▎ 摘　　要

NOVELTY - The device has a crushing device placed at a bottom portion of a shunt device, where the shunt device comprises a shunt box. The shunt box is provided with a shunt cavity. A top portion of the shunt cavity is formed with a splitter plate. A top portion of the splitter plate is provided with a fine flow distribution net and a rough flow distribution net. The fine flow distribution net and the rough flow distribution net are respectively placed on right side and left side of the flow distribution plate. A locating rod (236) is fixedly connected with a crushing box. An outside of the locating rod is rotatably provided with a locating belt pulley (2361), a locating belt wheel, a transmission belt wheel (2331) and a driving belt wheel (2351). USE - Graphene battery raw material cutting device. ADVANTAGE - The device improves raw material thickness at same time, forms a flat extrusion surface so as to improve efficiency and quality of crushing. The device injects water into the liquid cavity through the water injection pipe, increases gravity of the base by water, when water absorbs heat around cooling portion, thus reducing temperature of the surrounding portion, slows aging speed and increases service life. Two crushing devices are respectively crush thick and thin raw material of the top of the coarse flow distribution network and the fine flow distribution networks, so that the raw material can be crushed by applies extrusion force. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a graphene battery raw material cutting method. DESCRIPTION OF DRAWING(S) - The drawing shows a side perspective view of a graphene battery raw material cutting device. Crushing mechanism (230) Right crushing roller (231) Left side crushing roller (232) Transmission shaft (233) Crushing block (234) Transmission rod (235) Locating rod (236) Belt (237) Transmission belt wheel (2331) Driving belt wheel (2351) Transmission gear (2352) Locating belt pulley (2361)