SU1751303A1 - Well deflecting tool and zenith angle position recorder - Google Patents

Description

The invention relates to the drilling of directional wells by the turbine method in the oil and gas industry, namely to devices for recording the angles of spatial position of the deflection arrangement in the well directly during the drilling process.

Monitoring of trajectory parameters of directional wells drilled by the Turbine method is carried out using various types of inclinometers. To control a certain interval, stop the process.

drilling and launching the inclinometer on the logging cable into the drilling tool for making control measurements, then lifting the drilling tool and again lowering the inclinometer to perform measurements in the open hole.

The disadvantages of this process using inclinometers are: additional burden of inclinometric measurements (up to 10% of the total calendar time of well drilling); danger of sticking a drilling tool when conducting control measurements in drill pipes and

Ca

WITH

inclinometer- when descending vlokragomstvo le; lack of continuous monitoring of the well trajectory in the drilling process

A device for measuring the zenith angle of a well is known, which consists of a plumb-line, supplied with a sharp-tip load pivotally suspended in the upper part of a sealed fluid-filled body, a plumb fixation unit consisting of a piston axially movable with grooves, a plate and a centrifugal mechanism, , a hydraulic relay, made in the form of a multi-washer inertia throttle, which is located in the piston. To facilitate the reading, a ring scale is made in the upper part of the body. and a ferromagnetic zenith angle indicator is made of a non-magnetic material.

The said device is intended to measure the zenith angle and gives information only about the angle of deviation of the well from the vertical, thereby reducing the efficiency of its use. In addition, the device has a large number of intermediate elements, which makes the parameter registration process not reliable enough

The closest to the technical essence of the invention is a device for orienting a diverter, which includes a rotary frame with an eccentric weight, the axis of rotation of which coincides with the longitudinal axis of the device, two azimuth sensors, rigidly connected to each other, made in the form of an electromagnetic compass. A zenith angle sensor is installed in the rotary frame, the plane of the reichord coincides with the main plane of the frame. The azimuth sensors are located inside the frame on the axes that lie in the same longitudinal plane passing through the axis of the instrument and the center of gravity of the eccentric weight. A device placed in a diamagnetic pipe is lowered on the cable to the diverter along the drill pipe string before landing on the retaining ring installed in a special transducer with a magnet and screen, oriented in relation to the plane of the deflector.

The device allows determining the azimuthal direction of the diverter in the borehole on the basis of the difference in the readings of the azimuth sensor, and the inclination angle of the wellbore, and, if necessary, correcting the direction of the diverter using the drill pipe string.

However, the design of the device does not allow the measurement of parameters directly in the drilling process and the hem does not take into account the angle of twist of the drill string from the reactive torque of the downhole motor, which reduces the accuracy of the measurements made. The lack of continuous monitoring of the well trajectory significantly reduces the efficiency of its

0 application, and the need for additional tripping operations reduces the productivity of work performed, associated with additional labor costs.

5 The purpose of the invention is to increase the performance and accuracy of the device.

The goal is achieved by providing a device with continuous

0 control the well trajectory by recording the position of the diverter and zenith angle directly in the drilling process and timely adjusting the well profile

5The device for detecting the position angle of the diverter and the zenith angle of the well, installed in the drill string, is a kinematically connected system enclosed in a sealed

0 the case, made in the form of two hydraulically isolated from each other and interconnected by a clip of the upper recording chamber and the lower working chamber filled with liquid, contains

5 starting unit, shaft mounted along the axis of the housing, on which the upper and lower pistons with ball-bearing bearings are located on the working chamber side, the deflector position sensor is rigidly connected to the shaft and installed between the pistons with the possibility of full rotation around its axis, and a sensor of the zenith angle of the borehole, which is rigidly connected to the shaft, is installed on the camera’s registration side, and the angle detection mechanism, the sensor of the zenith angle, contains a frame, a roll with plumb lines, EMA yuschimi sensitive functions

0 of the sensor element of the zenith angle, placed in the transverse direction on the frame, which is mounted on the shaft in such a way that the plane, conventionally passing through the shaft axis and the shaft of the sensor roller

A 5 zenith angle, perpendicular to the plane passing through the axis of the shaft and the direction of the center of gravity of the eccentric load, contains a conical gear pair inside the frame, consisting of a wheel rigidly fixed on the roller and a gear shaft.

The registration mechanism installed in the guide and is made in the form of a cylinder of transparent material installed in an unfilled part of the body of the writing element of the sensor of the zenith angle attached to the output end of the gear shaft of the sensor of the zenith angle and the writing element of the position angle of the deflector attached to the guide of the sensor of the zenith angle, except In addition, the shaft is provided with a locking knot. The upper piston contains flow channels, and a choke and non-return valve are installed in the lower piston.

Fig 1 shows the placement of the device in the layout of the drilling tool; Fig. 2 shows a device for recording the angle of position of the diverter and the zenith angle of the well, a general view; Fig. 3 is a view A of Fig. 2 with an image of the sensor of the zenith angle and writing elements.

