CN109684736A - Stirrup model generating method, system, device and readable storage medium storing program for executing in component - Google Patents

Abstract

This application discloses stirrup model generating methods in a kind of component, system, device and computer readable storage medium, applied to assembled architecture field, it include: the every terms of information for obtaining the principal rod in component model, reinforcing bar foothold information including principal rod, principal rod dimension information and laying direction, utilize reinforcing bar foothold information therein, determine the perimeter of main stirrup, principal rod dimension information is recycled to determine laying length, the laying direction of main stirrup is determined using the laying direction of principal rod, spacing is laid using preset main stirrup, setting interval, obtain the main stirrup in component, principal rod in main stirrup is divided into multiple groups stirrup group, utilize secondary stirrup layout rules, multiple groups stirrup group, principal rod dimension information and laying direction, generate the secondary stirrup in component, ungrouped principal rod is divided into lacing wire group, utilize lacing wire Layout rules, lacing wire group, principal rod dimension information and laying direction generate the lacing wire in component, and stirrup automatically generates in realization component.

Description

Stirrup model generating method, system, device and readable storage medium storing program for executing in component

Technical field

The present invention relates to assembled architecture field, in particular to stirrup model generating method, system, device in a kind of component And computer readable storage medium.

Background technique

Prefabricated member production line manufacture when, need for corresponding reinforcing bar to be built into component, then together with Component pours together, therefore when designed component artwork, needs to be arranged together by the reinforcing bar in component, corresponding different component Type, reinforcing bar has different types, muscle/gluten of at least attaching most importance to, horizontal bar/mesh sheet muscle, reinforcing rib, main stirrup/lacing wire, reinforcing bar Usage amount under construction is very big.

When existing design component BIM schemes, need artificially by virtue of experience to remove reinforcing bar built-in in setting component, due to reinforcing bar Type is different and there are many quantity, larger workload, and is easy error.

Therefore, it is necessary to the methods that one kind can generate reinforcing bar efficiently in component.

Summary of the invention

In view of this, the purpose of the present invention is to provide stirrup model generating method, system, device and meters in a kind of component Calculation machine readable storage medium storing program for executing improves stirrup formation efficiency.Its concrete scheme is as follows:

Stirrup model generating method in a kind of component, which is characterized in that be applied to assembled architecture field, comprising:

Obtain the target member model of target member；

Using the target member model, therefrom obtain the principal rod of the target member reinforcing bar foothold information, by Power muscle dimension information and laying direction；

Using the reinforcing bar foothold information, obtain reinforcing bar foothold in the target member and surround the maximum master of area closing Close shape；

Using the close-shaped perimeter of the master, the perimeter of main stirrup is obtained；

Spacing, the principal rod dimension information and the laying side are laid using the perimeter of main stirrup, preset main stirrup To generating the main stirrup model in the target member model；

According to preset secondary stirrup layout rules corresponding with the target member, by the principal rod in the main stirrup point For multiple groups stirrup group；

It is raw using the secondary stirrup layout rules, multiple groups stirrup group, the principal rod dimension information and the laying direction At the secondary stirrup model in the target member model；

Judge whether there is ungrouped principal rod in the main stirrup, if so, using corresponding with the target member pre- If lacing wire layout rules ungrouped principal rod is divided into lacing wire group；

Using the lacing wire layout rules, the lacing wire group, the principal rod dimension information and the laying direction, generate Lacing wire model in the target member model.

Optionally, described according to preset secondary stirrup layout rules, the principal rod in the main stirrup is divided into multiple groups hoop The process of muscle group, comprising:

By in the reinforcing bar foothold information, two longitudinally opposed reinforcing bar footholds are divided into one group of reinforcing bar pair；

According to preset secondary stirrup layout rules, multiple reinforcing bars are successively obtained into multiple groups hoop to one group of stirrup group is set as Muscle group, wherein every group of stirrup group includes multiple successively adjacent reinforcing bars pair.

Optionally, described to utilize the secondary stirrup layout rules, multiple groups stirrup group, the principal rod dimension information and described It is laid with direction, generates the process of the secondary stirrup model in the target member model, comprising:

Using the reinforcing bar foothold of every group of stirrup group, obtains reinforcing bar foothold in every group of stirrup group and surround area maximum time It is close-shaped；

Using the secondary close-shaped perimeter of every group of stirrup group, the perimeter of the secondary stirrup of every group of stirrup group is obtained；

Spacing, the principal rod dimension information are laid using the perimeter of the secondary stirrup of every group of stirrup group, preset secondary stirrup With the laying direction, the secondary stirrup model in the target member model is generated.

Optionally, further includes:

Reinforcing bar in the target member is numbered, classified and named, the reinforcing bar information of the target member is obtained；

The reinforcing bar information is saved into the attribute information of the target member.

Optionally, further includes:

The reinforcing bar information is stored to reinforcing bar information database, for inquiry.

