CN102467599B - Mine laneway generation system and method - Google Patents

Abstract

The invention discloses a mine laneway generation system and a mine laneway generation method. The mine laneway generation system comprises a traverse point management module, a centerline management module and a laneway management module, wherein the traverse point management module is used for adding required traverse points on a mining engineering plan of a mine, and storing the measured information of traverse points in the mine; the centerline management module is used for generating laneway centerlines on the mining engineering plan of the mine according to the position information, imported by the traverse point management module, of the traverse points or an acquired laneway centerline drawing instruction; and the laneway management module is used for generating laneways according to selected laneway centerlines on the mining engineering plan and the parameter information of the laneways corresponding to the laneway centerlines; and laneway information corresponding to the laneway centerline comprises the input parameter information of the laneway or the parameter information of the laneway with the traverse points on the laneway centerline. By the system and the method, laneway drawing efficiency can be improved, and errors of the drawn laneway are reduced.

Description

Mine laneway generation system and method

Technical field

The embodiment of the invention relates to the mine ventilation technology field, relates in particular to a kind of mine laneway generation system and method.

Background technology

The mining engineering plan in colliery is the basic drawings of reflection mine laneway layout and back production situation.Tunnel on the mining engineering plan on the prior art is drawn by the manual machine plotting line of draughtsman, upward the inky cap word is drawn and formed.The error in the tunnel of drawing on the mining engineering plan of manual drawing reaches about 0.2mm.Because very time-consuming the taking a lot of work of work in tunnel drawn in the manual work of mining engineering plan, generally be to fill out in every month to paint once, can not fully in time reflect the Coal Production Status of Construction, can not satisfy the needs of the modernized coal undertaking of fast development.

In sum, tunnel on the artificial drafting of the existing employing mining engineering plan, efficient is low and error is big.

Summary of the invention

The present invention provides a kind of mine laneway generation system and method, in order to solve the defective that tunnel efficient is low and error is big on the artificial drafting mining engineering plan in the prior art, can improve the efficient of drawing the tunnel, reduces the error in the tunnel of drawing out.

The embodiment of the invention provides a kind of mine laneway generation system, comprising:

The tracerse point administration module is used for the mining engineering plan at mine, adds required tracerse point; Preserve the real measured data of tracerse point in the mine, the real measured data of said tracerse point comprises the positional information of tracerse point and the parameter information in tunnel, tracerse point place;

The center line administration module, the positional information of the tracerse point that is used for importing according to said tracerse point administration module or the tunnel center line that obtains are drawn instruction, generate the tunnel center line on the mining engineering plan of mine;

The tunnel administration module; Be used for according to parameter information from the corresponding tunnel of tunnel center line that said mining engineering plan is chosen and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

The embodiment of the invention provides a kind of mine laneway generation method, comprising:

Positional information or tunnel center line according to the tracerse point that imports are drawn instruction, the tunnel center line on the mining engineering plan that generation needs to draw;

Parameter information according to the corresponding tunnel of the tunnel center line of choosing from said mining engineering plan and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

Mine laneway generation system provided by the invention and method; Can draw instruction according to the positional information of tracerse point in the mine or the tunnel center line that obtains; Tunnel center line on the mining engineering plan of generation mine; Parameter information according to the corresponding tunnel of the tunnel center line of choosing from mining engineering plan and tunnel center line generates the tunnel, has improved the efficient of drawing the tunnel, has reduced the error in the tunnel of drawing out.

Description of drawings

In order to be illustrated more clearly in the technical scheme on the embodiment of the invention or the prior art; To do one to the accompanying drawing of required use in embodiment or the description of the Prior Art below introduces simply; Obviously, the accompanying drawing that describes below is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the mine laneway generation system that Figure 1A provides for the embodiment of the invention one;

The synoptic diagram of a kind of administration interface of tracerse point administration module in the mine laneway generation system that Figure 1B provides for the embodiment of the invention one;

Fig. 1 C is the synoptic diagram that a kind of section of laneway pipe reason module in the mine laneway generation system that provides of the embodiment of the invention one is provided with the interface;

