Method for classifying phreatic leakage disaster level in shallow coal seam mining

What is claimed is: 1. A method for classifying a phreatic leakage disaster level in shallow coal seam mining, comprising the following steps: S 1 . collecting a mine plan of a to-be-mined coal seam working face in a mining area, arranging a monitoring point, and burying a telemetering water level gauge to monitor a water level; S 2 . according to the monitoring point arranged in the step S 1 , during mining of the to-be-mined coal seam working face, monitoring a ground elevation at the monitoring point, calculating a ground subsidence amount, and collecting information about a mining advance distance of the to-be-mined coal seam working face; S 3 . plotting variation relationship curves of the mining advance distance and a phreatic water level, and the mining advance distance and a ground subsidence according to the mining advance distance and the ground subsidence amount obtained in the step S 2 and the water level monitoring information obtained in the step S 1 ; and S 4 . comparing the relationship curve with a no-phreatic leakage graph, a slight-phreatic leakage graph, and a heavy-phreatic leakage graph, and classifying a mined coal seam working face as a no-phreatic leakage area, a slight-phreatic leakage area, or a heavy-phreatic leakage area. 2. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 1 , wherein in the step S 1 , a location for arranging the monitoring point of the to-be-mined coal seam working face is located at the center of the to-be-mined coal seam working face, a buried depth of a probe of the telemetering water level gauge is below a monitored water level in a mining process, and water level monitoring is performed immediately after the telemetering water level gauge is completely buried. 3. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 2 , further comprising the following step: S 5 . defining the no-phreatic leakage area as an environment friendly area, defining the heavy-phreatic leakage area as an environmental disaster area, calculating a water level buried depth of the slight-phreatic leakage area in the step S 4 , if the water level buried depth is deeper than a local ecological water level buried depth, classifying the mining coal seam working face as the environmental disaster area, and if the water level buried depth is shallower than the local ecological water level buried depth, classifying the mining coal seam working face as the environment friendly area. 4. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 3 , wherein a formula for calculating the water level buried depth of the slight-phreatic leakage area in the step S 4 is S=He 0− Hw, wherein S is the water level buried depth, in meter; He0 is the initial ground elevation at the monitoring point, in meter; and Hw is a monitored water level of the telemetering water level gauge, in meter. 5. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 1 , wherein in the step S 2 , a formula for calculating the ground subsidence amount at the monitoring point is as follows: Δ H=He 0− He , wherein ΔH is the ground subsidence amount, in meter; He0 is an initial ground elevation at the monitoring point, in meter; and He is a ground elevation at the monitoring point during a mining process, in meter. 6. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 5 , further comprising the following step: S 5 . defining the no-phreatic leakage area as an environment friendly area, defining the heavy-phreatic leakage area as an environmental disaster area, calculating a water level buried depth of the slight-phreatic leakage area in the step S 4 , if the water level buried depth is deeper than a local ecological water level buried depth, classifying the mining coal seam working face as the environmental disaster area, and if the water level buried depth is shallower than the local ecological water level buried depth, classifying the mining coal seam working face as the environment friendly area. 7. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 6 , wherein a formula for calculating the water level buried depth of the slight-phreatic leakage area in the step S 4 is S=He 0− Hw, wherein S is the water level buried depth, in meter; He0 is the initial ground elevation at the monitoring point, in meter; and Hw is a monitored water level of the telemetering water level gauge, in meter. 8. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 1 , wherein in the step S 2 , a precision of monitoring of the ground elevation at the monitoring point is 0.001 m. 9. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 8 , further comprising the following step: S 5 . defining the no-phreatic leakage area as an environment friendly area, defining the heavy-phreatic leakage area as an environmental disaster area, calculating a water level buried depth of the slight-phreatic leakage area in the step S 4 , if the water level buried depth is deeper than a local ecological water level buried depth, classifying the mining coal seam working face as the environmental disaster area, and if the water level buried depth is shallower than the local ecological water level buried depth, classifying the mining coal seam working face as the environment friendly area. 10. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 9 , wherein a formula for calculating the water level buried depth of the slight-phreatic leakage area in the step S 4 is S=He 0− Hw, wherein S is the water level buried depth, in meter; He0 is the initial ground elevation at the monitoring point, in meter; and Hw is a monitored water level of the telemetering water level gauge, in meter. 11. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 1 , wherein in the step S 4 , a ground subsidence variation curve in the no-phreatic leakage graph, the slight-phreatic leakage graph, and the heavy-phreatic leakage graph is divided into five stages including a non-subsiding stage, a slow subsiding stage, an accelerated subsiding stage, a slowed-down subsiding stage, and a steady subsiding stage; and a water level variation curve in the no-phreatic leakage graph is divided into: a rapid water level lowering stage, a transient steady water level stage, a rapid water level rising stage, a slow water level rising stage, and a steady water level stage; a water level variation curve in the slight-phreatic leakage graph is divided into: a rapid water level lowering stage, a transient steady water level stage, a slow water level rising stage, and a steady water level stage; and a water level variation curve in the heavy-phreatic leakage graph is divided into: rapid water level lowering stage. 12. The method for classifying a phreatic leakage disaster level in shallow coal seam mining according to claim 11 , further comprising the following step: S 5 . defining the no-phreatic leakage area as an environment friendly area, defining the heavy-phreatic leakage area as an environmental disaster area, calculating a water level buried depth of the slight-phreatic leakage area in the step S 4 , if the water level buried depth is deeper than a local ecological water level buried depth, classifying the