RU16522U1 - Borehole equipment - Google Patents

Abstract

Borehole equipment

The utility model relates to a technology for supporting drilling for oil, gas, and for other purposes. Specifically, the utility model is intended to determine the spatial orientation of the layout of the bottom of the drill string, as well as the operational management of directional and horizontal wells.

The tasks of creating a utility model are to increase the reliability of the equipment, reduce vibration, simplify the installation of devices and power supply

These tasks are achieved due to the fact that the case of inclinometric sensors is mounted on a lodgement and two shock absorbers inside the guard cover on one side, a thyristor unit is mounted on the other hand, and an electronic unit is mounted on the two electronic shock absorbers in the central part.

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ESSAY

Description

Borehole equipment

The utility model relates to technology for drilling for oil, gas and for other purposes. Specifically, the utility model is intended to determine the spatial orientation of the layout of the bottom of the drill string, as well as the operational management of directional and horizontal wells.

Known downhole equipment according to the patent of the Russian Federation No. 2066749, MKGT6 E21B47 022, containing an inclinometric sensor installed in the housing and centered relative to the inner string of downhole pipes in special spring-loaded arcuate elements.

The disadvantage of this borehole equipment is its susceptibility to vibration, the complexity of the installation of devices and power supply.

The tasks of creating a utility model are to increase the reliability of the equipment, reduce vibration, simplify the installation of devices and power supply.

These tasks are achieved due to the fact that the case of inclinometric sensors is mounted on a lodgement and two shock absorbers inside the guard housing on the one hand, on the other hand a thyristor unit is mounted, and an electronic unit is mounted on the two electronic shock absorbers in the central part.

The case of inclinometric sensors is attached with clamps to the tool tray.

At the ends of the protective casing, guide elements for circumferential fixation are installed. At one of the ends of the protective casing, a connector is made.

MKP6E21V47 02

The use of 4 shock absorbers allowed to reduce the impact of vibrations on the instruments.

Clamps simplified installation and dismantling of the body of inclinometric sensors. Guide elements - secured the fixation of the axial position of the devices, and the presence of a connecting connector - guklyadku power generator well equipment.

Patent studies have shown that the proposed technical solution has novelty and industrial applicability, therefore, meets the criteria of a utility model.

The essence of the utility model is illustrated in the drawing of FIG. 1, which shows the downhole equipment.

The downhole equipment contains a protective casing 1, inside of which, on one side, on a lodgement 2 and two sensor shock absorbers 3, an enclosure of sensors 4 is mounted. At the other end of the protective casing 1, a thyristor unit 5 is installed inside it. In the middle part of the protective casing 1 on two shock absorbers electronics 6 installed electronic equipment 7. The case of inclinometric sensors 4 to the lodgement 2 is attached with clamps 8. This speeds up and simplifies installation and dismantling.

At both ends of the protective casing 1, guide elements 5 for circumferential fixation are installed.

At one of the ends made connector 10.

During operation, a signal containing information about the zenith and azimuth angles from the inclinometric sensors (not shown in Fig. 1) is fed to electronic equipment 7 and then to the thyristor unit 5, for transmission via an electromagnetic communication channel. The signal is received by ground equipment, which in FIG. 1 not shown either

1. To increase the reliability of the well operation of equipment, including inclinometric sensors and electronic equipment.

2. Simplify the installation and dismantling of devices and provide power supply.

3. To provide district fixation of downhole electronic equipment in the downhole telemetry system. The authors:

06.2000g.

S.B. Varlamov

5-15. o-g-che-o-g. .A.G. Igashkin G.A. Gri1 e, j FORMULA

Claims (4)

1. Downhole equipment containing a case of inclinometric sensors installed inside the guard, characterized in that the case of inclinometer sensors is mounted on a lodgement and two shock absorbers inside the guard on one side, the thyristor block is mounted on the other side, and on the other side, on two electronic shock absorbers mounted electronic unit.  2. Downhole equipment according to claim 1, characterized in that the body of the inclinometric sensors is attached to the lodgement with clamps.  3. Downhole equipment according to claim 1 or 2, characterized in that at the ends of the casing there are guide elements for circumferential fixation. 4. Downhole equipment according to p. 1 - 3, characterized in that at one of the ends of the guard cover is made a connector.