Fig. 2 A is the structural representation of the mine laneway generation system that provides of the embodiment of the invention two;

Fig. 2 B is the synoptic diagram that elevation information adds the interface in the mine laneway generation system that provides of the embodiment of the invention two;

Fig. 2 C is the synoptic diagram that the tunnel generates submodule in the mine laneway generation system that provides of the embodiment of the invention two a kind of profile data is provided with the interface;

Fig. 2 D is a kind of synoptic diagram that nation is set apart from the interface of nation's spool reason module in the mine laneway generation system that provides of the embodiment of the invention two;

Fig. 2 E is a kind of synoptic diagram that adds equipment interface of facilities management module in tunnel in the mine laneway generation system that provides of the embodiment of the invention two;

The schematic flow sheet of the mine laneway generation method that Fig. 3 provides for the embodiment of the invention three.

Embodiment

For the purpose, technical scheme and the advantage that make the embodiment of the invention clearer; To combine the accompanying drawing on the embodiment of the invention below; Technical scheme on the embodiment of the invention is carried out clear, intactly description; Obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the present invention's protection.

Embodiment one

The structural representation of the mine laneway generation system that Figure 1A provides for the embodiment of the invention one, shown in Figure 1A, this mine laneway generation system comprises: tracerse point administration module 11, center line administration module 13 and tunnel administration module 15.

Wherein, tracerse point administration module 11 is used for the mining engineering plan at mine, adds required tracerse point; Preserve the real measured data of tracerse point in the mine, the real measured data of said tracerse point comprises the positional information of tracerse point and the parameter information in tunnel, tracerse point place;

Center line administration module 13 is used for drawing instruction according to the positional information of the tracerse point that imports from said tracerse point administration module or the tunnel center line that obtains, the tunnel center line on the mining engineering plan of generation mine;

Tunnel administration module 15; Be used for according to parameter information from the corresponding tunnel of tunnel center line that said mining engineering plan is chosen and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

Particularly; The tracerse point administration module 11 of mine laneway generation system of the present invention can obtain the real measured data of all tracerse points in a certain mine; For example: the real measured data that obtains tracerse point from the real measured data of indication user input lead point or according to the result that checkout equipment detects; Tracerse point according to user's input adds instruction then, can on the mining engineering plan of mine, add required tracerse point.Tracerse point administration module 11 can also be preserved the real measured data of each tracerse point in the mine in advance; When adding tracerse point; Then can directly import the real measured data of this tracerse point; For example: the synoptic diagram of a kind of administration interface of tracerse point administration module in the mine laneway generation system that Figure 1B provides for the embodiment of the invention one; Shown in Figure 1B; In adding the process of tracerse point, the gurmy of the tracerse point that the tracerse point administration module can obtain actual measurement through this administration interface, exploiting field title, workplace title, tunnel title, tracerse point altimetric data (co-ordinate position information such as X, Y, Z), left and right sides nation wait real measured data artificial or import automatically apart from (forward sight left side nation, the right nation of forward sight), after choosing the type of tracerse point, can generate and preserve the real measured data of this tracerse point; In the process of deletion tracerse point, can tracerse point that choose instruction to choose according to tracerse point be deleted from mining engineering plan, also can the real measured data of tracerse point be deleted from database.Wherein, the positional information of tracerse point is the tracerse point altimetric data among Figure 1B, the parameter information in tunnel, tracerse point place be among Figure 1B tracerse point and the tunnel between left and right sides nation distance, tunnel title etc.The positional information of the tracerse point that 13 of center line administration modules can import according to tracerse point administration module 11 or draw instruction according to the tunnel center line of user's input of obtaining generates the tunnel center line on the mining engineering plan of mine.Tunnel administration module 15 can generate the tunnel according to the parameter information in the corresponding tunnel of the tunnel center line of choosing from mining engineering plan and said tunnel center line.For example: Fig. 1 C is the synoptic diagram that a kind of section of laneway pipe reason module in the mine laneway generation system that provides of the embodiment of the invention one is provided with the interface; Shown in Fig. 1 C; The common section in tunnel can comprise: skene arch, trapezoidal arch, rectangle arch, circular arch and three-centered arch etc., and at the tunnel center line of choosing from mining engineering plan, and after obtaining the parameter information in tunnel corresponding on this tunnel center line; Can choose instruction to choose section according to section; And according to the section of choosing required section parameter is set, for example: choose width and waist high (also can generating automatically) that skene arch can be set after the skene arch according to the real measured data of tracerse point, completion is set after; Tunnel administration module 15 can generate the tunnel along this tunnel center line, and the tunnel of this generation is a three-dimensional stereo model.

