RU60619U1 - TELEMETRIC SYSTEM FOR MONITORING WIRE AND HORIZONTAL WELL - Google Patents

Abstract

The utility model relates to the field of drilling of deviated and horizontal wells, namely to telemetric systems for measuring trajectory (zenith angle, wellbore azimuth) during drilling, technological (axial load on the bit, torque, flushing fluid pressure, bottom temperature, frequency rotation of the bit), geophysical (natural gamma radiation and electrical resistance of the rock) parameters of the drilling process, as well as the position of the diverter motor. The essence of the utility model lies in the fact that the telemetry system for monitoring the drilling of an inclined and horizontal well contains a power source located in ground equipment that provides processing, storage and visualization of information through an information communication channel, a measuring module with a contact node connected to ground equipment through an information channel communication, consisting of located in the cavity of the drill string and equipped with contact galvanic cells of the upper e ektroprovodnoy section of the valve with an electrically conductive element, conductive columnar sections vnutrikolonnogo electric cable, the lower conductive section and connected thereto an additional pin assembly. The additional contact node and the contact node of the measuring module are made in the form of a tubular body with threaded connections, an electrically conductive section installed in it with contact elements at the ends and a contact element retainer located in the upper part of the body. The lower contact element of the lower conductive section is located in the latch of the contact element of the measuring module. 2 zpf 4 ill.

Description

The utility model relates to the field of drilling deviated and horizontal wells, namely to telemetric systems for measuring trajectory (zenith angle, wellbore azimuth) while drilling, axial (axial load on bit, torque, flushing fluid pressure, bottom temperature, frequent rotation of the bit), geophysical (natural gamma radiation and electrical resistance of the rock) parameters of the drilling process, as well as the position of the diverter motor.

A telemetry system is known for measuring while drilling using a zenith angle deflector motor, a wellbore azimuth and the position of the deflector motor relative to the current curvature of the wellbore or with respect to the earth’s magnetic pole. The known telemetry system includes a measuring module installed in a diamagnetic case with sensors for zenith angle, azimuth of the wellbore and the position of the diverter motor, a columned electrical conductive section in the form of a geophysical cable, the lower end of which is electrically connected to the measuring module, and the upper end through a lifting device to the ground equipment, and cable sub with side entrance. The lower part of the geophysical cable is located inside the drill string, and the upper part is above the cable sub with a side entrance from the outside of the drill string (see, for example, RF patent No. 2078921, class E 21 B 47/022).

The disadvantages of the known telemetry system are:

- a high probability of damage to the part of the geophysical cable located outside the drill string and communication failure of the measuring module with ground equipment;

- it is impossible to produce drilling with the rotation of the drill string;

- the presence of a geophysical cable outside the drill string does not allow for well sealing in the event of oil and gas occurrences;

- the need to synchronize the descent and lifting of the drilling tool and geophysical cable (from sub to winch) significantly complicates the implementation of various technological operations.

More convenient in the technological aspect and closest to the claimed object is a telemetry system for monitoring the wiring of an inclined and horizontal wells containing a power source; measuring module with a contact node connected to ground-based equipment for processing, storing and visualizing information through an information communication channel, consisting of an upper conductive section located in the cavity of the drill string and equipped with contact elements, a valve with an electrically conductive element, column conductive sections and an internal column electric cable / see, for example, RF patent No. 2140537, Cl. E 21 V 47/022, 7/04 /.

Known telemetry system contains located in the drill pipe and in the layout of the bottom of the drill string autonomous power sources in the form of batteries or electric batteries, necessary to power the relay and measuring module, respectively. The presence of several power sources complicates the design of the known telemetry system and reduces the reliability and service life, since a malfunction or failure of one of the power sources leads to the cessation of signals to ground equipment. In addition, in the information communication channel, made in the form of columned conductive sections with electric chokes, there is an intense attenuation of information signals with increasing channel length, which limits the depth of application of the known telemetry system to relatively shallow wells.

The task to which the claimed utility model is directed is to simplify the design, expand the functionality and increase the reliability of the telemetry system.

