24-28 h, and then lyophilizing in vacuum to a constant weight, to prepare said low-pH controlled-release corrosion inhibitor.