Optionally, after generating main stirrup model, secondary stirrup and the lacing wire in the target member model, further includes:

Using pre-stored project blue print, judge whether the target member there are the adjacent members being connected；

If it is, being wrapped up the horizontal bar of the horizontal member of horizontal direction as the stirrup of the vertical member of vertical direction The principal rod of vertical member；

Wherein, the relative direction of horizontal member and vertical member is based on the position after installation with respect to the horizontal plane, the mesh Mark component and adjacent members may respectively be horizontal member and vertical member.

The invention also discloses stirrup models in a kind of component to generate system, is applied to assembled architecture field, comprising:

Model obtains module, for obtaining the target member model of target member；

Principal rod data obtaining module, for utilize the target member model, therefrom obtain the target member by Reinforcing bar foothold information, principal rod dimension information and the laying direction of power muscle；

Area calculates module, for utilizing the reinforcing bar foothold information, obtains reinforcing bar foothold in the target member It is close-shaped to surround the maximum master of area；

Circumference calculating module obtains the perimeter of main stirrup for the perimeter close-shaped using the master；

Stirrup generation module lays spacing, the principal rod size for perimeter, the preset main stirrup using main stirrup Information and the laying direction generate the main stirrup model in the target member model；

Stirrup grouping module is used for according to preset secondary stirrup layout rules corresponding with the target member, will be described Principal rod in main stirrup is divided into multiple groups stirrup group；

Secondary stirrup generation module, for being believed using the secondary stirrup layout rules, multiple groups stirrup group, the principal rod size Breath and the laying direction, generate the secondary stirrup model in the target member model；

Lacing wire judgment module, for judging whether there is ungrouped principal rod in the main stirrup, if so, using with it is described Ungrouped principal rod is divided into lacing wire group by the corresponding preset lacing wire layout rules of target member；

Lacing wire generation module, for using the lacing wire layout rules, the lacing wire group, the principal rod dimension information and The laying direction generates the lacing wire model in the target member model.

Optionally, further includes:

Adjacent members judgment module judges whether the target member has for utilizing pre-stored project blue print The adjacent members being connected；

Reinforcing bar Fusion Module has the adjacent structure being connected for stating target member when adjacent members judgment module judgement Part, then using the horizontal bar of the water bottle component of horizontal direction as the vertical member of vertical direction stirrup package vertical member by Power muscle；

Wherein, the relative direction of horizontal member and vertical member is based on the position after installation with respect to the horizontal plane, the mesh Mark component and adjacent members may respectively be horizontal member and vertical member.

The invention also discloses stirrup generating means in a kind of component, are applied to assembled architecture field, comprising:

Memory, for storing computer program；

Processor, for executing the computer program to realize stirrup model generating method in component as the aforementioned.

The invention also discloses a kind of computer readable storage mediums, are applied to assembled architecture field, the computer Computer program is stored on readable storage medium storing program for executing, the computer program is realized when being executed by processor in component as the aforementioned Stirrup model generating method.

In the present invention, stirrup model generating method in component is applied to assembled architecture field, comprising: obtains target structure The target member model of part；Using target member model, therefrom obtain the principal rod of target member reinforcing bar foothold information, by Power muscle dimension information and laying direction；Using reinforcing bar foothold information, obtains reinforcing bar foothold in target member and surround area most Big master is close-shaped；Using the close-shaped perimeter of master, the perimeter of main stirrup is obtained；Utilize the perimeter of main stirrup, preset Main stirrup lays spacing, principal rod dimension information and is laid with direction, generates the main stirrup model in target member model；According to The corresponding preset secondary stirrup layout rules of target member, are divided into multiple groups stirrup group for the principal rod in main stirrup；Utilize secondary hoop Muscle layout rules, multiple groups stirrup group, principal rod dimension information and laying direction, generate the secondary stirrup mould in target member model Type；Judge whether there is ungrouped principal rod in main stirrup, if so, utilizing preset lacing wire arrangement rule corresponding with target member Ungrouped principal rod is then divided into lacing wire group；Utilize lacing wire layout rules, lacing wire group, principal rod dimension information and laying side To, generate target member model in lacing wire model.

The present invention obtains the every terms of information of the principal rod in target member model, the reinforcing bar foothold letter including principal rod Breath, principal rod dimension information and laying direction determine the perimeter of main stirrup using reinforcing bar foothold information therein, recycle Principal rod dimension information determines laying length, and the laying direction of main stirrup is determined using the laying direction of principal rod, using default Main stirrup lay spacing, setting interval obtains the main stirrup model in target member model, utilizes preset secondary stirrup arrangement Rule and lacing wire layout rules generate time stirrup model and lacing wire model respectively, and stirrup model is automatic in realization component model It generates.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is stirrup model generating method flow diagram in a kind of component disclosed by the embodiments of the present invention；

Fig. 2 is a kind of close-shaped schematic diagram of master disclosed by the embodiments of the present invention；

Fig. 3 is a kind of main stirrup schematic shapes disclosed by the embodiments of the present invention；

Fig. 4 is a kind of protective layer schematic diagram disclosed by the embodiments of the present invention；

Fig. 5 is a kind of reinforcing bar foothold schematic diagram disclosed by the embodiments of the present invention；

Fig. 6 be a kind of horizontal bar disclosed by the embodiments of the present invention as main stirrup when schematic diagram；

Fig. 7 is that stirrup model generates system structure diagram in a kind of component disclosed by the embodiments of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It is shown in Figure 1 the embodiment of the invention discloses stirrup model generating method in a kind of component, it is applied to assembled Building field, this method comprises:

S11: the target member model of target member is obtained.