The device 1 (Fig. 1) is placed in the sub 2 by means of the upper support 3 and the lower support 4 having channels 5 for washing liquid flow. In the upper part of the device there is a 6 instrument zero mark, which serves to prioritize the device relative to the deflector's plane. mounted in the drill string directly above the turbo-drill-deflector (not shown)

The device 1 for the registration of the angle of position of the diverter and the zenith angle of the well (Fig. 2) consists of two chambers of the upper chamber 7 of the registration of corners and a lower chamber 8 filled with a working fluid (for example, glycerol or technical oil). Both chambers are enclosed respectively in metal sealed enclosures 9 and 10, interconnected by means of a holder 11. In addition, chambers 7 and 8 are hydraulically isolated from each other by a lip seal 12 preventing the working fluid from flowing into the recording chamber 7 from the working chamber 8 along the device axis 1, shaft 13 passes through the working and registering chambers. On which, from the side of working chamber 8, the upper piston 14 and lower piston 15 are fixed by means of ball bearings 16 and 17. Between the pistons 14 and 15 on the shaft 13 are rigidly The sensitive element of the deflector position sensor, made in the form of an eccentric weight 18, is attached. The system of pistons 14 and 15 connected to the shaft 13 is designed for smoothly adjustable downward movement of the shaft 13c by the elements mounted on it and at the same time is its movable centralizer.

The speed of the longitudinal movement of the shaft 13 with the elements is determined by the magnitude of the hydraulic resistance of the throttles 19 installed in the lower piston 15. On 5 of which the check valve 20 is also installed, which serves to accelerate the return of the shaft to its initial position upward to adjust to the initial registration cycle. 21 openings for free flow of working fluid

From the side of the registration chamber 7, a zenith angle sensor 22 is mounted on the shaft 13 (FIG. 3). The sensor of the zenith angle contains a frame 23 with a guide 24 In the transverse direction on the frame 23 there is a roller 25 with plumb lines 26 installed at its ends, performing the functions of a sensitive element of the sensor zenith

0 angle. The frame 23 is fixed on the shaft 13 in such a way that the plane conventionally passing through the axis of the shaft 13 and the axis of the roller 25 is perpendicular to the plane conventionally passing through the axis of the shaft 13 and the direction of the center of gravity of the eccentric weight 18 a pair of teeth, and its wheel 27 is rigidly fixed on the roller 25, and the gear shaft 28 is installed in the guide 24. At the output end of the gear wheel 28, the writing element 29 of the sensor of the zenith angle 22 is fixed, and at a certain distance, lower in same plane, attached to the guide 24 The first element 30 of the position angle of the deflection of the yarn Structurally, the writing elements 29 and 30 are made in the form of holders with springing dry multi-colored slate rods. To fix the zenith angle of the well, taking into account the reduction of the conical pair, as well as the deflection angle inside the angle registration chamber 7, a cylinder 31 made of a transparent material, such as organic glass, is installed in the shaft 13. For convenience

5 decoding of curves on the inner wall of the cylinder 31, obtained as a result of fixing the corners with writing elements, a scale angular grid is applied on its outer surface.

The adjustment of the free movement time of the writing elements 29 and 30 along the cylinder 31 is determined by the magnitude of the hydraulic resistance of the choke 19, which regulates the flow of fluid and

5 which determines the speed of the longitudinal movement of the shaft 13 with the elements 29 and 30. In order to prevent the spontaneous rotation of the shaft 13 and, consequently, the chaotic movement of the writing elements during the descent of the device into the well, the device is equipped with a locking unit in the form of a fork 32 fixed to the shaft 13, groove pin 33, reinforced at the end of the head 11.

In the lid 34 of the housing 9, a starter unit of the device in the form of a winch 35 is mounted, on the drum of which a tropic 36 is wound with a collet clamp 37 at the end connected to the end of the output end of the shaft-gear 28 of the zenith angle sensor 22. The winch 35 is equipped with a pulley 38, which has the ability to engage in a locking clutch with the brake 39 by means of the spring 40. On the cover 34, the hydraulic switch 41 is mounted coaxially with the brake 39.

The device works as follows.

Before descending the drill string to the face, the device 1 sets up the nodes directly, namely, combines the zero of the scale angular grid deposited on the outer part of the cylinder 31 with the instrument zero mark 6 (FIG. 1), then by turning the instrument in the supports 3 and 4 sets the mark 6 in the plane of action of the diverter; adjusting the hydraulic switch 41 of the start-up unit taking into account the hydrostatic pressure and injection pressure of the mud pumps; set the shaft 13 with the elements fixed on it to the initial upper position, while the pin 33 of the lock assembly is fixed with a fork 32 mounted on the shaft, thereby preventing spontaneous rotation of the shaft with the elements during the descent of the device into the well; the cable 36 with the collet clamp 37 at the end is in a wound state on the winch 35 and is braked by the brake 39; adjust the time of free movement of the writing elements 29 and 30 along the cylinder of plexiglas, selecting the appropriate value of the hydraulic resistance of the throttles 19.

