CN110175203B - Mine production technology collaborative operation platform system based on internet - Google Patents

Abstract

The invention discloses an internet-based mine production technology collaborative operation platform system, which comprises a data layer, a data exchange layer, a collaborative platform layer, a tool set and a business layer, wherein the data exchange layer is used for exchanging data; the data exchange layer is used for carrying out data interaction with the data layer through the Internet; the collaborative platform layer comprises a standard data interface which is butted with tool software and is based on internet communication and a service flow management module which takes mine full life cycle service flow as a basis; the tool set comprises all tool software required in the mine full life cycle business process; the service layer comprises all service modules contained in the mine full life cycle, and each service module is connected with one or more corresponding tool software in the tool set through the Internet. The invention can dredge and standardize all the service flows of mine production, realize information sharing and cooperative operation of the whole life cycle of the mine and improve the production efficiency of the mine.

Description

Mine production technology collaborative operation platform system based on internet

Technical Field

The invention relates to the field of digital and intelligent construction of mines, in particular to an internet-based collaborative operation platform system for a mine production technology.

Background

In the process of mine digital intelligent construction, related software and hardware products of mine digital intelligent are bound to come from different manufacturers, and the manufacturers lack uniform standards and specifications, so that the information of the products cannot be interconnected and communicated with each other, a large amount of information islands are formed, data often appear in places where the existing information cannot be used, and the data sometimes have to be produced again to meet the use requirements of the products, so that the waste of a large amount of information resources and labor cost is caused; and because of a large number of information isolated islands, the service flow is unsmooth in the whole life cycle of the mine, the information among all the services is seriously disconnected, the efficiency is low, and the input and the output of the digital intelligent construction of the mine are inconsistent.

In addition, limited by practical conditions and technical development, the existing digitalized intelligent related products of mines only support the digitization of part of a specific service of a full life cycle service process of the mines, the digitization of a specific service or the digitization of a plurality of services, and the fundamental reason for the digitization is that a cooperation platform capable of standardizing data and the digitization of the service process is lacked, so that the data interconnection, the data efficient flow transfer and the data sharing of the full life cycle service process of the mines cannot be ensured, and the flow, the standardization and the cooperative operation of professional technical work such as the full life cycle geology, the measurement, the mining and the like cannot be realized.

In view of the above, a collaborative operation platform system for full life cycle production technology of underground and open-pit mines is needed to realize information sharing and collaborative operation of the full life cycle of the mines.

Disclosure of Invention

The invention aims to provide an internet-based mine production technology collaborative operation platform system, which is used for dredging and standardizing all business processes of mine production, realizing information sharing and collaborative operation of a mine full life cycle and improving the production efficiency.

In order to achieve the technical purpose, the technical scheme of the invention is as follows:

an internet-based mine production technology collaborative work platform system comprises:

the data layer is used for storing standardized basic service data in the form of a central database, and the basic service data comprises geological data, measurement data, mining engineering data, production management data and management process data contained in the whole life cycle of a mine;

the data exchange layer is in data interaction with the data layer through the Internet, is used for performing standardized processing on basic service data according to a data standard and uploading the basic service data to a central database for uniform storage, and is also used for exporting data required by the format required by tool software from the central database;

the collaborative platform layer comprises a standard data interface which is in butt joint with tool software and is based on internet communication and a business process management module which takes mine full life cycle business flow as a base; the standard data interface of the collaboration platform layer is opened to access all tool software through the Internet, and the standard data interface also performs data interaction with the data exchange layer so as to send basic service data uploaded by the tool software to the data exchange layer; the service process management module is used for defining and establishing a mine full life cycle service process, configuring, initiating, handling and examining and approving standardized service processes for a service layer through the Internet, filing the results of the service processes and reminding the completion of the service, and forming the cooperative operation of each service module and the information sharing among all the service modules;

the tool set comprises all tool software required in the mine full life cycle service process, each tool software is connected with the collaboration platform through a standard data interface of the collaboration platform layer, the tool software acquires standardized data from the central database through the standard data interface, and basic service data generated by the tool software is fed back to the central database;

and the service layer comprises all service modules contained in the whole life cycle of the mine, each service module is connected with one or more corresponding tool software in the tool set through the Internet, the service module is used for calling one or more tool software according to the standardized service flow to complete the corresponding service flow and generate corresponding basic service data, and the basic service data are uploaded to the data exchange layer and the central database through a standard data interface.

