Summary of the invention
The embodiment of the present disclosure provides a kind of stair built-in fitting automatic generation method based on assembled architecture, device, sets
Standby and computer readable storage medium has automatically generated the side suspension centre built-in fitting of stair BIM figure, has improved building in staircase component
The arrangement efficiency of side of the ladder face suspension centre.
In order to solve the above technical problems, the embodiment of the present invention the following technical schemes are provided:
On the one hand the embodiment of the present invention provides a kind of stair built-in fitting automatic generation method based on assembled architecture, building
Ladder includes being marked time to constitute staristep and flat plate section by multistage, comprising:
The center of gravity of the stair, the side on inclined-plane and the gradient are determined according to the stair outer profile model constructed in advance;
Determine that the target line parallel with the side, the height are the side according to the gradient and preset height
The vertical range on side and the target line;
And second point symmetrical centered on the center of gravity are determined in the target line at first point, as described
The embedment point of the side suspension centre of plane where target line and the side;First point of distance between the center of gravity, with
Distance between the second point and the center of gravity is identical;Respectively by described first point, the vector of the second point and the center of gravity
Embedment direction of the direction as each embedment point;
It is that stair BIM figure generates side suspension centre according to default embedment rule, the embedment point and the embedment direction;
Wherein, the stair outer profile model construction process are as follows: the configuration parameter information of stair is obtained based on BIM base map,
Stair outer profile model according to the configuration parameter information architecture based on axis net.
Optionally, described that symmetrical centered on the center of gravity first point and second is determined in the target line
After point, further includes:
Face where the side and the target line is first side, and the opposite of the first side is second side
Face;
Described first point of vertical point, the vertical point of the second point are determined respectively in the second side, using as described
The embedment point of the side suspension centre of two side faces;
Using the vector direction of described first point of vertical point, the vertical point of the second point and the center of gravity as described second side
Face is respectively embedded to a little corresponding embedment direction;
It is stair BIM figure life according to the embedment rule, the embedment point of the second side and corresponding embedment direction
At side suspension centre.
Optionally, described that symmetrical centered on the center of gravity first point and second is determined in the target line
After point, further includes:
Face where the side and the target line is first side, and the opposite of the first side is second side
The intersection of face, the inclined-plane and the second side is second side;
Second target line parallel with the second side is determined according to the gradient and the height;
Determined in second target line centered on the center of gravity it is symmetrical thirdly with the 4th point, as
The embedment point of the side suspension centre of the second side;The thirdly distance between the center of gravity, with described 4th point and institute
The distance stated between center of gravity is identical;Respectively using it is described thirdly, described 4th point buried to the vector direction of the center of gravity as corresponding
The embedment direction of access point;
It is respectively embedded to a little according to the embedment rule, the second side and corresponding embedment direction is stair BIM figure
Generate side suspension centre.
It optionally, is stair BIM figure in the default embedment rule of the basis, the embedment point and the embedment direction
After generation side suspension centre, further includes:
Built-in fitting classification and number are set for the side suspension centre, and numbered for the side suspension centre with corresponding stair
Corresponding relationship is set.
Optionally, built-in fitting classification and number are set for the side suspension centre described, and are the side suspension centre and phase
After corresponding stair number setting corresponding relationship, further includes:
Based on the corresponding relationship that the side suspension centre is numbered with corresponding stair, by the built-in fitting class of the side suspension centre
It is not added in the built-in fitting statistics inventory of corresponding stair with number information;
Wherein, the built-in fitting statistics inventory is used to count the classification and every class built-in fitting quantity of stair built-in fitting, described
It is unique corresponding with stair number that built-in fitting counts inventory.
