CN108052715A - A kind of palace type carpentry work paving makees the modeling method and computer equipment of layer - Google Patents

Abstract

The present invention relates to the modeling method and computer equipment that a kind of palace type carpentry work paving makees layer, this method includes：The column cap locating point position of carpentry work is obtained in advance, determines that smoke tree Tu anchor point is laid out based on column cap locating point position, and multiple smoke tree Tu models are generated according to smoke tree Tu anchor point layout and the first parameter；Using the centralized positioning plane of smoke tree Tu model as the first datum plane, according to the second parameter generation be positioned on the first datum plane it is multiple go out mode hopping type；Going out on mode hopping type, laterally disposed multiple element side's models are generated according to the 3rd parameter；According to all smoke tree Tu models, all go out mode hopping type and model generation paving in all element sides makees layer model.Pseudo-classic architecture model is generated by the way that ancient building paving to be made to the parametrization of each component of layer, and according to position relationship between each component, avoids the reconstruction operation built manually when mistake occurs for partial model, and efficiency increases substantially.

Description

A kind of palace type carpentry work paving makees the modeling method and computer equipment of layer

Technical field

The present invention relates to data processing, ancient architectural design field more particularly to a kind of palace type carpentry work pavings to make building for layer Mould method further relates to a kind of computer equipment.

Background technology

In prior art, in ancient city during style and features design modelled after an antique, each component model in ancient city is manually built, finally It is built into ancient city model.First this mode is easily malfunctioned due to the subjective factor of people, second the corresponding model of a building, Building codes are slightly different must just to modify to model, also need to build again, workload is significantly increased.

The content of the invention

The technical problems to be solved by the invention be for the prior art error rate it is high, work efficiency is low the defects of, carry Make the modeling method of layer for a kind of palace type carpentry work paving, a kind of computer equipment is also provided.

The technical solution that the present invention solves above-mentioned technical problem is as follows：

A kind of palace type carpentry work paving makees the modeling method of layer, which is characterized in that this method includes：

The column cap locating point position of carpentry work is obtained in advance, and smoke tree Tu anchor point cloth is determined based on the column cap locating point position Office generates multiple smoke tree Tu models according to smoke tree Tu anchor point layout and the first parameter；

Using the centralized positioning plane of the smoke tree Tu model as the first datum plane, according to being positioned over the generation of the second parameter On first datum plane it is multiple go out mode hopping type；

It is described go out mode hopping type on, laterally disposed multiple element side's models are generated according to the 3rd parameter；

According to all smoke tree Tu models, all go out mode hopping type and model generation paving in all element sides makees layer model.

The beneficial effects of the invention are as follows：By the way that ancient building paving to be made to the parametrization of each component of layer, and according to each component meta position Relation generation pseudo-classic architecture model is put, avoids the reconstruction operation built manually when mistake occurs for partial model, and efficiency is significantly It improves.

Based on the above technical solutions, the present invention can also be improved as follows.

Further, the process of the definite smoke tree Tu anchor point layout, including：

According to the column cap locating point position, to all column cap anchor points into line label；

In all labels, the first sequence number of angle of departure smoke tree Tu model is determined by standard width of a room in an old-style house number and depth number, according to described First sequence number determines angle smoke tree Tu anchor point layout；

By removing first sequence number from all sequence numbers, remaining label in all labels is designated as Two sequence numbers are laid out according to the second serial number gencration the first smoke tree Tu anchor point；

Based on the column cap locating point position, according to the numerical value between predetermined benefit between the adjacent column cap anchor point of each two Column cap position line on mark multiple points, by the multiple point labeled as the 3rd sequence number, according to the 3rd serial number gencration second Smoke tree Tu anchor point is laid out；

With angle smoke tree Tu anchor point layout, the first smoke tree Tu anchor point layout and the second smoke tree Tu anchor point layout Build the smoke tree Tu anchor point layout.

Further, each smoke tree Tu model includes：Yi models, flat-die type and ear model three parts, first parameter Including：The size of the size of the Yi models, the size of the flat-die type and the ear model；

The process of the multiple smoke tree Tu models of generation, including：

The Yi models, the flat-die type and the ear model are generated according to first parameter；

It is laid out, is generated with the Yi models, the flat-die type and the ear model described more based on the smoke tree Tu anchor point A smoke tree Tu model, wherein in each smoke tree Tu model, the Yi models are in the bottom, and the ear model is in top, institute Flat-die type is stated between the Yi models and the ear model.

Advantageous effect using above-mentioned further technical solution is：It is laid out by establishing smoke tree Tu anchor point, it is basic herein Upper generation smoke tree Tu model, avoids mistake, in repetitive operation, improves modeling efficiency.

Further, it is described go out mode hopping type including multiple stackings model and form the multilayered model that the number of plies is less than five layers； The first layer model in the multilayered model is located at lowest level, and the magnificent arch model and described is only distributed in first layer model Muddy road arch model, remaining each layer include a magnificent arch model；Top layer, which further includes, makes arch model；

By with the association of one of drag between wherein every adjacent two layers model：Interaction Tu model, Tu model of one mind dissipate Tu Model interaction.

