CN108170988A - Three step of tunnel excavation, seven one step process based on BIM technology - Google Patents

Abstract

The present invention provides a kind of three step of tunnel excavation, seven one step process based on BIM technology, include the following steps：S1 according to construction work construction requirements, forms design and construction engineering master data information, the relevant parameter of engineering ontology is configured successively；S2 the characteristics of construction according to model segment, establishes segmentation direction, segmented paths, length, deviation, the segmentation constraints of rule, generates segmentation face, then carry out segmentation Boolean calculation with engineering design results model, obtain a series of segmented model；S3, the characteristics of constructing according to three step of tunnel excavation, seven footwork, setting split the parameter of each size and rule constraint condition in the direction of starting, configuration method for splitting, generate fractionation face, segmented model is split further along the center line of selection, obtains sectional pattern.The precision and accuracy of construction management of project are improved by the tunnel model division methods for excavating three steps, seven step, improves project implementation efficiency.

Description

Three step of tunnel excavation, seven one step process based on BIM technology

Technical field

The present invention relates to computer program application field more particularly to a kind of three steps of tunnel excavation based on BIM technology Seven one step process.

Background technology

It, can by acquisition, the arrangement to engineering project items relevant information data in architecture information manages BIM technology Overall management is carried out to engineering project, in BIM engineerings, existing tunnel excavation construction model is all by from designing a model Or carry out dividing several units by hand and carry out excavation construction tissue again, such construction organization is coarse.Current construction Model is directly to defer to the progress that designs a model, and construction information does not dock effectively with designing a model；And without quick shape Into the method for drafting of model.This just there is an urgent need for those skilled in the art solve it is corresponding the technical issues of.

Invention content

The present invention is directed at least solve technical problem in the prior art, especially innovatively propose one kind and be based on Three step of tunnel excavation, seven one step process of BIM technology.

In order to realize the above-mentioned purpose of the present invention, the present invention provides a kind of three steps of tunnel excavation based on BIM technology Seven one step process, include the following steps：

S1 according to construction work construction requirements, forms design and construction engineering master data information, successively to engineering ontology Relevant parameter is configured；

S2 the characteristics of construction according to model segment, establishes the segmentation in segmentation direction, segmented paths, length, deviation, rule Constraints generates segmentation face, then carries out segmentation Boolean calculation with engineering design results model, obtains a series of segmentation mould Type；

S3, the characteristics of construction according to three step of tunnel excavation, seven footwork, setting splits the direction of starting, configuration method for splitting In the parameter of each size and rule constraint condition, generate fractionation face, segmented model is divided further along the center line of selection It cuts, obtains sectional pattern.

Three step of tunnel excavation, the seven footwork method based on BIM technology, it is preferred that the S1 includes：

S1-1 according to construction work construction requirements, forms design and construction engineering master data information, according to construction requirements, Successively construction work data are obtained from X/Y plane, YZ planes and XZ planes；

S1-2 obtains the scale of construction data of the engineering ontology tunnel earthwork according to three-dimensional；

S1-3 is expanded and is managed according to construction characteristic and attribute, the relevant parameter of engineering ontology is matched successively It puts.

Three step of tunnel excavation, the seven footwork method based on BIM technology, it is preferred that the S2 includes：

S2-1 obtains the center line of object model in construction work data and splits starting point；

S2-2 according to the coordinate data of construction work model, is obtained along what center line was split and is scanned length H_jValue, obtain The H along center line subdivision direction_jThen corresponding point coordinates generates the subdivision perpendicular to center line subdivision direction by the point Then face carries out segmentation Boolean calculation with subdivision object successively, obtain segmentation result；

S2-3 carries out attribute configuration to the entity of each segmentation, including：Color, transparency, construction type, personnel, time Carry out assignment.

