CN112883699A - Uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method - Google Patents

Abstract

The invention belongs to the technical field of digital reconnaissance systems, and particularly relates to a drilling and sealing design and sealing registration form digital manufacturing method for uranium ore geology, which comprises five steps, namely customizing a drilling and sealing design and a sealing record pattern template; step two, geological drilling and sealing design and sealing record style template parameter setting; inputting hole sealing process requirements and hole sealing record table contents; step four, determining the starting and stopping depth of the non-omitted target map; and fifthly, generating a hole sealing design drawing and generating a hole sealing record table. The method integrates and intelligentizes the uranium ore geological hole sealing work, reduces the labor intensity to the maximum extent, improves the working efficiency, enables researchers to get rid of mechanical and complicated manual labor, and has more efforts to research geological problems, deepen geological understanding and improve the research level. And various basic data and research results are systematically managed, so that the research work and the research results can be accumulated, and the continuity of the research work is kept.

Description

Uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method

Technical Field

The invention belongs to the technical field of digital reconnaissance systems, and particularly relates to a drilling and sealing design for uranium ore geology and a digitized manufacturing method for a sealing registration form.

Background

The hole sealing design and record in the past are mostly manually completed, and the work is tedious and lacks normative.

Especially, with the requirements of digitalization and standardization in work becoming stricter and stricter, the conventional hand-drawing design is difficult to meet the work requirement.

Therefore, with the comprehensive and rapid development of computer technology, the data acquisition, drawing and other work in the working area are completely converted into intellectualization and automation.

Can release the worker from complicated artifical data acquisition and drawing, effectual improvement work efficiency.

Disclosure of Invention

The invention aims to provide a uranium ore geological drilling and sealing design and a sealing registration form digital manufacturing method aiming at the defects in the prior art, so that full process automation and intellectualization are realized, and the working efficiency and the mapping precision are effectively improved.

The technical scheme of the invention is as follows:

a uranium ore geological drilling and sealing design and sealing registration table digital manufacturing method comprises five steps, namely customizing a drilling and sealing design and a sealing record pattern template;

step two, geological drilling and sealing design and sealing record style template parameter setting;

inputting hole sealing process requirements and hole sealing record table contents;

step four, determining the starting and stopping depth of the non-omitted target map;

and fifthly, generating a hole sealing design drawing and generating a hole sealing record table.

The method comprises the steps of firstly, customizing a drilling and sealing design and a sealing record pattern template;

the entire map is divided into three partitions.

A uranium mine geological drilling hole sealing design and hole sealing registration form digital manufacturing method comprises the steps that a first partition (1) is a hole sealing design partition, and four functional modules including a depth gauge, a grain level histogram, a hole sealing position, a geological brief description and requirements are arranged below the partition;

in the uranium mine geological drilling hole sealing design and hole sealing registration table digital manufacturing method, a second subarea (2) is used for hole sealing record subareas, and four functional modules including hole sealing positions, wooden plug specifications, hole sealing materials, formulas and hole sealing methods are arranged below the subareas;

in the uranium mine geological drilling and sealing design and sealing registration form digital manufacturing method, the third subarea (3) is a remark subarea and is used for recording other conditions encountered in actual work.

A uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method comprises the second step of geological drilling and sealing design and sealing record pattern template parameter setting;

when the parameters are set, selecting a drilling hole number to be drawn, and drawing a depth gauge and a drilling hole size fraction histogram under the design partition in D1 according to a logging curve;

determining the hole sealing position and geological brief in D1 according to the hole size fraction histogram;

wherein the well logging curve comes from the basic uranium mine exploration work before hole sealing design.

A uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method is adopted, and step three, sealing process requirements and sealing record table contents are input;

the step (2) is used for recording on site and recording technical paths in the hole sealing construction process, and comprises the contents in the subareas in the step (2).

A uranium mine geological drilling hole sealing design and hole sealing registration table digital manufacturing method comprises the fourth step of determining the starting and stopping depth of a non-omitted target map;

non-target maps, i.e., non-target depth fraction histograms, may be omitted from the map;

when the depth of the drilled hole is larger and the scale is smaller, the size fraction histogram is excessively compressed, and a part of the non-target depth of the size fraction histogram can be omitted, so that the target depth is clearer.

The invention has the beneficial effects that:

the uranium ore geological drilling and sealing design and sealing registration table digital manufacturing method integrates uranium ore sealing data management, geological research and result display, so that the uranium ore geological sealing work is integrated and intelligent, the labor intensity is reduced to the maximum extent, the working efficiency is improved, researchers get rid of mechanical and complicated manual labor, more efforts are provided for researching geological problems, geological understanding is deepened, and the research level is improved.

And various basic data and research results are systematically managed, so that the research work and the research results can be accumulated, and the continuity of the research work is kept.

Drawings

FIG. 1 is a flow chart of hole sealing design and hole sealing record.

Detailed Description

The invention is described in further detail below with reference to the figures and the embodiments.

D1: and (4) customizing a drilling and sealing design and a sealing record sample template.

I.e. the whole frame is divided into three partitions. Designing partitions for hole sealing respectively, wherein four functional modules including a depth gauge, a grain level histogram, a hole sealing position, a geological brief description and requirements are arranged below the partitions; (2) the hole sealing recording subarea is provided with four functional modules of hole sealing position, wood plug specification, hole sealing material and formula and hole sealing method; (3) and partitioning for remarking, and recording other conditions encountered in actual work.

