CN107464281A - A kind of power tower model building method and device - Google Patents
A kind of power tower model building method and device Download PDFInfo
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- CN107464281A CN107464281A CN201710657539.8A CN201710657539A CN107464281A CN 107464281 A CN107464281 A CN 107464281A CN 201710657539 A CN201710657539 A CN 201710657539A CN 107464281 A CN107464281 A CN 107464281A
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Abstract
The invention provides a kind of power tower model building method and device, this method to include:Parameter information is built in reception, and the parameter information of building includes tower material parameter, tower leg parameter, tower body parameter and tower head parameter;Tower leg model, tower body model and tower head model are generated according to tower material parameter, tower leg parameter, tower body parameter and tower head parameter;Structure includes the power tower model of tower leg model, tower body model and tower head model.Based on method disclosed by the invention, using the structure of power tower as according to automatic structure power tower model, the manual setting-out of developer can be avoided, so as to when required power tower model is numerous, effectively reduce developer's workload.
Description
Technical field
The present invention relates to electric power tower bar digital modeling field, more specifically to a kind of power tower model building method
And device.
Background technology
Today's society electrical power transmission system is the important leverage of national normal production and living.Long range electric line is main
Using high pressure and super-pressure overhead transmission line, therefore, exploitation power circuit GIS (geographic information system)
System has become current research emphasis.
, it is necessary to substantial amounts of different brackets, the wine glass-shaped power tower mould of model during power circuit generalized information system is developed
Type, and these power tower models are presently mainly the manual setting-out in three-dimensional software by developer, therefore in required power tower
When model is numerous, huge quantities can be brought to developer.
The content of the invention
In view of this, the present invention provides a kind of power tower model building method and device, to solve in required power tower mould
When type is numerous, the problem of the quantities that manual setting-out can be huge to developer in three-dimensional software.Technical scheme is as follows:
A kind of power tower model building method, including:
Parameter information is built in reception, and the parameter information of building includes tower material parameter, tower leg parameter, tower body parameter and tower
Head parameter;
According to the tower material parameter, the tower leg parameter, the tower body parameter and the tower head parameter generate tower leg model,
Tower body model and tower head model;
Structure includes the power tower model of the tower leg model, the tower body model and the tower head model.
Preferably, it is described according to the tower material parameter, the tower leg parameter, the tower body parameter and the tower head parameter according to
Secondary generation tower leg model, tower body model and tower head model, including:
Tower leg height in main material width and auxiliary material width and the tower leg parameter in the tower material parameter, tower
Leg aperture and tower leg hop count, generate tower leg model;
Width under tower body is determined according to the tower leg model, and according in width, the tower material parameter under the tower body
Width, tower body height and tower body hop count, generate tower body on tower body in main material width and auxiliary material width and the tower body parameter
Model;
Width under tower head is determined according to the tower body model, and according in width, the tower material parameter under the tower head
Main material width and auxiliary material width and lower bent lever subparameter in the tower head parameter, on crank arm subparameter, cross-arm subparameter and
Ground wire goat's horn subparameter, generate tower head model.
Preferably, in the main material width and auxiliary material width in the tower material parameter and the tower leg parameter
Tower leg height, tower leg aperture and tower leg hop count, tower leg model is generated, including:
Tower leg aperture and tower leg in the tower leg parameter highly determine multiple tower leg end points;
Multiple tower leg main material nodes are determined according to the multiple tower leg end points;
According to the main material width in the tower material parameter, a plurality of tower leg main is filled between the multiple tower leg main material node
Material line;
According to the auxiliary material width in the tower leg hop count in the tower leg parameter and the tower material parameter, in a plurality of tower leg
A plurality of tower leg auxiliary material line is filled between main material line;
Tower leg model is generated, the tower leg model is by a plurality of tower leg main material line and a plurality of tower leg auxiliary material line structure
Into.
Preferably, the main material width and auxiliary material width according in width, the tower material parameter under the tower body and
Width, tower body height and tower body hop count, generate tower body model on tower body in the tower body parameter, including:
Multiple towers are highly determined according to width and tower body on width under the tower body and the tower body in the tower body parameter
Body end points;
Multiple tower body main material nodes are determined according to the multiple tower body end points;
According to the main material width in the tower material parameter, a plurality of tower body master is filled between the multiple tower body main material node
Material line;
According to the auxiliary material width in the tower body hop count in the tower body parameter and the tower material parameter, in a plurality of tower body
A plurality of tower body auxiliary material line is filled between main material line;
Tower body model is generated, the tower body model is by a plurality of tower body main material line and a plurality of tower body auxiliary material line structure
Into.
