Split continuous operation micro-grid dynamic membrane bioreactor

What is claimed is: 1. A split continuous operation micro-grid dynamic membrane bioreactor, comprising a biological treatment unit ( 10 ) and a drum dynamic membrane filtration unit ( 20 ), wherein the biological treatment unit ( 10 ) comprises a microbiological treatment tank ( 11 ), and the microbiological treatment tank ( 11 ) comprises an aerobic treatment tank, an anoxic treatment tank and an anaerobic treatment tank; the drum dynamic membrane filtration unit ( 20 ) comprises a filter tank ( 21 ), and a drum micro-grid dynamic membrane mechanism is arranged in the filter tank ( 21 ); the drum dynamic membrane mechanism comprises a filter drum ( 22 ), a backwashing device ( 24 ) configured for washing the filter drum ( 22 ) and keeping the thickness of a dynamic biological membrane ( 23 ) formed on the filter drum ( 22 ) within a set thickness range is arranged above the filter drum ( 22 ), and a sludge collecting tank ( 25 ) used for collecting a washed dynamic biological membrane is arranged in the filter drum ( 22 ); a water outlet ( 26 ) which is formed below the filter drum ( 22 ) and enables the water level of the filter tank ( 21 ) to be lower than that in the microbiological treatment tank ( 11 ) is formed in the bottom of the filter tank ( 21 ); a mixed liquid pipe ( 30 ) configured for enabling sewage sludge mixed liquid to flow into the filter drum ( 22 ) from the microbiological treatment tank ( 11 ) is arranged between the microbiological treatment tank ( 11 ) and the filter drum ( 22 ); and a sludge discharge header pipe ( 31 ) is arranged on the sludge collecting tank ( 25 ); wherein a Y-union ( 32 ) is arranged on the sludge discharge header pipe ( 31 ), a sludge discharge pipe ( 33 ) and a sludge return pipe ( 34 ) are arranged on the Y-union ( 32 ), and the sludge return pipe ( 34 ) is connected to the microbiological treatment tank ( 11 ) between the microbiological treatment tank ( 11 ) and the Y-union, and a sludge discharge control mechanism configured to (i) discharge sludge from the sludge discharge pipe ( 33 ) or (ii) to enable the sludge to flow back into the microbiological treatment tank ( 11 ) through the sludge return pipe ( 34 ) is arranged on the sludge discharge pipe ( 33 ). 2. The split continuous operation micro-grid dynamic membrane bioreactor according to claim 1 , wherein a filter medium is arranged on the filter drum ( 22 ), the filter medium comprises a stainless steel wire mesh or non-woven filter cloth, and a filter pore diameter of the filter medium is 20-500 μm. 3. The split continuous operation micro-grid dynamic membrane bioreactor according to claim 1 , wherein the sludge discharge control mechanism comprises a sludge discharge valve ( 35 ) arranged on the sludge discharge pipe ( 33 ). 4. The split continuous operation micro-grid dynamic membrane bioreactor according to claim 1 , wherein a backwashing water port ( 27 ) is formed in the bottom of the filter tank ( 21 ), a backwashing water pipe ( 28 ) is arranged between the backwashing water port ( 27 ) and a water inlet of the backwashing device ( 24 ), and a backwashing water pump ( 29 ) is arranged on the backwashing water pipe ( 28 ). 5. The split continuous operation micro-grid dynamic membrane bioreactor according to claim 1 , wherein the filter drum ( 22 ) comprises a filter cartridge ( 221 ), two ends of the filter cartridge ( 221 ) are provided with sealing plates ( 222 ) respectively, a central hole ( 223 ) coaxial with the filter cartridge ( 221 ) is formed in one of the sealing plates ( 222 ), and the inner diameter of the central hole ( 223 ) is smaller than that of the filter cartridge ( 221 ).