Coring tool, coring method, and application thereof

The invention claimed is: 1 . A coring tool ( 1000 ), comprising a housing ( 100 ), a differential device ( 200 ) for selective force transmission and a core gripping device ( 300 ) for core cutting operations both arranged within the housing ( 100 ), and a coring bit ( 500 ) connected to a lower end of the housing ( 100 ), wherein the differential device ( 200 ) comprises a differential unit ( 210 ), and a suspension unit ( 260 ) arranged downstream of the differential unit ( 210 ), and the core gripping device ( 300 ) comprises a first core gripper ( 350 ), a second core gripper ( 360 ), and a shielding mechanism ( 310 ); when the coring tool is in a first state, the coring bit ( 500 ) is configured to perform coring operation, while the second core gripper ( 360 ) is shielded by the shielding mechanism ( 310 ); when the coring tool is in a second state, the first core gripper ( 350 ) is configured to move downwardly in response to a downward pressure from the differential device ( 200 ), thereby performing a first core cutting operation; when the coring tool is in a third state, the shielding mechanism ( 310 ) is configured to expose the second core gripper ( 360 ) in response to an upward pulling force from the differential device ( 200 ), thereby performing a second core cutting operation; and the suspension unit ( 260 ) comprises a first pressure-building mechanism ( 261 ), and a first positioning mechanism ( 270 ) arranged downstream of the first pressure-building mechanism ( 261 ), the first positioning mechanism comprising an outer positioning member ( 271 ), an inner positioning member ( 272 ), and a first actuating member ( 273 ) arranged therebetween, and a lower end of the first actuating member ( 273 ) being fixedly connected to the shielding mechanism ( 310 ); wherein in the first state, the first actuating member ( 273 ) is locked to the outer positioning member ( 271 ) through a second locking mechanism ( 275 ), and the inner positioning member ( 272 ) is connected to the outer positioning member ( 271 ) through a second shear pin ( 277 ); and in the second state, the first pressure-building mechanism ( 261 ) is actuated to shear off the second shear pin ( 277 ), thereby pushing the inner positioning member ( 272 ) to move downwardly to release the second locking mechanism ( 275 ), so that the first actuating member ( 273 ) transfers the downward pressure to the shielding mechanism ( 310 ). 2 . The coring tool according to claim 1 , wherein the second locking mechanism ( 275 ) comprises a second through slot ( 281 ) within the first actuating member ( 273 ), and a second locking block ( 280 ) extending through the second through slot ( 281 ), an outer end of the second locking block ( 280 ) extending into a second blind slot ( 282 ) formed in an inner surface of the outer positioning member ( 271 ), and a projection ( 274 ) formed on an outer surface of the inner positioning member ( 272 ), wherein in the first state, an inner end of the second locking block engages with the projection ( 274 ) of the inner positioning member ( 272 ), and in the second state, the inner positioning member ( 272 ) moves downwardly, so that the second locking block ( 280 ) disengages from the projection ( 274 ), thereby releasing the first actuating member ( 273 ) from the outer positioning member ( 271 ). 3 . The coring tool according to claim 2 , wherein the first actuating member ( 273 ) comprises a pressure-bearing seat ( 288 ) fixedly connected thereto, and the inner positioning member ( 272 ) comprises a positioning cylinder ( 269 ) abutting against the first pressure-building mechanism ( 261 ) and a first shear ring ( 276 ) abutting against the positioning cylinder ( 269 ), the first shear ring ( 276 ) being arranged on the pressure-bearing seat ( 288 ) via the second shear pin ( 277 ). 4 . The coring tool according to claim 3 , wherein the first pressure-building mechanism ( 261 ) comprises a first ball seat ( 262 ) arranged on the outer positioning member ( 271 ), which has a recess portion ( 268 ) with an increasing inner diameter, and the pressure-bearing seat ( 288 ) is further provided with a second shear ring ( 278 ) connected thereto through a third shear pin ( 279 ) and arranged downstream of the first shear ring ( 276 ), the third shear pin ( 279 ) being configured to be sheared off after the second shear pin ( 277 ), so that the first ball seat ( 262 ) is allowed to move downwardly further to the recess portion ( 268 ), thereby forming a circulation channel for pressure relief. 5 . The coring tool according to claim 4 , wherein the first actuating member ( 273 ) further comprises a flange ( 266 ) configured to engage a lower step in the recess portion ( 268 ), thereby forming a force-transferring connection between the outer positioning member ( 271 ) and the first actuating member ( 273 ). 6 . The coring tool according to claim 4 , wherein the suspension unit ( 260 ) further comprises a second pressure-building mechanism ( 263 ) configured to allow a downhole fluid to flow through the coring tool prior to being actuated, and to allow the coring tool to enter the first state after being actuated. 7 . The coring tool according to claim 6 , wherein the differential unit ( 210 ) comprises a first jaw joint ( 220 ) and a second jaw joint ( 230 ) that are connected to each other in a moveable but non-rotatable manner, a third locking mechanism ( 240 ) for selectively locking or releasing relative movement between the first jaw joint ( 220 ) and the second jaw joint ( 230 ), and a second actuating member ( 225 ) for actuating the third locking mechanism ( 240 ), wherein a lower end of the first jaw joint ( 220 ) is fixedly connected to the outer positioning member ( 271 ) of the suspension unit ( 260 ), and a lower end of the second jaw joint ( 230 ) is affixed to an upper end of the housing ( 100 ). 8 . The coring tool according to claim 7 , wherein the third locking mechanism ( 240 ) comprises a third through slot ( 241 ) arranged within the second jaw joint ( 230 ), and a third locking block ( 242 ) extending through the third through slot ( 241 ), wherein an outer end of the third locking block ( 242 ) extends into a third blind slot ( 243 ) formed in an inner surface of the first jaw joint ( 220 ), while an inner end thereof engages with the second actuating member ( 225 ). 9 . The coring tool according to claim 8 , wherein the differential unit ( 210 ) comprises a third pressure-building mechanism ( 211 ), the first jaw joint ( 220 ) and the second actuating member ( 225 ) connected to each other through a fourth shear pin ( 228 ); and the third pressure-building mechanism ( 211 ) is configured to be actuated in the third state to shear off the fourth shear pin ( 228 ), thereby allowing the second actuating member ( 225 ) to move downwardly and the third locking block ( 242 ) to move inwardly in a radial direction, so that the third locking mechanism ( 240 ) is released, and the first jaw joint ( 220 ) and the second jaw joint ( 230 ) are movable relative to each other. 10 . The coring tool according to claim 9 , wherein the differential unit ( 210 ) further comprises an outer adjusting member ( 250 ) and an inner adjusting member ( 255 ), wherein the outer adjusting member ( 250 ) is arranged on an inner side of the second jaw joint ( 230 ), and fixedly connected to the lower end of the first jaw joint ( 220 ), and the inner adjusting member ( 255 ) is arranged on and fixedly connected to an inner side of the outer adjusting member ( 250 ), and has a lower end thereof fixedly connected to the outer positioning member ( 271 ). 11 . The coring tool according to clai