Surface layer conductor running tool for deep-water well drilling

What is claimed is: 1. A surface layer conductor running tool for deep-water well drilling, comprising: a mandrel, an inner sleeve, an outer sleeve, and a main body, wherein the inner sleeve, the outer sleeve, and the main body are fitted over the mandrel sequentially; the inner sleeve is configured to slide up and down but is configured to not rotate in relation to the mandrel, the outer sleeve and the inner sleeve are connected via a transmission thread pair, and the main body is situated on the inner sleeve; at least one retaining pawl penetrating the main body and radially slidable in horizontal direction; and an anti-rotation pin penetrating the main body and the outer sleeve, so that the outer sleeve is configured to move up and down in the main body only, but is configured to not rotate; the main body and the inner sleeve form a cavity in which the outer sleeve is located; the main body has eight flow-back holes distributed symmetrical along the circumference, a bottom surface of the main body has four rib plates arranged radially and distributed evenly along the circumference, the at least one retaining pawl includes eight retaining pawls, the eight retaining pawls are arranged radially on a middle part of the main body and are evenly distributed along the circumference, the retaining pawls are configured to slide radially in the main body, an inner end of each of the retaining pawls is in a semi-spherical shape configured to engage the outer sleeve, and an outer end of each of the retaining pawls has three horizontal protruding claws configured to engage the conductor; an outer diameter of the main body is varying, larger at an upper part and smaller at a lower part. 2. The surface layer conductor running tool for deep-water well drilling according to claim 1 , wherein the mandrel is a hollow mandrel and has a center hole, an upper end of the mandrel has internal threads, and a lower end of the mandrel has external threads; an outer wall at a top end of the mandrel has four identical vertical grooves arranged at the same height and distributed evenly along the circumference; a lower part of the mandrel has a boss, the outer wall of which has four identical vertical step grooves arranged at the same height and distributed evenly along the circumference; each step groove includes one horizontal groove and two vertical grooves, wherein the horizontal groove is an arc groove in the circumferential direction, both vertical grooves are located at both ends of the horizontal groove and extend from both ends of the horizontal groove in opposite directions, and the vertical groove extending upwards has an opening at its top end. 3. The surface layer conductor running tool for deep-water well drilling according to claim 2 , wherein the inner sleeve is a tubular structure, an inner diameter of a upper part of the inner sleeve is equal to an outer diameter of the upper part of the mandrel, and an inner diameter of a lower part of the inner sleeve is equal to the outer diameter of the boss of the mandrel; four shear pins are fixed to a top end of the inner sleeve at the same height and are distributed symmetrically along the circumference, and the four shear pins extend into the vertical grooves in the upper part of the mandrel, so that the inner sleeve is configured to move up and down axially only but is configured to not rotate in relation to the mandrel. 4. The surface layer conductor running tool for deep-water well drilling according to claim 3 , wherein four positioning keys are fixed to an inner wall at a bottom end of the inner sleeve at the same height, and are evenly distributed along the circumference; the positioning keys are inserted into the step grooves in the lower part of the mandrel; an outer wall at a middle part of the inner sleeve has trapezoid transmission threads. 5. The surface layer conductor running tool for deep-water well drilling according to claim 4 , wherein the outer sleeve is a tubular structure, an inner diameter of an upper part of the outer sleeve is equal to an outer diameter of the upper part of the inner sleeve, the lower part of an inner wall of the outer sleeve has trapezoid transmission threads, which are engaged with the transmission threads on the outer wall of the inner sleeve; a middle part of an outer wall of the outer sleeve has an annular reducing groove, the groove depth of which increases from top to bottom. 6. The surface layer conductor running tool for deep-water well drilling according to claim 5 , wherein a columnar indication rod is fixed to a top of the outer sleeve via threads, an anti-rotation groove in vertical direction is arranged in the outer wall of the lower part. 7. The surface layer conductor running tool for deep-water well drilling according to claim 6 , wherein the main body is a hollow cylinder structure, an inner diameter of the main body is larger at the upper part and smaller at the lower part, the inner diameter of the upper part is equal to the outer diameter of the outer sleeve, the inner diameter of the lower part is equal to the outer diameter of the inner sleeve, the clearance between the inner diameter of the lower part of the main body and the outer diameter of the inner sleeve is sealed by an O-ring seal. 8. The surface layer conductor running tool for deep-water well drilling according to claim 7 , wherein an inner diameter of a sealing cap is equal to the outer diameter of the upper part of the inner sleeve, the sealing cap is fitted over the inner sleeve and is fixed to the top surface of the main body by eight screws symmetrically distributed along the circumference, and the clearance between the sealing cap and the inner sleeve is sealed by an O-ring seal.