Preferably, the main material width and auxiliary material width according in width, the tower material parameter under the tower head and
Lower bent lever subparameter in the tower head parameter, on crank arm subparameter, cross-arm subparameter and ground wire goat's horn subparameter, generate tower head
Model, including:
Main material width and auxiliary material width and the tower head parameter in width, the tower material parameter under the tower head
In lower bent lever subparameter, generate lower bent lever submodel, the lower bent lever subparameter include lower bent lever height, lower bent lever hop count,
Lower bent lever top long value and lower bent lever top width value;
According to the lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and according to bottom of cranking arm on described is long, institute
State in bottom width of cranking arm, the main material width in the tower material parameter and auxiliary material width and the tower head parameter on crank arm sub- ginseng
Number, submodel of cranking arm in generation, it is described on crank arm subparameter include above cranking arm height, on crank arm hop count, rim of a cup length and upper song
Arm lengths;
Cross-arm basic point is determined according to submodel of cranking arm on described, and according in the cross-arm basic point, the tower material parameter
Cross-arm subparameter in main material width and auxiliary material width and the tower head parameter, generate cross-arm submodel, the cross-arm ginseng
Number include length under cross-arm, width under cross-arm, length on cross-arm, on cross-arm in width, cross-arm height, cross-arm highly and cross-arm section
Number;
Ground wire goat's horn basic point is determined according to the cross-arm submodel, and joined according to the ground wire goat's horn basic point, the tower material
Ground wire goat's horn subparameter in main material width and auxiliary material width and the tower head parameter in number, ground wire goat's horn submodel is generated,
The ground wire goat's horn subparameter includes two places line width, ground wire top width degree, ground wire height and ground wire hop count;
Structure comprising the lower bent lever submodel, it is described on crank arm submodel, the cross-arm submodel and the ground wire sheep
The tower head model of silver coin model.
A kind of power tower model construction device, including:Parameter receiving module, model generation module and model construction module;
The parameter receiving module, parameter information is built for receiving, the parameter information of building includes tower material parameter, tower
Leg parameter, tower body parameter and tower head parameter;
The model generation module, for according to the tower material parameter, the tower leg parameter, the tower body parameter and described
Tower head parameter generation tower leg model, tower body model and tower head model;
The model construction module, the tower leg model, the tower body model and the tower head model are included for building
Power tower model.
Preferably, the model generation module, including:Tower leg model generation unit, tower body model generation unit and tower head
Model generation unit;
The tower leg model generation unit, for the main material width in the tower material parameter and auxiliary material width and institute
Tower leg height, tower leg aperture and the tower leg hop count in tower leg parameter are stated, generates tower leg model;
The tower body model generation unit, for determining width under tower body according to the tower leg model, and according to the tower
Width, tower on tower body under body in width, the main material width in the tower material parameter and auxiliary material width and the tower body parameter
Height degree and tower body hop count, generate tower body model;
The tower head model generation unit, for determining width under tower head according to the tower body model, and according to the tower
Head lower width, the main material width in the tower material parameter and auxiliary material width and lower bent lever subparameter in the tower head parameter,
On crank arm subparameter, cross-arm subparameter and ground wire goat's horn subparameter, generate tower head model.
Preferably, the tower leg model generation unit, is specifically used for:
Tower leg aperture and tower leg in the tower leg parameter highly determine multiple tower leg end points;According to the multiple tower
Leg end points determines multiple tower leg main material nodes;According to the main material width in the tower material parameter, in the multiple tower leg main material section
A plurality of tower leg main material line is filled between point;It is wide according to the auxiliary material in the tower leg hop count in the tower leg parameter and the tower material parameter
Degree, a plurality of tower leg auxiliary material line is filled between a plurality of tower leg main material line;Tower leg model is generated, the tower leg model is by described
A plurality of tower leg main material line and a plurality of tower leg auxiliary material line are formed.
Preferably, the tower body model generation unit, is specifically used for:
Multiple towers are highly determined according to width and tower body on width under the tower body and the tower body in the tower body parameter
Body end points;Multiple tower body main material nodes are determined according to the multiple tower body end points;According to the main material width in the tower material parameter,
A plurality of tower body main material line is filled between the multiple tower body main material node;According to the tower body hop count in the tower body parameter and institute
The auxiliary material width in tower material parameter is stated, a plurality of tower body auxiliary material line is filled between a plurality of tower body main material line;Generate tower body mould
Type, the tower body model are made up of a plurality of tower body main material line and a plurality of tower body auxiliary material line.