Further, the generating process of first layer model, including：

Using the centralized positioning plane of each smoke tree Tu model as the second datum plane, second datum plane it On, intersecting magnificent arch model and muddy road arch model are generated as first layer model；

It is described to make between arch model and the magnificent arch model of adjacent layer using interacting Tu model interaction；The life for making arch model Include into process：

Using the centralized positioning plane of the interaction Tu model on the magnificent arch model of the adjacent layer as the 7th datum plane, in institute It states to generate on the 7th datum plane and described makes arch model；

Magnificent arch model generator switch is set；

Remaining described each layer generates in the following ways：

The magnificent arch model of two adjacent layers uses Tu model interaction of one mind；On every layer, the magnificent arch model generation is controlled Device switchs, using the centralized positioning plane of the Tu model of one mind on the magnificent arch model in next layer of current layer of model as the 3rd base Directrix plane generates the magnificent arch model on the 3rd datum plane.

Further, on each layer in addition to the first layer, further include：Melon seeds arch model generator switchs and curtain arch Model generator；

On each layer of magnificent arch model, generate to associate the interaction Tu model of adjacent layer；

The melon seeds arch model generator is controlled to switch, with the friendship on the magnificent arch model in next layer of current layer of model The centralized positioning plane of mutual Tu model is the 4th datum plane, and the melon seeds arch mould is generated on the 4th datum plane Type；Wherein, the Tu model interaction of one mind is used between the magnificent arch model of two adjacent layers and melon seeds arch model；And/or

The curtain arch model generator is controlled to switch, with the first Tu model of one mind on the muddy road arch model of the first layer Centralized positioning plane for the 5th datum plane, with the second Tu model of one mind on the magnificent arch model in first layer model Centralized positioning plane is the 6th datum plane, and each generation is distinguished on the 5th datum plane and the 6th datum plane One curtain arch model；Wherein, the muddy road arch model and the curtain arch model are using Tu model interaction of one mind, China's arch model Tu model interaction of one mind is used with the curtain arch model.

Further, further include：Second layer model and more than each layer model, every layer each to set one to go out to jump type and opens It closes；

Go out to jump type of switch according to described, all or part of magnificent arch model of every layer of control is substituted for high model.

Further, the smoke tree Tu model, the interactive Tu model, the Tu model of one mind and the scattered Tu model are Tu model；

China's arch model, the melon seeds arch, the curtain arch model and described to make arch model be arch model；

Each arch model is generated by following steps：

From the cross section profile anchor point cloth for being centrally generated 1/2 arch model of the centralized positioning plane of each Tu model Office；

The cross section profile anchor point is laid out and carries out mirror image processing, the repetition in being laid out to the cross section profile anchor point After anchor point is purged, each arch model is generated.

Further, second parameter is modal position coefficient of relationship；It is generated according to the modal position coefficient of relationship It is the multiple go out mode hopping type.

3rd parameter is the location parameter of the scattered Tu, the location parameter of the Tu of one mind and element side etc. materials grade Not, the process of the multiple element side's models of generation, including：

The first position of the scattered Tu is captured according to the location parameter of the scattered Tu；

The second position of the Tu of one mind is captured according to the location parameter of the Tu of one mind；

According to the size for waiting materials rank acquisition element side's model of the element side；

Based on the first position and the second position, according to the generation of the size of element side's model is multiple Element side's model.

Advantageous effect using above-mentioned further technical solution is：It is closed by the position for recording Tu model and arch model System, and by model parameterization, modeling efficiency is improved, by determining the position of element side, and pass through input parameter generation element Fang Mo The accuracy rate of element side's modal position greatly improved in type.

The another technical solution that the present invention solves above-mentioned technical problem is as follows：

A kind of computer equipment, including processor and memory；

The memory is used to store computer program；

The processor is for performing the computer program, to realize the method described in above-mentioned technical proposal.

The beneficial effects of the invention are as follows：By the way that ancient building paving made the parametrization of each component of layer in a computer, and according to Position relationship generates pseudo-classic architecture model between each component, avoids the reconstruction operation built manually when mistake occurs for partial model, and Efficiency increases substantially.

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

Description of the drawings

Fig. 1 is the modeling procedure schematic diagram that a kind of palace type carpentry work paving that the embodiment of the present invention one provides makees layer；

Fig. 2 is that a kind of paving that the embodiment of the present invention one provides makees layer model overall schematic；

Fig. 3 is that a kind of paving that the embodiment of the present invention one provides makees layer model partial schematic diagram；

Fig. 4 is a kind of smoke tree Tu anchor point schematic layout pattern provided by Embodiment 2 of the present invention；

Fig. 5 is a kind of smoke tree Tu modal position schematic diagram provided by Embodiment 2 of the present invention；

Fig. 6 is a kind of flow diagram for generating smoke tree Tu model provided by Embodiment 2 of the present invention；

Fig. 7 is a kind of smoke tree Tu model schematic provided by Embodiment 2 of the present invention；

Fig. 8 is a kind of angle smoke tree Tu model generator schematic diagram provided by Embodiment 2 of the present invention；

Fig. 9 is a kind of arch model schematic that the embodiment of the present invention three provides；

Figure 10 a are a kind of a part of schematic diagram for arch model generator that the embodiment of the present invention three provides；