Further, the geological data comprises drilling lithology data, drilling sample data, geological logging data, construction data, geological interpretation line data, ore body model data, stone clamping model data, fault model data, surrounding rock model data and hydrogeological data;

the measurement data comprises control measurement data, roadway engineering measurement data, goaf measurement data, topographic measurement data and mining stripping field measurement data;

the mining engineering data comprises development design data, mining cutting design data, stoping design data, blasting design data, filling design data, production plan data, roadway engineering model data, dead zone model data, earth surface model data, ore pile model data and ventilation data;

the production management data comprises mine operation site data, production plan execution data, production scheduling data, tertiary ore volume data, dilution loss management data, mine right management data, safety management data and geological reserve management data;

the process management data comprises mine full life cycle business flow management data, business communication data, working process data, knowledge sharing data and user management data.

Further, the tool software comprises geological modeling software, resource management software, roadway engineering software, mining design software, blasting design software, ventilation optimization software, production planning software, production execution system software, management and control system software, rock mechanics numerical analysis and model software and measurement acceptance software.

Furthermore, the cooperative platform layer can support a C/S, a B/S and an APP mobile terminal.

Furthermore, the business module comprises a geological resource evaluation module, an exploitation planning and design module, a production planning module, production management and measurement acceptance.

After the scheme is adopted, the technical effects of the invention are as follows:

1. the data exchange layer unifies and standardizes basic service data, the central database uniformly stores standardized data, and the data exchange layer derives data required by the format of tool software from the central database, so that the data requirements of the tool software of each service and the tool software of different manufacturers are met, and the data interconnection and intercommunication of each service module is realized;

2. the invention also realizes data interaction with different tool software through a collaboration platform layer based on a standard data interface, and utilizes a business flow management module of the collaboration platform layer to carry out standardized management on each business flow, thereby realizing collaboration operation and information sharing of each business module;

3. the data interaction of each layer of the invention is based on the internet technology, can realize near-remote data transmission, covers all business links of mine production, improves the data transmission efficiency of mine production, and ensures the timeliness of data, thereby improving the processing efficiency of all business processes and further achieving the purpose of improving the mine production efficiency.

Drawings

Fig. 1 is a system diagram of an internet-based mine production technology collaborative work platform provided by an embodiment of the invention.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms than those specifically described herein, and it will be apparent to those skilled in the art that many more modifications are possible without departing from the spirit and scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1, the mine production technology collaborative work platform system based on the internet disclosed by the embodiment of the present invention includes a data layer, a data exchange layer, a collaborative platform layer, a tool set and a service layer;

the data layer is used for storing standardized basic service data in the form of a central database, and the basic service data comprises all information and management process data of services such as land, survey, mining and production management contained in the whole life cycle of the mine; the central database is a data set which is stored together in a certain mode, can be shared by a plurality of users, has the smallest redundancy rate and is independent from an application program, the data stored in the central database has a uniform standardized format, the management of data addition, deletion, updating and the like is facilitated, and the uniform storage of all mine production basic service data is also the basis of information sharing among service modules;

in this embodiment, the basic service data specifically includes geological data, measurement data, mining engineering data, production management data, and management process data included in the mine full life cycle; more specifically, the geological data comprises borehole lithology data, borehole sample data, geological logging data, formation data, geological interpretation line data, ore body model data, rock inclusion model data, fault model data, surrounding rock model data, hydrogeological data; the measurement data comprises control measurement data, roadway engineering measurement data, goaf measurement data, topographic measurement data and mining stripping field measurement data; the mining engineering data comprises development design data, mining cutting design data, stoping design data, blasting design data, filling design data, production plan data, roadway engineering model data, dead zone model data, surface model data, ore pile model data and ventilation data; the production management data comprises mine operation site data, production plan execution data, production scheduling data, tertiary ore volume data, dilution loss management data, mine right management data, safety management data and geological reserve management data; the process management data comprises mine full-life-cycle service flow management data, service exchange data, working process data, knowledge sharing data and user management data, and the management process data is generated in a service flow management module of the collaborative service layer; of course, the basic service data listed in this embodiment is common data generated in current mine production, the types of data that can be processed by the present invention are not limited thereto, and various types of data generated according to new services are all covered by the scope that can be processed by this embodiment.