Preferably, the tower head model generation unit, is specifically used for:
Main material width and auxiliary material width and the tower head parameter in width, the tower material parameter under the tower head
In lower bent lever subparameter, generate lower bent lever submodel, the lower bent lever subparameter include lower bent lever height, lower bent lever hop count,
Lower bent lever top long value and lower bent lever top width value;According to the lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and root
According to bottom of cranking arm on described it is long, it is described on the main material width and auxiliary material width and the tower cranked arm in bottom width, the tower material parameter
Cranked arm subparameter in head parameter, submodel of being cranked arm in generation, it is described on crank arm subparameter include above cranking arm height, on crank arm
Hop count, rim of a cup length and on crank arm length;Cross-arm basic point is determined according to submodel of cranking arm on described, and according to the cross-arm base
Cross-arm subparameter in point, the main material width in the tower material parameter and auxiliary material width and the tower head parameter, generate cross-arm
Submodel, the cross-arm subparameter includes under cross-arm width under length, cross-arm, length on cross-arm, width, cross-arm are high on cross-arm
Height and cross-arm hop count in degree, cross-arm;Ground wire goat's horn basic point is determined according to the cross-arm submodel, and according to the ground wire goat's horn
Ground wire goat's horn subparameter in basic point, the main material width in the tower material parameter and auxiliary material width and the tower head parameter, generation
Ground wire goat's horn submodel, the ground wire goat's horn subparameter include two places line width, ground wire top width degree, ground wire height and ground line segment
Number;Structure comprising the lower bent lever submodel, it is described on crank arm submodel, the cross-arm submodel and the ground wire goat's horn submodule
The tower head model of type.
Compared to prior art, what the present invention realized has the beneficial effect that:
A kind of power tower model building method provided by the invention and device, this method can be built according to what is received above
Parameter information generation tower leg model, tower body model and tower head model, further, structure include tower leg model, tower body model and
The power tower model of tower head model.Based on method disclosed by the invention, using the structure of power tower as according to automatic structure power tower
Model, the manual setting-out of developer can be avoided, so as to when required power tower model is numerous, effectively reduce developer's work
Amount.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
The embodiment of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis
The accompanying drawing of offer obtains other accompanying drawings.
Fig. 1 is the method flow diagram for the power tower model building method that the present invention implements offer;
Fig. 2 is the Part Methods flow chart for the power tower model building method that the present invention implements offer;
Fig. 3 is the another Part Methods flow chart for the power tower model building method that the present invention implements offer;
Fig. 4 is the another Part Methods flow chart for the power tower model building method that the present invention implements offer;
Fig. 5 is the another Part Methods flow chart for the power tower model building method that the present invention implements offer;
Fig. 6 is the structural representation for the power tower model construction device that the present invention implements offer;
Fig. 7 is the part-structure schematic diagram for the power tower model construction device that the present invention implements offer.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made
Embodiment, belong to the scope of protection of the invention.
The embodiment of the present invention discloses a kind of power tower model building method, and the method flow diagram of this method is as shown in figure 1, bag
Include following steps:
Parameter information is built in S10, reception, it is described build parameter information include tower material parameter, tower leg parameter, tower body parameter with
And tower head parameter;
During step S10 is performed, because the power tower model employed in big multi-line is wine glass-shaped, therefore,
According to the structure of wine glass-shaped power tower, power tower model is divided into tower leg, tower body and tower head three parts.
In actual application, the secondary development that script can be carried out to 3dMAX is realized, builds parameter information input master
Interface is preferable, may be configured as float type, specifically builds the numerical value of parameter and can be adjusted using micro actuator.
S20, tower leg model, tower body model and tower are generated according to tower material parameter, tower leg parameter, tower body parameter and tower head parameter
Head model;
During specific implementation, " given birth in step S20 according to tower material parameter, tower leg parameter, tower body parameter and tower head parameter
Into tower leg model, tower body model and tower head model " it can specifically use following steps, method flow diagram is as shown in Figure 2:
S201, the tower leg height in the main material width and auxiliary material width and tower leg parameter in tower material parameter, tower leg
Aperture and tower leg hop count, generate tower leg model;
, can be according to tower leg height, tower leg aperture and the tower leg hop count in tower leg parameter during step S201 is performed
Tower leg main frame is determined, further, tower material is carried out to tower leg main frame with reference to the main material width in tower material parameter and auxiliary material width
Filling, obtains tower leg model.
During specific implementation, " main material width and auxiliary material width and tower in tower material parameter in step S201
Tower leg height, tower leg aperture and tower leg hop count in leg parameter, generation tower leg model " can specifically use following steps, method
Flow chart is as shown in Figure 3:
S2001, tower leg aperture and tower leg in tower leg parameter highly determine multiple tower leg end points;
S2002, multiple tower leg main material nodes are determined according to multiple tower leg end points;
S2003, according to the main material width in tower material parameter, a plurality of tower leg main material is filled between multiple tower leg main material nodes
Line;
S2004, according to the auxiliary material width in the tower leg hop count in tower leg parameter and tower material parameter, in a plurality of tower leg main material line
Between fill a plurality of tower leg auxiliary material line;
S2005, generates tower leg model, and the tower leg model is made up of a plurality of tower leg main material line and a plurality of tower leg auxiliary material line.