After setting up all the units, the drill string is lowered to the bottom. The start-up of the device is carried out by the hydraulic switch 41 from the additional pressure drop obtained by switching on the pumps. The hydraulic switch 41, acting through the brake 39, disarms the pulley 38 of the winch 35 of the starting unit, resulting in a shaft 13 with elements located on it, connected to the cable 36 by means of a collet clamp 37 and the output end of the gear-shaft 28 of the sensor of the zenith angle 22, under the force The sheet moves down.

Displacement occurs with deceleration due to fluid throttling.

through the flow holes 21 located in the lower piston, depending on the time setting, the value of the hydraulic resistance of the throttle 19. At the same time

the locking pin of the locking assembly 33 fixed to the end face of the head 11 is disengaged from the fork 32, as a result of which the shaft 13 acquires the possibility of rotational movement.

0 When tilted to the vertical, eccentric weight 18 orients the shaft 13 in the plane of inclination, i.e. in the apsidal plane of the well, and transmits the movement through a shaft rigidly connected with it to the frame 23.

5 As a result of the slow motion of the system, the eccentric weight 18 manages to occupy a position in the apsidal plane corresponding to the deflection angle, and by means of the guide 24 the writing element 30 fixes this value on the inner wall of the cylinder 31.

Simultaneously with the registration of the angle of position of the diverter, when tilting to the vertical, the plumb lines 26 of the sensor 22 of the zenith angle occupy the position corresponding to the angle of inclination to the vertical. In this case, the plumbs 26, connected by means of a roller 25 to a bevel gear pair, will transmit movement

0 a gear wheel 28, on the output end of which the recording element 29 of the zenith angle sensor is fixed, as a result of which the value of the zenith angle will be fixed on the inner wall of the cylinder 31.

5Reasoning that frame 23 is reinforced on

the shaft 13 in such a way that the plane passing through the axis of the shaft 13 and the axis of the roller 25 is perpendicular to the plane passing through the axis of the shaft 13 and the direction of the center

0 tons of eccentric load 18, the deviation of the well from the vertical will be perceived by both sensors simultaneously and synchronously recorded by writing elements.

5 Since the deflector angle writing element 30 is located at a certain distance (for example, 10 mm) below the zenith angle sensor writing element 29, the angle measurement curves will be shifted by the same distance that is taken into account when interpreting the record.

At the termination of the pumps and the absence of pressure, the hydraulic switch 41 disengages from the brake 39, which

5 causes the braking 38 of the winch 35 to brake, the movement of the shaft 13 stops, and with it the reading.

To set up the device for the initial cycle of operation, it is necessary to remove the cover 34 of the start-up unit, lift the shaft 13 with the elements fixed on it, providing liquid flow to the lower part of chamber 8 by means of a check valve 20 Using the device for detecting the position angle of the diverter and zenith coal of the well during drilling allows to take into account the angle of twist of the drill string from the reactive moment of the downhole motor and to make the necessary correction. Registration of the zenith angle of the well allows you to quickly make decisions on the early correction of possible deviations from a given trajectory of the well bore.

Indirect assessment of the results of recording angles in the presence of the initial azimuth and zenith angle data makes it possible to predict the current change in the azimuth angle both at certain sections of the trunk and at the end of the drilling voyage, based on the known dependence of the installation angle

Improving productivity and accuracy when using the device allows you to achieve savings on just one drill 3600 rubles

Claims (2)

Claim 1. A device for detecting the position angle of a diverter and a zenith angle of a well, comprising a housing with an eccentric weight and a zenith angle sensor, characterized by a hem, which, in order to improve performance and accuracy of operation, is equipped with an angle registration mechanism located in the housing node mounted on the axis of the body can be rotated around it, the shaft of the casing dividing the body into two parts isolated from each other, one of which is filled with liquid by ball bearing bearings 5 with a throttle check valve, two pistons mounted on the shaft by means of ball bearings, in one of the pistons flow holes are made, and in the other installed choke and 0 a check valve, while the sensor of the zenith angle is located in the part of the body that is not filled with liquid and is designed as a frame, a guide, a roll with plumb lines, the axis of which is perpendicular to the shaft shaft, and 5 of a bevel gear pair located inside the frame, consisting of a wheel stuck on a roller and fixed on a gear shaft, the angle registration mechanism is located in a part of the body not filled with liquid and made of transparent material mounted on the inner surface of the body of the ZyLindra n the output end of the pinion gear shaft 5 elements of the Zeytngo angle sensor and the deflector angle positioned on the writing element of the angle angle, the body is sealed, the eccentric weight is located on the shaft between the pistons, and the shaft axis of the shaft is in a plane perpendicular to the plane the shaft and the direction of the center of the body of the eccentric load 2. Device pop. 1, characterized by the fact that, in order to prevent the spontaneous rotation of the shaft during the descent into the well, it is provided with V 35 I/./ 40 39 36 nineteen Type A 23 3026 13 36 $ g 37 2k 28 Fig.Z