CN109657375A - Transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling - Google Patents

Abstract

The transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling that the present invention relates to a kind of, its be technically characterized by comprising the steps as follows: obtain substation in primary equipment laser mapping point cloud chart and carry out transforming plant primary equipment threedimensional model modeling, and be converted into the end Web show model；Equipment topological relation is established according to substation equipment primary connection figure and physical cabling mode；Equipment topology is established with the incidence relation of threedimensional model, intellectual analysis current device electriferous state is simultaneously shown, supports in different colors to show the separate differentiation of difference of equipment；State change is performed, records operating status change time and the modification people of distinct device, re-starts topological calculating, refreshing a device electriferous state automatically.The present invention has rational design, and substation equipment electriferous state monitoring efficiency can be made to significantly improve, and reduces staff's Refresh Device Status, recording equipment Status Change situation, checks working repeatedly for equipment wiring topology, and brings good economic benefit.

Description

Transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling

Technical field

The invention belongs to substation information technical field, especially a kind of transforming plant primary based on WEB terminal three-dimensional modeling Equipment live state monitoring method.

Background technique

With the growth of electrical network business, electricity power engineering planning, design, construction, transfer, formed in operational process it is all kinds of huge Data.Dispersion is stored in different systems these data in different forms respectively, form complexity, visualization Low, access mode is limited and is difficult to efficiently use, and has been unable to satisfy on the working efficiency of production run and economic benefit current And management lean is pursued by future company, the strategic development of cost efficiency needs.The electriferous state of power transformation station equipment is substantially Tabular, two dimensional imageization display stage are also rested on, monitoring is not rigorous, anomaly is not prompt enough etc. is objectively easy to happen Problem influences monitoring information judgement, brings hidden danger and risk to power grid operation.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, propose a kind of accurate and reliable, high-efficient, good in economic efficiency And the intuitive easy-to-use transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling.

The present invention solves its technical problem and adopts the following technical solutions to achieve:

A kind of transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling, comprising the following steps:

Step 1 obtains the point cloud chart of primary equipment laser mapping in substation and carries out the three-dimensional of transforming plant primary equipment Model modeling, and be converted into the end Web and show model；

Step 2 establishes equipment topological relation according to substation equipment primary connection figure and physical cabling mode；

Step 3 establishes equipment topology with the incidence relation of threedimensional model, and intellectual analysis current device electriferous state simultaneously carries out Display is supported in different colors to show the separate differentiation of difference of equipment；

Step 4, state change is performed, record distinct device operating status change the time and modification people, automatically again into Row topology calculates, refreshing a device electriferous state.

Primary equipment includes switch, disconnecting link, bus and connecting line in the substation that the step 1 obtains.

Step 1 threedimensional model models in the following way: the modeling of 3DMAX, GIS or BIM development platform.

The concrete methods of realizing of the step 2 the following steps are included:

Step 2.1 draws interior primary connection figure of standing using dedicated drawing tool according to Substation Bus Arrangement and the method for operation, And by the topological relation input database of equipment；

Step 2.2, the initial electrification shape for refreshing transforming plant primary equipment according to original equipment open and-shut mode and topological relation State information.

The concrete methods of realizing of the step 3 the following steps are included:

Step 3.1 uniformly gives interior primary equipment model of standing to be named management, and device model is named same logging data Inventory has the equipment list of topological relation, establishes corresponding association；

When step 3.2, end rendering substation's threedimensional model, primary equipment electriferous state is obtained, corresponding electriferous state is shown Show on threedimensional model, electriferous state is shown by rending model color, and carries out the electrification face of different colours to A, B, C phase Color is distinguished.

The step 3 shows instruction using threedimensional model webpage or browser model rendering idsplay order mode is realized.

The threedimensional model webpage shows instruction using .NET frame and C# language, is parsed by calling to model file, And .html .js and .json formatted file are converted to using JavaScript and HTML technology, and implementation model is in browser page Displaying in face；The browser model rendering idsplay order uses Web3D technology, will by the GLSL ES tinter of WebGL Threedimensional model carries out rendering displaying in client browser.

The concrete methods of realizing of the step 4 the following steps are included:

Step 4.1 changes mode using convenient and fast equipment state, changes to the open and-shut mode of switch, disconnecting link, system Recording equipment Status Change time, modification people；

Step 4.2, system background accepting device Status Change information, trigger topological calculating instrument to equipment live state into Row reanalyses；

Step 4.3, Web end system are according to the electriferous state of setting period frequency reacquisition equipment and again to equipment three Dimension module carries out electrification coloring.

