SU1002549A1 - Device for indexing a deflector - Google Patents

Description

(54.) DEVICE FOR THE ORIENTATION OF A REJECTOR

The invention relates to the technique of obliquely directed drilling of oil and gas wells, aikin, namely, to devices that orient the direction of drilling in an oblique direction of the well.

A device for orienting a diverter consisting of an eccentric load with a seal on the head of a descent into a drill string on a rope f 1 J is known.

A disadvantage of the known device is that in order to orient a diverter at the bottom of a well, it is necessary to lower it to the downhole on the rope through the drillstring column; what is associated with extra time and cost.

A device for oriented drilling is known, consisting of a body, an eccentric weight, planted on bearings and provided with a central nozzle with a radial hole at the end of 2 ° C.

However, this device is characterized by a low reliability of operation in an abrasive medium and an inadequate performance.

It is also known a device for orienting a deflector, comprising a housing in which an eccentric weight located in bearings is mounted with a disk having an eccentric opening 13.

The disadvantage of this device is the low reliability of its operation, associated with the operation of bearings in an abrasive environment and low mobility of the eccentric weight.

The purpose of the invention is to raise it.

10 the reliability of the device for the orientation of the diverter.

The goal is achieved by the fact that the device for orienting the deflector comprising a housing in which an eccentric weight placed in bearings is mounted with a disk having an eccentric hole, is provided with an additional hole disk and a chamber filled with oil,

20 while the load is installed inside the chamber, and the disks are placed opposite one another, with their centers lying on the same axis.

FIG. 1 shows a schematic of a device for orienting a diverter; in figure 2 g. the installation diagram of the fixed disc in FIG. 3 is a diagram of the installation of the disk of an eccentric load.

Device for oriented

30 drilling includes a housing 1, an eccentric weight 2 with bearings 3 placed in a chamber 4 filled with transformer oil 5, a disk 6 eccentric weight, a fixed disk 7 with central 8 and eccentric holes 9 (Fig. 1).

The device works as follows.

Before the device is lowered into the well, the fixed disk 7 is oriented in such a way that the eccentric hole 9 is in the same plane with the plane of symmetry of the curve sub 10 and is located in the direction of its curvature (Fig. 2).

Preliminarily incorporating the seismic measurement of the actual curvature and azimuth of the direction of the well and taking into account that with the extremely low position of the eccentric weight (i.e., the position occupied by the eccentric weight in the inclined borehole), the eccentric hole 9 of the disk 6 would be directed in the azimuth of the upcoming drilling (Fig. 3, i.e. if the actual azimuth of the well is f., and the azimuth in which it is necessary to carry out the prior slotting of Mg, then the angle of installation of the hole 9 of the disk b is equal to

  Grad.

With the help of a lock located on the end of the shaft of the eccentric weight, the position of the disk 6 (and therefore the hole 9 on it), if necessary, is changed and fixed.

After oriented installation. The discs 6 and 7 of the boring tool with the device are lowered into the well and begin its drilling. Since the tool after descent is in the unoriented position, the holes 9 of the discs 6 and 7 are not aligned and the pouring fluid passes through the holes 8 of the discs 6 and 7, which explains the increased pressure at the wellhead. To Orient his instrument

rotate in order to align the holes 9 of the disks 6 and 7. When they are combined, the pressure drops, which indicates the orientation of the drilling tool in a given azimuth. Thus, a deflector is set up by slowly rotating the drilling tool and recording the pressure of the flushing fluid at the wellhead.

An increase in pressure during the drilling process indicates a deviation from the specified azimuth.

Thus, operative monitoring of the direction of drilling of an inclined well, carried out by recording the drilling fluid during the drilling process, as well as timely adjustment of the specified direction of drilling contributes to significant savings in time and money spent on additional tripping operations and intermediate electrometric work.

Claims (3)

1. Kalinin A.G. et al. Orientation of diverting systems in wells. M., GOSNTI, 1963, p. 55, FIG. 39 2. In the same place 80, FIG. 57. 3. In the same place 79, FIG. 56.