On the other hand the embodiment of the present invention provides a kind of stair built-in fitting automatically generating device based on assembled architecture,
Include:
Stair outer profile model construction module, for obtaining the configuration parameter information of stair based on BIM base map, according to described
Stair outer profile model of the configuration parameter information architecture based on axis net;
Parameter information determining module, for determined according to the stair outer profile model that constructs in advance the stair center of gravity,
The side on inclined-plane and the gradient;
Suspension centre buries a position and embedment direction determining mould, for according to the gradient and preset height determination and the side
The parallel target line in side, the height are the vertical range of the side and the target line;In the target line
Upper determination first point and second point symmetrical centered on the center of gravity, as where the target line and the side
The embedment point of the side suspension centre of plane;First point of distance between the center of gravity, between the second point and the center of gravity
Distance it is identical;Respectively using described first point, the vector direction of the second point and the center of gravity as the embedment of each embedment point
Direction;
Side suspension centre generation module, for being described according to default embedment rule, the embedment point and the embedment direction
Stair BIM figure generates side suspension centre.
Optionally, further includes:
Built-in fitting additional information setup module for built-in fitting classification and number to be arranged for the side suspension centre, and is institute
It states side suspension centre and numbers setting corresponding relationship with corresponding stair.
Optionally, further includes:
Inventory information generation module is counted, the corresponding pass for numbering based on the side suspension centre with corresponding stair
The built-in fitting classification of the side suspension centre and number information are added in the built-in fitting statistics inventory of corresponding stair by system;Wherein,
The built-in fitting statistics inventory is used to count the classification and every class built-in fitting quantity of stair built-in fitting, and the built-in fitting counts inventory
It is unique corresponding with stair number.
The embodiment of the invention also provides a kind of, and the stair built-in fitting based on assembled architecture automatically generates equipment, including place
Device is managed, is realized when the processor is for executing the computer program stored in memory as described in preceding any one based on assembled
The step of stair built-in fitting automatic generation method of building.
The embodiment of the present invention finally additionally provides a kind of computer readable storage medium, the computer readable storage medium
On be stored with the stair built-in fitting automatically generating program based on assembled architecture, the stair built-in fitting based on assembled architecture
Realize that the stair built-in fitting as described in preceding any one based on assembled architecture is given birth to automatically when automatically generating program is executed by processor
The step of at method.
The advantages of technical solution provided by the present application, is, determines stair side suspension centre by the slope of stairs and preset height
The straight line at place finally determines the embedment point position of two symmetrical side suspension centres on this line centered on center of gravity,
Embedment point is directed toward the vector direction of center of gravity as embedment direction, according to preset embedment it is regular in stair BIM figure certainly
It is dynamic to generate side suspension centre, solve traditional artificial arrangement stair built-in fitting there are the drawbacks of, cloth in staircase component greatly improved
The efficiency for setting stair side suspension centre built-in fitting improves the arrangement accuracy of stair built-in fitting;Convenient for stair in component production line
On get off, directly can be packed into shelf with crane or gantry crane and perhaps compartment and then be transported to stockyard or construction ground, be conducive to
Promote the construction efficiency and construction accuracy of whole building projects.
In addition, the embodiment of the present invention provides phase also directed to the stair built-in fitting automatic generation method based on assembled architecture
Realization device, equipment and the computer readable storage medium answered, further such that the method has more practicability, the dress
Set, equipment and computer readable storage medium have the advantages that it is corresponding.
It should be understood that the above general description and the following detailed description are merely exemplary, this can not be limited
It is open.
Specific embodiment
In order to enable those skilled in the art to better understand the solution of the present invention, with reference to the accompanying drawings and detailed description
The present invention is described in further detail.Obviously, described embodiments are only a part of the embodiments of the present invention, rather than
Whole embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise
Under every other embodiment obtained, shall fall within the protection scope of the present invention.
The description and claims of this application and term " first ", " second ", " third " " in above-mentioned attached drawing
Four " etc. be for distinguishing different objects, rather than for describing specific sequence.Furthermore term " includes " and " having " and
Their any deformations, it is intended that cover and non-exclusive include.Such as contain a series of steps or units process, method,
System, product or equipment are not limited to listed step or unit, but may include the step of not listing or unit.