Specifically, being previously stored with the model of each component of reinforcing bar to be generated, the model of each component can be BIM model, Be stored with the attribute information of the component in component model, attribute information may include the name information of component, type information and/or The relevant information of dimension information etc. component, for this purpose, obtaining the target member of target member before generating reinforcing bar to target member Model, wherein the selected of target member can be chosen by user by input equipment.

S12: utilizing target member model, therefrom obtains reinforcing bar foothold information, the principal rod of the principal rod of target member Dimension information and laying direction.

Specifically, the principal rod that generation finishes can have been preserved in target member model, it therefore, can be directly from mesh It marks the reinforcing bar foothold information for obtaining principal rod in component model, principal rod dimension information and is laid with direction, for generating main hoop Muscle uses.

S13: reinforcing bar foothold information is utilized, reinforcing bar foothold in target member is obtained and surrounds the maximum main closed of area Shape.

Specifically, it is shown in Figure 2, all to fix the principal rod in target member model with main stirrup, therefore, obtain The reinforcing bar foothold information of principal rod in target member is taken, to obtain principal rod in the distribution situation of horizontal plane, for by stress Muscle is all waled, and each reinforcing bar foothold 1 is attached, and formation master is close-shaped, therefrom takes the maximum closure character 2 of area, The corresponding reinforcing bar foothold 1 of the maximum closure character 2 of area must be that the principal rod of outermost in target member is connected Form, so that it is determined that in reinforcing bar foothold information the outermost of target member reinforcing bar foothold 1.

It should be noted that the close-shaped side length of the maximum master of area is not necessarily by steel whole in reinforcing bar foothold information Muscle foothold is constituted, but the maximum master of area is close-shaped certain including reinforcing bar foothold whole in reinforcing bar foothold information.

S14: using main close-shaped perimeter, the perimeter of main stirrup is obtained.

Specifically, shown in Figure 3, main close-shaped 2 perimeter is equivalent to the perimeter of main stirrup 3, and main stirrup 3 will be along The perimeter of closure character 2 includes the principal rod 4 in target member, certainly since main stirrup itself has thickness, and is closed character 2 Zhou Changwei two o'clock between rectilinear(-al), therefore, the perimeter of main stirrup 3 is by the perimeter according to closure character 2, according to pre- If steel bar arrangement standard generate, the perimeter of main stirrup 3 will be greater than closure character 2 perimeter.

S15: laying spacing, principal rod dimension information using the perimeter of main stirrup, preset main stirrup and be laid with direction, raw At the main stirrup model in target member model.

Specifically, after obtaining the perimeter of main stirrup, along target member principal rod laying direction at interval of preset master Stirrup is laid spacing and is arranged, and until the maximum distance that can be laid with documented in principal rod dimension information, makes target structure Stirrup generation in part finishes.

Wherein, the size of main stirrup itself can be stored in advance in main stirrup cloth corresponding with the type information of target member It sets in rule, by the attribute information of the acquisition target member from target member model, then obtains target structure in dependence information The type information of part, the mapping relations pre-established by type information and main stirrup layout rules find corresponding main hoop Muscle layout rules, and then obtain the size of main stirrup itself, such as radius.

S16: according to preset secondary stirrup layout rules, the principal rod in main stirrup is divided into multiple groups stirrup group.

Specifically, reinforcing principal rod to be further, need to carry out the principal rod inside main stirrup again stirrup, generates Secondary stirrup；By obtaining the attribute information of target member from the target member model of target member, target member is recycled Type information in attribute information searches corresponding goal rule mapping relations, is obtained using goal rule mapping relations and target The corresponding secondary stirrup layout rules of component；It has recorded how the principal rod inside main stirrup divides in secondary stirrup layout rules, draws It is divided into the grouping informations such as much one group, therefore, the principal rod in main stirrup can be divided into multiple groups using secondary stirrup layout rules Stirrup group.

Wherein, the type information of target member and the mapping relations of time stirrup layout rules are pre-established, target rule are obtained Then mapping relations.

S17: using time stirrup layout rules, multiple groups stirrup group, principal rod dimension information and it is laid with direction, generates target structure Secondary stirrup model in part model.

Specifically, the secondary stirrup that every group of stirrup group is recorded using time stirrup layout rules lays spacing along target after grouping The laying direction of the principal rod of component is laid spacing at interval of preset secondary stirrup and is arranged, until in principal rod dimension information The documented maximum distance that can be laid with generates the secondary stirrup model in target member model.

