SU985303A1 - Tool for drilling large-diameter holes - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to technical means used in drilling large diameter wells and backwash holes. A device for drilling wells is known, which includes a boring column corpus case, an ejector with water supply channels, a nozzle and a diffuser, and a rock cutting tool 1. A disadvantage of the known device is that when the projectile with backwash in clay rocks, the drilling tool is hammered with cuttings, which reduces the mechanical drilling speed and penetration. Periodic reverse-to-direct change somewhat improves the conditions for rock destruction at the bottomhole, but does not eliminate these drawbacks. Closest to the present invention is a drilling rig, which includes a housing with a suction tube, jet devices for direct and reverse injection from a grating chamber, suction chambers and mixing chambers with diffusers, and a rock cutting tool with flushing channels 2 The drawback of this drill string is inadequate cleaning drilling tools from the drill and the lack of removal of sludge from the bottom. The purpose of the invention is to improve the drilling performance by preventing the rock tool from clogging the rock tool and improving the cleaning of the sludge bed. This goal is achieved by the fact that the projectile for drilling large-diameter wells, including a housing with a suction pipe, jet devices, direct and reverse injection with nozzles, suction chambers and mixing chambers with diffusers and rock-breaking tool with flushing channels, is equipped with a casing rigidly connected with the housing and placed above the rock-breaking tool a concentric tube with an intake suction side, forming an annular cavity between the suction tube and the housing, which is connected on one side to the cannons Alai rock cutting tool, and the other - with the d-impusor jet apparatus of direct injection.

The drawing shows a projectile for drilling large-diameter wells, a longitudinal section.

Snar d includes rock cutting tool 1, body 2, water supply pipe 3, BcacbiBaromsTo 4 and pressure 5, forming respectively WATERPS1 DIRECTING channel 6, suction 7 and pressure 8, jet device 9 of geological injection, consisting of nozzle 10 suction unit 11 suction and chime chamber 10 with a diffuser 13. The direct injection jet apparatus 14 is installed parallel to the main body in the housing 2 and consists of a nozzle 15 of the suction chamber 16 and a mixing chamber 17 with the diffuser 18, and a nozzle 1.5 of the jet apparatus 14 of the direct injection hydrav is connected to the water supply channel 6, the suction chamber 16 is connected to the outer space by the channel 19, and the diffuser 18 is hydraulically connected to the annular discharge channel 20 formed by the annular casing 21 connected by a housing 2 with a rock-destroying tool 1 containing washing channels 22, which are directed to rock elements 23.

The device works as follows.

The tank is lowered into the well 24 and through the water supply channel 6 a washing liquid 25 is fed into the nozzles 10 of the jet device 9 back in its injection. At the same time, fluid 26 with destroyed rock is sucked from channel 7 and enters the discharge channel 8. Some liquid 25 from the water supply channel 6 enters the nozzle 15 of the jet device 14 for direct injection and, when it leaves, some liquid 27 flows through channel 19 from the well 24. Further, the flow passes through the mixing chamber 17 and the diffuser 18 into the annular channel 20 and through the flushing channels 22 is supplied to the rock-breaking elements 23. This prevents them from sticking and cleans the bottom of the well 24 from cuttings. The flow of fluid 26 with the destroyed rock flows to the axis of the drilling tool 1 and through the suction 7 and injection. 8 channels carried to the surface.

The rtpeHMSTuecTBO of the proposed device as compared with the known ones is that the drilling performance is improved by preventing the rock-breaking elements of the drilling tool from sticking, and additional cleaning of the peripheral part of the slab is provided.

Claims (2)

1. Author's certificate of the USSR 5 581239, cl. E 21 V 25/00, 1976. 2. Authors certificate of USSR 335366, cl. Е 21 В 21/00, 1970 (prototype).