Three step of tunnel excavation, seven one step process based on BIM technology, it is preferred that the S3 includes：

S3-1, after being segmented, it is piecemeal object to select certain section in construction work model or multistage, and it is right to calculate these As section swept surface maximal encasing box of the model along centerline direction, piecemeal fractionation is carried out；

S3-2 sets three steps, seven footwork piecemeal parameter, sets tunnel model first camber line of number and tunnel from the bottom up Distance H1 of the model center line intersection away from tunnel model minimum point, tunnel model second camber line of number and tunnel model from the bottom up Distance H2 of the center line intersection away from tunnel model minimum point, level splits the distance H3 of line-spacing tunnel model minimum point, from lower past The radius R2 of the radius R1, from the bottom up second camber line of number of upper first camber line of number, level split the length W1 of line, and level is torn open Divide the parameter value first with the angle a1 of oblique line, choose tunnel model section and cross section profile, specify tunnel model center line, selection Two points determine the matching direction with splitting schematic diagram；

S3-3 goes out to split cutting line according to the parametric configuration of setting,

By H1, R2 calculating defines lower circular object：

The radius r of circular object C1 is R2, and center of circle CP is (0, R2+H1)

By H2, R1 calculating defines top arc object：

The radius r of circular object C2 is R1, and center of circle CP is (0, R1+H2)

By H3, W1, a1 calculating define intermediate multilines section object：

The point P1 of multi-line section is (- tan (a1-90) * H3-W1/2,0) from left to right, and point P2 is (- W1/2, H3), and point P3 is (W1/2, H3), point P4 are (tan (a1-90) * H3+W1/2,0)

Cutting line object is mapped out on the section swept surface calculated in S3-1, and extends cutting line object and is scanned to section Face edge goes out；

S3-4 the section swept surface with cutting line along selected tunnel center line and sweep directions, scans construction work Model splits out sectional pattern, and sectional pattern is numbered：The upper partial block number of the top layer is 1, the top layer Lower part block number is 6, and the left side piecemeal number of middle layer is 2, and the middle block number of middle layer is 7, the right side of intermediate hierarchical Side piecemeal number is 3, and undermost left side piecemeal number is 4, and undermost middle block number is 8, undermost the right point Block number is 5；

S3-5, the constraint input parameter of the construction work model are：

Definition splits model in a height of H of the section maximal encasing box along tunnel center line, width W, then H1<H2<H3<H, W1<W, 90 °<a1<180°.

In conclusion by adopting the above-described technical solution, the beneficial effects of the invention are as follows：

Unit in charge of construction's high-precision easy to use is converted to disclosure address how designing a model of obtaining from designing institute to apply Work model that is, by industry set rule or constraints, and is managed BIM attribute informations, and automatic divide is convenient for The construction organization unit of implementation improves construction management of project by the tunnel model division methods for excavating three steps, seven step Precision and accuracy improve project implementation efficiency.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description It obtains significantly or is recognized by the practice of the present invention.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Significantly and it is readily appreciated that, wherein：

Fig. 1 is work flow diagram of the present invention；

Fig. 2 is schematic diagram of the embodiment of the present invention；

Fig. 3 is that the present invention divides embodiment schematic diagram；

Fig. 4 is the rectangular division embodiment schematic diagram of the present invention；

Fig. 5 is that diamond shape of the present invention divides embodiment schematic diagram；

Fig. 6 is general illustration of the present invention.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.

BIM (Building Information Modeling) technologies are modeled for architecture information in the present invention.

Wherein when tunneling data model imported into BIM systems, need to perform following steps：

I, engineering design model is directly read, and translation resolution is carried out to its model data institutional framework；According to construction work Journey construction requirements form design and construction engineering master data information, according to construction requirements, read and import different-format design result Model；According to the mode of different designs tool design results model, translation resolution design result model data institutional framework Product Structure；According to construction characteristic and positioning, each different modelling tool design result moulds are directly read Type, independent of different modelling tools.

II, according to model data institutional framework feature, classify to each model data institutional framework, according to point Class obtains the data of each of which classification, wherein comprising the graph data in model institutional framework, the attribute in model institutional framework Data；It is required according to construction work model data institutional framework, according to the model data institutional framework after I translation resolution Product Structure features classify to each model data institutional framework, and classification form is assembling Product, Part Part, body Body；It is required according to construction work model data institutional framework, to sorted model data institutional framework, Its attribute data and graph data are obtained respectively；The requirement of construction work model data institutional framework：Assemble the child node of Product Can only be assembling Product and part Part nodes, the child node of part Part can only be body Body, wherein assembling Product and part Part nodes only represent construction work model tree institutional framework, and body Body represents the construction work mould A geometry data under type data；

