CN109241581B - Method for realizing two-dimensional and three-dimensional interactive correlation based on KKS coding - Google Patents
Method for realizing two-dimensional and three-dimensional interactive correlation based on KKS coding Download PDFInfo
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- CN109241581B CN109241581B CN201810931720.8A CN201810931720A CN109241581B CN 109241581 B CN109241581 B CN 109241581B CN 201810931720 A CN201810931720 A CN 201810931720A CN 109241581 B CN109241581 B CN 109241581B
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- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
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Abstract
The invention relates to a method for realizing two-dimensional and three-dimensional interactive association based on KKS coding, belonging to the technical field of power plant digital handover and comprising the following steps of: KKS codes of equipment and elements are set in a PDMS design platform, a three-dimensional model is derived and uploaded to a digital handover platform; KKS codes are used as labels, and reproduced system diagrams are intelligent system diagrams and are stored and uploaded to a digital handover platform; arranging and storing the intelligent system diagrams according to units in a digital handover platform, and displaying volume names of the intelligent system diagrams in a label form; and selecting the label to open the intelligent system diagram, triggering a certain KKS coded label on the intelligent system diagram, and opening the corresponding three-dimensional model. The method for realizing two-dimensional and three-dimensional interactive association based on KKS coding solves the problem that rapid association cannot be realized in the current power plant digital handover process, improves the efficiency and accuracy of digital handover, and improves the convenience of digital handover work.
Description
Technical Field
The invention relates to a method for realizing two-dimensional and three-dimensional interactive correlation based on KKS coding, belonging to the technical field of power plant digital handover.
Background
In the process of digital transfer of a power plant, a system diagram where the power plant is located needs to be checked through the three-dimensional model to help workers to know the whole system flow, and the needed three-dimensional model needs to be directly positioned through the system diagram to check data information related to the three-dimensional model to perform related work. However, the current common system drawing is a two-dimensional drawing which is drawn by CAD and is composed of points and lines, and no association relationship exists between the two drawing and the model, so that the interaction association between the two drawing and the model cannot be realized quickly.
Disclosure of Invention
The invention aims to provide a method for realizing two-dimensional and three-dimensional interactive association based on KKS coding, which solves the problem that rapid association cannot be realized in the current power plant digital handover process, improves the efficiency and the accuracy of digital handover, and improves the convenience of digital handover work.
In order to achieve the purpose, the invention adopts the technical scheme that:
the method for realizing two-dimensional and three-dimensional interactive association based on KKS coding comprises the following steps,
1) KKS codes of equipment and elements are set on the PDMS design platform, a three-dimensional model is derived and uploaded to a digital handover platform;
2) The KKS code is used as a label, the reproduced system diagram is an intelligent system diagram and is stored and uploaded to a digital handover platform;
3) Arranging and storing the intelligent system diagrams according to units in a digital handover platform, and displaying volume names of the intelligent system diagrams in a label form;
4) And selecting the label to open the intelligent system diagram, triggering a certain KKS coding label on the intelligent system diagram, and opening the corresponding three-dimensional model.
The technical scheme of the invention is further improved as follows: the KKS encoding in step 1) is identical to the encoding on the system diagram and is not repeated.
The technical scheme of the invention is further improved as follows: and 2) the storage format of the reproduced intelligent system diagram is an SVG format.
The technical scheme of the invention is further improved as follows: and 3) associating the intelligent system diagram through the three-dimensional model in the digital handover platform, and opening the intelligent system diagram to perform related operations.
Due to the adoption of the technical scheme, the invention has the following technical effects:
according to the method for realizing two-dimensional and three-dimensional interactive correlation based on the KKS codes, the KKS codes are used as correlation bases, and a common system diagram is activated, so that KKS code labels on the system diagram are distinguishable. Meanwhile, the equipment and element models of the hand-over platform have unique KKS codes, the three-dimensional model is connected with an intelligent system diagram where the three-dimensional model is located, and the intelligent system diagram can be opened through the model to be checked; meanwhile, the intelligent system diagram is uploaded to a transfer platform, the intelligent system diagram is opened, a certain KKS coded label is selected, and the corresponding three-dimensional model can be jumped to.
The method for realizing two-dimensional and three-dimensional interactive correlation based on the KKS codes is based on the KKS codes, fully utilizes the KKS codes as a coding system for definitely identifying systems, equipment, components and constructions in a power plant according to functions, models and installation positions, has the advantages of orderliness, regularity, uniqueness and pertinence, and solves the basic problem of information classification in the digital handover process of the power plant.