The advantages and positive effects of the present invention are:

1, the present invention has rational design, utilizes the threedimensional model of transforming plant primary equipment, according to Substation Bus Arrangement and fortune Line mode establishes topological model, in conjunction with switch, disconnecting link open and-shut mode analysis primary equipment electriferous state, on a web browser with The mode of three-dimensional visualization shows the electriferous state of primary equipment, has both reduced complicated system program installment work and Supervision Work, and the visual in image electriferous state back work for showing equipment are controlled, is conducive to find once to set in substation in time Received shipment row abnormal problem, and then guarantee the stability and security of power grid.

2, the present invention can be such that substation equipment electriferous state monitoring efficiency significantly improves, and reduce staff's refreshing and set Standby state, checks working repeatedly for equipment wiring topology at recording equipment Status Change situation, avoids non-intuitive tabular and two It is easy to occur the problem of ignoring unit exception in dimension wiring diagram monitoring.

3, the invention avoids complicated installation process, repeat job family, integrated intelligent topological analysis technique advantage in Three-dimensional display reduces whole human and material resources consumption, to bring good economic benefit.

4, the present invention is intuitively shown the electriferous state combination threedimensional model of transforming plant primary equipment by browser Come, the equipment of instantiated and electrification coloring effect provide the more intuitive side of monitoring of criterion for the work of equipment operation maintenance personnel Formula, so that monitoring process process is few and accurate and visual easy-to-use.

Detailed description of the invention

Fig. 1 is process flow diagram of the invention.

Specific embodiment

The embodiment of the present invention is further described below in conjunction with attached drawing.

A kind of transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling, as shown in Figure 1, including Following steps:

Step 1 obtains the point cloud chart of primary equipment laser mapping in substation and carries out the three-dimensional of transforming plant primary equipment Model modeling, and be converted into the end Web and show model.

In this patent, in substation following primary equipment carry out electriferous state monitoring: switch, disconnecting link, bus and Connecting line.It can be modeled in the following way in threedimensional model modeling: the modeling of 3DMAX, GIS and BIM development platform.

Step 2 establishes equipment topological relation according to substation equipment primary connection figure and physical cabling mode.

The specific implementation process of this step are as follows:

Step 2.1 draws interior primary connection figure of standing using dedicated drawing tool according to Substation Bus Arrangement and the method for operation, And by the topological relation input database of equipment.

Step 2.2, the initial electrification shape for refreshing transforming plant primary equipment according to original equipment open and-shut mode and topological relation State information.

Step 3 establishes equipment topology with the incidence relation of threedimensional model, and intellectual analysis current device electriferous state simultaneously carries out Display is supported in different colors to show the separate differentiation of difference of equipment.

The concrete methods of realizing of this step includes following procedure:

Step 3.1 uniformly gives interior primary equipment model of standing to be named management, and device model is named same logging data Inventory has the equipment list of topological relation, establishes corresponding association；

When step 3.2, end rendering substation's threedimensional model, primary equipment electriferous state is obtained, corresponding electriferous state is shown Show on threedimensional model, electriferous state is shown by rending model color, and carries out the electrification face of different colours to A, B, C phase Color is distinguished.

This step can be used threedimensional model webpage to the monitoring of primary equipment electriferous state and show instruction and browser model wash with watercolours Dye idsplay order mode is realized:

Threedimensional model webpage is showed instruction and is parsed using .NET frame and C# language by calling to model file, and is made .html .js and .json formatted file are converted to JavaScript and HTML technology, and implementation model is in browser page Displaying；

Browser model renders idsplay order and uses Web3D technology, by the GLSL ES tinter of WebGL by three-dimensional mould Type carries out rendering displaying in client browser.

Step 4, state change is performed, record distinct device operating status change the time and modification people, automatically again into Row topology calculates, refreshing a device electriferous state.

Step 4.1 changes mode using convenient and fast equipment state, changes to the open and-shut mode of switch, disconnecting link, system Recording equipment Status Change time, modification people；

Step 4.2, system background accepting device Status Change information, trigger topological calculating instrument to equipment live state into Row reanalyses；

Step 4.3, Web end system are according to the electriferous state of setting period frequency reacquisition equipment and again to equipment three Dimension module carries out electrification coloring.