After describing the technical solution of the embodiment of the present invention, the various non-limiting realities of detailed description below the application
Apply mode.
Referring first to Fig. 1, Fig. 1 is that a kind of stair built-in fitting based on assembled architecture provided in an embodiment of the present invention is automatic
The flow diagram of generation method, the embodiment of the present invention may include the following contents:
S101: the configuration parameter information of stair is obtained based on BIM base map, according to configuration parameter information architecture based on axis net
Stair outer profile model.
Stair include staristep and flat plate section, and staristep is marked time by multistage and constituted, and mark time for every grade and (are stepped on by riser and tyre tread
Plate) it constitutes.For staristep tool there are two side and an inclined-plane, inclined-plane is alternatively referred to as bottom surface, and the intersection on two sides and inclined-plane is
Side.
Based on BIM platform, the configuration information of the stair of current built-in fitting to be generated is obtained from BIM base map, such as can be obtained
Take specification information (such as stair height, the gradient, each staristep series, flat plate section size etc.), stair type (such as indoor building
Ladder, exterior stair, spiral stairs etc.) etc..
Stair are modeled according to these configuration parameter information acquired, obtain stair outer profile model, stair
Outer profile model may be based on the outer profile model of axis net, and it is coordinate that each point on outer profile model, which is provided with XYZ tri-, thus
Obtain the coordinate value information of each profile point.
S102: the center of gravity of stair, the side on inclined-plane and the gradient are determined according to the stair outer profile model constructed in advance.
Coordinate information based on known stair outer profile model and each profile point, can be obtained using basic geometric knowledge
To the position of centre of gravity of stair, further, also the three-dimensional coordinate information of center of gravity can be obtained in stair outer profile model.
The gradient of stair depends on the inclined-plane and ground institute angulation of stair.Stair inclined-plane includes four edges, and upper and lower both sides are
The intersection on inclined-plane and stair flat plate section, the side of left and right two are the intersection with stair side, the side on inclined-plane and ground institute angulation
The as slope of stairs.The embodiment of the present invention can be any one of two sides.
S103: determining the target line parallel with side according to the gradient and preset height, highly straight with target for side
The vertical range of line.
Target line and side are on the same stair side, and the two is parallel, and straight line is flat where target line and side
Row and vertical range are preset height.Preset height value can be determined according to the height of stair side, and the application does not do this
Any restriction.
Stair are looked for do not install before namely its at warehouse or construction site, be generally that inclined-plane lands, sling
In the process, suspension centre can be set in side, stablizes to realize, shakes that probability is smaller slings stair, the company of the suspension centre of each side
Line must be parallel with the bevel edge on inclined-plane.
S104: determining and second point symmetrical centered on center of gravity at first point in target line, straight as target
The embedment point of the side suspension centre of plane where line and side;Respectively using first point, the vector direction of second point and center of gravity as each
It is embedded to the embedment direction of point.
First point and second point are in target line, and between first point of distance and second point and center of gravity between center of gravity
Apart from identical.
The vector direction of first point and center of gravity is the direction of first point of direction center of gravity, and the vector direction of second point and center of gravity is
Second point is directed toward the direction of center of gravity, and embedment direction is that suspension centre is embedded to the direction to stair, is embedded to towards center of gravity direction, i.e.,
The suspension centre of embedment collides with stair.
S105: being that stair BIM figure generates side suspension centre according to default embedment rule, embedment point and embedment direction.
Embedment rule includes the code requirement (this field code requirement sanctified by usage) that the vertical suspension centre of stair buries stair.