S202, width under tower body is determined according to tower leg model, and according to the main material width in width, tower material parameter under tower body
With width, tower body height and tower body hop count on the tower body in auxiliary material width and tower body parameter, tower body model is generated;
During step S202 is performed, the lower width of tower body is determined according to tower leg model first, that is, determines tower
The structure basic point of body, tower body main frame is determined then in conjunction with width, tower body height and tower body hop count on the tower body in tower body parameter,
Further, tower material filling is carried out to tower body main frame with reference to the main material width in tower material parameter and auxiliary material width, obtains tower body mould
Type.
During specific implementation, " according to width, the main material width in tower material parameter and auxiliary material under tower body in step S202
Width on tower body in width and tower body parameter, tower body height and tower body hop count, generation tower body model " can specifically use with
Lower step, method flow diagram are as shown in Figure 4:
S2006, multiple tower bodies are highly determined according to width and tower body on width under tower body and the tower body in tower body parameter
End points;
S2007, multiple tower body main material nodes are determined according to multiple tower body end points;
S2008, according to the main material width in tower material parameter, a plurality of tower body main material is filled between multiple tower body main material nodes
Line;
S2009, according to the auxiliary material width in the tower body hop count in tower body parameter and tower material parameter, in a plurality of tower body main material line
Between fill a plurality of tower body auxiliary material line;
S2010, generates tower body model, and the tower body model is made up of a plurality of tower body main material line and a plurality of tower body auxiliary material line.
S203, width under tower head is determined according to tower body model, and according to the main material width in width, tower material parameter under tower head
With the lower bent lever subparameter in auxiliary material width and tower head parameter, on crank arm subparameter, cross-arm subparameter and ground wire goat's horn ginseng
Number, generate tower head model;
During step S203 is performed, width under tower head is determined according to tower body model first, that is, determine tower head
Structure basic point, lower bent lever main frame is determined then in conjunction with the lower bent lever parameter in tower head parameter, further, with reference to tower material parameter
In main material width and auxiliary material width to lower bent lever main frame carry out tower material filling, obtain lower bent lever submodel;Similarly, give birth to successively
Into submodel of above cranking arm, cross-arm submodel and ground wire goat's horn submodel, finally, generation include above-mentioned lower bent lever submodel, on
Crank arm the tower head model of submodel, cross-arm submodel and ground wire goat's horn submodel.
During specific implementation, " according to width, the main material width in tower material parameter and auxiliary material under tower head in step S203
Lower bent lever subparameter in width and tower head parameter, on crank arm subparameter, cross-arm subparameter and ground wire goat's horn subparameter, generation
Tower head model " can specifically use following steps, and method flow diagram is as shown in Figure 5:
S2011, in the main material width and auxiliary material width and tower head parameter in width, tower material parameter under tower head under
Crank arm subparameter, generate lower bent lever submodel, the lower bent lever subparameter includes lower bent lever height, lower bent lever hop count, lower bent lever
Push up long value and lower bent lever top width value;
During step S2011 is performed, first, width under tower head is defined as lower bent lever bottom width degree;Then, according to
Lower bent lever height, lower bent lever top long value and lower bent lever top width value in lower bent lever bottom width degree and lower bent lever subparameter determine multiple
Lower bent lever end points, and determine multiple lower bent lever main material nodes according to multiple lower bent lever end points;Further, according in tower material parameter
Main material width, a plurality of lower bent lever main material line is filled between multiple lower bent lever main material nodes;Further, according to lower bent lever
The auxiliary material width in lower bent lever hop count and tower material parameter in parameter, a plurality of lower bent lever is filled between a plurality of lower bent lever main material line
Auxiliary material line;Finally, lower bent lever submodel is generated, the lower bent lever submodel is auxiliary by a plurality of lower bent lever main material line and a plurality of lower bent lever
Material line is formed.