Figure 10 b are a kind of another part schematic diagram for arch model generator that the embodiment of the present invention three provides；

Figure 11 is a kind of product process schematic diagram for lower high model that the embodiment of the present invention three provides；

Figure 12 is the position view of a kind of magnificent arch model that the embodiment of the present invention three provides and high model；

Figure 13 be the embodiment of the present invention three provide it is a kind of go out hop count, whether set high, the meter heart or the steathily heart, single arch or weight arch Data inserter schematic diagram；

Figure 14 is a kind of product process schematic diagram for various arch models that the embodiment of the present invention three provides；

Figure 15 is a kind of product process schematic diagram for element side's model that the embodiment of the present invention three provides；

Figure 16 is that schematic layout pattern is overlooked by a kind of element side that the embodiment of the present invention three provides；

Figure 17 is a kind of position view for element side's model that the embodiment of the present invention three provides.

In attached drawing, each Symbol explanation is as follows：

1st, mode hopping type is gone out, 2, smoke tree Tu model, 3, element side's model, 4, angle smoke tree Tu anchor point, 5, common column cap smoke tree Tu anchor point, 6th, smoke tree Tu anchor point between mending, 7, angle smoke tree Tu model, 8, mend between smoke tree Tu model, 9, common column cap smoke tree Tu model, 10, pillar model, 11st, late volume model, 12, interior volume model, 13, ear model, 14, flat-die type, 15, Yi models, 16, high model, 17, smoke tree Tu model, 18th, element side, 19, element side's model.

Specific embodiment

The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the present invention.

Fig. 1 is the modeling method that a kind of palace type carpentry work paving that the embodiment of the present invention one provides makees layer, and this method includes：

S101, the column cap locating point position for obtaining carpentry work in advance, determine that smoke tree Tu is determined based on the column cap locating point position Site is laid out, and multiple smoke tree Tu models are generated according to smoke tree Tu anchor point layout and the first parameter；

S102, using the centralized positioning plane of the smoke tree Tu model as the first datum plane, according to the second parameter generate place In on first datum plane it is multiple go out mode hopping type；

S103, it is described go out mode hopping type on, laterally disposed multiple element side's models are generated according to the 3rd parameter；

S104, according to all smoke tree Tu models, all go out mode hopping type and model generation paving in all element sides makees layer model.

In the embodiment, present invention employs Grasshoper grasshoppers platform generation pavings to make layer model, for the ease of logarithm According to classifying, the algorithm device inside parameterized model has been divided into three classes：Data inserter, calculator, maker.Each is calculated Musical instruments used in a Buddhist or Taoist mass is all by internal algorithm battery composition.Completed in connection and after debugging, carry out package processing, reserve input port and Output port indicates the title of algorithm device.Then data processing algorithm device is built according to following logic, that is, builds data Loader and calculator.The generation for each model mentioned in the application is realized using these data inserters and calculator Journey；Corresponding parameter is selected, after input, you can generate corresponding model.

Paving in the present invention makees layer model in three parts, and first portion is smoke tree Tu model, and second portion is mode hopping type, with And Part III is element side's model, imports the column cap anchor point topology data to prestore from platform database first, then basis Column cap anchor point space layout determines that (i.e. column cap anchor point space layout is laid out one to smoke tree Tu anchor point layout with smoke tree Tu anchor point Sample) and the first parameter establishment smoke tree Tu model data inserter and calculator, maker generation smoke tree Tu model.According to smoke tree Tu model Centralized positioning plane (be a criss-cross groove among smoke tree Tu model, the centered about plane of the star section is shown in figure 7) it is the first datum plane, the number of mode hopping type is developed with the location parameter of smoke tree Tu model, the first datum plane and the second parameter According to loader and calculator, maker generates mode hopping type.Position line between each peripheral column head of horizontal direction, that is, positive facade is signified Direction.According to the data inserter for going out the location parameter of mode hopping type, the parameter of horizontal direction and the 3rd parameter establishment element side's model And calculator, maker generate mode hopping type.Finally by smoke tree Tu model, go out mode hopping type and element side's model construction entirely spreads and makees layer mould Type, as shown in Figure 2.In order to which clearer analysis paving makees the structure of layer model, analysis is amplified to the part in Fig. 2 (to Fig. 2 Middle encircled portion carries out partial enlargement).It is illustrated in figure 3 paving and makees layer model Local map.

It should be noted that being distributed with paving on slot inner lane column cap and slot outer ring (outermost peripheral column head) column cap makees layer Model, paving thereon make that layer model specification is consistent, and only position is different (i.e. inside slot or outside slot), in order to avoid burden is retouched It states, the paving present invention is generally directed to slot outer ring is illustrated as layer.

The advantageous effect of the embodiment of the present invention is：By the way that ancient building paving to be made to the parametrization of each component of layer, and according to each structure Position relationship generates pseudo-classic architecture model between part, avoids the reconstruction operation built manually when mistake occurs for partial model, and efficiency It increases substantially.

