SU881286A1 - Deflector for directional drilling - Google Patents

Description

The invention relates to drilling equipment and can be used when drilling directional wells in an arrangement with an electric drill and a telemetry system.

A device for directional drilling, including a deflecting element with a control element connected by a current lead to a power source mounted on the day surface [1].

However, in this device, the deviation angle is limited due to the small radial dimensions, and the energy supply to the control requires a complex multichannel conductor system, in addition, the device is difficult to manufacture and there is no fixation of the deflecting element.

The closest technical solution to the proposed one is a device for directional drilling, including a deflecting element made of a polymetallic material with a control element connected by a current lead to a power source installed on the day surface and a heating element [2],

A disadvantage of the known technical solution lies in the fact that the structural design and material of the deflecting element does not provide sufficient accuracy for wiring a directional well.

The purpose of the invention is to increase the accuracy of wiring directional wells.

- The goal is achieved in that the deflecting element is made in the form of a hollow adapter made of a material with a volumetric structural memory, the outer surface of which is covered with heat-insulating material, and the inner one is connected with a heating element having a heat-insulating coating on the inner surface.

‘The drawing shows a device, general view /

Diverter for directional drilling includes the deflector element 1, designed as a half _s th adapter from metal with a volumetric structural memory (TiNi). The outer surface of the deflecting element 1 is covered with elastic heat-insulating material 2. 10 • The inner surface of the deflecting element is in contact with the heating element 3, which has its own heat-insulating coating 4 on the inner surface. The control element 15 of the deflecting element is an electromagnet 5, the magnetizing coil of which is included in. first turns of the stator winding, electric motor, ₂₀

The electromagnet 5 by means of a spring acts on the circular switch 6, which operates in synchronism with the power indicator mounted on the surface. Power supply of electromagnets _- $ ₂ and 5, installed in the lower part of the stator 7 of the electric motor, is carried out by a high-frequency current supplied through two phases of the electric drill communication line. The heating element 3 is connected by a current supply 8 to the stator winding 7 of the electric motor through a circular switch. A deflector is installed between the body of the electric motor 9 and the body of the spindle 10. The hollow shaft AND of the electric motor passes inside the deflector for directional drilling ³⁵ to transmit rotation to the shaft 12 of the electric drill spindle.

The rejecter works as follows ⁴⁰

The deflecting element is trained at a given deflection angle at a specific heating temperature. Trained deflector usta- ⁴³ navlivayut between the motor housing and the spindle,

When power is off the motor of the electric drill, the two phases of the line ^- current fed electric drill communication $ 0 high frequency to the coil of the electromagnet 5. The electromagnet comprises a circular switch 6Ϊ which comprises a heating element 3 with the stator winding of the motor.

The indicator on the day surface signals the operation of the heating element 3. Next, the high-frequency current is removed and power is supplied to the stator winding and to the heating element,

Element 3 heats the deflecting element, when a certain temperature is reached, it bends to a predetermined angle, which is controlled by the telemetry system.

To bring the device to its original position, you must remove the power from the electric motor, switch the rotary switch to the off position and pump the drilling fluid to cool the deflecting element with a high-frequency current, then drill with the aligned deflector,.

Technical and economic efficiency consists in reducing the costs of drilling wells associated with the correction of its direction by providing a given trajectory of the wellbore.

Claims (2)

The invention relates to a drilling technique and can be used to drill directional wells in an electrical drill and telemetry arrangement. A device for directional drilling is known, comprising a deflecting element with a governing body connected to a conductor with a power source mounted on the day surface Cl. However, this device limits the deflection angle due to small radial dimensions, and the power supply to the control body requires a complex multi-channel conductor system, in addition, the device is difficult to manufacture and there is no fixing of the deflecting element. The closest technical solution to the present invention is a device for directional drilling, comprising a deflecting element made of polymetallic material with a control unit connected by a conductor with a power source, installed on the surface, and a heating element 2. A disadvantage of the known technical solution is that the design and material of the deflecting element does not provide sufficient accuracy in the directional well wiring. The purpose of the invention is to improve the accuracy of wiring directional wells. The goal is achieved by the fact that the deflecting element is made in the form of a hollow adapter made of a material with a volumetric structural luminaire, the outer surface of which is covered with heat-insulating material and internally connected to a heating element having a thermal insulation coating on the inner surface. The drawing shows the device ,, general view}; The deflector for directional drilling includes a deflecting element 1, which is large in the form of a hollow adapter made of metal with a bulk structural memory (TiNi). The outer surface of the deflecting element 1 is covered with elastic thermally insulating material 2. The inner surface of the deflecting element is in contact with the heating element 3 having its thermal insulation coating 4 on the inner surface. The control element of the deflecting element is an electromagnet 5 whose magnetizing coil is turned on. The first turns of the stator winding, the electric motor, the Electromagnet 5 with the help of the spring. It acts on the circular switch 6, which operates synchronously with the turn-on indicator mounted on the surface. The electromagnet 5, installed in the lower part of the stator 7 of the electric motor, is powered by a high-frequency current supplied via two phases of the electrical line of the electrical electric drill. The heating element 3 is connected by the electrical conductor 8 to the stator winding of the electric motor through a circular switch. A diverter is installed between the body of the electric motor 9 and the body of the spindle LO. . The diverter works as follows. The deflecting element is trained at a predetermined deflection angle at a certain heating temperature. A sateating deflecting element is installed between the electric motor and the spindle housings. includes a circular switch 6 which contains a heating element 3 with a stator winding of an electric motor. The indicator on the day surface signals the operation of the heating element 3. Then the high frequency current is removed and power is supplied to the stator winding and to the heating element. Element 3 heats the deflecting element. To bring the device back to its initial position, the power should be removed from the electric motor, the high-frequency current should be switched to the Off position and the drilling fluid should be pumped to cool the diverting element. Next, drilling with a leveled diverter is performed. Technical and economic efficiency is to reduce the cost of drilling the well, associated with correcting its direction by providing a predetermined trajectory of the trunk. wells. The deviation for directional drilling, comprising a deflecting element with a control associated with a conductor with a power source installed on the surface, a heating element characterized in that, in order to improve the accuracy of wiring of directional wells, the deflecting the element is made in the form of a hollow adapter made of a material with volumetric structural memory, the outer surface of which is covered with thermal insulation material and internally connected to the heating element tom, have a thermal insulation coating on the inner surface. Sources of information taken into account in the examination of J, Patent ODA number 3667556, class 175-73 published. J97b. 2. USSR author's certificate No. 247J 59, class, E 21 B 7/08, 1967 (prototype),