In the present embodiment; The mine laneway generation system can be drawn instruction according to the positional information of tracerse point in the mine or the tunnel center line that obtains; Tunnel center line on the mining engineering plan of generation mine; Parameter information according to the corresponding tunnel of the tunnel center line of choosing from mining engineering plan and tunnel center line generates the tunnel, has improved the efficient of drawing the tunnel, has reduced the error in the tunnel of drawing out.

Embodiment two

Fig. 2 A is the structural representation of the mine laneway generation system that provides of the embodiment of the invention two; Shown in Fig. 2 A; On the basis of embodiment one, the center line administration module 13 of this mine laneway generation system comprises: import rendering submodule 21 and/or instruction rendering submodule 22.

Wherein, import rendering submodule 21, the positional information of the tracerse point that the needs that are used for importing according to said tracerse point administration module are drawn, the tunnel center line on the mining engineering plan that generation needs to draw;

Instruction rendering submodule 22, the tunnel center line that is used to obtain user's input is drawn instruction, draws instruction according to said tunnel center line, and generations needs the tunnel center line on the mining engineering plan of drafting.

Further, center line administration module 13 can also comprise one or more arbitrarily with lower module:

Center line interrupts submodule 23, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to interrupting instruction the tunnel center line of choosing is interrupted processing;

Center line merges submodule 24, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to merge command the tunnel center line of choosing is carried out union operation;

Bent angle processing sub 25 is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to the bent angle processing instruction bent angle of the tunnel center line chosen is done circular arc and handle;

Center line elevation submodule 26 is used for center line and chooses instruction to choose the tunnel center line from said mining engineering plan, and according to the elevation parameter, the elevation information of the tunnel center line of choosing is set; For example: Fig. 2 B is the synoptic diagram that elevation information adds the interface in the mine laneway generation system that provides of the embodiment of the invention two; The elevation parameter of the tunnel center line of wherein choosing is summit X value, Y value summit, the summit Z value among Fig. 2 B for example; Can also can from measuring equipment, import for the artificial input of user.

Vertical shaft adds submodule 27, is used for choosing instruction according to center line, on said mining engineering plan, chooses the vertical shaft point of addition; According to the vertical shaft parameter of input, definite aboveground height and down-hole height that needs the vertical shaft of interpolation adds the vertical shaft of confirming on the said mining engineering plan said vertical shaft point of addition;

Centreline data storehouse 28 is used to preserve the said tunnel center line of completing.

Again further, tunnel administration module 15 can comprise: center line chooses submodule 31, parameter acquiring submodule 32, tunnel to generate submodule 33 and tunnel database 34.

Wherein, center line is chosen submodule 31, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line;

Parameter acquiring submodule 32 is used to obtain parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of the corresponding user's input of tunnel center line that said center line chooses submodule to choose;

The tunnel generates submodule 33, is used for choosing according to said center line the parameter information in the tunnel that tunnel center line that submodule chooses and said parameter acquiring submodule obtain, and adopts the step pitch method to generate the tunnel; For example: Fig. 2 C is the synoptic diagram that the tunnel generates submodule in the mine laneway generation system that provides of the embodiment of the invention two a kind of profile data is provided with the interface; Shown in Fig. 2 C; When adopting the step pitch method to generate the tunnel; Can adopt this profile data that interface input lead point is set, required section parameter is set like group distance and three-centered arch type etc. about tracerse point, the step pitch method according to the parameter of setting generates the tunnel automatically then.