By above step, the electrification shape for showing primary equipment in a manner of three-dimensional visualization on a web browser can be realized The function of state.

It is emphasized that embodiment of the present invention be it is illustrative, without being restrictive, therefore packet of the present invention Include and be not limited to embodiment described in specific embodiment, it is all by those skilled in the art according to the technique and scheme of the present invention The other embodiments obtained, also belong to the scope of protection of the invention.

Claims (8)

1. a kind of transforming plant primary equipment electriferous state monitoring method based on WEB terminal three-dimensional modeling, it is characterised in that including with Lower step:

Step 1 obtains the point cloud chart of primary equipment laser mapping in substation and carries out the threedimensional model of transforming plant primary equipment Modeling, and be converted into the end Web and show model；

Step 2 establishes equipment topological relation according to substation equipment primary connection figure and physical cabling mode；

Step 3 establishes equipment topology with the incidence relation of threedimensional model, and intellectual analysis current device electriferous state is simultaneously shown Show, supports in different colors to show the separate differentiation of difference of equipment；

Step 4, state change is performed, records operating status change time and the modification people of distinct device, re-starts and open up automatically Flutter calculating, refreshing a device electriferous state.

2. the transforming plant primary equipment electriferous state monitoring method according to claim 1 based on WEB terminal three-dimensional modeling, Be characterized in that: primary equipment includes switch, disconnecting link, bus and connecting line in the substation that the step 1 obtains.

3. the transforming plant primary equipment electriferous state monitoring method according to claim 1 based on WEB terminal three-dimensional modeling, Be characterized in that: step 1 threedimensional model models in the following way: the modeling of 3DMAX, GIS or BIM development platform.

4. the transforming plant primary equipment electriferous state monitoring according to claim 1 or 2 or 3 based on WEB terminal three-dimensional modeling Method, it is characterised in that: the concrete methods of realizing of the step 2 the following steps are included:

Step 2.1 draws interior primary connection figure of standing using dedicated drawing tool according to Substation Bus Arrangement and the method for operation, and will The topological relation input database of equipment；

Step 2.2 is believed according to the initial charged state that original equipment open and-shut mode and topological relation refresh transforming plant primary equipment Breath.

5. the transforming plant primary equipment electriferous state monitoring according to claim 1 or 2 or 3 based on WEB terminal three-dimensional modeling Method, it is characterised in that: the concrete methods of realizing of the step 3 the following steps are included:

Step 3.1 uniformly gives interior primary equipment model of standing to be named management, and device model is named with logging data inventory There is the equipment list of topological relation, establishes corresponding association；

When step 3.2, end rendering substation's threedimensional model, primary equipment electriferous state is obtained, corresponding electriferous state is shown to On threedimensional model, electriferous state is shown by rending model color, and the charged color area of different colours is carried out to A, B, C phase Point.

6. the transforming plant primary equipment electriferous state monitoring according to claim 1 or 2 or 3 based on WEB terminal three-dimensional modeling Method, it is characterised in that: the step 3 shows instruction or browser model rendering idsplay order mode using threedimensional model webpage It realizes.

7. the transforming plant primary equipment electriferous state monitoring method according to claim 6 based on WEB terminal three-dimensional modeling, Be characterized in that: the threedimensional model webpage shows instruction using .NET frame and C# language, is parsed by calling to model file, And .html .js and .json formatted file are converted to using JavaScript and HTML technology, and implementation model is in browser page Displaying in face；The browser model rendering idsplay order uses Web3D technology, will by the GLSL ES tinter of WebGL Threedimensional model carries out rendering displaying in client browser.

8. the transforming plant primary equipment electriferous state monitoring according to claim 1 or 2 or 3 based on WEB terminal three-dimensional modeling Method, it is characterised in that: the concrete methods of realizing of the step 4 the following steps are included:

Step 4.1 changes mode using convenient and fast equipment state, changes to the open and-shut mode of switch, disconnecting link, system record Equipment state changes time, modification people；

Step 4.2, system background accepting device Status Change information trigger topological calculating instrument and carry out weight to equipment live state New analysis；

Step 4.3, Web end system are according to the electriferous state of setting period frequency reacquisition equipment and again to equipment three-dimensional mould Type carries out electrification coloring.