III, according to the model data institutional framework got and the new model data institutional framework of needs, organize out The model institutional framework of new needs；

IV, it is got after classifying according to the model data institutional framework got and to model data institutional framework Corresponding model attributes data and model graph data, according to being loaded directly into and quickly load both of which, respectively to model geometric Topological Skew Field carries out respective handling；

After being required according to construction work model data institutional framework and being classified to design result model data institutional framework The correspondence model attributes data and model graph data obtained respectively, for construction work model data import two ways, It is loaded directly into and quickly loads, handle respectively；

It is required according to construction work model data, the mode of being loaded directly into requires the geometry entity number of designing load results model According to, the geometry entity data of design result model are made of model geometric model and constructive geometry construction two parts, Wherein model geometric refers to the class that topological class is directed toward, and not including specific shape information, constructive geometry refers in model geometric Statement includes practical shape information；Model geometric is also known as the topological structure of model, and constructive geometry is also known as solution to model and releases knot Structure, the geometry entity expression of a square, 1：Wherein model geometric topology refers to, how many block in this square geometry (square only there are one block), how many face (there are six the faces for square) in block, on face how many boundary edge (12 boundaries Side), how how many point (eight points) in boundary edge connects, 2 between point and side：Wherein constructive geometry refers to, specific face, face Upper specific side (being made of which point), specific side, specific point coordinates, constructive geometry is that specific explanations model geometric is opened up It flutters.The difference of model geometric model in model entity data and constructive geometry construction with the former does not include tool The shape data information of body, and the latter includes practical shape data information.

It is required according to construction work model data, being loaded directly into design result model data needs to carry out precision and Model Space Between control, the precision and the model space of designing load results model data control formula are as follows：

Set A:Bare minimum (10e-6)

B:Minimum value of standardizing (10e-10)

C:The approximation accuracy (10e-3) of curve and surface

D:It is considered as zero maximum value (10e-11)

Model space computational algorithm：

Model space=A/B=10e-6/10e-10=10e4；

It is required according to construction work model data, quick load mode requires the figure number of quick designing load results model According to the graph data of design result model refers to, not comprising the pure graph data for having topology, pictorial data representaton method is as follows：

Set point：P1, P2, P3, P4, P5, P6

Wherein P1=P4, P3=P6,

Point list：PList=P1x, P1y, P1z, P2x, P2y, P2z, P3x, P3y, P3z, P4x, P4y, P4z, P5x, P5y, P5z, P6x, P6y, P6z }

Face table data collection：FList={ Pn1, P1, P2, P3, Pn2, P5, P4, P6 }

Face Face=PList+FList

Pn：Point quantity

Original discrete graphics data, expression figure be Fig. 3：

The figure is a rectangle, becomes two triangles after discrete, and in accordance with the right-hand rule, normal direction is all outside, optimization Process is：

Point duplicate removal：PList={ P1x, P1y, P1z, P2x, P2y, P2z, P3x, P3y, P3z, P5x, P5y, P5z },

Face duplicate removal data set：FList={ Pn1, P1, P2, P3, Pn2, P5, P1, P3 }

Reduce dough sheet quantity：Such as two quadrangles form a big quadrangle, are four triangle griddings before optimization, it is excellent It is two triangle griddings after change, triangle gridding is that computer hardware rendering is needed data, and triangle gridding quantity is lower, can carry Rise rendering efficiency.

The engineering design model introduction method based on BIM technology, it is preferred that the S5 includes：

It is required according to construction work model data, the graph data and attribute that have been subjected to processing that will be got in S4 Data are tied to respectively in the corresponding node of construction work model data institutional framework recombinated in S3.

V, according to being loaded directly into and quickly load both of which, add respectively into each classification of model data institutional framework The model graphical information that adds that treated.

As shown in Figures 1 to 3, the present invention provides a kind of three step of tunnel excavation, seven one step process based on BIM technology, including Following steps：

S1 according to construction work construction requirements, forms design and construction engineering master data information, successively to engineering ontology Relevant parameter is configured；

S2 the characteristics of construction according to model segment, establishes the segmentation in segmentation direction, segmented paths, length, deviation, rule Constraints generates segmentation face, then carries out segmentation Boolean calculation with engineering design results model, obtains a series of segmentation mould Type；

S3, the characteristics of construction according to three step of tunnel excavation, seven footwork, setting splits the direction of starting, configuration method for splitting In the parameter of each size and rule constraint condition, generate fractionation face, segmented model is divided further along the center line of selection It cuts, obtains sectional pattern.