The invention uses a digital handover platform as a medium for realizing two-dimensional and three-dimensional interactive correlation, adds a KKS coded label with identifiability through related tool software, resets a common system diagram into an intelligent system diagram with identifiability, realizes interactive correlation between a three-dimensional model and the intelligent system diagram, and further realizes orderly corresponding barrier-free conversion between the two-dimensional intelligent system diagram and the three-dimensional model. The method for realizing two-dimensional and three-dimensional interactive association based on KKS coding changes the association mode in the traditional power plant digital transfer process, solves the problem that rapid association cannot be realized in the existing power plant digital transfer process, improves the efficiency and accuracy of digital transfer, and improves the convenience of digital transfer work.
The storage format of the intelligent system diagram reproduced on the digital transfer platform is the SVG format. The SVG format has small storage capacity and strong compressibility; can be read and modified by a great number of software tools, and has strong compatibility. The storage and the calling of the intelligent system graph in the digital handover platform are greatly facilitated.
The method for realizing two-dimensional and three-dimensional interactive association based on KKS coding not only can open the intelligent system diagram through the three-dimensional model, but also can open the three-dimensional model from the intelligent system diagram, thereby realizing the interactive association between the intelligent system diagram and the three-dimensional model and improving the convenience of digital handover work.
Drawings
FIG. 1 is a flow chart of a method for implementing two-dimensional and three-dimensional cross-correlation based on KKS encoding according to the present invention;
fig. 2 is a flowchart of another method for implementing two-dimensional and three-dimensional cross-correlation based on KKS coding according to the present invention.
Detailed Description
The invention will be described in further detail with reference to the accompanying figure 1 and the specific embodiments:
the invention discloses a method for realizing two-dimensional and three-dimensional interactive correlation based on KKS coding, which is used for power plant digital handover. The following are specific examples:
the invention discloses a method for realizing two-dimensional and three-dimensional interactive association based on KKS coding, which uses the KKS coding as an association basis and carries out mutual positioning between a two-dimensional intelligent PID picture and a three-dimensional model through a digital handover platform so as to realize the mutual positioning between the two-dimensional intelligent PID picture and the three-dimensional model. Fig. 1 is a flowchart of the method for implementing two-dimensional and three-dimensional interactive association based on KKS coding, and the method includes the following steps:
1) And KKS codes of equipment and elements are set on the PDMS design platform, and a three-dimensional model is derived and uploaded to the digital transfer platform.
KKS coding is a coding system that unambiguously identifies systems, devices, components and buildings in a power plant based on function, model and installation location. In the technical scheme of the invention, the KKS codes are consistent with the codes on the system diagram and are not repeated.
According to the method for realizing the two-dimensional and three-dimensional interactive correlation based on the KKS codes, the KKS codes of the equipment and the elements are set on an AVEVA PDMS platform widely applied to the power plant industry, the KKS codes of the equipment and the elements are consistent with codes on a reproduced intelligent system diagram and cannot be repeated, and a three-dimensional model is exported according to a volume and uploaded to a digital handover platform.
2) And the KKS code is used as a label, the reproduced system diagram is an intelligent system diagram and is stored and uploaded to a digital handover platform.
The invention takes a digital handover platform as a medium for realizing two-dimensional and three-dimensional interactive correlation, adds a KKS coded label with identifiability through related tool software, and reproduces a common system diagram into an intelligent system diagram with identifiability.
In the technical scheme of the invention, the storage format of the reproduced intelligent system diagram is an SVG format. The SVG (Scalable Vector Graphics) format is Scalable Vector Graphics, and SVG Graphics are interactive and dynamic; moreover, SVG is a language defined by XML for describing two-dimensional vectors and vector/raster graphics, and is an open-standard vector graphics language.
3) And arranging and storing the intelligent system diagrams according to the units in the digital handover platform, and displaying the volume names of the intelligent system diagrams in a label form.
In the technical scheme of the invention, the volume name displayed in the form of a label is a Chinese name.
4) And selecting the label to open the intelligent system diagram, triggering a certain KKS coded label on the intelligent system diagram, and opening the corresponding three-dimensional model.
In the technical scheme of the invention, in a digital handover platform, a label is selected to open an intelligent system diagram, a certain KKS coded label on the intelligent system diagram is triggered, and a corresponding three-dimensional model is opened; the three-dimensional model can be scaled, turned over and the like in the digital handover platform.
