RU57822U1 - TELEMETRIC SYSTEM COIL FOR DRIVING INFORMATION WHILE DRILLING AND PRODUCING OIL OR GAS - Google Patents

Abstract

The invention relates to equipment for monitoring horizontal and directional drilling, specifically to a transmitter and receiver of a downhole telemetry system with a hydraulic communication channel. The task of creating a utility model: expanding the functionality of the magnetic communication channel, simplifying the design and ensuring ease of use. The solution to these problems was achieved due to the fact that the coil of the telemetry system with a magnetic communication channel containing a winding has a winding made of one or more turns of a multicore cable. All cores of a multicore cable can be connected either in series, or in parallel or in series-in parallel. The utility model will allow to form a receiving or transmitting coil on an integral steel structure of any shape and size, for example, pipelines, a preventer, well flowing fittings, etc.

Description

The utility model relates to systems for transmitting downhole information during drilling and during oil or gas production, specifically to the design of a receiving or transmitting coil of a telemetry system with a magnetic communication channel.

A known telemetry system for transmitting downhole information through a hydraulic communication channel according to the application of the Russian Federation No. 96121043, comprising a ground part connected by a hydraulic communication channel to a downhole part, which includes a downhole motor, a diverter, a hydraulic information pulse generating unit with an actuator and a drive connected to an electric generator, having a drive, characterized in that the drive of the generator is made in the form of a curved roller, a gearbox with an electromagnetic clutch and a screw pair. The receiver of the hydraulic communication channel is a pressure sensor that is installed in the discharge line of the downhole motor.

The disadvantage of systems with a hydraulic communication channel is the design complexity, high cost.

Known downhole telemetry system with an electromagnetic communication channel according to the patent of the Russian Federation No. 2193656, capable of operating in conditions of shielding layers, in which the emitter is located above the shielding layers, and the downhole tool is near the downhole motor. The connection of the downhole tool with the emitter is carried out using a cable having a long length, which is a disadvantage. The upper part is an electric separator, which acts as a dipole formed as a result of the electrical separation of the drill string. The lower part of the downhole tool is installed in the composition of the bottom of the drill string above the bottomhole

engine, centered and fixed in the landing gear. Reception is carried out on a receiving antenna made in the form of a metal pointed pin driven into the ground at a distance of about 50 m from the drill pipe string.

The disadvantages of the system are the inoperability of the communication channel in shielding formations with high conductivity, a limitation in the transmission depth of 3500 m and the inability to use casing pipes in the string.

Known receiving coil (transmitting coil can be performed similarly) according to the patent of the Russian Federation for utility model No. 45458 (prototype).

The receiving (transmitting) coil of the telemetry system with a magnetic communication channel according to US Pat. The Russian Federation for utility model No. 45458 contains a housing made of non-magnetic material in the form of a cylinder with a longitudinal slot and with sides, one or more coils are wound on the outer surface of the cylinder. A layer of permalloy is made under the winding. The winding is protected by a screen. The screen is made of electrically conductive, magnetic material. The screen is grounded.

Disadvantages: limited functionality, the complexity of the design and installation of coils.

The task of creating a utility model: expanding functionality, simplifying the design and ease of installation.

The solution to these problems was achieved due to the fact that the coil of the telemetry system with a magnetic communication channel containing a winding has a winding made of one or more turns of a multicore cable. All cores of a multicore cable can be connected either in series, or in parallel or in series-in parallel

The essence of the utility model is illustrated in the drawings of figures 1 ... 3, where:

figure 1 shows the installation diagram of the coils,

figure 2 shows the wiring diagram with a serial connection of cores,

figure 3 shows a diagram of a coil with series-parallel connection of conductors.

The telemetry system coils with a magnetic communication channel (Fig. 1) are installed on the drill string: 2, the transmitting coil is installed in the bottom, and the receiving coil 3 is on the surface, coil 2 and 3 are made in the form of one or more turns 4 made of multicore cable 5 . On the multicore cable 5 made two conclusions 6. The remaining cores 7 are interconnected by jumpers 8.

Perhaps a serial connection of cores 7 (figure 2), parallel (figure 1 ... 3 not shown) and series-parallel (figure 3).

During operation, the signal from the downhole tool is transmitted to the transmitting coil 1 and through the drill pipe string 1 to the receiving coil 3. By selecting jumpers 8, the number of turns and thereby the power and inductance of both coils can be changed.

Application of the utility model allowed:

1. For the first time to create a telemetry system operating on a magnetic communication channel.

2. To transmit downhole information without distortion through shielding layers with high conductivity.

3. To ensure the transmission of downhole information when installing a telesystem in a casing string, which is very important when drilling sidetracks from cased wells.

4. Simplify the design, installation and cost of the coils.

5. To expand the functionality of lapping coils by selecting coils without changing their design

Claims (4)

1. Telemetry system coil for transmitting information during drilling and oil or gas production with a magnetic communication channel, comprising a winding, characterized in that the winding is made of one or more turns of a multicore cable. 2. The coil according to claim 1, characterized in that all the cores of a multicore cable are connected in series. 3. The coil according to claim 1, characterized in that all the cores of a multicore cable are connected in parallel. 4. The coil according to claim 1, characterized in that all the cores of a multicore cable are connected in series-parallel.