Three step of tunnel excavation, the seven footwork method based on BIM technology, it is preferred that the S1 includes：

S1-1 according to construction work construction requirements, forms design and construction engineering master data information, according to construction requirements, Successively construction work data are obtained from X/Y plane, YZ planes and XZ planes；

S1-2 obtains the scale of construction data of tunnel earth excavation engineering ontology according to three-dimensional；

S1-3 is expanded and is managed according to construction characteristic and attribute, to the volume of the tunnel earthwork, center of gravity, quality, surface Product, dam body density, dam body carry out data configuration using material, its maximum length, maximum are obtained according to tunnel earthwork building codes Width, maximum height and floor space and bottom surface perimeter, top area and top perimeter, bottom elevation and crest level, according to tunnel soil The material addition material filler data configuration information of side.

The data of above-mentioned S1-3 need to carry out the acquisition operation of data successively, can be accurately obtained construction needs in this way Engineering material data, can ensure project estimates precision.And for different data, it is configured content and differs, This needs just access above-mentioned method of work according to continuous experiment.

Three step of tunnel excavation, the seven footwork method based on BIM technology, it is preferred that the S2 includes：

S2-1 obtains the center line of object model in construction work data and splits starting point；

S2-2 according to the coordinate data of construction work model, is obtained along what center line was split and is scanned length H_jValue, obtain The H along center line subdivision direction_jThen corresponding point coordinates generates the subdivision perpendicular to center line subdivision direction by the point Then face carries out segmentation Boolean calculation with subdivision object successively, obtain segmentation result；As described in Figure 2, wherein baseline is as laying Rail traffic or the reference line on road surface, do not play the restriction effect to tunnel model,

S2-3 carries out attribute configuration to the entity of each segmentation, including：Color, transparency, construction type, personnel, time Carry out assignment.

Three step of tunnel excavation, seven one step process based on BIM technology, it is preferred that the S3 includes：

S3-1, after being segmented, it is piecemeal object to select certain section in construction work model or multistage, and it is right to calculate these As section swept surface maximal encasing box of the model along centerline direction, piecemeal fractionation is carried out；

S3-2 sets three steps, seven footwork piecemeal parameter, sets tunnel model first camber line of number and tunnel from the bottom up Distance H1 of the model center line intersection away from tunnel model minimum point, tunnel model second camber line of number and tunnel model from the bottom up Distance H2 of the center line intersection away from tunnel model minimum point, level splits the distance H3 of line-spacing tunnel model minimum point, from lower past The radius R2 of the radius R1, from the bottom up second camber line of number of upper first camber line of number, level split the length W1 of line, and level is torn open Divide the parameter value first with the angle a1 of oblique line, choose tunnel model section and cross section profile, specify tunnel model center line, selection Two points determine the matching direction with splitting schematic diagram；

S3-3 constructs fractionation cutting line according to the parameter of setting according to schematic diagram as shown in Figure 2,

By H1, R2 calculating defines lower circular object：

The radius r of circular object C1 is R2, and center of circle CP is (0, R2+H1)

By H2, R1 calculating defines top arc object：

The radius r of circular object C2 is R1, and center of circle CP is (0, R1+H2)

By H3, W1, a1 calculating define intermediate multilines section object：

The point P1 of multi-line section is (- tan (a1-90) * H3-W1/2,0) from left to right, and point P2 is (- W1/2, H3), and point P3 is (W1/2, H3), point P4 are (tan (a1-90) * H3+W1/2,0)

Cutting line object is mapped out on the section swept surface calculated in S3-1, and extends cutting line object and is scanned to section Face edge goes out；