In technical solution provided in an embodiment of the present invention, stair side suspension centre is determined by the slope of stairs and preset height
The straight line at place finally determines the embedment point position of two symmetrical side suspension centres on this line centered on center of gravity,
Embedment point is directed toward the vector direction of center of gravity as embedment direction, according to preset embedment it is regular in stair BIM figure certainly
It is dynamic to generate side suspension centre, solve traditional artificial arrangement stair built-in fitting there are the drawbacks of, cloth in staircase component greatly improved
The efficiency for setting stair side suspension centre built-in fitting improves the arrangement accuracy of stair built-in fitting;Convenient for stair in component production line
On get off, directly can be packed into shelf with crane or gantry crane and perhaps compartment and then be transported to stockyard or construction ground, be conducive to
Promote the construction efficiency and construction accuracy of whole building projects.
There are two side, the settable two side suspension centres in each side can also be respectively provided with stair tool on two side faces
Side suspension centre.After generating two suspension centres (and second point) on a side according to above-described embodiment at first point, in addition
Two suspension centres (thirdly, the 4th point) on one side can be determined in such a way that following embodiments describe, namely are as follows:
Face where side and target line is first side, and the opposite of first side is second side, inclined-plane and second
The intersection of side is second side;(intersection that side herein is plane and inclined-plane where and second point at first point), second side
Side and side are parallel.)
Second target line parallel with second side is determined according to the gradient and height;
Determined in the second target line centered on center of gravity it is symmetrical thirdly with the 4th point, as second side
Side suspension centre embedment point;The thirdly distance between center of gravity, with the 4th point between center of gravity at a distance from it is identical;Respectively by third
Point, the 4th point of embedment direction to the vector direction of center of gravity as corresponding embedment point;
It is respectively embedded to a little according to embedment rule, second side and corresponding embedment direction is that stair BIM figure generates side suspension centre.
Since stair are shape symmetrically and evenly, after obtaining the side suspension centre an of side, another side is hung
Point the setting of corresponding penetration surface or can be projected in the side suspension centre of the other side.It is generated on a side according to above-described embodiment
After two suspension centres (first point and second point), two suspension centres on another side can also be retouched according to following embodiments
The mode stated is determined:
Face where side and target line is first side, and the opposite of first side is second side;(side herein
For the intersection of plane and inclined-plane where first point and second point), second side and side are parallel.)
First point of vertical point, the vertical point of second point are determined respectively in second side, using the side suspension centre as second side
Embedment point;
The vertical point of first point of vertical point, second point is respectively embedded to the vector direction of center of gravity as second side a little corresponding
Embedment direction;
It is that stair BIM figure generates side suspension centre according to embedment rule, the embedment point of second side and corresponding embedment direction.
By being respectively provided with suspension centre two sides, it is more advantageous to stair stabilization and slings, reduce the shaking in its hoisting process
Probability.
In view of construction project scale is increasing, by artificial statistics or all built-in fittings letters in construction project are updated
Breath, it is not only time-consuming and laborious, also easily malfunction.In consideration of it, based on the above embodiment, referring to fig. 2, Fig. 2 mentions for the embodiment of the present invention
The flow diagram of another stair built-in fitting automatic generation method based on assembled architecture of confession, it may include the following contents:
S106: built-in fitting classification and number are set for side suspension centre, and set for side suspension centre with corresponding stair number
Set corresponding relationship.
Built-in fitting classification be embedded to component built-in fitting type, as center suspension centre, side suspension centre, pin key hole to be provided,
Built-in fitting title can be used directly in pin key reinforcing rib etc., built-in fitting type, it is possible to use presets the mark of every class built-in fitting
Information, such as A1 represent center suspension centre, and A2 represents side suspension centre.Number can be the digital information automatically generated, can also be letter
It is optionally, pre-buried to the same class being embedded in the component to the same component with digital combined information or other information
Part can successively be numbered according to embedment sequence, to understand the quantity of such built-in fitting embedment according to number.
Each component has unique number in whole building project, builds to the built-in fitting and component of each component inside
A corresponding relationship is found, in order to be quickly found out all built-in fitting information of the component inside, in addition, can also be arranged for built-in fitting
Location information, quickly to position the built-in fitting in component inside.
