SU926258A1 - Device for measuring azimuths of wells - Google Patents

Description

The invention relates to technical measurements and can be used in geological exploration when developing inclinometers with increased accuracy and reliability when measuring azimuths of wells drilled in magnetic rocks.

A device for measuring flat angles is known, including a housing in which sources and two radiant energy receivers are placed and an opaque disk ’with a radial through gap located between the receivers and the light source. The light receivers are mounted radially on a holder mounted on the axis of the engine, and a disk with a radial through slot is connected to the shaft, and an opaque ring with a radial gap is fixed motionless relative to the housing relative to the housing [1].

The specified device cannot be directly used to measure the azimuths of the well. Passed in the rocks with different magnetic properties.

A device for measuring azimuths of wells is also known, comprising a housing, a gyroscope mounted on its axis, a light source, receivers, an opaque disk with a radial slot, transparent disks, one of which has an opaque ring with a radial slot, a holder and an engine [2].

This device is complex in design and does not have sufficient sensitivity in wells drilled in magnetic rocks.

The purpose of the invention is to increase the sensitivity and accuracy of measurements of the azimuths of the well, passed in magnetic rocks. .

This goal is achieved by the fact that an opaque disk with a radial slot is mounted on the gyroscope, and a transparent disk with a ring and a radial slot is provided with a plummet and rotatably placed relative to the axis of the housing.

The drawing shows a device for measuring azimuths of a well drilled in magnetic media.

The device comprises a housing 1, an opaque disk 2 with a radial slot. The disk 2 is located between the light source 3 and the radiant energy receivers 4 and 5, mounted radially on the holder 6. The holder 6 is rotated at a constant angular speed by the motor 7. The axis 8 rotates in the bearings 9, which are mounted on transparent disks 10.

An opaque ring 12 with a radial gap is deposited on the surface of the transparent disk 11. The radial ness of the ring 12 forms a reference flux of radiant energy 13, interacting with the element (receiver 4 10 of radiant energy. The radial slit of the first disk 2 forms the information flux 14 of radiant energy, interacting with the element of the receiver 5 of radiant energy. All elements of the measuring device are placed in a security the casing 15 of the downhole tool, this device contains a plumb line 16 and a gyroscope 17. The plumb line 16 is mounted on the disk 11. The disk 11 is mounted with free rotation on the axis 8 in bearings 9 mounted in transparent claims 10. Disc 2 is fixed to the axis 18 goriskopa.

A device for measuring azimuths of a well drilled in magnetic media works as follows.

Before the device is lowered into the well, the axis of the gyroscope is set with the disk in the direction whose azimuth (relative) is known and the horoscope is launched. During the descent or ascent of the downhole tool, the plumb of the disk ₃ orientates the slit of the opaque ring relative to the apsidal plane at the measurement point, and the gyroscope holds the dike fixed on the axis in the direction selected on the earth's surface (relative azimuth).

Thus, the time between ³ electrical pulses excited by the receivers corresponds to the relative azimuth of the well. The electronic components of the downhole tool and ground controllers, with the help of which the processing and recording of measurement information occurs, are not shown in the drawing. The registration of the azimuth of the wells can be carried out continuously both during the ascent, 5 and the descent of the wellbore.

In the proposed device, high sensitivity, accuracy and stability of azimuth measurements. wells in magnetic media. The constant high sensitivity in the entire range of azimuth measurements from 0 to 360 * allows one to significantly increase the accuracy of determining exploration and production wells in space, which significantly affects the increase in the efficiency of exploration and production work.

Claims (2)

The invention relates to technical measurements and can be used in geological exploration technology in the development of inclinometers with improved accuracy and reliability parameters when measuring the azimuths of wells drilled in magnetic rocks. A device for measuring flat angles is known, comprising a housing in which sources and two radiant energy receivers are located and an opaque disk with a radial through slot is located between the receivers and the light source. Light receivers are mounted radially on a holder fixed to the motor axis, and a disk with a radial through slit is connected to the shaft and between it And a light source fixed stationary relative to the housing an opaque ring with a radial slit 11. The specified device cannot be directly used to measure the azimuth of a well Passed in rocks with different magnetic properties. It is also known a device for measuring azimuths of a well, comprising a housing, a gyroscope attached to its axis, a light source, receivers, an opaque disk with a radial slot, transparent disks, one of which has an opaque ring with a radial slot, a holder and a motor 2. This device is difficult to design and does not have sufficient sensitivity in wells, passed in magnetic rocks. The purpose of the invention is to increase the sensitivity and accuracy of measurements of the azimuths of a well, passed in magnetic rocks. . This goal is achieved by the fact that an opaque disk with a radial slit is mounted on the gyroscope, and a transparent disk with a ring and a radial slit is provided with a plumb and is placed with the possibility of rotation relative to the axis of the housing. The drawing shows a device for measuring azimuths of a well drilled in magnetic media. The device includes a housing 1, an opaque disk 2 with a radial slot. The disk 2 is arranged between the light source 3 and the receiving power 4 and 5 of flowing energy, fixed 392 radially on the holder 6. The holder 6 drives the rotation at a constant angular velocity. With the help of the motor 7. The axis 8 rotates in the crests 9 that are fixed transparent discs 10. An opaque ring 12 about the radial slit is applied on the surface of the transparent disc 11. The radial ring 12 forms a reference note of radiant energy 13, interacting with the element t of the receiver 4 - radiant energy. The radial slit of the first disk 2 forms a radiant energy information stream 14 that interacts with the element 5 of the radiant radiation receiver. All elements of the measuring device are placed in the guard casing 15 of the instrument, this device contains a plumb 16 and a gyroscope 17. Plumb 16 is fixed on the dask 11. The disc 11 is installed with the possibility of free rotation on the axis 8 in podshniki 9 installed in transparent Taoes 10. Disk 2 mounted on the axis of the horiscope 18. The device TCHI I measure the azimuths of the well, drilled in magnetic media, works in a clear way. Before lowering the well into the well, push the axis of the gyroxix with the disk in the direction, the azimuth (otHO% n: enbHbifi) which is known & n and 1G) is horissed (w. the plane is fixed at the ttsMeption point, and the gyroscope is holding the disk fixed on the axis in the direction chosen on the surface of the earth (relative azimuth). Thus, the time and time of electrical receivers corresponds to the relative azimuth of the well E The electronic units of the borehole instrument and ground control panels, with the help of which the processing and recording of measurement information occurs, are not shown in the drawing. The well azimuth recording can be carried out continuously both during submution and descending of the projectile. In the proposed device, high sensitivity, accuracy and Stability of azimuth measurement of wells in magnetic media. The constant high sensitivity over the entire measurement range of azimuths from O to other 360 allows us to significantly improve the accuracy of geol gorazvedochnyh and field prosfanstve wells, which greatly affects the efficiency and exploration field operations. Apparatus of the invention for measuring the azimuths of a well, comprising a housing, a gyroscope fixed in it, a light source, receivers, an opaque disk with a radial cut, transparent discs, one of which has an opaque ring with a radial gap, a holder, an engine, characterized in that , in order to increase the sensitivity and accuracy of measurements of azimuths of wells, passed in magnetic rocks, an opaque disk with a radial slot is installed on the axis (flow, and a transparent 1Y disk with a ring and a radial gap is provided with weight and rotatably disposed relative to the housing. inofrmatsii sources, the received note in the examination 1.Avtorokoe USSR Certificate of application N 2794532, Cl. E 21 B 47/02, 1979. 2. US patent N 377118, cl. 340-18, published. 1979