S3-4 the section swept surface with cutting line along selected tunnel center line and sweep directions, scans construction work Model splits out sectional pattern, and sectional pattern is numbered：The upper partial block number of the top layer is 1, the top layer Lower part block number is 6, and the left side piecemeal number of middle layer is 2, and the middle block number of middle layer is 7, the right side of intermediate hierarchical Side piecemeal number is 3, and undermost left side piecemeal number is 4, and undermost middle block number is 8, undermost the right point Block number is 5；It is divided successively from small to large according to number.Above-mentioned construction number, is according in engineering construction, needs to different Position carries out construction number, has practical operation meaning, is arbitrarily numbered not according to common sense, need to pay creativeness Labour could be realized.As shown in figure 3, the step of using S3-4 for conventional tunnel shape carries out constructing operation, tunnel number is drawn According to model；

After tunneling data model is divided, mounted, be as follows automatically by PBS：

1. read in PBS data；It is encoded according to PBS, the data row that PBS is described, PBS classifies, to PBS data in Excel It carries out tissue and reads in system；The PBS data of importing include column heading, and wherein PBS codings are prerequisite data row；If it leads Enter PBS data other than PBS codings, description, classification, also comprising the information such as attribute or quantities, correspondence need to be added to PBS after；Without any requirement for the sequence of data row tissue, random order data row tissue is all supported to import and identify； Single PBS is supported to import, also PBS quantities is supported to import simultaneously.

2. data row are mapped；The PBS data of importing are encoded PBS, the data row that PBS is described, PBS classifies, Carry out one-to-one mapping；

3. structured coding samples of the typing PBS per level-one；PBS coding samples are supported：Engineering project, construction unit, branch 6 engineering, subdivisional work, element project, construction cell ranks；

Arbitrary rank number is carried out for PBS codings to import,

Actual coding rank 1=engineering projects+construction unit；

Actual coding rank 2=engineering projects+construction unit+partitioned project；

Actual coding rank 3=engineering projects+construction unit+partitioned project+subdivisional work；

Actual coding rank 4=engineering projects+construction unit+partitioned project+subdivisional work+element project；

Actual coding rank 5=engineering projects+construction unit+partitioned project+subdivisional work+element project+construction cell；

Wherein engineering project does not insert coding sample, so as to generate an interim root node, in preview function, to the root Node is automatically corrected, and engineering project is set as root node.

4. it is mounted automatically；Automatically each level structure is calculated, organizes sub- father node relationship automatically；

Specified data row are extracted from PBS data pools, are put into valid data pond；

Six engineering project, construction unit, partitioned project, subdivisional work, element project, construction cell ranks are obtained successively Sample encodes；According to coding sample parsing coding placeholder, algorithm is：

If being encoded to Cur_Code before PBS coding broomrapes, PBS coding row are next to be encoded to Next_Code；

So traversal PBS codings row, if Cur_Code_Len！Then placeholder ReplaceChar is=Next_Code_Len Null character string, at this moment the digit in PBS codings per level encoder is all different, and wherein Cur_Code_Len is previous volume Code character string length, Next_Code_Len are the latter code character string length；

It is encoded if Cur_Code_Len==Next_Code_Len for equipotential PBS, at this moment PBS encodes each rank Number of encoding bits are the same, for the insufficient digit of each rank, use some specific placeholder as supplement, such as 0；It is right at this time Each character of PBS codings is traversed：If：In same position J, the character of Cur_Code is Cur_Code_C, Next_ The character of Code is Next_Code_C；If Cur_Code_C！=Next_Code_C, Next_Code_C are placeholder ReplaceChar；Parse the number of encoding bits of the PBS coding each ranks of sample；According to coding sample parsing coding placeholder, calculate Method is：If placeholder ReplaceChar is empty string, every grade of number of encoding bits are actual coding sample digit；If placeholder ReplaceChar is not empty string, then needs to weed out every grade of coding sample the digit of placeholder；According to placeholder, each level Several searched successively from top to bottom PBS codings matches, and first searches father node fNode, the attribute of tissue father node fNode and Other data, and the attribute of father node fNode and other data are bound with PBS codings；Search the next stage node of father node Set vChildren, and vChildren is articulated under fNode；Until the subclass vChildren of lookup is looked into for empty end Look for matching；

5. PBS structure previews；Preview function is provided to the PBS structures mounted.

The tunneling data model that PBS mountings are completed is subjected to export operation, specific execution step is as follows：

(i), selection engineering construction model export form and the corresponding version of engineering construction model export form；

