SU411202A1 - - Google Patents

Description

one

The invention relates to a geological exploration drilling technique and can be used to determine the spatial distribution of a borehole in rocks of any magnetic susceptibility.

Known instruments for determining the irradiation position of the borehole, containing two cylinders interconnected H located inside the tubular body, sensitive elements of the zenith and apsidal angle and needle, are rigidly connected with the same cylinder.

The described device is different in that each sensing element is made in the form of an optical trihedral prism mounted on the vertical-oriented frame of the aisidal sensing element, while one of the faces of the prism turns to a focused light source, and the other two are equipped with converters of light energy into electrical energy. .

The drawing shows a schematic diagram of an on-display device.

It contains the upper cylinder 1, which is located inside it on the bearings 2, the tubular body 3, which maintains the plumb position at a constant position relative to the auxiliary plane, is installed inside the tubular cornus oriented relative to the vertical frame 4 with optical prisms 5, each of which has one face to located above the aperture 6 to the light source 7; the other two faces of the prisms are equipped with converters 8 of light energy into electrical energy. The frame of the sensitive element of the zenith angle (top) is provided with a plumb 9, & The frame of the sensing element of the apseal angle is a slot 10, which includes the end of the needle 11, which is rigidly connected by means of a hinge joint with the lower cylinder. In the upper compartment of the device there are: a power supply unit 12, a unit of measuring amplifiers 13 and a collector 14; at the upper end, a standard connecting head 15 is fastened.

In a curved borehole, an angle is formed between the axes of the upper and lower parts of the device, corresponding to its curvature in the measurement area equal to half the length of the device with extensions. In this case, a needle 11, rigidly connected with the lower part of the device, deviating according to the curvature of the well, moves frame 4 of the sensing element of the apsidal angle, the axis of rotation of which is; always located in the ansidal plane. Deviating with frame 4, the optical prism 5 senses the light rays from the light source 7, which, by refraction, excite electrical signals in the transducers 8. The latter through the collector 14 nostat on the block of distinct amplifiers 13,

and then the logging cable is transmitted to ground-based recording devices, which, by the difference in the values of the electrical signals, fix the angle of deflection of the axis of the lower cylinder relative to the upper one. The excitation of electrical signals during the determination of the zenith angles is also carried out due to the presence of a plumb line, which orients the corresponding (upper) frame 4 with the optical prism 5 relative to the vertical in the apsidal plane.

Subject invention

A device for determining the spatial position of wells, containing two cylinders interconnected and located inside the tubular body, sensitive elements of the zenith and apsidal angle and a needle rigidly connected with the lower cylinder, characterized in that in order to increase measurement accuracy and reliability in operation , in it, each sensitive element is made in the form of an optical trihedral prism, mounted on the vertical frame of the apsidal sensitive element, with one of Raney prism faces to focus the light source, and the other two - are provided with transducers light energy into electrical energy.

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