D2: geological drilling and sealing design and sealing record style template parameter setting

When the parameters are set, the number of the drill hole to be drawn is selected, and the depth gauge and the drill hole size fraction histogram under the design partition in D1 are drawn according to the logging curve. The borehole sealing location and geological profile in D1 were determined from the borehole size fraction histogram.

Wherein:

the well logging curve comes from the basic uranium mine exploration work before hole sealing design.

D3: inputting the hole sealing process requirements and the contents of the hole sealing record table.

The step is used for recording on site, and recording technical paths in the sealing construction process, including the contents in the partition (2) in D1.

D4: and determining the starting and stopping depths of the non-omitted target map sheets.

Non-target, i.e., non-target depth fraction histograms may be omitted from the map-sheet. When the depth of the drilled hole is larger and the scale is smaller, the size fraction histogram is excessively compressed, and a part of the non-target depth of the size fraction histogram can be omitted, so that the target depth is clearer.

D5: and generating a hole sealing design drawing and generating a hole sealing record table.

A uranium ore geological drilling and sealing design and sealing registration table digital manufacturing method comprises five steps, namely customizing a drilling and sealing design and a sealing record pattern template;

step two, geological drilling and sealing design and sealing record style template parameter setting;

inputting hole sealing process requirements and hole sealing record table contents;

step four, determining the starting and stopping depth of the non-omitted target map;

and fifthly, generating a hole sealing design drawing and generating a hole sealing record table.

The method comprises the steps of firstly, customizing a drilling and sealing design and a sealing record pattern template;

the entire map is divided into three partitions.

A uranium mine geological drilling hole sealing design and hole sealing registration form digital manufacturing method comprises the steps that a first partition (1) is a hole sealing design partition, and four functional modules including a depth gauge, a grain level histogram, a hole sealing position, a geological brief description and requirements are arranged below the partition;

in the uranium mine geological drilling hole sealing design and hole sealing registration table digital manufacturing method, a second subarea (2) is used for hole sealing record subareas, and four functional modules including hole sealing positions, wooden plug specifications, hole sealing materials, formulas and hole sealing methods are arranged below the subareas;

in the uranium mine geological drilling and sealing design and sealing registration form digital manufacturing method, the third subarea (3) is a remark subarea and is used for recording other conditions encountered in actual work.

A uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method comprises the second step of geological drilling and sealing design and sealing record pattern template parameter setting;

when the parameters are set, selecting a drilling hole number to be drawn, and drawing a depth gauge and a drilling hole size fraction histogram under the design partition in D1 according to a logging curve;

determining the hole sealing position and geological brief in D1 according to the hole size fraction histogram;

wherein the well logging curve comes from the basic uranium mine exploration work before hole sealing design.

A uranium mine geological drilling and sealing design and sealing registration table digital manufacturing method is adopted, and step three, sealing process requirements and sealing record table contents are input;

the step (2) is used for recording on site and recording technical paths in the hole sealing construction process, and comprises the contents in the subareas in the step (2).

A uranium mine geological drilling hole sealing design and hole sealing registration table digital manufacturing method comprises the fourth step of determining the starting and stopping depth of a non-omitted target map;

non-target maps, i.e., non-target depth fraction histograms, may be omitted from the map;

when the depth of the drilled hole is larger and the scale is smaller, the size fraction histogram is excessively compressed, and a part of the non-target depth of the size fraction histogram can be omitted, so that the target depth is clearer.

Claims (8)

1. The uranium ore geological drilling and sealing design and sealing registration form digital manufacturing method comprises five steps and is characterized in that:

step one, customizing a drilling and sealing design and a sealing record style template;

step two, geological drilling and sealing design and sealing record style template parameter setting;

inputting hole sealing process requirements and hole sealing record table contents;

step four, determining the starting and stopping depth of the non-omitted target map;

and fifthly, generating a hole sealing design drawing and generating a hole sealing record table.

2. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 1, wherein: customizing a drilling and sealing design and a sealing record pattern template;

the entire map is divided into three partitions.

3. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 2, wherein: the first partition (1) is a hole sealing design partition, and four functional modules including a depth gauge, a grain level histogram, a hole sealing position, a geological brief description and requirements are arranged below the partition.

4. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 2, wherein: and the second partition (2) is a hole sealing recording partition, and four functional modules including hole sealing positions, wood plug specifications, hole sealing materials, hole sealing formulas and hole sealing methods are arranged below the partition.

5. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 2, wherein: the third partition (3) is a remark partition and is used for recording other situations encountered in actual work.

6. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 1, wherein: step two, designing the hole sealing of the geological drilling and setting the parameters of a hole sealing record pattern template;

when the parameters are set, selecting a drilling hole number to be drawn, and drawing a depth gauge and a drilling hole size fraction histogram under the design partition in D1 according to a logging curve;

determining the hole sealing position and geological brief in D1 according to the hole size fraction histogram;

wherein the well logging curve comes from the basic uranium mine exploration work before hole sealing design.

7. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 1, wherein: inputting hole sealing process requirements and hole sealing record table contents;

the step (2) is used for recording on site and recording technical paths in the hole sealing construction process, and comprises the contents in the subareas in the step (2).

8. The uranium ore geological drilling and sealing design and sealing registry digitalized manufacturing method according to claim 1, wherein: step four, determining the starting and stopping depth of the non-omitted target map;

non-target maps, i.e., non-target depth fraction histograms, may be omitted from the map;

when the depth of the drilled hole is larger and the scale is smaller, the size fraction histogram is excessively compressed, and a part of the non-target depth of the size fraction histogram can be omitted, so that the target depth is clearer.

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