Tunnel database 34 is used to preserve said tunnel and generates the said tunnel that submodule generates.

In addition, this mine laneway generation system can also comprise:

Nation spool reason module 17 is used for according to said tunnel center line and nation generating nation's line of said tunnel center line correspondence apart from information, said nation comprises input apart from information nation apart from information or the nation that from the parameter information of said tracerse point, obtains apart from information; Perhaps draw instruction and generate nation's line according to nation's line.Fig. 2 D is a kind of synoptic diagram that nation is set apart from the interface of nation's spool reason module in the mine laneway generation system that provides of the embodiment of the invention two; Shown in Fig. 2 D; Generate nation's line and can adopt following mode, a kind of is to generate reinforcing wire according to the tunnel center line that has generated, on the basis of the tunnel center line that has generated; Help the parameter setting of distance according to the actual requirements, perhaps according to the group that from the real measured data of the tracerse point of tunnel center line, reads apart from generating reinforcing wire.Another kind is the artificial reinforcing wire of drawing, and draws instruction according to nation's line of user's input, generates irregular reinforcing wire.In addition, reinforcing wire management possesses also that reinforcing wire interrupts and pooling function

Again further, this mine laneway generation system can also comprise:

Tunnel facilities management module 19 is used for choosing instruction to choose the tunnel facility that needs are provided with according to the tunnel facility, and adds instruction according to the tunnel facility said tunnel facility is added on the said mining engineering plan.For example: Fig. 2 E is a kind of synoptic diagram that adds equipment interface of facilities management module in tunnel in the mine laneway generation system that provides of the embodiment of the invention two; Shown in Fig. 2 E; This tunnel facilities management module chooses instruction for example to choose tunnel facility that needs are provided with according to the tunnel facility: minor fault, coal bunker, fence, temporarily airtight, after forever airtight, break-point switch, permanent tracerse point, chamber are painted etc.; Can be through the parameter of artificial or automatic typing tunnel facility; Log on data then and generate this facility; And add instruction according to the tunnel facility and add said tunnel facility on mining engineering plan appointed positions, add finish and successful input database after on mining engineering plan, can show newly-increased tunnel facility.

Present embodiment mine laneway generation system can be drawn instruction according to the positional information of tracerse point in the mine or the tunnel center line that obtains; Tunnel center line on the mining engineering plan of generation mine; Parameter information according to the corresponding tunnel of the tunnel center line of choosing from mining engineering plan and tunnel center line generates the tunnel; Improve the efficient of drawing the tunnel, reduced the error in the tunnel of drawing out

Embodiment three

The schematic flow sheet of the mine laneway generation method that Fig. 3 provides for the embodiment of the invention three, as shown in Figure 3, this mine laneway generation method can comprise:

Step 101, draw instruction according to the positional information or the tunnel center line of the tracerse point that imports, generations needs the tunnel center line on the mining engineering plan of drafting;

Wherein, step 101 can below arbitrary mode realize:

The tracerse point in tunnel on the mining engineering plan that mode one, importing need to draw, according to the positional information on the real measured data of said tracerse point, the tunnel center line on the mining engineering plan that generation needs to draw;

Mode two, the tunnel center line that obtains user input are drawn instruction, draw instruction according to said tunnel center line, and generations needs the tunnel center line on the mining engineering plan of drafting.

Step 102, according to parameter information from the corresponding tunnel of tunnel center line that said mining engineering plan is chosen and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

Particularly, this mine laneway generation method can adopt the mine laneway generation system in the foregoing description to carry out, and concrete manner of execution can be referring to associated description in the foregoing description and relevant drawings.The center line administration module of mine laneway generation system can be drawn instruction according to the tunnel center line of the positional information of the tracerse point that imports from the tracerse point administration module or user's input of obtaining, and generations needs the tunnel center line on the mining engineering plan of drafting; Parameter information according to the corresponding tunnel of the tunnel center line of choosing from said mining engineering plan and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

Wherein, step 102 specifically can comprise:

Choose instruction to choose the tunnel center line according to center line from said mining engineering plan;

Obtain parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of the corresponding user's input of the tunnel center line chosen;

According to the parameter information of the tunnel center line of choosing, adopt the step pitch method to generate the tunnel with the tunnel that obtains.

