RU38834U1 - STAND-ALONE BOREHING DEVICE - Google Patents

Abstract

Autonomous downhole tool refers to a device for geophysical research of wells. In the upper part of the device are located: a block of gas-dynamic gamma-ray logging, an autonomous power source, and in the lower part of the device is a block of sensors. In a sealed internal compartment made on one printed circuit board, there are: an analog-to-digital converter unit, a digital control unit with flash memory, and an instrument power supply. The essence of the utility model is to reduce the likelihood of depressurization of the downhole tool due to the absence of docking and board-to-board connections in the sealed internal compartment and the use of sealing devices made of hydrogen sulfide rubber and, thus, increasing the reliability of the stand-alone downhole tool during geophysical studies in wells, including anomalously high content of aggressive components in the well environment (up to 25% of each of the components of HS hydrogen sulfide and carbon dioxide CO).

Description

The utility model relates to devices for geological exploration and geophysical studies of oil, gas and gas condensate wells.

The level of technology.

Known autonomous downhole tool containing a separate sealed chamber with placed in it power sources and a connector for connecting a computer (1).

The described device for use is similar to the claimed utility model, i.e. its design allows geophysical surveys of wells to be recorded in internal non-volatile memory (flash memory). The closest in technical essence is a device for researching wells with subsequent data processing on a computer, containing an electronic unit in a metal cylindrical case, including analog and processor boards with flash memory, made in the form of a removable unit in a separate case (2). The disadvantage of this device is the presence of an additional detachable connection, complicating the design of the device as a whole: this design requires the use of additional seals, which increases the risk of depressurization of the device due to a possible leakage. In addition, the electrical connections of the flash memory unit to the main electronic unit are complicated due to the need for docking devices.

Given the real well conditions (high temperature, pressure, the presence of aggressive components in the form of hydrogen sulfide and carbon dioxide), leading to an accelerated failure of the downhole tool seals, we can conclude that the device taken as a prototype is not reliable enough.

The essence of the utility model.

The objective of the utility model is to increase the reliability of an autonomous downhole tool, reduce the likelihood of depressurization of the device during geophysical surveys in wells, including those with an abnormally high content of aggressive components in the wellbore environment (up to 25% of each component - hydrogen sulfide H ₂ S and carbon dioxide CO ₂ )

The task is achieved by the fact that in the proposed stand-alone downhole tool having a common cylindrical metal guard, devices of the analog-to-digital converter, digital control unit with flash memory, the power supply unit are made on one printed circuit board located inside the general sealed compartment of the device, and the seal of the guard is made of hydrogen sulfide resistant rubber.

The drawing shows a General view of the proposed utility model. In the upper part of the autonomous downhole tool there is a docking unit necessary for connecting the device to the scraper wire, wireline or pipes. The sealing device is used to seal the inner compartment, equipped with a protective casing. In the internal compartment there is a printed circuit board with the devices located on it: an analog-to-digital converter unit, a digital control unit with flash memory and an instrument power supply. A gamma-ray logging unit and an autonomous power source are located in the upper part of the device, and in the lower part of the device there is a sensor block, which includes a thermometer sensor, a moisture sensor and a pressure gauge sensor.

Claims (4)

1. An autonomous downhole tool for conducting geophysical surveys in wells with subsequent processing of data on a computer, containing an analog-to-digital converter located in a common internal sealed compartment, a digital control unit with flash memory, an instrument power supply, characterized in that in order to reduce the likelihood depressurization of the device due to the reduction of docking and motherboard soldered joints, the above devices are mounted on one printed circuit board. 2. The stand-alone downhole tool according to claim 1, characterized in that in it the seals of the general internal sealed compartment are made of hydrogen sulfide-resistant rubber. 3. The stand-alone downhole tool according to claim 1, characterized in that the sensor unit, including a thermometer sensor and a pressure gauge sensor, is located at the bottom of the device. 4. The stand-alone downhole tool according to claim 1, characterized in that the gamma-ray logging unit and an autonomous power source are located in the upper part of the device.