RU2669627C1 - Cable rotating head - Google Patents

Abstract

FIELD: measurement technology; mining.SUBSTANCE: invention relates to geophysical measurements in a wellbore, including telemetry systems for signal transmission between a ground control unit and a downhole tool located in a wellbore through a geological formation. Device comprises a first housing rotating with respect to each other about the longitudinal axis of the device with a current collector part electrically connected to the cable and a second housing with a contact part electrically connected to a downhole tool and additionally equipped with an electromagnetic transceiver device in the form of a first transceiver with a transmit antenna located in the current collector part of the housing, and a second transceiver with a receiving antenna located in the measuring portion of the housing. Rotation unit of the first and second bodies relative to each other and around the longitudinal axis of the device is made in the form of a ball bearing mounted along the longitudinal axis of the first housing, and at least two roller bearings mounted along the longitudinal axis of the second housing and spaced axially relative to each other.EFFECT: simplifies the design, eliminates the amount of twisting of the cable during the research, increases the speed of the transfer of parameters to ground devices.1 cl, 1 dwg

Description

The present invention relates to the field of geophysical measurements in a wellbore, and in particular to telemetric signal transmission systems between a ground-based control unit and a downhole tool (device) located in a wellbore passing through a geological formation.

From the history of the issue.

In the practice of geophysical research of wells, devices are used that can either ensure the unwinding of the cable during poor passage of the device, or ensure free rotation of the device, excluding cable twisting.

The devices of this type include the rotating tip of VKS 60-3 (Device for rotating and controlling the launch of geophysical instruments in the well, VDNKh Catalog, 1980). The design of the known tip is able to provide free uncontrolled rotation of the depth tool in the plane, but the absence of locking and control systems does not allow you to deploy the depth tool in the plane.

A device for turning downhole tools is known (RF patent No. 2090751, ЕВВ 47/01, 1998), comprising a housing equipped with support elements, a rotary hollow shaft with a connecting instrument head for connecting to a downhole tool and a cable head for connecting to logging cable. The known design is equipped with an electric motor, which is easily controlled from the surface via a wireline cable, while the gearbox provides mechanical connection of the rotary shaft with the motor shaft, and the rotating collector provides electrical communication between the parts of the cable head that rotate relative to each other relative to the housing. This embodiment allows you to remotely control the rotation of downhole tools at the right time. The placement of a hollow shaft in a glass with a spring provides the output of the support anchors from the grooves and the installation of the device in the well string. Structural elements in the form of a cam protrusion and a support roller ensure the rotation of the rotary shaft before it is actuated. The presence of a gearbox and a rotating collector eliminates the twisting of the wireline cable and provides free rotation of the device, which significantly increases reliability compared to known designs.

Known cable head (AS USSR No. 987083, ЕВВ 47/00, 1983), made in the form of a collector placed in an oil-filled chamber with a pressure compensator, and containing the first housing with current collector rotating relative to each other and around the longitudinal axis of the device a part electrically connected to the cable; and a second body with a contact part connected to the downhole tool. In this case, the collector is equipped with a point contact with a reciprocal current collector. This design of the cable head allows you to eliminate the transmission of the twisting voltage of the cable to the downhole tools and ensures the safety of electrical contacts between the downhole tool and the cable in high pressure environments.

The disadvantages of the known devices include the complexity of the design, consisting of a large number of interacting elements, as well as the low reliability of the transmission of information due to the point and / or sliding electrical contacts between the receiving and transmitting parts of the structure. Low accuracy is due to the gradual wear of the contacts, as well as the influence of external factors on the transmitted signals — changes in pressure, temperature of the well medium, and dynamic effects during measurements.

The objective of the present invention is to simplify the design of a cable rotating head, to eliminate the influence of cable twisting during research on the measurement of parameters, to increase the speed of transmission of parameters from the telemetry system of the downhole tool to ground-based devices.

The problem is solved in the following way.

According to the invention, the cable rotating head comprising a first housing rotating with respect to each other around the longitudinal axis of the device, a first housing with a current collection part electrically connected to the cable and a second housing with a contact part electrically connected to the downhole tool in the form of a first transceiver with a transmitting antenna located in the first housing, and a second transceiver with a receiving antenna located in the second housing. In this case, the rotation unit of the first and second housings relative to each other and around the longitudinal axis of the device is made in the form of a ball bearing mounted along the longitudinal axis of the first housing, and at least two roller bearings mounted along the longitudinal axis of the second housing and spaced apart relative to each other.