S18: judging whether there is ungrouped principal rod in main stirrup, if so, will not using preset lacing wire layout rules The principal rod of grouping is divided into lacing wire group.

Specifically, when being grouped according to secondary stirrup layout rules, principal rod quantity in target member possibly can not be by Divide exactly, accordingly, it is possible to have the principal rod not being grouped, the principal rod not being grouped should be longitudinally asymmetric a pair of of principal rod, It is classified as one group of lacing wire group, for lacing wire to be arranged, it is to be understood that lacing wire is one kind of stirrup；Certainly, if stirrup point There is no remaining reinforcing bar pair after group, then lacing wire that no setting is required.

S19: using lacing wire layout rules, lacing wire group, principal rod dimension information and it is laid with direction, generates target member model Interior lacing wire model.

Specifically, the lacing wire recorded using lacing wire layout rules lays spacing along the laying direction of the principal rod of target member It lays spacing at interval of preset lacing wire to be arranged, until the most long distance that can be laid with documented in principal rod dimension information From, generate target member model in lacing wire model.

As it can be seen that the embodiment of the present invention obtains the every terms of information of the principal rod in target member model, the steel including principal rod Muscle foothold information, principal rod dimension information and laying direction determine the week of main stirrup using reinforcing bar foothold information therein It is long, it recycles principal rod dimension information to determine laying length, the laying direction of main stirrup is determined using the laying direction of principal rod, Spacing is laid using preset main stirrup, setting interval obtains the main stirrup model in target member model, utilizes preset time Stirrup layout rules and lacing wire layout rules generate time stirrup model and lacing wire model respectively, realize stirrup mould in component model Type automatically generates.

It should be noted that if principal rod is not generated in target member model, then can first generate in target member by Power muscle regenerates the main stirrup model in target member model, and the detailed process for generating the principal rod in target member can wrap S21 is included to S28；Wherein,

S21: from pre-stored project blue print, the attribute information for the adjacent members being connected with target member is obtained.

Specifically, project blue print is the design drawing of whole building scheme, including the information of each component of whole building, Such as, the relevant informations such as connection relationship of the attribute information of each component and each component, therefore, after selecting corresponding target member, Automatically the attribute information for the adjacent members being connected with target member can be obtained from pre-stored project blue print, for Use when being subsequently generated reinforcing bar.

S22: utilizing target member model, therefrom obtains the attribute information of target member.

S23: using the attribute information of target member, the type information and dimension information of target member are obtained；

Specifically, obtaining the attribute information of target member from target member model, the attribute information of target member is utilized The relevant information of the target members such as the type information and dimension information of middle target member, for being subsequently generated corresponding steel Muscle.

S24: use pattern information determines the datum level of target member.

Specifically, by the attribute information of target member, the type information of available target member utilizes target member Type information, can determine the datum level of target member, i.e. reinforcing bar initial surface, for example, target member be wall, datum level is just It is parallel to horizontal plane for its bottom surface, i.e., the face connecting with bottom plate, when target member is stair, the reinforcing bar of stair needs and building Bottom plate and wall connecting, therefore, the datum level of stair is side vertical and horizontal face, i.e., connect with the wall of building and bottom plate Face.

S25: utilizing datum level and steel bar arrangement standard, obtains reinforcing bar and is laid with direction.

Specifically, according to the requirement of steel bar arrangement standard, can determine the laying direction of reinforcing bar i.e. after determining datum level Reinforcing bar is laid with direction, for example, target member is wall, the reinforcing bar type of required generation is principal rod, then according to steel bar arrangement standard, It is vertically to be laid with datum level, longitudinal direction that reinforcing bar, which is laid with direction, and when target member is stair, the reinforcing bar of principal rod is laid with direction and hangs down Directly and datum level, it is laid with for horizontal direction, when reinforcing bar becomes non-stress muscle, target member is wall, according to steel bar arrangement standard, It can be to be parallel to datum level that reinforcing bar, which is laid with direction, and horizontal direction is laid with.

Wherein, steel bar arrangement standard is the rebar standards that user pre-generates, wherein having recorded the use of different component type Reinforcing bar type and reinforcing bar how to be distributed etc. the rule of steel bar arrangement and therefore utilize the cooperation of steel bar arrangement standard, target member Correlation attribute information can automatically generate the reinforcing bar in target member.

S26: utilizing steel bar arrangement standard, removes the protective layer of the target member in dimension information, obtains target member It is laid with dimension information.

Specifically, since reinforcing bar is generated in component inside, it is impossible to it is exposed to member exterior, therefore, when reinforcing bar is arranged, Protective layer will be reserved to each component, generate reinforcing bar in the protective layer of component, protection reinforcing bar will not expose to outside component, And when generating reinforcing bar to target member, then need to remove the dimension information of preset protective layer, example using steel bar arrangement standard Such as, protective layer is having a size of 2cm thickness, to ensure that reinforcing bar is not when reinforcing bar is arranged using the laying dimension information of obtained target member It can be exposed.

