Pressure-retaining cap screwing and unscrewing device for marine natural gas hydrate pressure-retaining rock-core barrel

Abstract

The present disclosure discloses a pressure-retaining cap screwing and unscrewing device for a marine natural gas hydrate pressure-retaining rock-core barrel, wherein it comprises a cap-unscrewing chuck, a support cylinder, a pressure-retaining cap screwing and unscrewing head, a spring, a screwing and unscrewing shaft, and a pressure-retaining cap screwing and unscrewing sleeve, a reducer and a motor; an input shaft of the reducer is connected to the motor, an output shaft of the reducer is the screwing and unscrewing shaft which is a tubular structure with a plurality of guide holes provided on a side wall thereof. The device is simple in structure, compact, light in weight, and convenient to control, and the pressure-retaining cap can be discarded.

Claims

1. A pressure-retaining cap screwing and unscrewing device for a marine natural gas hydrate pressure-retaining rock-core barrel, wherein the pressure-retaining cap screwing and unscrewing device comprises a cap-unscrewing chuck, a support cylinder, a pressure-retaining cap screwing and unscrewing head, a spring, a screwing and unscrewing shaft, and a pressure-retaining cap screwing and unscrewing sleeve, a reducer and a motor; an input shaft of the reducer is connected to the motor, an output shaft of the reducer is the screwing and unscrewing shaft which is a tubular structure with a plurality of guide holes provided on a side wall thereof; a bottom of the screwing and unscrewing shaft is fixed with a connecting head; an end of the pressure-retaining cap screwing and unscrewing head facing the screwing and unscrewing shaft is provided with a blind hole, a top of the blind hole is provided with a guide hole, the top of the blind hole is connected to a boss on a side wall of the screwing and unscrewing shaft through a spring, a top surface of the pressure-retaining cap screwing and unscrewing head is provided with a plurality of forks, the pressure-retaining cap screwing and unscrewing head is coaxial with the screwing and unscrewing shaft; the pressure-retaining cap screwing and unscrewing sleeve is mounted on the screwing and unscrewing shaft and is located outside of the pressure-retaining cap screwing and unscrewing head, a guide plate on an outer wall of the pressure-retaining cap screwing and unscrewing head is mounted in a guide groove of the pressure-retaining cap screwing and unscrewing sleeve; the support cylinder is mounted on the reducer and is located outside of the pressure-retaining cap screwing and unscrewing sleeve; and a top of the support cylinder is mounted with the cap-unscrewing chuck.

2. The pressure-retaining cap screwing and unscrewing device for the marine natural gas hydrate pressure-retaining rock-core barrel according to claim 1, wherein a bottom of the pressure-retaining cap screwing and unscrewing sleeve is provided with a polygonal hole, a polygonal boss is provided on the screwing and unscrewing shaft where the screwing and unscrewing sleeve is mounted, the pressure-retaining cap screwing and unscrewing sleeve is mounted on the screwing and unscrewing shaft through cooperation of the polygonal hole of the pressure-retaining cap screwing and unscrewing sleeve with the polygonal boss of the screwing and unscrewing shaft.

3. The pressure-retaining cap screwing and unscrewing device for the marine natural gas hydrate pressure-retaining rock-core barrel according to claim 1, wherein the cap-unscrewing chuck comprises a chuck case, two slip bases and two chuck oil cylinders, top and bottom plates of the chuck case are respectively provided with guide holes through which the marine natural gas hydrate pressure-retaining rock-core barrel can pass, the two slip bases are oppositely arranged in the chuck case, facing ends of the two slip bases are each provided with a V-shaped groove composed of three planes, and one of planes of the V-shaped groove which located in the bottom of the V-shaped groove is parallel to a side surface of the slip base 106; opposite ends of the two slip bases are respectively connected with piston rods of the two chuck oil cylinders, piston rods of the two chuck oil cylinders are coaxial, and the chuck oil cylinders are mounted on the chuck case.