The data exchange layer carries out data interaction with the data layer through the Internet, is used for carrying out standardized processing on basic service data generated by each service module according to data standards and uploading the basic service data to a central database for unified storage, and is also used for exporting data required by a format required by tool software from the central database, so that the data exchange layer exchanges the data generated by each service module and meets the storage requirement of the central database on the data;

the collaboration platform layer comprises a standard data interface which is in butt joint with tool software and is based on internet communication and a service flow management module which takes mine full life cycle service flow as a basis; the standard data interface of the collaboration platform layer is opened to access all tool software through the Internet, and the standard data interface also performs data interaction with the data exchange layer so as to send basic service data uploaded by the tool software to the data exchange layer; the service process management module on the collaboration platform is used for defining and creating the existing mine full life cycle service process, configuring, initiating, handling and approving standardized service processes for a service layer through the Internet, archiving the results of the service processes and reminding the completion of the service, and forming the collaboration operation of each service module and the information sharing of all the service modules; besides the business process management module, the collaboration platform layer can also comprise a basic data input module, a free collaboration module, a technical result module, a user management module, a knowledge management module and the like, wherein the modules respectively input the number of users, freely match and collaborate among businesses, archive and store technical results, manage users and manage knowledge; in the embodiment, the collaboration platform layer supports a C/S, a B/S and an APP mobile terminal, wherein the APP mobile terminal is mainly used for backlog, collaboration, business exchange, knowledge sharing, process approval and the like; in addition, the collaboration platform layer is based on the service flow of the whole life cycle of the mine, and determines the service post responsibility of each service flow node (namely each service module), so that the mine service is subjected to normalized operation and efficient circulation through the service flow.

The tool set comprises all tool software required in the mine full life cycle service process, each tool software is connected with the collaboration platform through a standard data interface of the collaboration platform layer, the tool software acquires standardized data from the central database through the standard data interface, and basic service data generated by the tool software is fed back to the central database, so that data interconnection and intercommunication and sharing are guaranteed; specifically, the tool software of this embodiment includes geological modeling software, resource management software, roadway engineering software, mining design software, blasting design software, ventilation optimization software, production planning software, production execution system software, management and control system software, rock mechanics numerical analysis and model software, and measurement acceptance software, but this embodiment does not limit the tool software to which the standard data interface can be accessed, and according to new business requirements, the standard data interface of this embodiment can also be accessed to other tool software through the internet, and the standard data interface of the present invention can meet the data requirements of tool software of different manufacturers;

the service layer comprises all service modules contained in the mine full life cycle, each service module is connected with one or more tool software corresponding to a tool set through the Internet, the service module is used for calling one or more tool software to complete corresponding service processes according to the standardized service processes and generating corresponding basic service data, and the basic service data are uploaded to the data exchange layer and the central database through a standard data interface; the business module in the embodiment comprises geological resource evaluation, mining planning and design, production planning, production management measurement acceptance, pit closing, reclamation and the like. The service module is all services contained in the whole life cycle of the mine, each service module respectively covers sub-service modules which can be more refined, the sub-service modules can call one or more tool software for completing the service work, for example, the mining planning and designing service module can call mining design software, blasting design software, ventilation optimization software and the like, and the blasting design sub-service module of the mining planning and designing service module can be completed only by adopting the blasting design software.

The following embodiment further provides an application example of the data exchange layer for performing standardized processing on the basic service data, taking the service data standardization involved in the underground mine and roadway engineering service processing process as an example, the standardization of the roadway engineering service data can be classified into engineering points, engineering boundary lines, engineering entities and engineering labels, and the engineering points, the engineering boundary lines, the engineering entities and the engineering labels are further subdivided as follows:

engineering points are as follows: control points, measuring points, lofting points

The project boundary line is as follows: a roadway engineering actual measurement center line, a roadway actual measurement waist line, a roadway top plate actual measurement center line, a roadway bottom plate actual measurement center line, a well actual measurement center line, a roadway engineering design center line, a roadway design center line, a well design center line, a roadway design double line

Engineering entity: roadway engineering design model and roadway engineering actual measurement model

And (3) engineering labeling: entry ruler line of roadway engineering and marking point of roadway engineering

The following lists the data tables (see tables 1-3) where the engineering point data is normalized and stored in the central database.

TABLE 1 control point data Table

Name of field	Field code	Type of field
			Control point name	Name	varchar
North coordinate	X	double
			East coordinate	Y	double
Elevation	Z	double
			Rear viewpoint ID	BacksightPointUuid	uniqueidentifier
Control point type	ControlPointType	varchar
			Control point level	ControlPointLevel	varchar
Work site ID	WorkPlaceID	varchar
			Date of measurement	SurveyDate	datetime
Name of measurement	Surveyor	varchar

TABLE 2 survey point data sheet

Name of field	Field code	Type of field
			Point names	Name	varchar
North coordinate	Y	double
			East coordinate	X	double
Elevation	Z	double
			Type of measuring point	SurveyPointType	varchar
Work site ID	WorkPlaceID	varchar
			Date of measurement	SurveyDate	datetime
Measuring staff	Surveyor	varchar

TABLE 3 lofting point data sheet

Through the standardized processing of the data exchange layer, the central database is convenient to store uniformly, and when the service software calls the stored service data, the data which are required by the service software and meet the format requirement can be quickly exported by utilizing the function of quickly searching (such as field matching) of the central database, so that the data interaction efficiency is greatly improved, and the data exchange layer is also the basis for realizing the data sharing of the whole life cycle of the mine.

