Integrated device and method for treating toxic and refractory wastewater

What is claimed is: 1. A method for treating toxic and refractory wastewater, wherein the method employs an integrated device for treating toxic and refractory wastewater to perform a wastewater treatment, wherein the integrated device for treating toxic and refractory wastewater comprises an adjusting pool, a first-stage reactor, a second-stage reactor, a third-stage reactor, a coagulation sedimentation pool, a biochemical reaction pool and an aeration blower that are sequentially connected in series; wherein each of the first-stage reactor and the third-stage reactor is an advanced oxidation reactor, and the second-stage reactor is a Fenton reactor; the coagulation sedimentation pool comprises 2 to 4 stages, wherein each stage of the coagulation sedimentation pool comprises a coagulation tank, a primary sedimentation tank, and a secondary sedimentation tank that are connected in series, and each of the primary sedimentation tank and the secondary sedimentation tank is a vertical pipe sedimentation tank; the biochemical reaction pool comprises an anoxic tank, an aerobic tank, a settling tank, and a clean water tank that are connected in series; the adjusting pool communicates with a water inlet of the first-stage reactor through a pipe fitting, a water outlet of the first-stage reactor communicates with a water inlet of the second-stage reactor through a pipe fitting, a water outlet of the second-stage reactor communicates with a water inlet of the third-stage reactor through a pipe fitting, a water outlet of the third-stage reactor communicates with a water inlet of the coagulation sedimentation pool through a pipe fitting, and a water outlet of the coagulation sedimentation pool communicates with a water inlet of the biochemical reaction pool through a pipe fitting; the aeration blower communicates with an aeration member provided in each of the first-stage reactor, the third-stage reactor, the coagulation tank of each stage of the coagulation sedimentation pool, and the aerobic tank of the biochemical reaction pool through a pipe fitting; and a flow is pushed through the first-stage reactor, the second-stage reactor, the third-stage reactor, the coagulation sedimentation pool, and the biochemical reaction pool based on liquid level differences among the first-stage reactor, the second-stage reactor, the third-stage reactor, the coagulation sedimentation pool, and the biochemical reaction pool; the advanced oxidation reactor comprises a first reaction tank, a first return pump, a first return pipe, a first bracket, a first conical baffle, an aeration disc, and a sedimentation tank provided with a vertical flow pipe; the first reaction tank comprises a first cylinder and a first ball crown; a height of the first ball crown is less than a radius of the first cylinder, and an inner diameter of the first cylinder is equal to an inner diameter of an open end of the first ball crown; an end of the first cylinder is connected to the open end of the first ball crown, and a lower flange is provided at a bottom of the first ball crown; the first conical baffle is located inside the first reaction tank; a bottom of the first conical baffle is open, and a vertex of the first conical baffle faces upward; a periphery of the bottom of the first conical baffle is provided with an upper flange, and an open end of the first conical baffle is connected to the lower flange by the upper flange through a screw; an axis of the first conical baffle and an axis of the first cylinder coincide with the height of the first ball crown; a cone angle of the first conical baffle is 40° to 100° , and a ratio of a height of the first conical baffle to a height of the reaction tank is 1:(6-15); the first cylinder is provided with a first agent-feeding port, a first water inlet, a first overflow port, a first returned water outlet, and a first water outlet the first ball crown is provided with a first returned water inlet and a first evacuation port; the first evacuation port is located on the first ball crown outside the first conical baffle and the first returned water inlet is located at a center of a top of the first ball crown; at least three first 90 ° elbows are horizontally provided on the first conical baffle at a same height level so that an inside of the first conical baffle communicates with an outside of the first conical baffle; a top of the first conical baffle is provided with an aeration disc, and an aeration pipe is connected to the aeration disc; the sedimentation tank is arranged on an outer side wall of the first cylinder, and a part of the outer side wall of the first cylinder also serves as an inner side wall of the sedimentation tank; an upper end of the sedimentation tank is open, the sedimentation tank has an inclined sedimentation tank bottom, and the sedimentation tank bottom is at an included angle of 15° to 60° with a vertical plane; the first water outlet is located at a junction between the sedimentation tank bottom and a side wall of the first cylinder so that the first reaction tank communicates with the sedimentation tank; a width of the first water outlet is equal to a length of an intersecting line between the sedimentation tank bottom and an outer wall of the first cylinder; an open height of the first water outlet is 10 mm to 200 mm, and the first water outlet is located at a lower part of the first cylinder; an upper part of the sedimentation tank is provided with a second water outlet a vertical flow pipe is provided in the sedimentation tank; the vertical flow pipe is flush up and down; a bottom of the vertical flow pipe is located above the sedimentation tank bottom, and a top of the vertical flow pipe is located below the second water outlet the first return pipe has one end connected to the first returned water outlet and the other end connected to the first returned water inlet the first return pump is located on the first return pipe, and the first bracket is connected to an outer wall of the first reaction tank so that the first reaction tank is perpendicular to a horizontal plane; the Fenton reactor comprises a second reaction tank, a second return pump, a second return pipe, a second bracket, and a second conical baffle; the second reaction tank comprises a second cylinder and a second ball crown; a height of the second ball crown is less than a radius of the second cylinder, and an inner diameter of the second cylinder is equal to an inner diameter of an open end of the second ball crown; an end of the second cylinder is connected to the open end of the second ball crown; the second conical baffle is located inside the second reaction tank; a bottom of the second conical baffle is open, and a vertex of the second conical baffle faces upward; an open end of the second conical baffle is connected to an inner wall of the second ball crown; an axis of the second conical baffle and an axis of the second cylinder coincide with the height of the second ball crown; a cone angle of the second conical baffle is 40° to 100° , and a ratio of a height of the second conical baffle to a height of the second reaction tank is 1:(6-15); the second cylinder is provided with a second agent-feeding port, a second water inlet, a second overflow port, a second returned water outlet, and a third water outlet the second ball crown is provided with a second evacuation port, and the second evacuation port is located on the second ball crown outside the second conical baffle; at least three second 90 ° elbows are evenly and horizontally provided on the second ball crown at a same height level so that an inside of the second ball crown communicates with an outside of the second ball crown; an end face of each of the second 90 ° elbows located at an outer wall of the second conical baffle abuts an outer wall of the second conical baffle; the second return pipe has one end connected to the second returned water outlet and the other end