CN102324060A - Method for acquiring multidimensional space-time power-engineering geological information and device - Google Patents

Abstract

The invention discloses a method for acquiring multidimensional space-time power-engineering geological information and a device, which are used for providing the one-stop type acquisition of the information, such as basic engineering geology, hydrological geology, seismic geology, engineering data and the like of engineering field regions and nearby places. The method for acquiring the multidimensional space-time power-engineering geological information comprises the following steps of: acquiring geological data distributed on an electrical network at a preset area and engineering data designed in the power engineering at the preset area; carrying out spatial-position superposition for the coordinates of the geological data and the coordinates of the engineering data to obtain a multidimensional space-time power-engineering geological-information model; and obtaining the multidimensional space-time power-engineering geological information by transferring design parameters in the multidimensional space-time power-engineering geological-information model. The method and the device have the beneficial effects that: the method and the device are favorable to discriminating, screening and entering representative and effective multi-source geological information from a large quantity of sporadic and scattered geological historical data, so that the geological information is clearer in levels, abundant in contents, centralized in display and clear at a glance.

Description

Hyperspace-time power engineering geological information acquisition methods and device

Technical field

The invention belongs to electric system, relate to a kind of hyperspace-time power engineering geological information acquisition methods and device.

Background technology

Existing figure is board-like, more and more influence power grid construction efficient by the pattern of engineering decentralized management engineering geological data; Can't satisfy the specific demand of the planning of electrical network project of transmitting and converting electricity, design, construction, operation, transformation; Need according to power engineering singularity, be badly in need of a kind of information model of design, so that integrate multi-source information; Comprehensive stack also represents by the engineering sequence, realizes the concentrated integrated management of geological information.The generic attribute that existing GIS-Geographic Information System is used as geography information to geological information is managed.Through overscanning, and lines and print hand writing are discerned in will scheming with the geological information drawing, and are converted into vector lines and vector literal, so that with the electronic chart convergent-divergent.

Because power engineering has special requirement for geologic hazard analysis and duration; The existing information system can't satisfy following requirement to engineering management: one, current GIS-Geographic Information System; The geological information attribute is only arranged; Lack the integrated management of power engineering information and electrical network storage information, more do not possess Electric Power Network Planning, just establish, arrange, be completed, the management in each stage such as transformation, cause the project planning designer to be difficult for systematically understanding near the geological condition the engineering; Cause delaying decision, influence the duration.Two, there is the risk of information distortion in sweep vectorization, occurs gross error easily, and geological information is unreliable.

And in the prior art for the insecure problem of power engineering geological information obtain manner, effective solution is not proposed as yet.

Summary of the invention

Fundamental purpose of the present invention provides hyperspace-time power engineering geological information acquisition methods and device, in order to solve the insecure problem of power engineering geological information obtain manner.

To achieve these goals, the present invention has adopted following technical scheme:

A kind of hyperspace-time power engineering geological information acquisition methods comprises: the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area; The coordinate of geologic data and the coordinate of project data are carried out the overlapping of locus, obtain hyperspace-time power engineering geological information model; And, obtain hyperspace-time power engineering geological information through transferring the design parameter in hyperspace-time power engineering geological information model.

Further, the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area comprises: according to the locus of grid distribution, obtain landform, landforms, the geological space data of grid distribution respectively.

Further, the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area also comprises: be designed to object with power engineering, obtain the time of planning, enforcement, operation and the transformation of power engineering design respectively.

Further; The coordinate of geologic data and the coordinate of project data are being carried out the overlapping of locus; Obtain after power engineering hyperspace-time geological information model; Power engineering geological information acquisition methods also comprises: according to the variation of geologic data and project data, on-the-fly modify power engineering hyperspace-time geological information model.

According to another aspect of the present invention, a kind of hyperspace-time power engineering geological information deriving means is provided, and realizes through following technical scheme:

A kind of hyperspace-time power engineering geological information deriving means comprises: acquisition module is used to obtain the project data of power engineering design of geologic data and presumptive area of the grid distribution of presumptive area; Overlapping module is used for the coordinate of geologic data and the coordinate of project data are carried out the overlapping of locus, obtains power engineering hyperspace-time geological information model; And transfer module, and be used for transferring the design parameter of power engineering hyperspace-time geological information model, obtain hyperspace-time power engineering geological information.

Further, hyperspace-time power engineering geological information deriving means also comprises: modified module, be used for variation according to geologic data and project data, and on-the-fly modify power engineering hyperspace-time geological information model.