A kind of palace type carpentry work paving provided by Embodiment 2 of the present invention makees the modeling method of layer, the generation smoke tree Tu positioning The process of point layout, including：

According to the column cap locating point position, to all column cap anchor points into line label；

In all labels, the first sequence number of angle of departure smoke tree Tu model is determined by standard width of a room in an old-style house number and depth number, according to described First sequence number determines angle smoke tree Tu anchor point layout；

By removing first sequence number from all sequence numbers, remaining label in all labels is designated as Two sequence numbers are laid out according to the second serial number gencration the first smoke tree Tu anchor point；

Based on the column cap locating point position, according to the numerical value between predetermined benefit between the adjacent column cap anchor point of each two Column cap position line on mark multiple points, by the multiple point labeled as the 3rd sequence number, according to the 3rd serial number gencration second Smoke tree Tu anchor point is laid out；

Based on the column cap locating point position, according to the numerical value between predetermined benefit between the adjacent column cap anchor point of each two Column cap position line on mark multiple points, by the multiple point labeled as the 3rd sequence number, according to the 3rd serial number gencration second Smoke tree Tu anchor point is laid out.

In the embodiment, pass through standard width of a room in an old-style house number and depth number, sequence number (the angle smoke tree i.e. on angle capital of calculating angle of departure smoke tree Tu first Tu, angle capital are exactly the column cap at four angles of slot outer ring column cap, are determined in platform by inputting standard width of a room in an old-style house number and depth number, Standard width of a room in an old-style house number is equivalent to length, and depth number is equivalent to width), specific numbers are marked as in the data of column cap anchor point (i.e. First sequence number) it selects, it is the generation anchor point of angle smoke tree Tu.Other column caps in addition to angle capital are (in all column caps, except angle Other column caps beyond column cap) on the second sequence number of serial number, and generate the first column cap anchor point, the second smoke tree Tu is then will be by column Peripheral column head (the i.e. slot outer ring column cap) position line of head segmentation (divides multiple points, wherein segments again depending on number segmentation between benefit Number is identical between benefit), two endpoints for removing first and last are the second smoke tree Tu anchor point.

It is illustrated in figure 4 smoke tree Tu anchor point to be laid out, mark part angle capital anchor point, the first smoke tree Tu anchor point in Fig. 4 With the second smoke tree Tu anchor point.Fig. 5 is the position view of smoke tree Tu model and pillar model, late volume model and Nei E models.

In the particular embodiment, smoke tree Tu anchor point layout is initially set up, smoke tree Tu model is then generated according to the first parameter. It is illustrated in figure 6 the flow diagram of generation smoke tree Tu model.

S1011, positioned with angle smoke tree Tu anchor point layout, the first smoke tree Tu anchor point layout and the second smoke tree Tu Point layout builds the smoke tree Tu anchor point layout.

Wherein, each smoke tree Tu model includes：Yi models, flat-die type and ear model three parts, first parameter include： The size of the size of the Yi models, the size of the flat-die type and the ear model；

The process of the multiple smoke tree Tu models of generation, including：

S1012, the Yi models, the flat-die type and the ear model are generated according to first parameter；

S1013, it is laid out based on the smoke tree Tu anchor point, is generated with the Yi models, the flat-die type and the ear model The multiple smoke tree Tu model, wherein in each smoke tree Tu model, the Yi models are most being pushed up in the bottom, the ear model Layer, the flat-die type is between the Yi models and the ear model.

In the embodiment, according to the anchor point of each smoke tree Tu layout and the first parameter establishment Yi models, flat-die type and ear model Data inserter and calculator, maker builds model from top to bottom, ear model is topmost, flat-die type tool centre position, Yi models are in bottom.It is illustrated in figure 7 the schematic diagram of cap block model, wherein angle smoke tree Tu, the first smoke tree Tu and the second column cap smoke tree Tu Only of different sizes, shape is identical.Fig. 8 is the maker of angle smoke tree Tu model.

Smoke tree Tu model is located on column cap, 20 parts high, and eight parts of top is ear, and four parts of middle part is flat, and eight parts of lower part is Yi, Ear portions cut out criss-cross groove according to the size of magnificent arch and muddy road arch.Flat part is a cuboid, and Yi parts are inside Lateral incision goes out radian.

The advantageous effect of the embodiment of the present invention is：It is laid out by establishing smoke tree Tu anchor point, generates smoke tree Tu mould on this basis Type avoids the generation of human operational error, in repetitive operation, improves modeling efficiency.

A kind of palace type carpentry work paving that the embodiment of the present invention three provides makees the modeling method of layer, it is described go out mode hopping type at least Including following two models：Magnificent arch model, muddy road arch model, curtain arch model, make arch model at melon seeds arch；

It is described including multiple models be stacked and form the number of plies and be less than five layers of multilayered model；The of the multilayered model One layer model is located at lowest level, and the magnificent arch model and the muddy road arch model is only distributed in first layer model, wherein often Pass through interaction Tu model, Tu model of one mind and scattered Tu model interaction between adjacent two layers model.

Being associated by various Tu models between multilayered model.

Preferably, it is described go out mode hopping type including multiple stackings model and form the multilayered model that the number of plies is less than five layers；Institute It states the first layer model in multilayered model and is located at lowest level, the magnificent arch model and the mud is only distributed in first layer model Road arch model, remaining each layer include a magnificent arch model；Top layer, which further includes, makes arch model；

By with the association of one of drag between wherein every adjacent two layers model：Interaction Tu model, Tu model of one mind dissipate Tu Model interaction.