Further, this mine laneway generation method further comprising the steps of any one or more:

Choose instruction to choose the tunnel center line according to center line, and the tunnel center line of choosing is interrupted processing according to interrupting instruction from said mining engineering plan;

Choose instruction to choose the tunnel center line according to center line, and the tunnel center line of choosing is carried out union operation according to merge command from said mining engineering plan;

Choose instruction to choose the tunnel center line according to center line, and according to the bent angle processing instruction bent angle of the tunnel center line chosen is done circular arc and handle from said mining engineering plan;

Center line chooses instruction to choose the tunnel center line from said mining engineering plan, and according to the elevation parameter, the elevation information of the tunnel center line of choosing is set;

Choose instruction according to center line, on said mining engineering plan, choose the vertical shaft point of addition; According to the vertical shaft parameter of input, definite aboveground height and down-hole height that needs the vertical shaft of interpolation adds the vertical shaft of confirming on the said mining engineering plan said vertical shaft point of addition.

Present embodiment is drawn instruction according to the positional information of tracerse point in the mine or the tunnel center line that obtains; Tunnel center line on the mining engineering plan of generation mine; Parameter information according to the corresponding tunnel of the tunnel center line of choosing from mining engineering plan and tunnel center line generates the tunnel; Improve the efficient of drawing the tunnel, reduced the error in the tunnel of drawing out.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can be accomplished through the relevant hardware of programmed instruction; Aforesaid program can be stored in the computer read/write memory medium; This program the step that comprises said method embodiment when carrying out; And aforesaid storage medium comprises: various media that can be program code stored such as ROM, RAM, magnetic disc or CD.

What should explain at last is: above embodiment is only in order to explaining technical scheme of the present invention, but not to its restriction; Although with reference to previous embodiment the present invention has been carried out detailed explanation, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these are revised or replacement, do not make the spirit and the scope of the essence disengaging various embodiments of the present invention technical scheme of relevant art scheme.

Claims (10)

1. a mine laneway generation system is characterized in that, comprising:

The tracerse point administration module is used for the mining engineering plan at mine, adds required tracerse point; Preserve the real measured data of tracerse point in the mine, the real measured data of said tracerse point comprises the positional information of tracerse point and the parameter information in tunnel, tracerse point place;

The center line administration module, the positional information of the tracerse point that is used for importing according to said tracerse point administration module or the tunnel center line that obtains are drawn instruction, generate the tunnel center line on the mining engineering plan of mine;

The tunnel administration module; Be used for according to parameter information from the corresponding tunnel of tunnel center line that said mining engineering plan is chosen and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

2. mine laneway generation system according to claim 1 is characterized in that, said center line administration module comprises:

Import rendering submodule, the positional information of the tracerse point that the needs that are used for importing according to said tracerse point administration module are drawn, the tunnel center line on the mining engineering plan that generation needs to draw; And/or

The instruction rendering submodule, the tunnel center line that is used to obtain user's input is drawn instruction, draws instruction according to said tunnel center line, and generations needs the tunnel center line on the mining engineering plan of drafting.

3. mine laneway generation system according to claim 2 is characterized in that, said center line administration module also comprise with lower module any one or more:

Center line interrupts submodule, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to interrupting instruction the tunnel center line of choosing is interrupted processing;

Center line merges submodule, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to merge command the tunnel center line of choosing is carried out union operation;

The bent angle processing sub is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line, and according to the bent angle processing instruction bent angle of the tunnel center line chosen is done circular arc and handle;

Center line elevation submodule is used for center line and chooses instruction to choose the tunnel center line from said mining engineering plan, and according to the elevation parameter, the elevation information of the tunnel center line of choosing is set;

Vertical shaft adds submodule, is used for choosing instruction according to center line, on said mining engineering plan, chooses the vertical shaft point of addition; According to the vertical shaft parameter of input, definite aboveground height and down-hole height that needs the vertical shaft of interpolation adds the vertical shaft of confirming on the said mining engineering plan said vertical shaft point of addition;

The centreline data storehouse is used to preserve the said tunnel center line of completing.