Wherein, it is laid with the practical use of target member that the dimension information that dimension information is target member removes preset protective layer In the size for being laid with reinforcing bar, for example, with reference to shown in Fig. 4, the dimension information of component 6 includes long 50cm, wide 20cm, protective layer 5 Having a size of 2cm thickness, after the size of protective layer 5 for removing surrounding, then the laying dimension information 7 of component 6 is long 46cm, wide 16cm.

S26: using datum level, it is laid with dimension information and preset principal rod setting spacing, the reinforcing bar for obtaining principal rod is fallen Pin point information.

Specifically, spacing, target structure is arranged using preset principal rod corresponding with target member in steel bar arrangement standard The datum level of part and the laying dimension information of target member can obtain the reinforcing bar foothold information of principal rod, for example, principal rod Reinforcing bar foothold can be set and be uniformly distributed on the wide middle line of datum level, for example, with reference to shown in Fig. 5, the benchmark of component A length of 300cm of the laying dimension information 7 in face, the reinforcing bar foothold 1 of width 50cm, principal rod can be set in width 25cm's On middle line, one reinforcing bar foothold 1 is set at interval of 100cm, 4 reinforcing bar footholds 1 are set altogether, certain foundation practical application needs Ask, reinforcing bar foothold 1 multiple rows of can be arranged, spacing and quantity etc. can sets itself, it is not limited here.

It should be noted that being laid in dimension information the length and width for including target member and high i.e. three-dimensional dimension information.

S27: using the attribute information for being laid with dimension information, reinforcing bar laying direction and adjacent members, the steel of principal rod is obtained Muscle dimension information.

Specifically, being laid with direction can determine that if reinforcing bar extends target member out whether can be with adjacent members phase using reinforcing bar Even, it can then learn whether the reinforcing bar of target member needs to connect with adjacent members using the attribute information of adjacent members, in turn The laying dimension information of combining target component obtains the rebar sizes information of principal rod.

S28: reinforcing bar foothold information and rebar sizes information are utilized, corresponding reinforcing bar is generated in target member.

Specifically, finally the phase in target member can be automatically generated using reinforcing bar foothold information and rebar sizes information The reinforcing bar answered.

The embodiment of the invention discloses stirrup model generating methods in also a kind of specific component, implement relative to upper one Example, the present embodiment have made further instruction and optimization to technical solution.It is specific:

Specifically, the principal rod in main stirrup is divided into multiple groups stirrup according to preset secondary stirrup layout rules by above-mentioned S16 The process of group, may include S161 and S162；Wherein,

S161: by reinforcing bar foothold information, two longitudinally opposed reinforcing bar footholds are divided into one group of reinforcing bar pair.

Specifically, the foothold of principal rod is usually at the form of two rows of multiple rows, by two longitudinally opposed reinforcing bar footholds It is divided into one group of reinforcing bar pair, so as to subsequent conclusion division.

S162: according to preset secondary stirrup layout rules, successively multiple reinforcing bars are obtained more to one group of stirrup group is set as Group stirrup group.

Specifically, every group of stirrup group may include multiple successively adjacent reinforcing bars pair, according to institute in time stirrup layout rules The one group of stirrup group reinforcing bar that includes recorded is configured quantity, for example, share 4 pairs of reinforcing bars pair, including successively adjacent the One reinforcing bar to, the second reinforcing bar to, third reinforcing bar to and the 4th reinforcing bar pair, can will be successively adjacent according to time stirrup layout rules Two reinforcing bars are to one group of stirrup group is set as, and the reinforcing bar for including between each stirrup group is to being all different, then the first stirrup group includes First reinforcing bar to and the second reinforcing bar pair, the second stirrup group include third reinforcing bar to and the 4th reinforcing bar pair, different stirrup groups include Reinforcing bar is to may be different, for example, share 11 pairs of reinforcing bars pair, is followed successively by the first reinforcing bar to the 11st reinforcing bar pair, according to time stirrup Layout rules can be set 3 groups include 3 reinforcing bars pair stirrup group and one group include two reinforcing bars pair stirrup group.

Specifically, above-mentioned S17 is using time stirrup layout rules, multiple groups stirrup group, principal rod dimension information and is laid with direction, The process for generating the secondary stirrup model in target member model, can specifically include S171 to S173；Wherein,

S171: it using the reinforcing bar foothold of every group of stirrup group, obtains reinforcing bar foothold in every group of stirrup group and surrounds area most Big is secondary close-shaped；

S172: using the secondary close-shaped perimeter of every group of stirrup group, the perimeter of the secondary stirrup of every group of stirrup group is obtained；

S173: spacing, principal rod dimension information are laid using the perimeter of the secondary stirrup of every group of stirrup group, preset secondary stirrup With laying direction, the secondary stirrup model in target member model is generated.

