RU1802078C - Drilling assembly with conveyance of cut rock by reverse circulation - Google Patents

Abstract

Usage: drilling wells with continuous transportation of the destroyed rock to the surface by a stream of treatment agent. SUMMARY OF THE INVENTION: the device comprises a double column with outer and inner pipes. A rock receiving manifold with inlet and outlet openings, an internal conical cavity and input channels of the treatment agent is placed inside the outer pipe. The rock-destroying tip is connected to the outer pipe and has rock channels connected to the inner cavity of the collector. The inlet channels of the cleaning agent are provided with elements directing the flow of the agent to the outlet, and are located no higher than the cross section of the collector. The cross-sectional area of the collector is equal to the sum of the areas of the rock channels of the rock cutting tip. The maximum cross-sectional size of each of the pedigree channels of the tip does not exceed the diameter of the outlet opening of the collector. 3 ill. ate with

Description

FIELD OF THE INVENTION The invention relates to drilling equipment, and in particular to drilling tools for continuously transporting fractured rock to the surface by a treatment agent stream.

The purpose of the invention is to increase productivity by increasing the throughput of the collector,

In FIG. 1 shows the proposed projectile in general form; in FIG. 2 and 3 are embodiments of an input channel.

The proposed projectile contains a double pipe string with outer 1 and inner 2. pipes forming a central 3 and annular 4 channels. Inside the outside

The rock receiving collector 5 is placed in the form of a truncated cone with inlet 6 and outlet 7 holes, an internal conical cavity 8, and input channels 9 of the treatment agent. A rock cutting tip 10 is connected to the outer pipe 10 with rock channels 11 connected to the inner conical cavity 8 of the collector 5. The inlet 6 of the collector is adjacent to the rock cutting tip. Input channels 9 are located no higher than the cross-section of the collector of diameter D, the area of which is equal to the sum of the areas of the rock channels 11 of tip 10, having dimensions a, b. Channels

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the inlets 9 are provided with elements 12 directing the agent flow to an outlet 7 having a diameter d. The maximum size a, in each rock channel 11 of the tip 10 is less than or equal to the diameter d of the outlet 7 of the collector,

The drilling tool operates as follows.

The cleaning agent enters through the annular washing channel 4 and through the input channels 9 enters the cavity 8 of the rock receiving collector 5. Through the rock channels 11 of the rock cutting tip 10, pieces of rock with the maximum dimensions determined by the cross sections of the rocks of the channels 11 .. As the shell deepens into the rock, pieces of rock enter upward into the narrowing cavity 8, each piece being connected to the bottom with a base and arriving independently of the others. The independent supply of pieces is limited by the moment of their mutual compression, which steps in a cross-section with a diameter D of the collector, the area of which is equal to the total cross-sectional area of all pieces (taking into account their limited deformation), since the input channels 9 of the cleaning agent are located no higher than the section where the pieces are compressed rocks, then they are separated separately by a stream of treatment agent moving at high speed through the outlet section d of collector 5. Thus, the removal of rock occurs due to the flow of agent prior to the mutual compression of the pieces of rock, and thereby increases the throughput of the collector 5 and prevents the formation of hard-to-remove

a lump of rock in its cavity. The limited size of the pieces allows them to freely pass through section-d. In the case of bulk rock drilling, the direction of action of the agent jets oriented towards the outlet does not have a breaking effect on the rock located under the end of the rock cutting tip, and this ensures process stability and high quality of well cleaning from fracture products.

Claims (1)

SUMMARY OF THE INVENTION A drilling rig for trans-transporting fractured rock with a reverse treatment agent stream comprising a double column with an outer and inner pipe, a rock receiving manifold with an inlet and an inner pipe located inside the outer pipe outlet openings, an internal conical cavity and input channels of the cleaning agent, a rock cutting tip connected to the outer pipe and having rock channels communicated with an internal cavity of the collector, characterized in that, in order to increase drilling productivity by increasing the throughput of the collector, the input channels of the treatment agent equipped with elements directing the agent flow to the outlet and located no higher than the cross section of the collector, the area of which is equal to the sum of the areas of the rock channels of the rock cutting tip, and the maximum cross-sectional size of each of the rock channels of the tip does not exceed the diameter of the collector outlet. (pu.i