The technical result that can be obtained by implementing the inventive utility model is to expand the scope of its application through the use of the system when drilling deep inclined or horizontal wells, as well as sidetracks using high-performance bits and hydraulic downhole motors.

The specified technical result is achieved due to the fact that the telemetry system for monitoring the drilling of deviated and horizontal wells, containing a power source, a measuring module with a contact node connected to ground equipment for processing, storing and visualizing information through an information communication channel, consisting of located in the cavity drill string and equipped with contact elements of the upper conductive section, valve with conductive element, column conductive with ktsy and vnutrikolonnogo electrical cable provided with the lower conductive section and connected thereto additional contact assembly arranged in an information communication channel between vnutrikolonnym electric cable and a measuring unit, wherein the power source is located in the ground equipment, and the contact elements are galvanized. In addition, the additional contact node and the contact node of the measuring module is made in the form of a tubular body with threaded connections, in which an electrically conductive section with contact elements is installed at the ends, and a contact element retainer is installed in the upper part of the tubular body, while the lower contact element of the lower conductive section is located in the latch of the contact element of the measuring module.

The essence of the claimed technical solution is illustrated by the drawing, where in Fig.1 schematically shows a General view of the device, in Fig.2 - column

electrical conductive section, figure 3 is a lower conductive section Assembly with a drill pipe, figure 4 is an additional contact node.

The telemetry system for monitoring the drilling of deviated and horizontal wells contains ground equipment, including a power source 1, a unit 2 for processing and storing information, a device for visualizing information in the form of an electronic display 3, a measuring module 4, and an information communication channel.

The communication channel consists of the upper conductive section 5 located in the cavity of the drill string, the valve 6 with the conductive section 7, the conductive column sections 8, the internal electrical cable 9, the lower conductive section 10, an additional contact assembly 11. The upper conductive section 5, the conductive section 7 valve 6, column electrically conductive sections 8, intra-column electric cable 9, the lower electrically conductive section 10 are equipped with galvanic contact elements in the form of erzhnya 12 and the response to it couplings 13, which are attachment points 14.

The additional contact unit 11 consists of a tubular body 15 with threaded connections 16, in which an electrically conductive section 17 is installed with contact elements made at the ends in the form of a rod 12 and a sleeve 13, and clamps 18. The contact node of the measuring module 4 is made in the form of a contact rod 12 and located in the outer diamagnetic housing 19 of the telemetry system above the contact rod 12 of the latches 18. The galvanic coupling 13 of the lower conductive section 10, which is located in a special (thickened or flexible oh) drill pipe 20, is installed so that when screwed threaded connection 16 is located in the latch 18 of the contact node of the measuring module 4.

The upper end of the annular electric cable 8 is fixed in the landing unit 21 located in the upper part of the drill pipe 22. The upper electrically conductive section 5 is installed in the cavity of the lead pipe 23, and its upper end is electrically connected to the device for transmitting data

which is connected with the swivel 24 of the drilling rig (not shown) and can be made in the form of a current collector 25 with an electric wire 26 or in the form of a wireless communication system.

The diamagnetic external housing 19 of the telemetry system through the orienting unit 27 is rigidly connected to the housing of the downhole motor-deflector 28, on the shaft of which a rock cutting element 29 is installed.

The work of the telemetry system to control the wiring of deviated and horizontal wells is as follows.

The diamagnetic external housing 19 of the tele-system through the orienting unit 27 is connected to the downhole motor-deflector 28, on the shaft of which a rock cutting element 29 is installed. Using the orienting unit 27, the diamagnetic external housing 19 is fixed in the position at which the zero of the position sensor of the diverter of the measuring module 4 coincides with the direction curvature of the diverter motor 28. A special drill pipe 20 is fixed over the diamagnetic outer casing 19 using a threaded connection 16. In this case, the galvanic coupling This 13 of the lower conductive section 10 will be located in the latch 18 and connected to the galvanic rod 12 of the measuring module 4.

An additional contact assembly 11 is installed above the special drill pipe 20, the housing 15 of which is connected to the special drill pipe 20 by means of a thread 16. The electrically conductive section 17 of the additional contact assembly 11 is connected via a galvanic coupling 13 to the mating element of the lower conductive section 10.