Specifically, after completing grouping, the stirrup model generating method of every group of stirrup group and the generation method class of main stirrup Seemingly, using area it is maximum it is time close-shaped principal rods whole in stirrup group are wrapped, as secondary stirrup perimeter generation according to According to finally the secondary stirrup respectively to every group of stirrup group according to secondary stirrup layout rules record lays spacing along the stress of target member The laying direction of muscle is laid spacing at interval of preset secondary stirrup and is arranged, until energy documented in principal rod dimension information The maximum distance being enough laid with generates the secondary stirrup of every group of stirrup group, finally obtains the secondary stirrup mould in entire target member model Type.

Specifically, after generating the reinforcing bar in target member, it, can also be to mesh for the information convenient for being shown to user's reinforcing bar Reinforcing bar in mark component is numbered, classifies and names, and obtains the reinforcing bar information of target member；And reinforcing bar information is saved to mesh In the attribute information for marking component；So that user just can learn the specifying information of reinforcing bar by target member model.

Further, for that can also store reinforcing bar information to reinforcing bar information database convenient for whole management, for unified Inquiry, whole reinforcing bar informations of whole building are quickly obtained convenient for user.

Further, after above-mentioned S5 generates the main stirrup model in target member model, further including can be with S31 to S32； Wherein,

S31: pre-stored project blue print is utilized, judges whether target member there are the adjacent members being connected.

Specifically, for there may be being connected, and the reinforcing bar of connected component to be also required to be attached between component, therefore, Need to judge whether target member there are the adjacent members being connected, to carry out different processing；Certainly, do not have to again if not connected Carry out subsequent processing.

S32: if it is, using the horizontal bar of the horizontal member of horizontal direction as the stirrup of the vertical member of vertical direction Wrap up the principal rod of the component of vertical direction.

It, will be in vertical member in interlaced area if the reinforcing bar of two components is interlaced specifically, shown in Figure 4 The stirrup Chong Die with the horizontal bar of horizontal member all remove, the horizontal bar of horizontal member is carried out to extend package vertical member Principal rod, instead of the stirrup of former vertical member；If the reinforcing bar of component does not differ certain distance staggeredly temporarily, extend horizontal structure The horizontal bar of part and/or the principal rod of vertical member and stirrup, keep the reinforcing bar of two components interlaced, then will installation after relative to The stirrup Chong Die with the horizontal bar of horizontal member in the vertical vertical member of horizontal plane in interlaced area all removes, by level side To horizontal member horizontal bar carry out extend package vertical direction vertical member principal rod, instead of former vertical direction hang down The stirrup of straight component.Wherein it is possible to by judging whether the axis of stirrup and the difference in height of the axis of horizontal bar are less than stirrup It is whether be overlapped with stirrup to carry out determined level muscle for the sum of radius and the radius of horizontal bar；If the axis of stirrup and the axis of horizontal bar The difference in height of line is less than the sum of radius and radius of horizontal bar of stirrup, then proves that horizontal bar is overlapped with stirrup, if it is not, It then proves not to be overlapped staggeredly, does not have to removal stirrup, horizontal bar does not have to the principal rod of package vertical member.

Wherein, horizontal member be based on the position after installation with respect to the horizontal plane, meanwhile, target member is equal with adjacent members It may respectively be horizontal member and vertical member, that is, target member can may be vertical member, adjacent members for horizontal member Similarly, horizontal member can be floor, and vertical member can be support column.

It should be noted that in the embodiment of the present invention, the size of stirrup itself, such as radius, in preset secondary stirrup cloth It sets in rule and lacing wire layout rules and sets.

Correspondingly, the embodiment of the invention also discloses stirrup models in a kind of component to generate system, built applied to assembled Build field, comprising:

Model obtains module 11, for obtaining the target member model of target member；

Principal rod data obtaining module 12 therefrom obtains the target member for utilizing the target member model Reinforcing bar foothold information, principal rod dimension information and the laying direction of principal rod；

Area calculates module 13, for utilizing the reinforcing bar foothold information, obtains reinforcing bar in the target member and stops over It is close-shaped that point surrounds the maximum master of area；

Circumference calculating module 14 obtains the perimeter of main stirrup for the perimeter close-shaped using the master；

Stirrup generation module 15 lays spacing, the principal rod ruler for perimeter, the preset main stirrup using main stirrup Very little information and the laying direction generate the main stirrup model in the target member model；

Stirrup grouping module 16 is used for according to preset secondary stirrup layout rules corresponding with the target member, by institute It states the principal rod in main stirrup and is divided into multiple groups stirrup group；

Secondary stirrup generation module 17, for utilizing the secondary stirrup layout rules, multiple groups stirrup group, the principal rod size Information and the laying direction generate the secondary stirrup model in the target member model；

Lacing wire judgment module 18, for judging whether there is ungrouped principal rod in the main stirrup, if so, using with institute It states the corresponding preset lacing wire layout rules of target member and ungrouped principal rod is divided into lacing wire group；

Lacing wire generation module 19, for utilizing the lacing wire layout rules, the lacing wire group, the principal rod dimension information With the laying direction, the lacing wire model in the target member model is generated.