S107: the corresponding relationship numbered based on side suspension centre with corresponding stair, by the built-in fitting classification of side suspension centre
It is added in the built-in fitting statistics inventory of corresponding stair with number information.
Each component all has a built-in fitting statistics inventory, and built-in fitting statistics inventory is for counting component inside built-in fitting
Classification and every class built-in fitting quantity, and built-in fitting statistics inventory and component number is uniquely corresponding, in other words, according to component
Number can contact built-in fitting and built-in fitting statistics inventory, so that built-in fitting information is added to built-in fitting statistics inventory
In.
Built-in fitting by consulting each component counts inventory, can obtain all built-in fitting information of the component;Pass through
Programming count is carried out to the built-in fitting statistics inventory of each component, the built-in fitting information of whole building project can be obtained.
From the foregoing, it will be observed that after the embodiment of the present invention is by automatically generating built-in fitting in component BIM figure, for the pre-buried of generation
Part setting classification information numbers and establishes corresponding relationship with corresponding component, to can realize that automation counts each structure
The classification and quantity of all built-in fittings in part, so can automate statistics whole building project used in built-in fitting type and
Quantity avoids the drawbacks of manually counting built-in fitting information, improves built-in fitting Information Statistics efficiency and statistics accuracy rate.
The embodiment of the present invention provides accordingly also directed to the stair built-in fitting automatic generation method based on assembled architecture
Realization device, further such that the method has more practicability.It is built below to provided in an embodiment of the present invention based on assembled
The stair built-in fitting automatically generating device built is introduced, and the stair built-in fitting described below based on assembled architecture is given birth to automatically
Reference can be corresponded to each other with the above-described stair built-in fitting automatic generation method based on assembled architecture at device.
Referring to Fig. 3, Fig. 3 is the stair built-in fitting automatically generating device provided in an embodiment of the present invention based on assembled architecture
A kind of structure chart under specific embodiment, the device can include:
Stair outer profile model construction module 301, for obtaining the configuration parameter information of stair based on BIM base map, according to
Stair outer profile model of the configuration parameter information architecture based on axis net.
Parameter information determining module 302, for determining the center of gravity, tiltedly of stair according to the stair outer profile model that constructs in advance
The side in face and the gradient.
Suspension centre buries a position and embedment direction determining mould 303, for according to the gradient and preset height determination and side phase
Parallel target line, the highly vertical range for side and target line;Determination is right centered on center of gravity in target line
First point and second point for claiming distribution, the embedment point as the side suspension centre of plane where target line and side;First point and
Distance between center of gravity, between second point and center of gravity at a distance from it is identical;Respectively by first point, the vector direction work of second point and center of gravity
For the embedment direction of each embedment point.
Side suspension centre generation module 304, for being stair BIM figure according to default embedment rule, embedment point and embedment direction
Generate side suspension centre.
Optionally, in some embodiments of the present embodiment, referring to Fig. 4, described device can also include built-in fitting
Additional information setup module 305, for being arranged built-in fitting classification and number for side suspension centre, and for side suspension centre with it is corresponding
Stair number setting corresponding relationship.
In addition, described device for example may also include statistics inventory information generation module 306, for being based on side suspension centre and phase
The corresponding relationship of corresponding stair number, is added to the pre-buried of corresponding stair for the built-in fitting classification and number information of side suspension centre
Part counts in inventory;Wherein, built-in fitting statistics inventory is used to count the classification and every class built-in fitting quantity of stair built-in fitting, pre-buried
It is unique corresponding with stair number that part counts inventory.
Optionally, in other embodiments of the present embodiment, described device for example may also include second side suspension centre
Generation module 307 is first side for face where side and target line, and the opposite of first side is second side, tiltedly
The intersection of face and second side is second side;Determine that second target parallel with second side is straight according to the gradient and height
Line;Symmetrical thirdly with the 4th point centered on center of gravity, side as second side is determined in the second target line
The embedment point of face suspension centre;The thirdly distance between center of gravity, with the 4th point between center of gravity at a distance from it is identical;Respectively will thirdly,
The 4th point of embedment direction to the vector direction of center of gravity as corresponding embedment point;It is respectively embedded to a little according to embedment rule, second side
It is that stair BIM figure generates side suspension centre with corresponding embedment direction.