More than smoke tree Tu model it is mode hopping type in the embodiment, specially there is magnificent arch model, muddy road arch model, melon seeds arch Model, curtain arch model make arch model.For magnificent arch model inside and outside to go out to jump, middle part sets Tu model of one mind, inside and outside sets interactive Tu mould Type；Muddy road arch model, melon seeds arch model, make arch model and then go out to jump for left and right curtain arch model, and middle part sets Tu model of one mind, left Right both sides set scattered Tu model.Tu model wherein of one mind, interaction Tu model, to dissipate Tu model and smoke tree Tu model be Tu model.

It is yi word pattern section grooves above Tu model of one mind, interaction Tu model and scattered Tu model in the embodiment, it is specific raw It can be generated into method by the basis of smoke tree Tu, changing corresponding parameter, the yi word pattern section grooves, that is, Tu of one mind model, The centralized positioning plane of interaction Tu model and scattered Tu model.

Be located at it should be noted that going out mode hopping type on smoke tree Tu model, the present invention using by this go out mode hopping type split into it is more The Overlay model of layer is analyzed, and each layer model is only there are one magnificent arch model or high model, when high model is placed at multilayer Model in, also referred to as under high model；By various Tu model interactions between per adjacent two-layer model, Tu model is smoke tree Tu mould Type, Tu model of one mind, interaction Tu model or the scattered Tu model etc.；Magnificent arch model or high model in each layer model is outside It stretches out, is a jump, for the ease of explaining, the present invention represents a jump using each layer model and (further included in each layer model With other of magnificent arch model or high model interaction with the arch model of layer), it is more than double bounce, five models for jumping following stacking be Mode hopping type.For example, there was only magnificent arch model, muddy road arch model, i.e. the first mode hopping type in the first layer model, have in third layer model high Model, melon seeds arch model and curtain arch model, i.e. the 3rd mode hopping type.

Preferably, the generating process of first layer model, including：

Using the centralized positioning plane of each smoke tree Tu model as the second datum plane, second datum plane it On, intersecting magnificent arch model and muddy road arch model are generated as first layer model；

It is described to make between arch model and the magnificent arch model of adjacent layer using interacting Tu model interaction；The life for making arch model Include into process：

Using the centralized positioning plane of the interaction Tu model on the magnificent arch model of the adjacent layer as the 7th datum plane, in institute It states to generate on the 7th datum plane and described makes arch model；

Magnificent arch model generator switch is set；

Remaining described each layer generates in the following ways：

The magnificent arch model of two adjacent layers uses Tu model interaction of one mind；On every layer, the magnificent arch model generation is controlled Device switchs, using the centralized positioning plane of the Tu model of one mind on the magnificent arch model in next layer of current layer of model as the 3rd base Directrix plane generates the magnificent arch model on the 3rd datum plane.

Preferably, on each layer in addition to the first layer, further include：Melon seeds arch model generator switchs and curtain arch mould Type maker；

On each layer of magnificent arch model, generate to associate the interaction Tu model of adjacent layer；

The melon seeds arch model generator is controlled to switch, with the friendship on the magnificent arch model in next layer of current layer of model The centralized positioning plane of mutual Tu model is the 4th datum plane, and the melon seeds arch mould is generated on the 4th datum plane Type；Wherein, the Tu model interaction of one mind is used between the magnificent arch model of two adjacent layers and melon seeds arch model；And/or

The curtain arch model generator is controlled to switch, with the first Tu model of one mind on the muddy road arch model of the first layer Centralized positioning plane for the 5th datum plane, with the second Tu model of one mind on the magnificent arch model in first layer model Centralized positioning plane is the 6th datum plane, and each generation is distinguished on the 5th datum plane and the 6th datum plane One curtain arch model；Wherein, the muddy road arch model and the curtain arch model are using Tu model interaction of one mind, China's arch model Tu model interaction of one mind is used with the curtain arch model.

In the embodiment, according to the position relationship with going out the relevant Tu model of mode hopping type, the center obtained on Tu model is determined Bit plane, and generate magnificent arch model, muddy road arch model, melon seeds arch model, curtain arch model, make arch model.

The arch model of last layer model (i.e. upper hop) will be with the Tu center of the Tu model of next layer model (i.e. next-hop) Plane is positioned as datum plane, the high model of upper hop then jumps the centralized positioning plane of interaction Tu model compared under it in addition One position jumped and the position of the high tail of inner jump are definite to integrate.Wherein, centralized positioning plane is the central plane of various Tu models, Tu model middle part is recessed, the centralized positioning plane of recess section, that is, Tu model.

When carrying out the data inserter and calculator of establishment arch model according to the above, the first layer model can be worked out The muddy road arch model of (i.e. first jump), the first to the five each layer (i.e. first to the fifth jump, here the present invention illustrated with five jumps It is bright) magnificent arch model maker, but also need to carry out logic judgment before maker：" whether have the jump, this jump out arch Or how much set high, total hop count ".The above two judge be that the jump whether there is, this jump out arch still set it is high；The latter judge be then " no matter which kind of goes out to jump type, whether inner jump is shortened, and how much is shortening ".Go out to jump sum and be less than or equal to three, inside and outside jump 30 parts long；Go out to jump Total to be more than three, 28 parts long, the second jump and above 26 parts of length are jumped in inner jump first.