Compared with prior art; The invention has the beneficial effects as follows: help the Geotechnical Engineering technician according to actual demands of engineering, from a large amount of fragmentary, the earth history data of disperseing, screen, screening, typing is representative, the multi-source geological information of validity; Helping foundation figure is comprehensively, intuitively; The database that dotted line combines makes geological information clear layer, abundant in content, centralized displaying more, comes into plain view.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present invention, constitutes the application's a part, and illustrative examples of the present invention and explanation thereof are used to explain the present invention, do not constitute improper qualification of the present invention.In the accompanying drawings:

Fig. 1 is the process flow diagram according to embodiment of the invention hyperspace-time power engineering geological information acquisition methods;

Fig. 2 is the specific embodiment synoptic diagram of hyperspace of the present invention-time power engineering geological information acquisition methods;

Fig. 3 is the system platform figure of hyperspace of the present invention-time power engineering geological information acquisition methods; And

Fig. 4 is the structural representation of hyperspace of the present invention-time power engineering geological information deriving means.

Embodiment

Need to prove that under the situation of not conflicting, embodiment and the characteristic among the embodiment among the application can make up each other.Below with reference to accompanying drawing and combine embodiment to specify the present invention.

Fig. 1 is the process flow diagram according to embodiment of the invention hyperspace-time power engineering geological information acquisition methods.

Referring to shown in Figure 1, hyperspace-time power engineering geological information acquisition methods comprises: the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area; The coordinate of geologic data and the coordinate of project data are carried out the overlapping of locus, obtain hyperspace-time power engineering geological information model; And, obtain hyperspace-time power engineering geological information through transferring the design parameter in hyperspace-time power engineering geological information model.Concrete; In selected zone; With the locus is main shaft; Landform, landforms, the geological space data of grid distribution situation with the grid distribution place is associated; Intuitively by landforms and geologic condition around the divisional description electrical network facilities of locus, the one-stop information such as engineering place and near basic engineering geology thereof, hydrogeology, seismogeology, engineering data of obtaining, as: multinomial contents such as Domain Stability condition, formation lithology, underground water and surface water condition, site category, earthquake liquefaction, geologic hazard type and distribution, soil resistivity, foundation bearing capacity; Be designed to object with power engineering again,, constitute the multidimensional information structure by planning, just establish, arrange, move, transform as timing node, and according to follow-up power engineering design dynamic management geology and power engineering information.

Can find out this information model, helping the stages such as feasibility study, planning addressing route selection carries out geologic condition macro-control decision-making; Help the Geotechnical Engineering technician according to actual demands of engineering; From a large amount of fragmentary, the earth history data of disperseing, screen, screening; Typing is representative, the multi-source geological information of validity, and helping foundation figure is comprehensively, intuitively, the database that dotted line combines; Make geological information clear layer, abundant in content, centralized displaying more, come into plain view.

Preferably, the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area comprises: according to the locus of grid distribution, obtain landform, landforms, the geological space data of grid distribution respectively.Wherein, The landform of grid distribution, landforms, geological space data comprise: information such as engineering geology, hydrogeology, seismogeology, engineering data, as: multinomial contents such as Domain Stability condition, formation lithology, underground water and surface water condition, site category, earthquake liquefaction, geologic hazard type and distribution, soil resistivity, foundation bearing capacity.

Preferably, the project data of power engineering design of geologic data and presumptive area that obtains the grid distribution of presumptive area also comprises: be designed to object with power engineering, obtain the time of planning, enforcement, operation and the transformation of power engineering design respectively.Wherein, the time of planning, enforcement, operation and the transformation of power engineering design comprises: each material time node of electric power facilities such as transformer station, pole line, cable tunnel.

Preferably; The coordinate of geologic data and the coordinate of project data are being carried out the overlapping of locus; Obtain after power engineering hyperspace-time geological information model; Power engineering geological information acquisition methods also comprises: according to the variation of geologic data and project data, on-the-fly modify power engineering hyperspace-time geological information model.Be about to information such as above-mentioned engineering geology, hydrogeology, seismogeology, engineering data; As: each material time node of electric power facility such as multinomial content such as Domain Stability condition, formation lithology, underground water and surface water condition, site category, earthquake liquefaction, geologic hazard type and distribution, soil resistivity, foundation bearing capacity and transformer station, pole line, cable tunnel spatially is coupled; Form the hyperspace-time electric power facility engineering geology information model of original creation, support the life-cycle management of electric power facility engineering geology information.

Fig. 2 is the specific embodiment synoptic diagram at hyperspace of the present invention-time power engineering geological information acquisition methods.