(ii), according to the engineering construction model of selection, its engineering construction model data institutional framework is traversed, and this engineering is applied Work model data institutional framework is classified, and mode classification is assembled for Product, Part parts, Body bodies；

(iii), according to the engineering construction model data institutional framework got and the new model data knot of tissue of needs Structure organizes out the model institutional framework of new needs；

(iv), it is got after classifying according to the model data institutional framework got and to model data institutional framework Corresponding model attributes data and model figure entity B-Rep data, fill out corresponding engineering construction model data knot of tissue respectively In structure；It is required according to construction work model data institutional framework and divided after classifying to design result model data institutional framework The correspondence model attributes data and model figure B-Rep data not obtained, are filled into corresponding engineering construction model data group respectively Knit each class node of structure；It is required according to construction work model data, engineering construction model, the geometry entity of design result model Data are made of model geometric model and constructive geometry construction two parts, and wherein model geometric refers to that topological class refers to To class, not including specific shape information, constructive geometry refers to the statement in model geometric, includes practical shape information, The relationship of model geometric and constructive geometry is as follows：Wherein abstract geometry corresponds to model geometric, and specific geometry corresponds to constructive geometry；Root According to the requirement of construction work model data, the export of engineering construction model data needs to carry out precision and model space control, and engineering is applied Precision derived from work model data and model space control formula are as follows：

Set A：Bare minimum (10e-6)

B：Minimum value of standardizing (10e-10)

C：The approximation accuracy (10e-3) of curve and surface

D：It is considered as zero maximum value (10e-11)

Model space computational algorithm：

Model space=A/B=10e-6/10e-10=10e4.

(v), form is exported according to the engineering construction model of selection and export form corresponds to version, the engineering that will be got Engineering construction model attributes data and figure B-Rep data in construction model data organizational structure and each taxonomic structure are led Go out.

As shown in Figures 4 and 5, wherein also being emulated in specific execution operation for rectangular tunnel or prismatic tunnel Experiment equally uses the step of S3-4 new-type tunnel model and carries out execution operation, three steps seven of the tangible present invention In the implementation procedure of footwork, the process split is completely the same, finally can also realize corresponding effect, in the future according to not Same arrangement and method for construction conversion tunnel-shaped, when using three steps, seven footwork, equally realizes quickly fractionation model, so as to right Practical constructing tunnel engineering plays significant directive significance.

S3-5, the constraint input parameter of the construction work model are：

Definition splits model in a height of H of the section maximal encasing box along tunnel center line, width W, then H1<H2<H3<H, W1<W, 90 °<a1<180°.According to experiment and project data, a1 angles is selected to ensure to be more than 90 degree herein, if selection a1 angles Spend the landslide risk that can be caused during Practical Project for 90 degree, at the same according to fig. 3, the specific embodiment of Fig. 4 and Fig. 5 divided From the point of view of analysis, vertical data H is acquired first, then acquires lateral data W, and the acquisition hence for data can be carried out orderly, be made Project data is certainly, horizontal using first acquisition for other actual conditions according to the specific needs of engineering construction more rich in conditioning To data W, the method for then acquiring vertical data H can also play good technique effect, according to data need in practical operation It asks and is adjusted flexibly.

As shown in fig. 6, in architecture information manages BIM technology, particularly with the data model construction of constructing tunnel engineering Certification is mutually distinguishable for construction work data and machine in order to realize in the process, hence for needing for tunneling data mould Type carries out the import operation of model, is handled so as to imported among BIM systems, tunnel model is actually applied according to different Work condition carries out the fractionation and planning of model, the programming project for different tunnel models is formed, so as to improve constructing tunnel work After tunnel model division is finished, by the automatic hooking method of PBS structures, construction is carried out to tunneling data model for journey efficiency Plan as a whole to arrange with data name, construction and data name are planned as a whole to the tunneling data model after arranging and carry out export operation, it is above-mentioned Description presents working links of the PBS in whole BIM, and the tunnel model in construction is divided and is anticipated with important guidance Justice.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of being detached from the principle of the present invention and objective a variety of change, modification, replacement and modification can be carried out to these embodiments, this The range of invention is limited by claim and its equivalent.