4. The pressure-retaining cap screwing and unscrewing device for the marine natural gas hydrate pressure-retaining rock-core barrel according to claim 3, wherein each of the three planes of the V-shaped groove on the slip base is provided with alloy slip.

5. The pressure-retaining cap screwing and unscrewing device for the marine natural gas hydrate pressure-retaining rock-core barrel according to claim 1, further comprising a base which is provided with two lifting oil cylinders, a piston rod of the lifting oil cylinder is connected to the reducer; the base is further provided with a high-pressure water pump, a water outlet of the high-pressure water pump is connected with a connector fixed at a bottom of the screwing and unscrewing shaft through a water pipe.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view of the present disclosure.

(2) FIG. 2 is a schematic view of a cap-unscrewing chuck according to the present disclosure.

(3) FIG. 3 is a schematic view of a slip base of a cap-unscrewing chuck according to the present disclosure.

(4) FIG. 4 is a schematic view of a pressure-retaining cap screwing and unscrewing head of the present disclosure.

(5) FIG. 5 is a schematic view of a screwing and unscrewing shaft of the present disclosure.

(6) FIG. 6 is a schematic view of a pressure-retaining screwing and unscrewing sleeve of the present disclosure.

(7) FIG. 7 is a state diagram of the marine natural gas hydrate pressure-retaining rock-core barrel and the pressure-retaining cap before screwing (the pressure-retaining cap has been temporarily stored in the pressure-retaining screwing and unscrewing device).

(8) FIG. 8 is a state diagram of the marine natural gas hydrate pressure-retaining rock-core barrel and the pressure-retaining cap upon screwing.

(9) FIG. 9 is a state diagram of the marine natural gas hydrate pressure-retaining rock-core barrel and the pressure-retaining cap after screwing.

(10) In the drawings: 1cap-unscrewing chuck, 101chuck oil cylinder, 102piston rod, 103bolt, 104chuck case, 105center guide hole, 106slip base, 107alloy slip, 2support cylinder, 3pressure-retaining screwing and unscrewing head, 301guide hole, 302fork, 303guide plate, 304blind hole, 4spring, 5screwing and unscrewing shaft, 501guide hole, 502boss, 503octagonal boss, 504screwing and unscrewing shaft inner hole, 505screwing and unscrewing shaft key slot, 6pressure-retaining cap screwing and unscrewing sleeve, 601guide groove, 602pressure-retaining cap screw cap Inner hole, 603octagonal hole, 7reducer, 8lift cylinder, 801lift cylinder piston rod, 9base, 10motor, 11connector, 12water pipe, 13high-pressure water pump, 14marine natural gas hydrate pressure-retaining rock-core barrel, 15pressure-retaining cap.

DETAILED DESCRIPTION OF EMBODIMENTS

(11) The present disclosure is further described below with reference to the drawings. As shown in FIG. 1, the present disclosure comprises a cap-unscrewing chuck 1, a support cylinder 2, a pressure-retaining screw cap 3, a spring 4, a screwing and unscrewing shaft 5, a pressure-retaining screw cap 6, a reducer 7, a motor 10 and a base 9. The base 9 is provided with two lifting oil cylinders 8 and a high-pressure water pump 13. The lifting oil cylinder piston rod 801 of the lifting oil cylinder 8 is connected to the reducer 1. The input shaft of the reducer 7 is connected to the motor 10. The output shaft of the reducer 7 is the screwing and unscrewing shaft 5. The screwing and unscrewing shaft 5 is a tubular structure of which the side wall is provided with a plurality of guide holes 501 (as shown in FIG. 5). A connecting head 11 is fixed at the bottom of the screwing and unscrewing shaft 5, and the connecting head 11 is connected to the water outlet of the high-pressure water pump 13 through a water pipe 12.

