Efficient electrolysis system for sodium chlorate production

The invention claimed is: 1. An electrolysis system for sodium chlorate production, comprising: a plurality of round or oval cells, a reactor, a product transfer pump, a buffer tank, a circulation pump, and a plurality of explosive clad plates connected together through pipelines; inlet and outlet of each of the plurality of cells are separately connected with the reactor via titanium pipes, allowing electrolytes to circulate between each of the plurality of cells and the reactor, wherein the outlet of each of the plurality of cells is conical, the reactor comprises an electrolytic unit, the electrolytic unit is formed by no less than three and no more than eight cells with 25-30 m 2 of anode area, the electrolytic unit in each of the plurality of reactors are modularly identical and symmetrically linked to the buffer tank, within each electrolytic unit, adjacent cells are connected with the plurality of explosive clad plates, optimizing space and currency loss by removing aluminum bars or copper bars between each of the adjacent cells, the buffer tank comprises part A and part B, the part A is connected with an overflow port of the reactor via pipeline, and part B is connected to the reactor via the circulation pump, the part B is equipped with a refined brine feeding pipe on the top, and bottom of the part A is connected with a product transfer pump via pipeline. 2. The electrolysis system of claim 1 , wherein each of the plurality of cells are separately connected with the reactor via titanium pipes, allowing the electrolytes to naturally circulate between each of the plurality of cells and the reactor 2 , and the outlet of each of the plurality of cells is conical. 3. The electrolysis system of claim 1 , wherein the reactor is connected with 5-8 round or oval cells, with area of each cell being 25-30 m 2 . 4. The electrolysis system of claim 1 , wherein that the electrolytic unit is modularly identical and symmetrically linked to the buffer tank for the entire electrolytic system. 5. The electrolysis system of claim 1 , wherein the adjacent cells are connected by the plurality of explosive clad plates, each of the plurality of explosive clad plates comprises titanium-aluminum-steel or titanium-copper-steel layers, with the titanium side connecting to an anode and the steel side connecting to a cathode. 6. The electrolysis system of claim 1 , wherein a top of the reactor is equipped with a hydrogen discharge pipe.