Present embodiment is example with the Beijing area; With collecting good data such as prospecting report; Geologic map system typing geological information storehouse after conclusion, digitizing; With planning, design, construction and the operation information typing Geological Information Management system of power engineering design, above-mentioned geological information storehouse and Geological Information Management system is interconnected through system platform, information browse and information retrieval service can be provided; Through information retrieval, can more accurate data information sharing be provided for each department/project links such as planning, design, construction and operations.Fig. 3 is the system platform figure of hyperspace time power engineering geological information acquisition methods of the present invention.

Wherein, the said system platform in general, system has adopted three tier architecture, and is as shown in Figure 3, comprising: service application layer, application system platform layer and basic platform layer.

Basic platform layer: comprise the attribute database of storing geological information and the GIS database of graphics information; And the geology digital model storehouse that makes up according to basic data; Specifically comprise geologic feature point business model, function integrated model and rights management model.

Application system platform layer: comprise the application service assembly that is used for the management data model and service is provided for service application layer; For example map display module, printout assembly, geology modelling component, statistical query assembly, layer management assembly, analytical calculation assembly, unique point Management Unit etc.; Application system platform layer also provides simultaneously: services such as interface engine, allocation engine, plug-in unit engine and buffering engine.

Service application layer: comprise all kinds of business functions and use, the for example management of various geological informations, the management of bottom lithology, geology constitute management, seismic activity management, spatial analysis, query statistic, design data management, printout and interface function etc.

Can find; Help the Geotechnical Engineering technician according to actual demands of engineering through method of the present invention, from a large amount of fragmentary, the earth history data of disperseing, screen, screening, typing is representative, the multi-source geological information of validity; Helping foundation figure is comprehensively, intuitively; The database that dotted line combines makes geological information clear layer, abundant in content, centralized displaying more, comes into plain view.

Fig. 4 is the structural representation of hyperspace of the present invention-time power engineering geological information deriving means.

Can see that from Fig. 4 hyperspace of the present invention-time power engineering geological information deriving means comprises acquisition module, overlapping module and transfers module.Wherein, acquisition module is used to obtain the project data of power engineering design of geologic data and presumptive area of the grid distribution of presumptive area; Overlapping module is used for the coordinate of the coordinate of geologic data and project data is carried out the overlapping of locus, obtains power engineering hyperspace-time geological information model; Transfer the design parameter that module is used for transferring power engineering hyperspace-time geological information model, obtain hyperspace-time power engineering geological information.

Preferably, hyperspace-time power engineering geological information deriving means also comprises modified module, is used for the variation according to geologic data and project data, on-the-fly modifies power engineering hyperspace-time geological information model.

The above is merely the preferred embodiments of the present invention, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.All within spirit of the present invention and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. hyperspace-time power engineering geological information acquisition methods is characterized in that, comprising:

Obtain the project data of power engineering design of geologic data and said presumptive area of the grid distribution of presumptive area;

The coordinate of said geologic data and the coordinate of said project data are carried out the overlapping of locus, obtain said hyperspace-time power engineering geological information model; And

Through transferring the design parameter in said hyperspace-time power engineering geological information model, obtain said hyperspace-time power engineering geological information.

2. power engineering geological information acquisition methods according to claim 1 is characterized in that, the project data of the geologic data of the said grid distribution of obtaining presumptive area and the power engineering of said presumptive area design comprises:

According to the locus of said grid distribution, obtain landform, landforms, the geological space data of said grid distribution respectively.

3. power engineering geological information acquisition methods according to claim 1 is characterized in that, the project data of the geologic data of the said grid distribution of obtaining presumptive area and the power engineering of said presumptive area design also comprises:

Be designed to object with said power engineering, obtain the time of planning, enforcement, operation and the transformation of said power engineering design respectively.

4. power engineering geological information acquisition methods according to claim 1; It is characterized in that; The coordinate of said geologic data and the coordinate of said project data are being carried out the overlapping of locus; Obtain after said power engineering hyperspace-time geological information model, said power engineering geological information acquisition methods also comprises:

According to the variation of said geologic data and said project data, on-the-fly modify said power engineering hyperspace-time geological information model.

5. hyperspace-time power engineering geological information deriving means is characterized in that, comprising:

Acquisition module is used to obtain the project data of power engineering design of geologic data and said presumptive area of the grid distribution of presumptive area;

Overlapping module is used for the coordinate of said geologic data and the coordinate of said project data are carried out the overlapping of locus, obtains said power engineering hyperspace-time geological information model; And

Transfer module, be used for transferring the design parameter of said power engineering hyperspace-time geological information model, obtain said hyperspace-time power engineering geological information.

6. power engineering geological information deriving means according to claim 5 is characterized in that, also comprises:

Modified module is used for the variation according to said geologic data and project data, on-the-fly modifies said power engineering hyperspace-time geological information model.

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