(12) As shown in FIGS. 1, 4 and 5, the end of the pressure-retaining cap screwing and unscrewing head 3 facing the screwing and unscrewing shaft is provided with a blind hole 304 which is provided with a guide hole 301 at the top. The top of the blind hole 304 is connected to the circular boss 502 on the side wall of the screwing and unscrewing shaft 5 through a spring; the blind hole 304 can accommodate the pressure-retaining screwing and unscrewing head 3 of the spring 4; the top surface of the pressure-retaining screwing and unscrewing head 3 is provided with a plurality of forks 302; and the pressure-retaining cap screwing and unscrewing head 3 and the screwing and unscrewing shaft 5 are coaxial. As shown in FIGS. 1, 5 and 6, the bottom of the pressure-retaining cap screwing and unscrewing sleeve 6 is provided with an octagonal hole 603 (it can also be a quadrangular hole, a pentagonal hole, or other polygonal hole). An octagonal boss 503 (also a polygonal boss such as a quadrangular boss, a pentagonal boss, etc.) is provided on the screwing and unscrewing shaft 5 at where the pressure-retaining cap screwing and unscrewing sleeve is mounted; the pressure-retaining cap screwing and unscrewing sleeve 6 is engaged on the octagonal boss 503 of the screwing and unscrewing shaft through the octagonal hole 603, located outside the retaining cap screwing and unscrewing head 3; the outer wall of the retaining cap screwing and unscrewing head 3 is evenly arranged with four guide plates 303, and the inner wall of the retaining cap screwing and unscrewing sleeve 6 is evenly arranged with four guide grooves 601; and the four guide plates 303 of the pressure-retaining cap screwing and unscrewing head 3 are respectively mounted in the four guide grooves 601 of the pressure-retaining cap screwing and unscrewing sleeve. The support cylinder 2 is mounted on the reducer, and is located outside the pressure-retaining cap screwing and unscrewing sleeve 6; and the top of the support cylinder 2 is equipped with a cap-unscrewing chuck 1.

(13) As shown in FIGS. 1, 2, and 3, the cap-unscrewing chuck 1 comprises a chuck case 104, two slip bases 106, and two chuck oil cylinders 101. The top and bottom plates of the chuck case 104 are respectively provided with guide holes 105 through which the marine natural gas hydrate pressure-retaining rock-core barrels can pass. Facing ends of the two slip bases 106 are each provided with a V-shaped groove composed of three planes, and one of planes of the V-shaped groove which located in the bottom of the V-shaped groove is parallel to a side surface of the slip base 106, and the three planes composing the V-shaped groove are respectively provided with alloy slip 107. Opposite ends of the two slip bases 106 are respectively connected with piston rods 102 of the two chuck oil cylinders 101, piston rods 102 of the two chuck oil cylinders 101 are coaxial, and the chuck oil cylinders 101 are mounted on the chuck case 104.

(14) When the present disclosure is used, it clamps the marine natural gas hydrate pressure-retaining rock-core barrel 14 through the cap-unscrewing chuck 1, and drives screwing and unscrewing shaft 7 by the motor 10 through the reduction box 7, causing the pressure-retaining cap screwing and unscrewing sleeve 6 and the pressure-retaining cap screwing and unscrewing head 3 to drive the pressure-retaining cap 15 to screw and unscrew the thread, which realizes the fast screwing and unscrewing of the threads between the marine natural gas hydrate pressure-retaining rock-core barrel and the pressure-retaining cap. When the threads fail between the marine natural gas hydrate pressure-retaining rock-core barrel 14 and the pressure-retaining cap 15, by supplying high-pressure water to the screwing and unscrewing shaft 15 through the water pipe 12 by the high pressure pump 13, the pressure-retaining cap 15 temporarily stored in the pressure-retaining screwing and unscrewing device can be discarded, thereby not affecting screwing and unscrewing of threads of the next marine natural gas hydrate pressure-retaining rock-core barrel and the pressure-retaining cap.