RU170991U1 - Airlift for drilling wells with airlift reverse circulation - Google Patents

Abstract

The proposal relates to the field of drilling with airlift reverse circulation, for example, water wells. The rod for drilling wells with airlift reverse circulation includes a tubular body 1 with connecting elements 2, 3 located at its ends and at least one air supply tube 4 fixed to the outer side of the tubular body 1. Each connecting element is made in the form of a nipple 5 or couplings 6 with conical external 7 or internal 8 thread and thrust pad 9, 10. In thrust pads, annular grooves respectively 12, 13 are communicated with Without channels 14, 15 made in the connecting elements with the air supply tube 1. When the rods are assembled, an annular chamber 16 is formed, which is communicated through the channels 13, 14 with the air supply tubes. During drilling, air enters through the air channel 19, formed by the air intake pipes, to the mixing chamber of the bit, while the cuttings are sucked through the receiving hole 20 of the bit, rises to the surface inside the central channel 21 of the rod and enters the slag receiving device. The extension of the column and its disassembly is carried out using standard equipment, which reduces labor costs during the launching and lifting operations. Thus, the proposed technical solution will simplify the manufacture of rods for drilling wells with airlift reverse circulation and reduce labor costs in the production of hoisting operations.

Description

The proposal relates to the field of drilling with airlift reverse circulation, for example, water wells.

A well-known rod for drilling wells with airlift reverse circulation, including a tubular housing with connecting elements placed at its ends and at least one air supply tube fixed to the outer side of the tubular housing [1, 2].

Known technical solutions can effectively drill large diameter wells with reverse circulation, but with such a design solution, when assembling the rods into the column, it is necessary to ensure alignment of both the air supply tubes and tubular bodies.

The connecting elements in such rods are made in the form of flanged connecting elements that allow you to connect each other as a tubular body and air supply tubes.

However, such a constructive solution is expensive and requires increased labor costs during hoisting operations, since it is impossible to use standard means of mechanization of these processes when assembling and disassembling the column.

The result, which this technical solution is aimed at, is to reduce the cost of manufacturing rods while reducing labor costs in the production of hoisting operations.

This result is achieved due to the fact that in the rod for drilling wells with airlift reverse circulation, which includes a tubular body with connecting elements placed at its ends and at least one air supply tube fixed to the outer side of the tubular body, each connecting element is made in the form respectively, nipples or couplings with a tapered external or internal thread and a thrust pad in which an annular groove is made coaxially with the longitudinal axis of the tubular body Through the channel in each connecting element with an air supply tube.

An example of the implementation of the claimed technical solution is illustrated by drawings, where in Fig. 1 the claimed device is shown, in Fig. 2, 3, 4 - view A, B, C, in FIG. 5 - rods assembled in a column, in FIG. 6 is a diagram explaining the operation of the device.

The rod for drilling wells with airlift reverse circulation includes a tubular body 1 with connecting elements 2, 3 located at its ends and at least one air supply tube 4 fixed to the outer side of the tubular body 1.

Each connecting element is respectively made in the form of a nipple 5 or sleeve 6 with a conical external 7 or internal 8 thread and a thrust pad 9, 10. In each thrust pad, an annular groove 12, 13 is connected coaxially to the longitudinal axis 11 of the tubular body 1, which is communicated through in the corresponding connecting element, the channel 14, 15 with the air supply tube 4.

When the rods are assembled, an annular chamber 16 is formed, communicated through channels 13, 14 with air supply tubes.

During operation, the rods are connected into a column, the upper part of which is connected respectively to the compressor and sludge receiving device, and the lower one to the mixing chamber 17 of the chisel 18.

When drilling, air enters through the air channel 19, formed by the air intake pipes, to the mixing chamber of the bit. In this case, the cuttings are sucked through the receiving hole 20 of the bit, rises to the surface inside the central channel 21 of the rod and enters the slag receiving device.

The extension of the column and its disassembly is carried out using standard equipment, which reduces labor costs during the launching and lifting operations.

Thus, the proposed technical solution will allow

- to simplify the manufacture of rods for drilling wells with airlift reverse circulation

- reduce labor costs in the production of tripping operations.

Information sources

1. DE patent No. 19740064, E21B 17/02, 99

2. DE patent No. 1197829, NCI 5A32 / 30, 1965

Claims (1)

A rod for drilling wells with airlift reverse circulation, including a tubular housing with connecting elements located at its ends and at least one air supply tube fixed to the outer side of the tubular housing, characterized in that each connecting element is made in the form of a nipple or coupling with a tapered external or internal thread and a thrust pad in which an annular groove is made coaxially with the longitudinal axis of the tubular body communicated through the channel in each joint nom element with an air supply tube.

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