SU1006737A1 - Device for measuring curvature and well bottom deviation of deflecting tool - Google Patents

Abstract

A DEVICE FOR MEASURING A CURVATURE AND A WELL-DEPENDING ORIENTATION OF A REJECTOR, containing an inclinometer, including a housing, an angle measurement sensor, a lead seal and knives, which are different from the fact that, in order to increase the accuracy of measuring curvature and bottom hole, the device has a set, and the device has a set of cargo, with additional knives made in the form of halves, which are located one against the other on the inner surface of the body, and the main knives are placed on xcentric load. 2. The device according to claim 1, about tl and h a (p yu e so that the inclinometer body is made of non-metallic material, such as polyethylene.

Description

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J The invention relates to the field of oil and gas well drilling, namely to devices for measuring curvature and orienting a diverter. A known Ambartsumov downhole tooling tool, used in conjunction with a knife-mounted opener, consists of an eccentric body and a lead seal glass, in which a fluoric acid tube is dropped. The machine is lowered on the cable to obtain a print with a deflector with blades lowered in advance into the well 11. It is known that the M.N.Gr Goryev’s device for measuring curvature and downhole orientation of a diverter, also used with a diverter with installed blades, consisting of a body suspended in a non-magnetic plumb, swinging a holder into which a glass glass is inserted. hydrofluoric acid, replicated at spatial hinge. The device is lowered on the cable to a deflector with knives set in advance for printing 1.2 J. The disadvantages of these devices are that the curve is not measured and the deflector is oriented directly during the drilling process and the error is high. . The closest in technical essence and the achieved result to the proposed is a device consisting of diamagnetic pipes of large and small diameters in which an inclinometer is placed, equipped with a lead seal in the lower part and with a cylinder in the upper part 3J. A disadvantage of the known devices is the duration of the readings and low accuracy of operation. The aim of the invention is to improve the accuracy of measurement of curvature and downhole orientation of a deflector. This goal is achieved by the fact that a device for measuring curvature and downhole orientation of a diverter containing an inclinometer, including a housing, an angle measurement sensor, a lead seal and knives, is equipped with additional blades and a load installed coaxially with the body. two halves, which are located one against the other on the inner surface of the hull, and the main knives are placed on an eccentric load. The casing meter is made of non-metallic material such as polyethylene. The drawing shows a device for measuring the curvature and downhole orientation of the diverter, section, general view. The device includes an inclinometer A and a diverter B. The inclinometer A contains a polyethylene case 1, where a master 2, a compass 3, a special device, a clock mechanism 4, are set and fixed, and a lead seal 5 is screwed into the lower part of the polyethylene case 1 of the inclinometer A. The diverter B consists of a body 6 with knives 7, additional knives 8 and an eccentric weight 9 installed coaxially with the body 9. A device for measuring curvature and bottomhole orientation deviate A works as follows. The diverter B, with the blades 7 and 8 installed, is assembled in the bottom-hole assembly of the drill string. After deepening the wellbore, if it is necessary to read the readings about the deviation of the well axis from the vertical and azimuth of the deviation, the drilling team itself during the buildup of the tool drops the bottomhole inclinometer A into the drill pipe string, in which the enchantment mechanism 4 gets the calculated time of arrival of the inclinometer to the drift hole 4, before the engine reaches the deviation, then deviates from When the pump is turned on under the pressure of the liquid of the inclinometer A, it lowers to the diverter B, having triggered, the clock mechanism 4 stops. the compass needle 3 and the tribute 2. At the same time, we get in the compass, the indication is to the north, and at the tandem is the deviation angle. In addition, when the lead seal 5 of the inclinometer A. is struck. The blades 7 and 8 of the diverter B on the lead seal remain two lines corresponding to the position of the deflector (line, from additional holes) and the azimuth of the wellbore (line from the main knives). After hitting the knives and stopping circulation. drill pipe inclinometer floats to the surface. It should be noted that the case of the inclinometer can be made of any non-metallic material having a density less than the washing liquid. Due to the proposed design, the drilling crew itself during the drilling process, and in a very short time without calling the geophysical batch, can orient the well while drilling with a downhole motor. Thus, the use of the proposed device for measuring curvature and downhole orientation will contribute to an increase in technical and environmental performance by reducing the time and accuracy of measurement.

Claims (2)

DEVICE FOR MEASURING CURVORITY AND BOTTOM DIRECTION OF A DEFLECTOR, containing an inclinometer, including a housing, an angle measurement sensor, a lead seal and knives, different in that, in order to improve the accuracy of measuring the curvature and bottomhole orientation of the diverter, it is equipped with additional 'knives and' installed coaxial with the body with an eccentric load, while the additional knives are made in the form of halves, which are located one against the other on the 'inner surface of the body, and the main knives are placed on the eccentric ary cargo. . 2. The device according to claim 1, characterized in that the body of the inclinometer is made of non-metallic material, such as polyethylene.