While-drilling natural gamma uranium measuring instrument based on rock core drilling

A gamma uranium measuring instrument and while-drilling technology, applied in earthwork drilling, wellbore/well components, etc., can solve the problems of low drilling core collection rate, scrapping of kilometers deep holes, and poor application effect

Inactive Publication Date: 2015-02-25
CHINA UNIV OF GEOSCIENCES (WUHAN)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The drilling core collection rate is very low or even impossible to take cores, so it is impossible to accurately judge whether the drilled strata are uranium deposits
When drilling deep uranium mines in some areas, the lower part of the strata is broken and the core cannot be taken out. It is proposed that the lower part of the drill tool collapses or shrinks and cannot continue to drill down. The problem that the thousand-meter-deep hole is almost scrapped often occurs
In addition, due to the limitation of environmental protection on the surface, it is difficult to reopen new holes, which brings great difficulties to the drilling work
[0003] Although there are examples of gamma-ray intensity measurement while drilling in China, the purpose is to divide lithology and formation correlation, calculate formation shale content and calculate median particle size, but it cannot be used in core drilling of uranium ore
In addition, when conducting uranium ore drilling measurements, there is also a method of using natural gamma ray intensity to judge whether the drilled formation is uranium ore. The borehole must be stable so that the measuring instrument can be lowered into the wellbore smoothly, and it cannot be used in loose, broken and easily collapsed formations
The existing coring drilling technology is not effective in the exploration of uranium deposits in some loose and broken formations, and the coring rate is low or even no core can be taken out; this makes it impossible to conduct correlation analysis through the core to determine whether the drilled formation is for uranium ore

Method used

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  • While-drilling natural gamma uranium measuring instrument based on rock core drilling
  • While-drilling natural gamma uranium measuring instrument based on rock core drilling
  • While-drilling natural gamma uranium measuring instrument based on rock core drilling

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Such as Figure 1-2 As shown, a gamma-ray uranium meter while drilling based on core drilling includes an outer tube 1, an inner tube, a battery assembly 7, a fastening compression spring 15, and a sensor 18; the outer tube 1 is a non-magnetic drill pipe, and the outer tube The upper end interface 33 of the upper end is connected (threaded connection) with the lower end of the drill pipe 39, and the lower end interface 35 of the outer pipe is connected (threaded connection) with the core pipe 35; the inner pipe is located in the outer pipe 1, and the ring of the outer pipe and the inner pipe The shaped space is the circulation channel of the drilling fluid; there is a fastening compression spring 15 between the inner tube and the outer tube 1 (that is, the inner tube is clamped in the outer tube by the tightening compression spring);

[0020] The inner tube includes a power switch fixture 4, a battery compartment pressure-resistant cylinder 6, a first pressure-resistant...

Embodiment 2

[0027] Such as image 3 As shown, it is basically the same as Embodiment 1, except that: a signal transmitting module, a first transmitting antenna 36, ​​a second transmitting antenna 38, and a ground signal receiver are added.

[0028] The signal processing circuit also includes a signal transmitting module, the signal output terminal of the single-chip microcomputer is connected with the signal transmitting module, and the gamma uranium measuring instrument while drilling also includes a ground signal receiver 41 receiving the signal transmitted by the signal transmitting module; 20 is provided with a through hole, the lower end of the through hole on the plug screw plug 20 is blocked by a watertight socket 21, and a watertight plug 22 is inserted on the watertight socket 21, and the output of the transmitting module of the signal processing circuit is provided by two watertight plugs 22. The signal line is connected to the first transmitting antenna 36 and the second transm...

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Abstract

The invention relates to equipment capable of detecting a uranium ore in real time in a coring drilling process. A while-drilling gamma uranium measuring instrument based on rock core drilling is characterized by comprising an outer pipe, an inner pipe, a battery component, a fastening pressure spring and a sensor, wherein the outer pipe is a non-magnetic drill rod; the inner pipe is positioned in the outer pipe, and comprises a power supply switch fixing piece, a battery bin compression-resisting cylinder, a first compression-resisting cylinder connecting head, a circuit board bin compression-resisting cylinder, a second compression-resisting cylinder connecting head, a sensor bin compression-resisting cylinder and a plug screw; the battery component supplies power to a signal processing circuit and the sensor; the sensor is positioned in the sensor bin compression-resisting cylinder, and is connected with a sensor signal input end of the signal processing circuit; the signal processing circuit comprises a single-chip microcomputer; and the single-chip microcomputer is connected with a storer through an interface circuit. The instrument can perform the uranium ore exploration for a stratum difficult to obtain a rock core, through measuring natural gamma strength of the stratum, and measures the natural gamma strength while drilling in the coring drilling process to judge if the drilled stratum is the uranium ore.

Description

technical field [0001] The invention belongs to a measuring-while-drilling instrument for uranium resource exploration, in particular to a device capable of real-time detection of uranium during coring drilling. Background technique [0002] Uranium is a rare radioactive metal element. Natural uranium is the raw material for the production of nuclear weapons and the basic raw material for nuclear submarines and nuclear power plants. Uranium resources are not only an important strategic resource, but also an important energy source. The exploration of uranium ore requires various methods such as physical exploration and chemical exploration. Core drilling is the ultimate method to determine the grade and production of uranium ore. In some mining areas, the formations are loose, fractured and prone to collapse, chipping, or borehole shrinkage. The rate of drilling cores is very low or even no cores can be taken at all, so it is impossible to accurately judge whether the dri...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B49/00
CPCE21B49/00
Inventor 姚爱国杜旭孟凡贺
Owner CHINA UNIV OF GEOSCIENCES (WUHAN)
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