S2012, according to lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and according to bottom of above cranking arm is long, upper song
Crank arm in arm bottom width, the main material width in tower material parameter and auxiliary material width and tower head parameter subparameter, cranked arm in generation
Submodel, it is described on crank arm subparameter include above cranking arm height, on crank arm hop count, rim of a cup length and on crank arm length;
During step S2012 is performed, first according to lower bent lever bottom is long, lower bent lever bottom width and on crank arm sub- ginseng
Cranked arm in number height, rim of a cup length and on length of cranking arm determine end points of being cranked arm on multiple, and according to end points of cranking arm on multiple
Determine main material node of being cranked arm on multiple;Further, according to the main material width in tower material parameter, main material of being cranked arm on multiple node it
Between fill main material line of being cranked arm on a plurality of;Further, according in crank arm in subparameter of above cranking arm hop count and tower material parameter
Auxiliary material width, fill auxiliary material line of being cranked arm on a plurality of between main material of being cranked arm on a plurality of line;Finally, cranked arm in generation submodel,
Cranked arm on described submodel by crank arm on a plurality of main material line and it is a plurality of on auxiliary material line of cranking arm form.
S2013, cross-arm basic point is determined according to submodel of above cranking arm, and the main material in cross-arm basic point, tower material parameter is wide
Cross-arm subparameter in degree and auxiliary material width and tower head parameter, generates cross-arm submodel, and the cross-arm subparameter includes cross-arm
Width under lower length, cross-arm, length on cross-arm, height and cross-arm hop count in width, cross-arm height, cross-arm on cross-arm;
The process of step S2013 generation cross-arm submodels is generated in lower bent lever submodel and step S2012 with step S2011
Cranked arm in generation submodel implementation procedure it is consistent, the present embodiment repeats no more.
S2014, ground wire goat's horn basic point is determined according to cross-arm submodel, and according in ground wire goat's horn basic point, tower material parameter
Ground wire goat's horn subparameter in main material width and auxiliary material width and tower head parameter, generate ground wire goat's horn submodel, the ground wire sheep
Silver coin parameter includes two places line width, ground wire top width degree, ground wire height and ground wire hop count;
S2015, structure comprising lower bent lever submodel, on crank arm submodel, cross-arm submodel and ground wire goat's horn submodel
Tower head model.
S30, structure include the power tower model of tower leg model, tower body model and tower head model.
Above step S201~step S201 is only step S20 that the embodiment of the present application discloses " according to tower material parameter, tower
One kind of leg parameter, tower body parameter and tower head parameter generation tower leg model, tower body model and tower head model " process is preferable to be realized
Mode, the specific implementation about this process can arbitrarily set according to the demand of oneself, not limit herein.
Above step S2001~step S2005 is only " to be joined in the step S201 that the embodiment of the present application discloses according to tower material
Tower leg height, tower leg aperture and tower leg hop count in main material width and auxiliary material width and tower leg parameter in number, generate tower leg
A kind of preferable implementation of model " process, the specific implementation about this process can arbitrarily be set according to the demand of oneself
Put, do not limit herein.
Above step S2006~step S2010 is only " according to tower leg mould in the step S202 that the embodiment of the present application discloses
Type determines width under tower body, and according to the main material width and auxiliary material width and tower body parameter in width, tower material parameter under tower body
In tower body on width, tower body height and tower body hop count, generation tower body model " process a kind of preferable implementation, it is relevant
The specific implementation of this process can arbitrarily be set according to the demand of oneself, not limited herein.
Above step S2011~step S2015 is only " according under tower head in the step S203 that the embodiment of the present application discloses
Width, the main material width in tower material parameter and the lower bent lever subparameter in auxiliary material width and tower head parameter, on crank arm subparameter,
A kind of preferable implementation of cross-arm subparameter and ground wire goat's horn subparameter, generation tower head model " process, this relevant process
Specific implementation can arbitrarily be set according to the demand of oneself, not limited herein.
Power tower model building method disclosed in the embodiment of the present invention, using the structure of power tower as according to automatic structure electric power
Tower model, the manual setting-out of developer can be avoided, so as to when required power tower model is numerous, effectively reduce developer's work
Amount.
The power tower model building method provided based on above-described embodiment, the embodiment of the present invention, which then corresponds to, provides a kind of perform
The device of above-mentioned power tower model building method, its structural representation as shown in fig. 6, including:Parameter receiving module 10, model life
Into module 20 and model construction module 30;
Parameter receiving module 10, parameter information is built for receiving, the parameter information of building includes tower material parameter, tower leg
Parameter, tower body parameter and tower head parameter;
Model generation module 20, for generating tower leg mould according to tower material parameter, tower leg parameter, tower body parameter and tower head parameter
Type, tower body model and tower head model;
Model construction module 30, for building the power tower model for including tower leg model, tower body model and tower head model.