It should be noted that part in the present invention is ancient times numeral-classifier compound, it is to illustrate to use for convenience here, not to this Scheme of the invention impacts.

Meanwhile paving is made into layer and is grouped according to column cap position：Outer groove (is in the prior art a point slot form to column cap , such as golden compartment bucket kerve, outer ring is exactly outer groove, and inner ring is exactly inside groove) common column cap (not including angle capital) and bracket sets between columns (the two size direction all, can set high model), the common column cap of inner slot and bracket sets between columns are (the two size direction all, no If high model), 45 degree of directions of outer groove angle capital go out row arch (more common bracket set on column is slightly longer, can set high model), the outer groove angle of jump (two to the center for the Tu model of one mind for making arch model and the Tu mould of one mind for making arch model of 45 degree of row arches to going out to jump for column cap corner two The center of type, this three points form an isosceles right triangles, can set high model), inner groove angle column cap corner two is to going out to jump (two It is similar to going out to jump to outer groove angle capital corner two to the position at the center for the Tu model of one mind for making arch model, but arch is not fallen out, High model is not set).

Every group of difference scheduling algorithm battery, convenient for independent control.With common (column cap in addition to the angle capital) column of outer groove Exemplified by the grouping of head and bracket sets between columns, a kind of magnificent arch model of the 3rd jump in the group is as shown in Figure 9.The life of wherein various arch models The same into method, simply of different sizes, the generation method of high model is adjusted accordingly according to actual conditions can obtain.Magnificent arch The maker of model is as shown in Figure 10 a, 10b, wherein entire magnificent arch model schematic is divided into two parts, a left side half by a dotted line Part is inner jump, because total hop count is more than 3, so foreshortening to 26 parts.

In the particular embodiment, it can be controlled to realize going out hop count, take and generate each jump respectively Method.Switch is set before the second jump and above magnificent arch model generator, it can be by the center of each jump smoke tree Tu model The input terminal of positioning plane is controlled, so as to control the generation of the jump China arch model.

Melon seeds arch model is located at magnificent arch model and jumps on head, whether there is it can be selected that being known as the meter heart if having and makes, if without The heart is referred to as stolen to make.By setting a switch, choose whether the number of the centralized positioning plane of the interaction Tu model of magnificent arch model According to output to the maker of melon seeds arch, so as to fulfill individually being controlled it whether there is.

Curtain arch model must be located at muddy road arch model simultaneously and on melon seeds arch, whetheing there is can also make choice, if having Then it is known as weight arch, if referred to as single arch without if.By setting a switch, choose whether muddy road arch model and melon seeds arch model The data of the centralized positioning plane of Tu model of one mind are exported to the maker of melon seeds arch model, and list is carried out so as to fulfill being whether there is to it Solely control.

Arch model is made to be located at most upper hop China arch model to jump on head, above holds Lao eave beams.

After being grouped according to column cap position to paving, every group of arch model, high model, Tu model are not quite similar, but Two scantling differences similar to each other, similar, it is only necessary to the preliminary examination assignment of internal maker is changed, this It is the advantage of Parameterized Algorithm life shape.

The second layer and more than each layer model, the generation of each magnificent arch model, with the Tu of one mind of next-hop China arch model Plane on the basis of the centralized positioning plane of model；The generation of each melon seeds arch model, with the interaction of next-hop China arch model Plane on the basis of the centralized positioning plane of Tu model；The generation of each curtain arch model, with the neat of next-hop muddy road arch model Plane on the basis of the centralized positioning plane of heart Tu model and the centralized positioning plane of the Tu model of one mind of melon seeds arch model；Each The generation of arch model is made, the plane on the basis of the centralized positioning plane of the interaction Tu model of most upper hop China arch model.

In addition, associated Tu model can all be generated by corresponding maker between various layers.

Preferably, as shown in figure 11, further include：

S5011, second layer model and more than each layer model, every layer each to set one and goes out to jump type of switch；

S5012, go out to jump type of switch according to, all or part of magnificent arch model of every layer of control is substituted for high model.

In the embodiment, in the high model of structure, high model can be regarded as the abnormity of magnificent arch model, from the second tripping Begin, increase selection loader, it is to go out to jump using magnificent arch model or go out to jump using high model that can select this jump；If selection High model goes out to jump, and magnificent arch model can be used in inner jump, and only the China arch model is jumped onto outside accepts the jump and hold high model, is known as China's head Son.It is after selection as a result, magnificent arch model and high model are as shown in figure 12.

High model it is inner jump onto extend upwardly to more than jump interaction Tu model two materials, one Carve (jumped in i.e. make arch model with it is plain Square model is two materials, and it is a Carve to make Tu on arch model) position, with inner jump element side's model on arch model is made to intersect.High mould Type is up to double bounce, is jumped off from first on high model arch magnificent model, and setting is jumped in China's arch model and makes arch model, goes out to jump knot Beam, hometown hop count be equal to first jump off high model go out hop count, outer jump jumps more double bounces than inner if high model under going out three, if Then outer jump jumps more jumps to high model than inner under going out two.