Then, the assembly of the bottom of the drill string thus assembled is lowered into the well by screwing up the usual drill pipes 22. After the bottom of the drill string reaches a known depth inside the drill string thus formed using a special winch (not shown), the inner-core electric cable 9 is lowered to the galvanic connection the rod 12 of the lower conductive section 10. In this case, the upper end of the internal column electrical cable 9

fixed in the landing site 21. If necessary, for example, if the length of the casing electric cable 9 is insufficient to drill the inclined wellbore at a depth specified by the project, a second additional contact node 11 is placed on the drill string and the lower assembly of the bottom of the drill string is further lowered into the well in the usual way. After the chisel 29 reaches the calculated point of the well, the second section of the annular electric cable 9 is lowered into the drill string until the galvanic sleeve is inserted into the retainer 18 of the second additional contact node 11 and connected to the galvanic rod 12.

The upper end of the second section of the internal column electric cable 9 is fixed in the landing unit 21.

With the drill string assembled in this way, a lead pipe 23 is connected to the upper electrically conductive section 5 and a valve 6 fixed to its lower end, which includes the electrically conductive section 7 with galvanic contact elements 12, 13. Then, flushing fluid is supplied through the swivel 24 of the drilling rig into the drill string, necessary for the operation of the downhole diverter motor 28. The bit 29 is installed on the bottom of the well and create the required axial force by unloading the drill string. By means of a power source 1, an electric current is supplied to the downhole module through the information channel. The signals from the diverter position sensor determine relative to the magnetic pole of the earth or the curvature of the wellbore, if any, the direction of bending of the diverter motor 28. By turning the lead pipe 23, the diverter motor 28 is installed in the design direction and directional drilling of the well is carried out to the length of the lead pipe 23 At the same time, the zenith angle and azimuth of the wellbore are measured, as well as other parameters by the number of 4 sensors installed in the measuring module.

The signals from the measuring module 4 in part of the information channel located inside the drill string are sent to the associated with the swivel

24 to the current collector 25, from which the electric wire 26 enters the unit 2 for processing and storing information. After carrying out the necessary calculations using special software, information about the trajectory parameters and the drilling mode is sent to the electronic scoreboard 3. Based on the information received, the operator carries out operational control of the drilling process.

After deepening the well to the length of the lead pipe 23, drilling is stopped. The drill string is lifted and the lead pipe 23 is lifted. A drill pipe 22 is used to build up the drill string, inside which a conductive column section 8 is installed on the attachment points 14. After fixing the threaded connection 16 of the drill pipe 22, the contact of the galvanic cells 12, 13 is monitored. Then the drill string is installed leading drill pipe 23 and produce further directional drilling of the well. The described process is repeated until the design parameters of the wellbore are achieved.

Depending on the set technological task, various options for composing an information communication channel may take place.

A telemetric system for monitoring the drilling of deviated and horizontal wells provides the measurement and reliable transmission of information from the bottom of the well to the ground equipment, regardless of the technological operation performed, the type and quality of the flushing fluid, and the conditions of its circulation in the well. Moreover, information is transmitted in real time and its volume is practically unlimited.

Claims (3)

1. Telemetry system for monitoring the drilling of deviated and horizontal wells, comprising a power source, a measuring module with a contact node connected to ground equipment for processing, storing and visualizing information through an information communication channel, consisting of drill bits located in the cavity and equipped with upper contact elements electrically conductive sections, valves with an electrically conductive element, columned electrically conductive sections and an internal column electric cable, characterized the fact that the system is equipped with a lower electrically conductive section and an additional contact node connected to it, located in the communication channel between the internal column electric cable and the measuring module, the power supply being located in the ground equipment, and the contact elements are galvanic. 2. The telemetry system according to claim 1, characterized in that the additional contact node and the contact node of the measuring module is made in the form of a tubular body with threaded connections, in which an electrically conductive section with contact elements is installed at the ends, and a contact lock is installed in the upper part of the tubular body item. 3. The telemetry system according to claim 1, characterized in that the lower contact element of the lower conductive section is located in the latch of the contact element of the measuring module.