Optionally, Fig. 7 shows the structural representation of model generation module 20, including:Tower leg model generation unit 201, tower
Body model generation unit 202 and tower head model generation unit 203;
Tower leg model generation unit 201, join for the main material width in tower material parameter and auxiliary material width and tower leg
Tower leg height, tower leg aperture and tower leg hop count in number, generate tower leg model;
Tower body model generation unit 202, for determining width under tower body according to tower leg model, and according to width under tower body,
Width, tower body height and tower body hop count on the tower body in main material width and auxiliary material width and tower body parameter in tower material parameter,
Generate tower body model;
Tower head model generation unit 203, for determining width under tower head according to tower body model, and according to width under tower head,
Main material width and auxiliary material width in tower material parameter and the lower bent lever subparameter in tower head parameter, on crank arm subparameter, cross-arm
Subparameter and ground wire goat's horn subparameter, generate tower head model.
Optionally, tower leg model generation unit 201, is specifically used for:
Tower leg aperture and tower leg in tower leg parameter highly determine multiple tower leg end points;It is true according to multiple tower leg end points
Fixed multiple tower leg main material nodes;According to the main material width in tower material parameter, a plurality of tower is filled between multiple tower leg main material nodes
Leg main material line;According to the auxiliary material width in the tower leg hop count in tower leg parameter and tower material parameter, between a plurality of tower leg main material line
Fill a plurality of tower leg auxiliary material line;Tower leg model is generated, the tower leg model is by a plurality of tower leg main material line and a plurality of tower leg auxiliary material line
Form.
Optionally, tower body model generation unit 202, is specifically used for:
Multiple tower body end points are highly determined according to width and tower body on width under tower body and the tower body in tower body parameter;According to
Multiple tower body main material nodes are determined according to multiple tower body end points;According to the main material width in tower material parameter, in multiple tower body main material sections
A plurality of tower body main material line is filled between point;According to the auxiliary material width in the tower body hop count in tower body parameter and tower material parameter, more
A plurality of tower body auxiliary material line is filled between bar tower body main material line;Tower body model is generated, the tower body model is by a plurality of tower body main material line
Formed with a plurality of tower body auxiliary material line.
Optionally, tower head model generation unit 203, is specifically used for:
Lower bent lever in main material width and auxiliary material width and tower head parameter in width, tower material parameter under tower head
Parameter, generates lower bent lever submodel, and the lower bent lever subparameter includes lower bent lever height, lower bent lever hop count, lower bent lever top long value
With lower bent lever top width value;According to lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and according to bottom of above cranking arm is long, upper song
Crank arm in arm bottom width, the main material width in tower material parameter and auxiliary material width and tower head parameter subparameter, cranked arm in generation
Submodel, it is described on crank arm subparameter include above cranking arm height, on crank arm hop count, rim of a cup length and on crank arm length;According to upper
Submodel of cranking arm determines cross-arm basic point, and main material width and auxiliary material width and tower head in cross-arm basic point, tower material parameter
Cross-arm subparameter in parameter, generates cross-arm submodel, and the cross-arm subparameter includes width, horizontal stroke under length, cross-arm under cross-arm
Length in load, height and cross-arm hop count in width, cross-arm height, cross-arm on cross-arm;Ground wire goat's horn is determined according to cross-arm submodel
Basic point, and ground wire goat's horn in main material width in ground wire goat's horn basic point, tower material parameter and auxiliary material width and tower head parameter
Subparameter, ground wire goat's horn submodel is generated, it is high that the ground wire goat's horn subparameter includes two places line width, ground wire top width degree, ground wire
Degree and ground wire hop count;Structure comprising lower bent lever submodel, on crank arm the tower of submodel, cross-arm submodel and ground wire goat's horn submodel
Head model.
Power tower model construction device disclosed in the embodiment of the present invention, using the structure of power tower as according to automatic structure electric power
Tower model, the manual setting-out of developer can be avoided, so as to when required power tower model is numerous, effectively reduce developer's work
Amount.
A kind of power tower model building method provided by the present invention and device are described in detail above, herein
Apply specific case to be set forth the principle and embodiment of the present invention, the explanation of above example is only intended to help
Understand the method and its core concept of the present invention;Meanwhile for those of ordinary skill in the art, according to the thought of the present invention,
There will be changes in specific embodiments and applications, in summary, this specification content should not be construed as to this
The limitation of invention.
It should be noted that each embodiment in this specification is described by the way of progressive, each embodiment weight
Point explanation is all difference with other embodiment, between each embodiment identical similar part mutually referring to.
For device disclosed in embodiment, because it is corresponded to the method disclosed in Example, so fairly simple, the phase of description
Part is closed referring to method part illustration.
It should also be noted that, herein, such as first and second or the like relational terms are used merely to one
Entity or operation make a distinction with another entity or operation, and not necessarily require or imply between these entities or operation
Any this actual relation or order be present.Moreover, term " comprising ", "comprising" or its any other variant are intended to contain
Lid nonexcludability includes, so that the key element that process, method, article or equipment including a series of elements are intrinsic,
Either also include for these processes, method, article or the intrinsic key element of equipment.In the absence of more restrictions,
The key element limited by sentence "including a ...", it is not excluded that in the process including the key element, method, article or equipment
In other identical element also be present.
