SU890319A1 - Device for monitoring geophysical tool in a well - Google Patents

Description

The invention relates to devices for well logging. Known devices for controlling the movement of a downhole tool, made in the form of a cable lug, in which the presence of an elastic element located between the support nut and the inner race of a radially elastic bearing mounted on a rod with a gap, provides a longitudinal displacement of the cable-connected node relative to the node associated with a downhole tool when there is no cable tension at the tool. At the same time, at least one contact pin of the rod is displaced from the corresponding contact ring and breaks the indication circuit ti 3 The disadvantages of the tip are a complete break in the supply circuit of the downhole tool in case of using a single conductor cable (which is unacceptable for most geophysical instruments) wireline cable for indication. A device for controlling the movement of geophysical instruments in a well is known, consisting of a motion sensor, an electrical measuring circuit and a recorder in which the motion sensor is designed as coaxially arranged ring-shaped magnets directed by poles of the same name to each other, one of which is rigidly fixed and the other is placed with the possibility of movement, and along the symmetry axis of the magnets there is a magnetic-controlled contact connected to the secondary winding of the pictransformer, the primary winding of which is connected on power to the unit associated with the registrar 23, However, this device can only be used in downhole tools, v.kotoryh information transmission device 3 and the signal power is performed according to various forces of the cable. In addition, the presence of a peak transformer does not allow this device to be used in downhole DC powered devices. The purpose of the invention is to expand the functionality of the device by controlling the movement of downhole tools from power sources, AC and DC voltage. current using all types of cables (including single-core). The goal is achieved by the fact that a device for controlling the movement of geophysical instruments in a well, contains an electric KOHTaifTHbiH unit controlled by a motion sensor, a measuring circuit recorder with a threshold device and a power supply unit connected in the form of core and armor logging cable, with a measuring circuit, while the electrical contact node is connected in parallel to the power circuit, an optocoupler with a circuit is protected by a light emitting diode consisting of a resistor connected concurrently with it and a stabilitron in parallel, and two resistances, one of which, constant, is connected via an electrical contact node to the power supply circuit, and the second, made variable, is included in the power supply interruption between the power supply unit and the living wire cable and connected in parallel with the light-emitting diode and its protection circuit, and the photodetector of the optocoupler connected to the input of the threshold device of the recorder. The drawing shows a schematic diagram of the device. In the case of the downhole tool 1 or cable lug, the sensor 2 controls the movement of the device and measurement circuit 3 for geophysical surveys. The electrical contact 4 controlled by the sensor 2 commutates the resistance circuit 5, thereby changing the load by itself. on the surface of the power supply unit 6 downhole tool. The downhole tool 1 is connected with power unit 6, ground measuring recorder 7 and monitoring recorder 8 via cable 9 and armor 10. Ontron 12 light-emitting diode 11 is connected to the rupture of the core 9, the photodetector 13 of which is connected to the threshold device 14 of the recorder 8. The protection circuit 15 is designed to protect against overcurrent (resistor 16) and the voltage (zener diode 17) of the light-emitting diode 11. With the help of an alternating resistance 18 connected in parallel with the diode 11 and the resistor 16, an optimum slave mode is established you optocoupler 12 by changing the types of downhole tools. The device works as follows. Suppose device 1 is equipped with a cable tension monitoring sensor, the electrical switching unit of which is made, for example, in contact brushes located on a rod that can be axially moved, and collector rings. By tensioning the cable, it is possible to control the movement of the instrument during geophysical surveys in wells. In the normal driving mode, the electrical contact 4 is open (the brush is not on the collector ring). If the device 1 stops on the ledge, bypassing the cable, or when the device is stuck, the sensor monitors the cable tension. Contact 4 is closed, connecting to the supply circuit of downhole tool 1 an additional load - resistance 5. This leads to a rise in the current consumer from power supply 6. An increase in the value of the current flowing through the conductor 9 leads to an increase in the current flowing through the diode .11 of the optocoupler 12. At the same time, the brightness of the diode I1 increases — the luminous flux increases, falling on the surface of the photodetector (for example, photoresistor) 13. The decrease in its ohmic resistance is proportional to, ultimately, the change in current consumption bodies from the power supply unit 6 caused by the triggering (, 1st sensor 2. The threshold device 14 is triggered, the output signal of which activates the recorder 8 of the recorder 8.

Claims (1)

Claim An apparatus for controlling the movement of geophysical instruments in a well, comprising: a motion sensor controlled electrical contact assembly, the measuring circuit, tagging istrator ₂₀ to a threshold device and a power supply unit connected via a power supply circuit, in the form of strands vyyolnennoy i.broni wireline, 'with the measuring circuit, with ₂₅ electric contact node connected in parallel to the power circuit, characterized in that, in order to expand the functionality June 9 NOSTA device by providing control over the movement of geophysical instruments powered by the voltage source both DC and AC currents and pute№ use different types of cables _L introduced into the device with the photocoupler light emitting diode protection circuit consisting of diode connected in series with a resistor and in parallel a zener diode connected to the diode, and two resistances, one of which is constant, is connected to the power circuit through an electrical contact node, and the second is alternating Oh, it is included in the open circuit of the power supply between the power supply unit and the living wireline cable and is connected in parallel with the light emitting diode and its protection circuit, and the optocoupler photodetector is connected to the input of the threshold recorder device.