Forced separation device for submarine drilling machine and drilling tool

Abstract

A forced separation device includes a transmission shaft, a main shaft, an electromagnetic transmission mechanism, a blasting separation mechanism and a pressure-resistant cabin. A pressing cover is fastened to the upper portion of the pressure-resistant cabin. The electromagnetic transmission mechanism is provided with a driving chuck and a driven chuck. The driving chuck is connected with the transmission shaft, the driven chuck is connected with the main shaft, the pressing cover is welded with the transmission shaft, and the driven chuck is welded with the lower portion of the pressure-resistant cabin. The blasting separation mechanism is provided with explosive packages and detonators. A plurality of explosive packages are distributed between the pressing cover and the top surface of the pressure-resistant cabin, and each explosive package is connected with the corresponding detonator respectively. The pressure-resistant cabin is further internally provided with a storage battery.

Claims

1. A forced separation device for a submarine drilling machine and a drilling tool, comprising a transmission shaft, a main shaft, an electromagnetic transmission mechanism, a blasting separation mechanism and a pressure-resistant cabin, wherein a pressing cover is fastened to an upper portion of the pressure-resistant cabin, the electromagnetic transmission mechanism is provided with a driving chuck and a driven chuck which are attracted with each other, the driving chuck is connected with the transmission shaft, the driven chuck is connected with the main shaft, the pressing cover is welded with the transmission shaft, and the driven chuck is welded with a lower portion of the pressure-resistant cabin; the blasting separation mechanism is provided with a plurality of explosive packages and detonators, the explosive packages are distributed between the pressing cover and a top surface of the pressure-resistant cabin, and each explosive package is connected with a corresponding detonator respectively; and the pressure-resistant cabin is further internally provided with a storage battery for supplying power to the electromagnetic transmission mechanism and the blasting separation mechanism.

2. The forced separation device according to claim 1, wherein the pressing cover and the pressure-resistant cabin are connected through a plurality of screws, each explosive package corresponds to a corresponding screw respectively, and the explosive packages are glued with the pressing cover through super glue.

3. The forced separation device according to claim 2, wherein a clamping groove is formed in the main shaft, a snap ring is mounted in the clamping groove, a snap ring mounting groove is formed in the driven chuck, and the snap ring is located in the snap ring mounting groove.

4. The forced separation device according to claim 3, wherein a detonation switch and a separation switch are arranged on a side wall of the pressure-resistant cabin, the detonation switch is connected with the detonators and the storage battery through circuits respectively, and the separation switch is connected with the electromagnetic coils and the storage battery through circuits respectively.

5. The forced separation device according to claim 4, wherein the pressure-resistant cabin is externally provided with a pressure compensator connected with the pressure-resistant cabin.

6. The forced separation device according to claim 5, wherein the driving chuck is formed by folding chuck upper bodies and chuck lower bodies, and electromagnetic coils are located between the chuck upper bodies and the chuck lower bodies.

7. The forced separation device according to claim 6, wherein the driving chuck is connected with the transmission shaft through a flat key.

8. The forced separation device according to claim 7, wherein the driven chuck is in threaded connection with the main shaft.

9. The forced separation device according to claim 8, wherein a sealing gasket is arranged between the pressing cover and the pressure-resistant cabin.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present disclosure is further described below in combination with the attached figures.

(2) FIG. 1 is a structural diagram of the present disclosure;

(3) FIG. 2 is a top view of FIG. 1;

(4) FIG. 3 is a schematic diagram for distribution of explosive packages;

(5) FIG. 4 is a partial enlarged diagram of an A part in FIG. 3; and

(6) FIG. 5 is a structural schematic diagram of a snap ring.