The invention provides an internet-based mine production technology collaborative operation platform system, which is characterized in that:

(1) Data exchange layer and central database: carrying out data standardization processing according to data standards, and uniformly storing and managing standardized data;

(2) Collaboration platform layer and toolset: the tool software is connected with the collaboration platform through a data standard interface, and a business flow management module of the collaboration platform carries out standardized management on each business flow, so that data sharing, high-speed circulation of the business flow and collaborative operation of each business after data standardization are realized.

The collaborative operation platform can configure a standardized service flow in the system in advance by a service flow management module of the collaborative service, the specific form can be a service flow standardized file, the service flow is initiated by the service flow management module, each service module calls corresponding tool software to operate according to the standardized service flow, the tool software is accessed to a collaborative platform layer through a standard data interface, data required by the tool software and exported from a central database are obtained from a data exchange layer, basic service data generated by the tool software are standardized by the data exchange layer and then stored in the central database, and each tool software can obtain relevant data required by the service at any time, so that the data sharing of the whole life cycle of a mine is realized, and the production efficiency is obviously improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (5)

1. The utility model provides a mine production technology collaborative work platform system based on internet which characterized in that includes:

the data layer is used for storing standardized basic service data in the form of a central database, and the basic service data comprises geological data, measurement data, mining engineering data, production management data and management process data contained in the whole life cycle of a mine;

the data exchange layer is in data interaction with the data layer through the Internet, is used for performing standardized processing on basic service data according to data standards and uploading the basic service data to a central database for uniform storage, and is also used for exporting data required by the format required by the tool software from the central database;

the collaborative platform layer comprises a standard data interface which is in butt joint with tool software and is based on internet communication and a business process management module which takes mine full life cycle business flow as a base; the standard data interface of the collaboration platform layer is opened to access all tool software through the Internet, and the standard data interface also performs data interaction with the data exchange layer so as to send basic service data uploaded by the tool software to the data exchange layer; the service process management module is used for defining and establishing a mine full life cycle service process, configuring, initiating, handling and examining and approving standardized service processes for a service layer through the Internet, filing the results of the service processes and reminding the completion of the service, and forming the cooperative operation of each service module and the information sharing among all the service modules;

the tool set comprises all tool software required in the mine full life cycle service process, each tool software is connected with the collaboration platform through a standard data interface of the collaboration platform layer, the tool software acquires standardized data from the central database through the standard data interface, and basic service data generated by the tool software is fed back to the central database; and

and the service layer comprises all service modules contained in the whole life cycle of the mine, each service module is connected with one or more corresponding tool software in the tool set through the Internet, the service module is used for calling one or more tool software according to the standardized service flow to complete the corresponding service flow and generate corresponding basic service data, and the basic service data are uploaded to the data exchange layer and the central database through a standard data interface.

2. The internet-based mine production technology collaborative work platform system of claim 1, wherein:

the geological data comprises drilling lithology data, drilling sample data, geological record data, construction data, geological interpretation line data, ore body model data, stone inclusion model data, fault model data, surrounding rock model data and hydrogeological data;

the measurement data comprises control measurement data, roadway engineering measurement data, goaf measurement data, topographic measurement data and mining stripping field measurement data;

the mining engineering data comprises development design data, mining cutting design data, stoping design data, blasting design data, filling design data, production plan data, roadway engineering model data, dead zone model data, surface model data, ore pile model data and ventilation data;

the production management data comprises mine operation site data, production plan execution data, production scheduling data, tertiary ore volume data, dilution loss management data, mine right management data, safety management data and geological reserve management data; and

the management process data comprises mine full life cycle business flow management data, business communication data, working process data, knowledge sharing data and user management data.

3. The internet-based mine production technology collaborative work platform system of claim 1, wherein: the tool software comprises geological modeling software, resource management software, roadway engineering software, mining design software, blasting design software, ventilation optimization software, production planning software, production execution system software, management and control system software, rock mechanics numerical analysis and model software and measurement acceptance software.

4. The internet-based mine production technology collaborative work platform system of claim 1, wherein: the cooperative platform layer can support C/S, B/S and APP mobile terminals.

5. The internet-based mine production technology collaborative work platform system of claim 1, wherein: the business module comprises a geological resource evaluation module, an exploitation planning and design module, a production planning module and a production management and measurement acceptance module.

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