The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or using the present invention.
A variety of modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, it is of the invention
The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one
The most wide scope caused.
Claims (10)
- A kind of 1. power tower model building method, it is characterised in that including:Parameter information is built in reception, and the parameter information of building includes tower material parameter, tower leg parameter, tower body parameter and tower head ginseng Number;Tower leg model, tower body are generated according to the tower material parameter, the tower leg parameter, the tower body parameter and the tower head parameter Model and tower head model;Structure includes the power tower model of the tower leg model, the tower body model and the tower head model.
- 2. according to the method for claim 1, it is characterised in that described according to the tower material parameter, the tower leg parameter, institute State tower body parameter and the tower head parameter sequentially generates tower leg model, tower body model and tower head model, including:Tower leg height in main material width and auxiliary material width and the tower leg parameter in the tower material parameter, tower leg are opened Degree and tower leg hop count, generate tower leg model;Width under tower body is determined according to the tower leg model, and according to the main material in width, the tower material parameter under the tower body Width, tower body height and tower body hop count, generate tower body model on tower body in width and auxiliary material width and the tower body parameter;Width under tower head is determined according to the tower body model, and according to the main material in width, the tower material parameter under the tower head Width and auxiliary material width and lower bent lever subparameter in the tower head parameter, on crank arm subparameter, cross-arm subparameter and ground wire Goat's horn subparameter, generate tower head model.
- 3. according to the method for claim 2, it is characterised in that the main material width in the tower material parameter and auxiliary Tower leg height, tower leg aperture and tower leg hop count in material width and the tower leg parameter, generate tower leg model, including:Tower leg aperture and tower leg in the tower leg parameter highly determine multiple tower leg end points;Multiple tower leg main material nodes are determined according to the multiple tower leg end points;According to the main material width in the tower material parameter, a plurality of tower leg main material is filled between the multiple tower leg main material node Line;According to the auxiliary material width in the tower leg hop count in the tower leg parameter and the tower material parameter, in a plurality of tower leg main material A plurality of tower leg auxiliary material line is filled between line;Tower leg model is generated, the tower leg model is made up of a plurality of tower leg main material line and a plurality of tower leg auxiliary material line.
- 4. according to the method for claim 2, it is characterised in that described according to width, the tower material parameter under the tower body In main material width and auxiliary material width and the tower body parameter in tower body on width, tower body height and tower body hop count, generation Tower body model, including:Multiple tower body ends are highly determined according to width and tower body on width under the tower body and the tower body in the tower body parameter Point;Multiple tower body main material nodes are determined according to the multiple tower body end points;According to the main material width in the tower material parameter, a plurality of tower body main material is filled between the multiple tower body main material node Line;According to the auxiliary material width in the tower body hop count in the tower body parameter and the tower material parameter, in a plurality of tower body main material A plurality of tower body auxiliary material line is filled between line;Tower body model is generated, the tower body model is made up of a plurality of tower body main material line and a plurality of tower body auxiliary material line.
- 5. according to the method for claim 2, it is characterised in that described according to width, the tower material parameter under the tower head In main material width and auxiliary material width and lower bent lever subparameter in the tower head parameter, on crank arm subparameter, cross-arm ginseng Number and ground wire goat's horn subparameter, tower head model is generated, including:In main material width and auxiliary material width and the tower head parameter in width, the tower material parameter under the tower head Lower bent lever subparameter, generates lower bent lever submodel, and the lower bent lever subparameter includes lower bent lever height, lower bent lever hop count, lower song Arm top long value and lower bent lever top width value;According to the lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and according to bottom of cranking arm on described it is long, it is described on Cranked arm in bottom width, the main material width in the tower material parameter and auxiliary material width and the tower head parameter of cranking arm subparameter, Cranked arm in generation submodel, it is described on crank arm subparameter include above cranking arm height, on crank arm hop count, rim of a cup length and on crank arm length Degree;Cross-arm basic point, and the main material in the cross-arm basic point, the tower material parameter are determined according to submodel of cranking arm on described Cross-arm subparameter in width and auxiliary material width and the tower head parameter, generate cross-arm submodel, the cross-arm subparameter bag Include length under cross-arm, width under cross-arm, length on cross-arm, height and cross-arm hop count in width, cross-arm height, cross-arm on cross-arm;Ground wire goat's horn basic point is determined according to the cross-arm submodel, and according in the ground wire goat's horn basic point, the tower material parameter Main material width and auxiliary material width and the tower head parameter in ground wire goat's horn subparameter, generate ground wire goat's horn submodel, it is described Ground wire goat's horn subparameter includes two places line width, ground wire top width degree, ground wire height and ground wire hop count;Structure comprising the lower bent lever submodel, it is described on crank arm submodel, the cross-arm submodel and the ground wire goat's horn The tower head model of model.