Specifically, above-mentioned stirrup grouping module 16, including reinforcing bar grouped element and stirrup grouped element；Wherein,

Reinforcing bar grouped element, for by the reinforcing bar foothold information, two longitudinally opposed reinforcing bar footholds to be divided into One group of reinforcing bar pair；

Stirrup grouped element, for according to preset secondary stirrup layout rules, successively by multiple reinforcing bars to being set as one group Stirrup group obtains multiple groups stirrup group, wherein every group of stirrup group includes multiple successively adjacent reinforcing bars pair.

Specifically, above-mentioned secondary stirrup generation module 17, including secondary area projected unit, secondary stirrup perimeter generation unit and secondary Stirrup generation unit；

Secondary area projected unit obtains reinforcing bar in every group of stirrup group and falls for the reinforcing bar foothold using every group of stirrup group It is maximum secondary close-shaped that pin point surrounds area；

Secondary stirrup perimeter generation unit obtains every group of stirrup for the secondary close-shaped perimeter using every group of stirrup group The perimeter of the secondary stirrup of group；

Secondary stirrup generation unit, for the perimeter of secondary stirrup using every group of stirrup group, preset secondary stirrup laying spacing, The principal rod dimension information and the laying direction generate the secondary stirrup model in the target member model.

Specifically, can also include mark module and attribute preserving module；Wherein,

Mark module obtains the reinforcing bar of target member for the reinforcing bar in target member to be numbered, classifies and named Information；

Attribute preserving module, for saving reinforcing bar information into the attribute information of target member.

Specifically, can also include database module；Wherein,

Database module, for storing reinforcing bar information to reinforcing bar information database, for inquiry.

It further, can also include adjacent members judgment module and reinforcing bar Fusion Module；Wherein,

Adjacent members judgment module judges whether the target member has for utilizing pre-stored project blue print The adjacent members being connected；

Reinforcing bar Fusion Module has the adjacent structure being connected for stating target member when adjacent members judgment module judgement Part, then using the horizontal bar of the water bottle component of horizontal direction as the vertical member of vertical direction stirrup package vertical member by Power muscle；

Wherein, the relative direction of horizontal member and vertical member is based on the position after installation with respect to the horizontal plane, the mesh Mark component and adjacent members may respectively be horizontal member and vertical member.

In addition, it is applied to assembled architecture field the embodiment of the invention also discloses stirrup generating means in a kind of component, Include:

Memory, for storing computer program；

Processor realizes stirrup model generating method in component as the aforementioned for executing computer program.

In addition, it is applied to assembled architecture field the embodiment of the invention also discloses a kind of computer readable storage medium, It is stored with computer program on computer readable storage medium, component as the aforementioned is realized when computer program is executed by processor Interior stirrup model generating method.

Finally, it is to be noted that, herein, relational terms such as first and second and the like be used merely to by One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant meaning Covering non-exclusive inclusion, so that the process, method, article or equipment for including a series of elements not only includes that A little elements, but also including other elements that are not explicitly listed, or further include for this process, method, article or The intrinsic element of equipment.In the absence of more restrictions, the element limited by sentence "including a ...", is not arranged Except there is also other identical elements in the process, method, article or apparatus that includes the element.

Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These Function is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Profession Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered Think beyond the scope of this invention.

Above to stirrup model generating method in a kind of component provided by the present invention, system, device and computer-readable Storage medium is described in detail, and specific case used herein explains the principle of the present invention and embodiment It states, the above description of the embodiment is only used to help understand the method for the present invention and its core ideas；Meanwhile for this field Those skilled in the art, according to the thought of the present invention, there will be changes in the specific implementation manner and application range, to sum up institute It states, the contents of this specification are not to be construed as limiting the invention.

Claims (10)

1. stirrup model generating method in a kind of component, which is characterized in that be applied to assembled architecture field, comprising:

Obtain the target member model of target member；

Using the target member model, reinforcing bar foothold information, the principal rod of the principal rod of the target member are therefrom obtained Dimension information and laying direction；

Using the reinforcing bar foothold information, obtains reinforcing bar foothold in the target member and surround the maximum main closed of area Shape；

Using the close-shaped perimeter of the master, the perimeter of main stirrup is obtained；

Spacing, the principal rod dimension information and the laying direction are laid using the perimeter of main stirrup, preset main stirrup, it is raw At the main stirrup model in the target member model；

According to preset secondary stirrup layout rules corresponding with the target member, the principal rod in the main stirrup is divided into more Group stirrup group；

Using the secondary stirrup layout rules, multiple groups stirrup group, the principal rod dimension information and the laying direction, institute is generated State the secondary stirrup model in target member model；

Judge whether there is ungrouped principal rod in the main stirrup, if so, using corresponding with the target member preset Ungrouped principal rod is divided into lacing wire group by lacing wire layout rules；

Using the lacing wire layout rules, the lacing wire group, the principal rod dimension information and the laying direction, described in generation Lacing wire model in target member model.