In addition, the second side suspension centre generation module 307 is also used to side and target in other embodiment
Face where straight line is first side, and the opposite of first side is second side;Second side respectively determine first point hang down
The vertical point of point, second point, using the embedment point of the side suspension centre as second side;By first point of vertical point, the vertical point of second point
A little corresponding embedment direction is respectively embedded to as second side with the vector direction of center of gravity;It is regular, second side according to embedment
Embedment point and corresponding embedment direction are that stair BIM figure generates side suspension centre.
Each functional module of stair built-in fitting automatically generating device described in the embodiment of the present invention based on assembled architecture
Function can be implemented according to the method in above method embodiment, and specific implementation process is referred to above method embodiment
Associated description, details are not described herein again.
From the foregoing, it will be observed that the embodiment of the present invention has automatically generated the side suspension centre built-in fitting of stair BIM figure, stair structure is improved
The arrangement efficiency of stair built-in fitting in part can also automate built-in fitting type sum number used in statistics whole building project
Amount is conducive to the construction efficiency for promoting whole building projects and construction accuracy.
The embodiment of the invention also provides a kind of, and the stair built-in fitting based on assembled architecture automatically generates equipment, specifically may be used
Include:
Memory, for storing computer program;
Processor realizes the building based on assembled architecture described in any one embodiment as above for executing computer program
The step of terraced built-in fitting automatic generation method.
Stair built-in fitting described in the embodiment of the present invention based on assembled architecture automatically generates each functional module of equipment
Function can be implemented according to the method in above method embodiment, and specific implementation process is referred to above method embodiment
Associated description, details are not described herein again.
From the foregoing, it will be observed that the embodiment of the present invention has automatically generated the side suspension centre built-in fitting of stair BIM figure, stair structure is improved
The arrangement efficiency of stair built-in fitting in part can also automate built-in fitting type sum number used in statistics whole building project
Amount is conducive to the construction efficiency for promoting whole building projects and construction accuracy.
The embodiment of the invention also provides a kind of computer readable storage medium, it is stored with the stair based on assembled architecture
Built-in fitting automatically generating program, when the stair built-in fitting automatically generating program based on assembled architecture is executed by processor such as
The step of going up the stair built-in fitting automatic generation method described in any one embodiment based on assembled architecture.
The function of each functional module of computer readable storage medium described in the embodiment of the present invention can be according to above method reality
The method specific implementation in example is applied, specific implementation process is referred to the associated description of above method embodiment, herein no longer
It repeats.
From the foregoing, it will be observed that the embodiment of the present invention has automatically generated the side suspension centre built-in fitting of stair BIM figure, stair structure is improved
The arrangement efficiency of stair built-in fitting in part can also automate built-in fitting type sum number used in statistics whole building project
Amount is conducive to the construction efficiency for promoting whole building projects and construction accuracy.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with it is other
The difference of embodiment, same or similar part may refer to each other between each embodiment.For being filled disclosed in embodiment
For setting, since it is corresponded to the methods disclosed in the examples, so being described relatively simple, related place is referring to method part
Explanation.
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.
The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor
The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit
Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology
In any other form of storage medium well known in field.
Above to a kind of stair built-in fitting automatic generation method based on assembled architecture provided by the present invention, device,
Equipment and computer readable storage medium are described in detail.Specific case used herein is to the principle of the present invention and reality
The mode of applying is expounded, and the above description of the embodiment is only used to help understand the method for the present invention and its core ideas.It answers
It, for those skilled in the art, without departing from the principle of the present invention, can also be to this when pointing out
Some improvement and modification can also be carried out for invention, and these improvements and modifications also fall within the scope of protection of the claims of the present invention.