Further, after the step 3, in the digital handover platform, the label can be selected to open the three-dimensional model, a certain KKS encoded label on the three-dimensional model is triggered, the corresponding intelligent system diagram is opened, and the opened intelligent system diagram can be zoomed, moved and the like in the digital handover platform. The intelligent system diagram can be opened by selecting the label or the three-dimensional model can be opened by selecting the label, the front and back operation sequences of the intelligent system diagram and the three-dimensional model can be exchanged unconditionally, the three-dimensional model can be opened from the intelligent system diagram, the intelligent system diagram can be opened through the three-dimensional model, and the interaction relevance between the intelligent system diagram and the three-dimensional model is enhanced.
Further, according to fig. 2, another method for implementing two-dimensional and three-dimensional cross-correlation based on KKS coding is provided. The first two steps of the process are identical to the process shown in fig. 1: KKS codes of equipment and elements are set on a PDMS design platform, a three-dimensional model is derived and uploaded to a digital transfer platform; and the KKS code is used as a label, the reproduced system diagram is an intelligent system diagram and is stored and uploaded to a digital handover platform.
And in the step 3, corresponding intelligent system diagrams are sequentially connected to the relevant equipment models in the digital handover platform. And 4, opening the intelligent system diagram for zooming, moving and other operations. The intelligent system diagram can be directly and quickly opened through the three-dimensional model after the two-dimensional and three-dimensional interactive association is completed in the digital handover platform. Similarly, the another method for implementing two-dimensional and three-dimensional interactive association based on KKS coding shown in fig. 2 may also be implemented by sequentially hooking corresponding three-dimensional models of devices to the intelligent system diagram in the digital handover platform; and opening the three-dimensional model for operations such as zooming, turning and the like. And the intelligent system diagram can be opened through the three-dimensional model, and the three-dimensional model can be opened from the intelligent system diagram, so that the interaction relevance between the intelligent system diagram and the three-dimensional model is enhanced.
Specifically, the method for implementing two-dimensional and three-dimensional cross correlation based on KKS coding of the present invention is specifically described below with an embodiment of a process step for implementing cross correlation between a system diagram and a three-dimensional model in a digital handover platform.
Firstly, KKS codes of devices and elements are set on a PDMS design platform, and KKS code label sets of related devices and elements are synthesized;
secondly, exporting the three-dimensional model according to the volume sequence and uploading the three-dimensional model to a digital transfer platform;
thirdly, adding a KKS coded label with identifiability by using a software tool, resetting the common system diagram into an intelligent system diagram with identifiability, activating the system diagram and storing the system diagram into an SVG format;
fourthly, uploading the intelligent system diagram to a digital transfer platform, and displaying the Chinese name of the intelligent system diagram;
fifthly, corresponding intelligent system diagrams are sequentially connected to the relevant equipment models in a hanging mode, and the intelligent system diagrams can be directly opened to carry out operations such as scaling and moving;
sixthly, triggering a KKS coded label on the intelligent system diagram, and opening the corresponding three-dimensional model;
step seven, listing intelligent system diagrams according to units on the digital handover platform, and displaying the Chinese name of the volume;
and eighthly, selecting an intelligent system diagram to open the intelligent system diagram, and triggering the KKS coded label to open the three-dimensional model.
It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.
Claims (4)
1. The method for realizing two-dimensional and three-dimensional interactive association based on KKS coding is characterized by comprising the following steps of: comprises the following steps of (a) carrying out,
1) KKS codes of the equipment and the elements are set on the PDMS design platform, a three-dimensional model is derived and uploaded to the digital transfer platform;
2) The KKS code is used as a label, the reproduced system diagram is an intelligent system diagram and is stored and uploaded to a digital handover platform;
3) Arranging and storing the intelligent system graph according to a unit in a digital handover platform, and displaying the volume name of the intelligent system graph in a label form;
4) And selecting the label to open the intelligent system diagram, triggering a certain KKS coding label on the intelligent system diagram, and opening the corresponding three-dimensional model.
2. The method for implementing two-dimensional and three-dimensional cross-correlation based on KKS coding according to claim 1, wherein: the KKS encoding in step 1) is identical to the encoding on the system diagram and is not repeated.
3. The method for implementing two-dimensional and three-dimensional interactive correlation based on KKS coding as claimed in claim 1, wherein: and 2) reproducing the intelligent system diagram in the step 2) in a storage format of an SVG format.
4. The method for implementing two-dimensional and three-dimensional cross-correlation based on KKS coding according to claim 1, wherein: and 3) associating the intelligent system diagram through the three-dimensional model in the digital handover platform, and opening the intelligent system diagram to perform related operations.
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