SU1733617A1 - Deflector - Google Patents

Abstract

The invention relates to a drilling tool and can be used to change the direction of a well bore. The purpose of the invention is to reduce the well construction time. The diverter includes a wedge, a sleeve 4, a shank 7. The wedge is made in the form of a rigidly connected and located one above the other working 1 and carrier 2 parts. The sleeve 4 is rigidly connected with the shank 7 and is made with a zigzag groove 5 on the inner surface. The carrier part 2 of the wedge is installed in the sleeve 4 with the possibility of movement in the axial direction. The working part 1 of the wedge is made of highly destructive material. The carrier part 2 of the wedge from the side of its working part 1 is made in the form of a pyramid and has a protrusion 6. The latter is located in the zigzag groove 5 of the sleeve 4. After the deflector is installed in the well, the well-viscous substance is filled. Then, the rock cutting tool is lowered into the well and the inclined well is drilled. After the end of drilling with С

Description

The invention relates to equipment of the petroleum industry, in particular to devices for changing the direction of drilling.

A device for directional drilling and side-hole drilling is known, which includes a wedge-shaped diverter.

However, using this device eliminates the possibility of drilling tools accessing the part of the old wellbore located below the diverter. As a result, this part is often decommissioned.

Closest to the proposed invention is a diverter for drilling multilateral wells. The known diverter contains a wedge with an axial flushing channel, a sleeve with retaining lugs located inside the wedge and made of easily-drilled material, a sub and a liner-support. The diverter with the shank is lowered into the well on the string of drill pipe and set so that the diverter is opposed to the slotting hole in the string. Then, the liner and deflector are cemented, the drill pipes are unscrewed and the sleeve and cement cup are drilled in the liner.

However, the known diverter, since it has only one direction of the gutter, allows only one horizontal well to be drilled. If necessary, drill at the same level as the second, third, etc. wells need to drill new vertical wells, which significantly increases the drilling time.

The purpose of the invention is to reduce the drilling time of a well. The expected positive effect in this case is a reduction in material costs in the construction of the well.

This goal is achieved by the fact that in a known diverter, including a wedge with an axial channel, a sleeve, a stem rigidly connected to the sleeve, the wedge is made in the form of rigidly connected and disposed

one above the other working and bearing parts, the sleeve is made with a zigzag groove on the inner surface, the carrier part of the wedge is mounted in the sleeve with the possibility of movement in the axial direction and has a guide protrusion located in the zigzag groove. In this case, the working part of the wedge is made of highly destructible material, and the carrying part of the wedge from the side of its working part is made in the form of a pyramid.

Fig, 1 shows a diverter, section, general view; figure 2 - sleeve, cut.

The diverter contains a wedge consisting of a working part 1 made of aluminum and a carrier part 2 with an axial channel 3. The wedge is installed in the sleeve 4 with a zigzag groove 5 on its inner surface and can be rotated by moving along the zigzag groove using guide protrusions (dowels) 6. The sleeve 4 is installed in the shank 7 by means of a threaded connection. Between the carrier part of the wedge 2 and the shank 7 is placed the locking cover 8.

The device works as follows.

A diverter is lowered into the well on the drill pipes with the help of a pipe-line up to the productive formation, oriented with an inclinometer taking into account the charging angle. Then the diverter is lowered to the bottom. Under load from the own weight of the diverter, the wedge consisting of the working 1 and the carrier 2 parts, is rotated in the groove 5 of the sleeve 4 by means of the pins 6 and is set in a predetermined direction. Then, filling with a high-viscosity substance (gel) is performed. Next, the liner is stopped with 7 bark at the bottom and a diverter is released from the diverter. After that, the diverter is ready for operation to drill a horizontal shaft. After drilling the first horizontal wellbore, drill pipe is pulled down on the drill pipes, the diverter is captured. Then, the tool is lifted to the height of the groove 5 in the sleeve 4 to the locking cover 8 and its lowering.

Under the weight of the tool, the deflector is rotated at a predetermined angle along the zigzag groove 5 of the sleeve 4. After releasing the spinner, the deflector is ready for drilling the second horizontal well. Thus, with each turn of the diverter, horizontal trunks from one well are drilled at the same level. After completing the drilling of several of these four horizontal wells and alternately temporarily blocking the horizontal outlets, the working aluminum part of the wedge 1 is chemically dissolved and then the vertical well is washed. After that, down tubing alternately down the pyramidal surface of the bearing part of the wedge in horizontal bends. After the descent of all columns of the pump-compressor pipes, all branches are operated simultaneously.

Claims (1)

Invention Formula A diverter comprising a wedge with an axial channel, a sleeve rigidly connected to the sleeve of a shank, characterized in that, in order to shorten the well construction time, the wedge is made in the form of rigidly connected and arranged one above the other working and bearing parts, the sleeve is made with a zigzag a groove on the inner surface, the bearing part of the wedge is installed in the sleeve with the possibility of movement in the axial direction and has a guide protrusion located in the zigzag groove, and the working part of the wedge is made of lightweight Shai material and the carrier portion of the wedge from its working part is formed as a pyramid. five