(7) Reference signs: 1, transmission shaft; 2, pressing cover; 3, explosive package; 4, sealing gasket; 5, pressure-resistant cabin; 6, pressure compensator; 7, chuck upper body; 8, electromagnetic coil; 9, chuck lower body; 10, snap ring; 11, driven chuck; 12, main shaft; 13, storage battery; 14, separation switch; 15, detonation switch; 16, flat key; 17, wire; 18, screw; and 19, detonator.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(8) Referring to FIG. 1 and FIG. 5, a forced separation device for a submarine drilling machine and a drilling tool comprises a transmission shaft 1, a main shaft 12, an electromagnetic transmission mechanism, a blasting separation mechanism and a pressure-resistant cabin 5, a pressing cover 2 is fastened to the top of the pressure-resistant cabin, a sealing gasket 4 is arranged between the pressing cover and the pressure-resistant cabin, and the pressing cover is fastened with the pressure-resistant cabin through screws 18, so that a closed cavity is formed in the pressure-resistant cabin. The upper end of the transmission shaft is in threaded connection with the output shaft of a power head to transmit power of the output shaft of the power head. The main shaft is welded with the pressing cover. The electromagnetic transmission structure is provided with a driving chuck and a driven chuck 11 which are attracted with each other. The driving chuck is formed by folding chuck upper bodies 7 and chuck lower bodies 9, and electromagnetic coils are located between the chuck upper bodies and the chuck lower bodies. The driving chuck is connected with the transmission shaft through a flat key 16, and rotates along with the transmission shaft. The driven chuck is in threaded connection with the main shaft, the lower end of the main shaft is connected with the drilling tool, and the driven chuck is welded with the lower portion of the pressure-resistant cabin. A clamping groove is formed in the main shaft, a snap ring 10 is mounted in the clamping groove, a snap ring mounting groove is formed in the driven chuck, and the snap ring is located in the snap ring mounting groove. The snap ring plays a role in supporting the driving chuck and also has an axial positioning function. The pressure-resistant cabin is further internally provided with a storage battery 13 for supplying power to the electromagnetic transmission mechanism and the blasting separation mechanism. The pressure-resistant cabin is externally provided with a pressure compensator 6 connected with the pressure-resistant cabin. When the submarine drilling machine works normally and the electromagnetic transmission mechanism is in a power-on state, the driving chuck and the driven chuck are attracted to transmit torque and rotating speed of the power head to the main shaft, the lower end of the main shaft is connected with the drilling tool, and a drilling function is achieved.

(9) Referring to FIG. 1 to FIG. 4, the blasting separation mechanism is used for forcing the submarine drilling machine to be disengaged from the drilling tool in submarine emergency situations. The blasting separation mechanism is provided with a plurality of explosive packages 3, the explosive packages are distributed between the pressing cover and the top surface of the pressure-resistant cabin, each explosive package corresponds to the corresponding screw respectively, the explosive packages are fixed with the pressing cover through super glue, and each explosive package is connected with the corresponding detonator 19 respectively. The detonators are electric delay fuses with a delay function, the delay time between different detonators is set according to the distance between different explosive packages and the electric signal transmission speed, the capacity required for destroying the force is calculated according to the pre-tightening force of bolts, and then explosives are configured and packaged, so that the purpose of blasting is achieved. A detonation switch 15 and a separation switch 14 are arranged on the side wall of the pressure-resistant cabin, the detonation switch is connected with the detonators and the storage battery through circuits respectively, and the separation switch is connected with the electromagnetic coils and the storage battery through circuits respectively. The detonation switch and the separation switch are toggle switches, so that the switches are prevented from being pressed and forced to start by seawater pressure.

(10) When the drilling tool needs to be discarded and the submarine drilling machine needs to be recycled under the special conditions of collapse in a well or power failure of the drilling machine and the like, an ROV (remote operated vehicle, scientific investigation or geological survey ship standard equipment) is released underwater, and the ROV firstly shifts the separation switch, so that two chucks of the electromagnetic transmission mechanism are powered off and separated; and then the detonation switch is shifted, the detonators initiate the explosive packages to directionally explode to separate the pressing cover from the pressure-resistant cabin, so that the part above the electromagnetic driving chuck and the part below the electromagnetic driven chuck are forcibly separated, the submarine drilling machine can be lifted, and recycling of the submarine drilling machine is achieved.