▎ 摘　　要

NOVELTY - The system has a first moving pipe (42) that passes through a lower annular casing and communicates with a first cavity. An upper annular cover is fixedly connected with the outer wall of a pipe (24) through a bracket. One end of the first moving pipe is connected to the first cavity. The other end passes through the gap between a first spherical shell (23) and a second spherical shell (25) and circles around the gap, and the first moving pipe goes around and then penetrates into each stirring blade (3) in turn internal, and after passing through the gap between the first pipe and a second pipe (26), and is connected to the first cavity again. The first spherical shell, the second spherical shell, the stirring blade and a first water pipe (4) are all made of transparent materials. The upper end of a cylindrical container (1) is provided with a raw material inlet. A material outlet is arranged on the side wall of the lower end of the cylindrical container. USE - Low-temperature enzymatic hydrolysis system for collagen peptides. ADVANTAGE - The problem that the low-temperature enzymatic hydrolysis rate of the existing collagen peptide is low is solved. DESCRIPTION OF DRAWING(S) - The drawing shows an internal structure cutaway view of the enzymolysis container. Cylindrical container (1) Heating ball (2) First water pipe (4) Fluid sliding ring (5) First rotating shaft (7) Graphene layer (22) First spherical shell (23) First pipe (24) Second spherical shell (25) Second pipe (26) Gear ring (27) First static pipe (41) First moving pipe (42) Stirring blade (72) Shell (73) Conveying pipe (74) Disturbance pipe (75)