4. according to the arbitrary described mine laneway generation system of claim 1-3, it is characterized in that said tunnel administration module comprises:

Center line is chosen submodule, is used for choosing instruction to choose the tunnel center line from said mining engineering plan according to center line;

The parameter acquiring submodule is used to obtain parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of the corresponding user's input of tunnel center line that said center line chooses submodule to choose;

The tunnel generates submodule, is used for choosing according to said center line the parameter information in the tunnel that tunnel center line that submodule chooses and said parameter acquiring submodule obtain, and adopts the step pitch method to generate the tunnel;

The tunnel database is used to preserve said tunnel and generates the said tunnel that submodule generates.

5. according to the arbitrary described mine laneway generation system of claim 1-3, it is characterized in that, also comprise:

Nation spool reason module is used for according to said tunnel center line and nation generating nation's line of said tunnel center line correspondence apart from information, said nation comprises input apart from information nation apart from information or the nation that from the parameter information of said tracerse point, obtains apart from information; Perhaps draw instruction and generate nation's line according to nation's line.

6. according to the arbitrary described mine laneway generation system of claim 1-3, it is characterized in that, also comprise:

Facilities management module in tunnel is used for choosing instruction to choose the tunnel facility that needs are provided with according to the tunnel facility, and adds instruction according to the tunnel facility said tunnel facility is added on the said mining engineering plan.

7. a mine laneway generation method is characterized in that, comprising:

Positional information or tunnel center line according to the tracerse point that imports are drawn instruction, the tunnel center line on the mining engineering plan that generation needs to draw;

Parameter information according to the corresponding tunnel of the tunnel center line of choosing from said mining engineering plan and said tunnel center line; Generate the tunnel, the tunnel information that said tunnel center line is corresponding comprises parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of input.

8. mine laneway generation method according to claim 7 is characterized in that, said positional information or tunnel center line according to the tracerse point that imports drawn instruction, and the tunnel center line on the mining engineering plan that generation needs to draw comprises:

The tracerse point in tunnel on the mining engineering plan that importing needs to draw, according to the positional information on the real measured data of said tracerse point, the tunnel center line on the mining engineering plan that generation needs to draw; Or

Obtain the tunnel center line of user's input and draw instruction, draw instruction, the tunnel center line on the mining engineering plan that generation needs to draw according to said tunnel center line.

9. according to claim 7 or 8 described mine laneway generation methods, it is characterized in that said basis generates the tunnel from the parameter information in the corresponding tunnel of tunnel center line that said mining engineering plan is chosen and said tunnel center line, comprising:

Choose instruction to choose the tunnel center line according to center line from said mining engineering plan;

Obtain parameter information or the parameter information in tunnel, the place of the tracerse point on the center line of said tunnel in the tunnel of the corresponding user's input of the tunnel center line chosen;

According to the parameter information of the tunnel center line of choosing, adopt the step pitch method to generate the tunnel with the tunnel that obtains.

10. according to claim 7 or 8 described mine laneway generation methods, it is characterized in that, further comprising the steps of any one or more:

Choose instruction to choose the tunnel center line according to center line, and the tunnel center line of choosing is interrupted processing according to interrupting instruction from said mining engineering plan;

Choose instruction to choose the tunnel center line according to center line, and the tunnel center line of choosing is carried out union operation according to merge command from said mining engineering plan;

Choose instruction to choose the tunnel center line according to center line, and according to the bent angle processing instruction bent angle of the tunnel center line chosen is done circular arc and handle from said mining engineering plan;

Center line chooses instruction to choose the tunnel center line from said mining engineering plan, and according to the elevation parameter, the elevation information of the tunnel center line of choosing is set;

Choose instruction according to center line, on said mining engineering plan, choose the vertical shaft point of addition; According to the vertical shaft parameter of input, definite aboveground height and down-hole height that needs the vertical shaft of interpolation adds the vertical shaft of confirming on the said mining engineering plan said vertical shaft point of addition.

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