2. stirrup model generating method according to claim 1, which is characterized in that described to be arranged according to preset secondary stirrup Principal rod in the main stirrup is divided into the process of multiple groups stirrup group by rule, comprising:

By in the reinforcing bar foothold information, two longitudinally opposed reinforcing bar footholds are divided into one group of reinforcing bar pair；

According to preset secondary stirrup layout rules, multiple reinforcing bars are successively obtained into multiple groups stirrup group to one group of stirrup group is set as, Wherein, every group of stirrup group includes multiple successively adjacent reinforcing bars pair.

3. stirrup model generating method according to claim 2, which is characterized in that described to utilize the secondary stirrup arrangement rule Then, multiple groups stirrup group, the principal rod dimension information and the laying direction, generate the secondary stirrup in the target member model The process of model, comprising:

Using the reinforcing bar foothold of every group of stirrup group, obtains reinforcing bar foothold in every group of stirrup group and surround maximum closure of area Shape；

Using the secondary close-shaped perimeter of every group of stirrup group, the perimeter of the secondary stirrup of every group of stirrup group is obtained；

Spacing, the principal rod dimension information and institute are laid using the perimeter of the secondary stirrup of every group of stirrup group, preset secondary stirrup It states and is laid with direction, generate the secondary stirrup model in the target member model.

4. stirrup model generating method in component according to claim 1, which is characterized in that further include:

Reinforcing bar in the target member is numbered, classified and named, the reinforcing bar information of the target member is obtained；

The reinforcing bar information is saved into the attribute information of the target member.

5. stirrup model generating method in component according to claim 2, which is characterized in that further include:

The reinforcing bar information is stored to reinforcing bar information database, for inquiry.

6. stirrup model generating method in component according to any one of claims 1 to 5, which is characterized in that described in generation After main stirrup model, secondary stirrup and lacing wire in target member model, further includes:

Using pre-stored project blue print, judge whether the target member there are the adjacent members being connected；

If it is, being wrapped up using the horizontal bar of the horizontal member of horizontal direction as the stirrup of the vertical member of vertical direction vertical The principal rod of component；

Wherein, the relative direction of horizontal member and vertical member is based on the position after installation with respect to the horizontal plane, the target structure Part and adjacent members may respectively be horizontal member and vertical member.

7. stirrup model generates system in a kind of component, which is characterized in that be applied to assembled architecture field, comprising:

Model obtains module, for obtaining the target member model of target member；

Principal rod data obtaining module therefrom obtains the principal rod of the target member for utilizing the target member model Reinforcing bar foothold information, principal rod dimension information and be laid with direction；

Area calculates module, for utilizing the reinforcing bar foothold information, obtains reinforcing bar foothold in the target member and surrounds The maximum master of area is close-shaped；

Circumference calculating module obtains the perimeter of main stirrup for the perimeter close-shaped using the master；

Stirrup generation module lays spacing, the principal rod dimension information for perimeter, the preset main stirrup using main stirrup With the laying direction, the main stirrup model in the target member model is generated；

Stirrup grouping module is used for according to preset secondary stirrup layout rules corresponding with the target member, by the main hoop Principal rod in muscle is divided into multiple groups stirrup group；

Secondary stirrup generation module, for using the secondary stirrup layout rules, multiple groups stirrup group, the principal rod dimension information and The laying direction generates the secondary stirrup model in the target member model；

Lacing wire judgment module, for judging whether there is ungrouped principal rod in the main stirrup, if so, using with the target Ungrouped principal rod is divided into lacing wire group by the corresponding preset lacing wire layout rules of component；

Lacing wire generation module, for utilizing the lacing wire layout rules, the lacing wire group, the principal rod dimension information and described It is laid with direction, generates the lacing wire model in the target member model.

8. stirrup model generates system in component according to claim 7, which is characterized in that further include:

It is connected to judge whether the target member has for utilizing pre-stored project blue print for adjacent members judgment module The adjacent members connect；

Reinforcing bar Fusion Module has the adjacent members being connected for stating target member when adjacent members judgment module judgement, Then using the horizontal bar of the water bottle component of horizontal direction as the stress of the stirrup of the vertical member of vertical direction package vertical member Muscle；

Wherein, the relative direction of horizontal member and vertical member is based on the position after installation with respect to the horizontal plane, the target structure Part and adjacent members may respectively be horizontal member and vertical member.

9. stirrup generating means in a kind of component, which is characterized in that be applied to assembled architecture field, comprising:

Memory, for storing computer program；

Processor, for executing the computer program to realize that right such as will remove stirrup mould in 1 to 6 described in any item components Type generation method.

10. a kind of computer readable storage medium, which is characterized in that it is applied to assembled architecture field, it is described computer-readable It is stored with computer program on storage medium, is realized when the computer program is executed by processor as claim 1 to 6 is any Stirrup model generating method in component described in.