- A kind of 6. power tower model construction device, it is characterised in that including:Parameter receiving module, model generation module and model Build module;The parameter receiving module, parameter information is built for receiving, the parameter information of building includes tower material parameter, tower leg ginseng Number, tower body parameter and tower head parameter;The model generation module, for according to the tower material parameter, the tower leg parameter, the tower body parameter and the tower head Parameter generation tower leg model, tower body model and tower head model;The model construction module, for building the electricity for including the tower leg model, the tower body model and the tower head model Power tower model.
- 7. device according to claim 6, it is characterised in that the model generation module, including:The generation of tower leg model is single Member, tower body model generation unit and tower head model generation unit;The tower leg model generation unit, for the main material width in the tower material parameter and auxiliary material width and the tower Tower leg height, tower leg aperture and tower leg hop count in leg parameter, generate tower leg model;The tower body model generation unit, for determining width under tower body according to the tower leg model, and according under the tower body Width, tower body are high on tower body in width, the main material width in the tower material parameter and auxiliary material width and the tower body parameter Degree and tower body hop count, generate tower body model;The tower head model generation unit, for determining width under tower head according to the tower body model, and according under the tower head Width, the main material width in the tower material parameter and auxiliary material width and lower bent lever subparameter in the tower head parameter, upper song Arm subparameter, cross-arm subparameter and ground wire goat's horn subparameter, generate tower head model.
- 8. device according to claim 7, it is characterised in that the tower leg model generation unit, be specifically used for:Tower leg aperture and tower leg in the tower leg parameter highly determine multiple tower leg end points;According to the multiple tower leg end Point determines multiple tower leg main material nodes;According to the main material width in the tower material parameter, the multiple tower leg main material node it Between fill a plurality of tower leg main material line;According to the auxiliary material width in the tower leg hop count in the tower leg parameter and the tower material parameter, A plurality of tower leg auxiliary material line is filled between a plurality of tower leg main material line;Tower leg model is generated, the tower leg model is by described more Bar tower leg main material line and a plurality of tower leg auxiliary material line are formed.
- 9. device according to claim 7, it is characterised in that the tower body model generation unit, be specifically used for:Multiple tower body ends are highly determined according to width and tower body on width under the tower body and the tower body in the tower body parameter Point;Multiple tower body main material nodes are determined according to the multiple tower body end points;According to the main material width in the tower material parameter, in institute State and fill a plurality of tower body main material line between multiple tower body main material nodes;According to the tower body hop count in the tower body parameter and the tower Auxiliary material width in material parameter, a plurality of tower body auxiliary material line is filled between a plurality of tower body main material line;Generate tower body model, institute Tower body model is stated to be made up of a plurality of tower body main material line and a plurality of tower body auxiliary material line.
- 10. device according to claim 7, it is characterised in that the tower head model generation unit, be specifically used for:In main material width and auxiliary material width and the tower head parameter in width, the tower material parameter under the tower head Lower bent lever subparameter, generates lower bent lever submodel, and the lower bent lever subparameter includes lower bent lever height, lower bent lever hop count, lower song Arm top long value and lower bent lever top width value;According to the lower bent lever model determine to crank arm bottom it is long and on crank arm bottom width, and according to institute State bottom of cranking arm it is long, it is described on crank arm bottom width, the main material width in the tower material parameter and auxiliary material width and the tower head ginseng Cranked arm in number subparameter, submodel of being cranked arm in generation, it is described on crank arm subparameter include above cranking arm height, on crank arm section Number, rim of a cup length and on crank arm length;Cross-arm basic point is determined according to submodel of cranking arm on described, and according to the cross-arm basic point, The cross-arm subparameter in main material width and auxiliary material width and the tower head parameter in the tower material parameter, generate cross-arm submodule Type, the cross-arm subparameter include under cross-arm width under length, cross-arm, length on cross-arm, width on cross-arm, cross-arm height, horizontal Height and cross-arm hop count in load;Ground wire goat's horn basic point is determined according to the cross-arm submodel, and according to the ground wire goat's horn basic point, Ground wire goat's horn subparameter in main material width and auxiliary material width and the tower head parameter in the tower material parameter, generate ground wire sheep Silver coin model, the ground wire goat's horn subparameter include two places line width, ground wire top width degree, ground wire height and ground wire hop count;Structure Comprising the lower bent lever submodel, it is described on crank arm the tower of submodel, the cross-arm submodel and the ground wire goat's horn submodel Head model.
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