Therefore to control the presence or absence of the arch model, then assignment, the assignment if having are carried out to the input terminal of centralized positioning plane For 1, if being assigned a value of 0 without if, the input of centralized positioning plane is just enabled to there are no two states, so as to control arch mould The presence or absence of type.Data inserter is as shown in figure 13, wherein 1 represents "Yes", 0 represents "No".

Preferably, the smoke tree Tu model, the interactive Tu model, the Tu model of one mind and the scattered Tu model are Tu Model；

China's arch model, the melon seeds arch, the curtain arch model and described to make arch model be arch model；

As shown in figure 14, each arch model is generated by following steps：

S6011, the cross section profile for being centrally generated 1/2 arch model from the centralized positioning plane of each Tu model position Point layout；

S6012, progress mirror image processing is laid out to the cross section profile anchor point, in being laid out to the cross section profile anchor point Resetting point be purged after, generate each arch model.

In the embodiment, various arch models can be generated by the above method, various Tu models can be according to embodiment two Method generation, wherein Tu model include Yi models, flat-die type and ear model.

The generation of various arches specially carrys out the X-direction life into plane from the center of the centralized positioning plane of Tu model Into the cross section profile anchor point of half arch model, then by its mirror image, except the point of deduplication, multi-section-line is connected to become, and Boundary face is generated, arch model is generated by squeezing algorithm battery.

Preferably, second parameter is modal position coefficient of relationship；Institute is generated according to the modal position coefficient of relationship State it is multiple go out mode hopping type.

3rd parameter is the location parameter of the scattered Tu, the location parameter of the Tu of one mind and element side etc. materials grade Not, the process of the multiple element side's models of generation, as shown in figure 15, including：

S1031, the first position that the scattered Tu is captured according to the location parameter of the scattered Tu；

S1032, the second position that the Tu of one mind is captured according to the location parameter of the Tu of one mind；

S1033, according to the element side etc. materials rank obtain element side's model size；

S1034, based on the first position and the second position, generated according to the size of element side's model more A element side's model.

In the embodiment, element side's model is the lateral ties component in every jump top layer model, if if making on arch model Claim Lao eave beams.The length and width of element side's model are a material, i.e., 15 parts high, 10 parts thick；And Lao eave beams it is high then times it, be 30 parts. Element side's model plays levelling effect, and paving is made point groove layer connects with roof truss layer.

In organized data loader and calculator, the location parameter of Tu model and the grade materials rank of element side are incorporated into, and are being counted The size that the first physical location, the second physical location and element side's model are got in device is calculated, each element is generated according to maker Square model, element side's model are located between the adjacent pillar in two same directions, and (smoke tree Tu model is removed on Tu model Outside), the repiece wood on element side's model is worked out together in the eaves maker of roof truss layer.It is the vertical view cloth of element side as shown in figure 16 Office's figure.Figure 17 is the location drawing of element side's model.

Advantageous effect using the technical solution of above-described embodiment is：It is closed by the position for recording Tu model and arch model System, and by model parameterization, modeling efficiency is improved, by determining the position of element side, and pass through input parameter generation element Fang Mo The accuracy rate of element side's modal position greatly improved in type.

A kind of computer equipment that the embodiment of the present invention four also provides, including processor and memory；

The memory is used to store computer program；

The processor is for performing the computer program, to realize the method described in embodiment one to embodiment three.

The advantageous effect of the embodiment of the present invention is：By the way that ancient building paving to be made to the parametrization of each component of layer in a computer, And pseudo-classic architecture model is generated according to position relationship between each component, avoid the reconstruction behaviour built manually when mistake occurs for partial model Make, and efficiency increases substantially.

More than, it is only specific embodiment of the invention, but protection scope of the present invention is not limited thereto, and it is any to be familiar with Those skilled in the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or substitutions, These modifications or substitutions should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be wanted with right Subject to the protection domain asked.

Claims (10)

1. a kind of palace type carpentry work paving makees the modeling method of layer, which is characterized in that this method includes：

The column cap locating point position of carpentry work is obtained in advance, determines that smoke tree Tu anchor point is laid out based on the column cap locating point position, Multiple smoke tree Tu models are generated according to smoke tree Tu anchor point layout and the first parameter；

Using the centralized positioning plane of the smoke tree Tu model as the first datum plane, described first is positioned over according to the generation of the second parameter On datum plane it is multiple go out mode hopping type；

It is described go out mode hopping type on, laterally disposed multiple element side's models are generated according to the 3rd parameter；

According to all smoke tree Tu models, all go out mode hopping type and model generation paving in all element sides makees layer model.

2. according to the method described in claim 1, it is characterized in that, the process of definite smoke tree Tu anchor point layout, including：

According to the column cap locating point position, to all column cap anchor points into line label；

In all labels, the first sequence number of angle of departure smoke tree Tu model is determined by standard width of a room in an old-style house number and depth number, according to described first Sequence number determines angle smoke tree Tu anchor point layout；

By removing first sequence number from all sequence numbers, remaining label in all labels is designated as the second sequence Number, it is laid out according to the second serial number gencration the first smoke tree Tu anchor point；

Based on the column cap locating point position, according to column of the numerical value between predetermined benefit between the adjacent column cap anchor point of each two Multiple 3rd sequence numbers are marked in head position line, are laid out according to the 3rd serial number gencration the second smoke tree Tu anchor point；

With angle smoke tree Tu anchor point layout, the first smoke tree Tu anchor point layout and the second smoke tree Tu anchor point layout structure The smoke tree Tu anchor point layout.