The proposed technical solution has the following advantages compared to known devices:

- equipping the cable rotating head with an electromagnetic transceiver significantly simplifies the design of the device by reducing the number of mechanically interacting elements and, accordingly, increases the reliability of the proposed design;

- the design of the rotation unit in the form of a system of ball and roller bearings provides free rotation of the first housing and the second housing relative to each other, excluding the transmission of the twisting voltage of the cable to the downhole tools during research in the well. In this case, the ball bearing withstands a high impact on the axis of rotation of the device, and roller bearings spaced relative to each other along the longitudinal axis of the second housing reduce the radial dynamic effect on the rotation unit, thereby increasing the reliability of the design of the latter;

- the proposed design of a cable rotating head provides the ability to do without an oil-filled housing and pressure compensator, as with known devices, and thereby increases the manufacturability of its manufacture;

- equipping the cable rotating head with an electromagnetic transceiver in the form of a first transceiver with a transmitting antenna located in the first casing, and a second transceiver with a receiving antenna located in the second casing, makes it possible to contact the ground control unit with the downhole tool, which improves accuracy transmitted information, since it eliminates the influence on the transmitted parameters of related factors (noise, the influence of the state of the well environment, External Expansion dynamic impact, etc.).

The proposed design of the cable rotating head is easy to implement. For its manufacture does not require special materials and equipment, which meets the criteria of the invention of "industrial applicability".

The drawing shows a design variant of a cable rotating head.

The cable rotating head (hereinafter referred to as the device) includes a first housing 2 and a second housing 9, interconnected by a rotation system in the form of a ball bearing 5 and roller bearings 6. The first housing 2 is equipped with an electronic unit 3 with a transceiver antenna 11. The second housing 9 is equipped with an electronic unit 15 with a transceiver antenna 12. The first housing 2 and the second housing 9 are interconnected by a thrust ring 13, eliminating the separation of the latter during operation of the device. The thrust ring 13 is located under the union nut 7, which is screwed onto the housing 2. A through channel 8 for electrical conductors is made along the longitudinal axis of the device. The tightness of the inner cavity of the first housing 2 and the second housing 9 is provided by the sealing rings 4 and 14, respectively. At the upper end of the first body 2 and the lower end of the second body 9, respectively, a tip 1 for connecting with a logging cable and a tip 10 for connecting with a geophysical instrument (not shown in Fig.) Are installed.

In practice, the connecting electrical conductors are passed through the through channel 8 to the electromagnetic coils of the electronic units 3 and 15, connected during the operation of the device by a magnetic field with transceiver antennas 11 and 12, respectively. A rotating cable head is connected with a tip 1 to a wireline cable, and a tip 10 is connected to a downhole tool. During the descent of the downhole tool, the casings 2 and 9 are freely rotated relative to each other around the longitudinal axis of the device by means of a ball bearing 5 and roller bearings 6 and 7, which allow the antennas 11 and 12 to rotate freely relative to each other around the longitudinal axis of the device.

By means of transmitting and receiving antennas 11 and 12 rotating relative to each other during operation of the downhole tool, electromagnetic communication is made between the downhole tool and the ground system, that is, a combined two-way communication channel is provided between the downhole tool and the ground equipment, namely, the transceiver electronic units 3 and 15, the frequency modulation of electrical signals, their amplification and duplex transmission of electrical signals to ground equipment and vice versa is carried out . To realize the full duplex transmission of electrical signals, the electromagnetic coils of the electronic units 3 and 15 are wound with a double wire.

In the process of working on the well, the design of the proposed cable rotating head eliminates the transmission of twisting cable voltage to the downhole tool and at the same time provides the ability to transfer the spectrum of information transmitted in the Manchester-2 code to the high-frequency region and vice versa, which improves the reliability of communication between the downhole tool and the ground equipment.

Thus, the proposed technical solution is characterized by simplicity and high reliability of the design, provides high measurement accuracy and reliability of communication between the ground equipment and the downhole tool.

Claims (1)

A cable rotating head comprising a first housing rotating with respect to each other around the longitudinal axis of the device and a current collecting part electrically connected to the cable, and a second housing with a contact part electrically connected to the downhole tool, characterized in that it is additionally equipped with an electromagnetic transceiver in in the form of a first transceiver with a transmitting antenna located in the first housing, and a second transceiver with a receiving antenna located in the second housing, m the rotation unit of the first and second housings relative to each other and around the longitudinal axis of the device is made in the form of a ball bearing mounted along the longitudinal axis of the first housing, and at least two roller bearings mounted along the longitudinal axis of the second housing and spaced apart relative to each other.

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