Claims (4)

1. a kind of three step of tunnel excavation, seven one step process based on BIM technology, which is characterized in that include the following steps：

S1 according to construction work construction requirements, forms design and construction engineering master data information, successively to the correlation of engineering ontology Parameter is configured；

S2 the characteristics of construction according to model segment, establishes the segmentation constraint in segmentation direction, segmented paths, length, deviation, rule Condition generates segmentation face, then carries out segmentation Boolean calculation with engineering design results model, obtains a series of segmented model；

S3, the characteristics of construction according to three step of tunnel excavation, seven footwork, setting splits each in the direction of starting, configuration method for splitting The parameter of a size and rule constraint condition generate fractionation face, segmented model are split further along the center line of selection, is obtained Obtain sectional pattern.

2. three step of tunnel excavation, seven one step process according to claim 1 based on BIM technology, which is characterized in that described S1 includes：

S1-1 according to construction work construction requirements, forms design and construction engineering master data information, according to construction requirements, successively Construction work data are obtained from X/Y plane, YZ planes and XZ planes；

S1-2 obtains the scale of construction data of the engineering ontology tunnel earthwork according to three-dimensional；

S1-3 is expanded and is managed according to construction characteristic and attribute, the relevant parameter of engineering ontology is configured successively.

3. three step of tunnel excavation, seven one step process according to claim 1 based on BIM technology, which is characterized in that described S2 includes：

S2-1 obtains the center line of object model in construction work data and splits starting point；

S2-2 according to the coordinate data of construction work model, is obtained along what center line was split and is scanned length H_jValue, obtain in H on heart line subdivision direction_jCorresponding point coordinates, then by the point generate perpendicular to center line subdivision direction split surface, so It carries out segmentation Boolean calculation with subdivision object successively afterwards, obtains segmentation result；

S2-3 carries out attribute configuration to the entity of each segmentation, including：Color, transparency, construction type, personnel, time carry out Assignment.

4. three step of tunnel excavation, seven one step process according to claim 1 based on BIM technology, which is characterized in that described S3 includes：

S3-1, after being segmented, it is piecemeal object to select certain section in construction work model or multistage, calculates these object moulds Section swept surface maximal encasing box of the type along centerline direction carries out piecemeal fractionation；

S3-2 sets three steps, seven footwork piecemeal parameter, sets tunnel model first camber line of number and tunnel model from the bottom up Distance H1 of the center line intersection away from tunnel model minimum point, tunnel model second camber line of number and tunnel model center line from the bottom up Distance H2 of the intersection away from tunnel model minimum point, level split the distance H3 of line-spacing tunnel model minimum point, count from the bottom up The radius R2 of the radius R1 of first camber line, from the bottom up second camber line of number, level split the length W1 of line, and level is split first With the parameter value of the angle a1 of oblique line, tunnel model section and cross section profile are chosen, specifies tunnel model center line, chooses two Point determines the matching direction with splitting schematic diagram；

S3-3 goes out to split cutting line according to the parametric configuration of setting,

By H1, R2 calculating defines lower circular object：

The radius r of circular object C1 is R2, and center of circle CP is (0, R2+H1)

By H2, R1 calculating defines top arc object：

The radius r of circular object C2 is R1, and center of circle CP is (0, R1+H2)

By H3, W1, a1 calculating define intermediate multilines section object：

The point P1 of multi-line section is (- tan (a1-90) * H3-W1/2,0) from left to right, and point P2 is (- W1/2, H3), and point P3 is (W1/ 2, H3), point P4 is (tan (a1-90) * H3+W1/2,0)；

Cutting line object is mapped out on the section swept surface calculated in S3-1, and extends cutting line object to section swept surface side Edge goes out；

S3-4 the selected tunnel center line in the section swept surface edge with cutting line and sweep directions, scans construction work model, Sectional pattern is split out, and sectional pattern is numbered：The upper partial block number of the top layer is 1, the lower part of the top layer Piecemeal number is 6, and the left side piecemeal number of middle layer is 2, and the middle block number of middle layer is 7, the right point of intermediate hierarchical Block number is 3, and undermost left side piecemeal number is 4, and undermost middle block number is 8, and undermost the right piecemeal is compiled Number be 5；

S3-5, the constraint input parameter of the construction work model are：

Definition splits model in a height of H of the section maximal encasing box along tunnel center line, width W, then H1<H2<H3<H, W1< W, 90 °<a1<180°.