3. according to the method described in claim 2, it is characterized in that, each smoke tree Tu model includes：Yi models, flat-die type and ear Model three parts, first parameter include：The size of the Yi models, the size of the flat-die type and the ear The size of model；

The process of the multiple smoke tree Tu models of generation, including：

The Yi models, the flat-die type and the ear model are generated according to first parameter；

It is laid out based on the smoke tree Tu anchor point, the multiple smoke tree is generated with the Yi models, the flat-die type and the ear model Tu model, wherein in each smoke tree Tu model, for the Yi models in the bottom, the ear model is described flat in top Model is between the Yi models and the ear model.

4. according to the method described in claim 1, it is characterized in that, it is described go out mode hopping type include the model and shape of multiple stackings It is less than five layers of multilayered model into the number of plies；The first layer model in the multilayered model is located at lowest level, first layer model The magnificent arch model and the muddy road arch model is only distributed with, remaining each layer includes a magnificent arch model；Top layer further includes Make arch model；

By at least one model interaction of drag between wherein every adjacent two layers model：Interaction Tu model, Tu model of one mind, Dissipate Tu model.

5. according to the method described in claim 4, it is characterized in that, the generating process of first layer model, including：

It is raw on second datum plane using the centralized positioning plane of each smoke tree Tu model as the second datum plane Into intersecting magnificent arch model and muddy road arch model as first layer model；

It is described to make between arch model and the magnificent arch model of adjacent layer using interacting Tu model interaction；

The generating process for making arch model includes：

Using the centralized positioning plane of the interaction Tu model on the magnificent arch model of its adjacent layer as the 7th datum plane, the described 7th It is generated on datum plane and described makes arch model；

Magnificent arch model generator switches are set；

Remaining described each layer generates in the following ways：

The magnificent arch model of two adjacent layers uses Tu model interaction of one mind；On every layer, the magnificent arch model generator is controlled to open It closes, is put down using the centralized positioning plane of the Tu model of one mind on the magnificent arch model in next layer of current layer of model as the 3rd benchmark Face generates the magnificent arch model on the 3rd datum plane.

6. according to the method described in claim 5, it is characterized in that, on each layer in addition to the first layer, further include：Melon Sub- arch model generator switch and curtain arch model generator；

On each layer of magnificent arch model, generate to associate the interaction Tu model of adjacent layer；

The melon seeds arch model generator is controlled to switch, with the interaction Tu on the magnificent arch model in next layer of current layer of model The centralized positioning plane of model is the 4th datum plane, and the melon seeds arch model is generated on the 4th datum plane；Its In, the Tu model interaction of one mind is used between the magnificent arch model of two adjacent layers and melon seeds arch model；And/or

The curtain arch model generator is controlled to switch, in the first Tu model of one mind on the muddy road arch model of the first layer Heart positioning plane is the 5th datum plane, the center with the second Tu model of one mind on the magnificent arch model in first layer model Positioning plane is the 6th datum plane, and each generation one is distinguished on the 5th datum plane and the 6th datum plane Curtain arch model；Wherein, the muddy road arch model and the curtain arch model are using Tu model interaction of one mind, China's arch model and institute Curtain arch model is stated using Tu model interaction of one mind.

7. it according to the method described in claim 6, it is characterized in that, further includes：Second layer model and more than each layer model, Every layer of each setting one goes out to jump type of switch；

Go out to jump type of switch according to described, all or part of magnificent arch model of every layer of control is substituted for high model.

It is 8. according to the method described in claim 4, it is characterized in that, the smoke tree Tu model, the interactive Tu model, described of one mind Tu model and the scattered Tu model are Tu model；

China's arch model, the melon seeds arch, the curtain arch model and described to make arch model be arch model；

Each arch model is generated by following steps：

From the cross section profile anchor point for the being centrally generated 1/2 arch model layout of the centralized positioning plane of each Tu model；

The cross section profile anchor point is laid out and carries out mirror image processing, the resetting in being laid out to the cross section profile anchor point After point is purged, each arch model is generated.

9. according to the method described in claim 8, it is characterized in that, second parameter is modal position coefficient of relationship；

According to the modal position coefficient of relationship generation it is the multiple go out mode hopping type.

3rd parameter is the location parameter of the scattered Tu, the location parameter of the Tu of one mind and element side etc. materials rank, institute The process for generating multiple element side's models is stated, including：

The first position of the scattered Tu is captured according to the location parameter of the scattered Tu；

The second position of the Tu of one mind is captured according to the location parameter of the Tu of one mind；

According to the size for waiting materials rank acquisition element side's model of the element side；

Based on the first position and the second position, multiple element sides are generated according to the size of element side's model Model.

10. a kind of computer equipment, which is characterized in that including processor and memory；

The memory is used to store computer program；

The processor is for performing the computer program, to realize the method any one of claim 1-9.