CN219997573U - Three-dimensional visual information system for coal mine production - Google Patents
Three-dimensional visual information system for coal mine production Download PDFInfo
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- CN219997573U CN219997573U CN202320516331.5U CN202320516331U CN219997573U CN 219997573 U CN219997573 U CN 219997573U CN 202320516331 U CN202320516331 U CN 202320516331U CN 219997573 U CN219997573 U CN 219997573U
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Abstract
The utility model relates to the technical field of coal mine production, in particular to a three-dimensional visual information system for coal mine production, which comprises a data center, a model center and a management center, wherein the data center is connected with the model center; the model center is used for establishing a three-dimensional model of coal mine production, the data center establishes a data middle interaction center according to the equipment operation condition of the coal mine production and various data of the coal mine production environment, the three-dimensional model of the coal mine production is driven to operate in real time, and the management center enables a user to acquire the three-dimensional model and the production flow mapping of the coal mine production in real time, so that the whole process of the coal mine production is reflected, daily safe production management of the coal mine is guided, a more visual guiding effect is provided for handling emergency events of the coal mine, an information foundation is laid for disaster prevention and relief of the coal mine, the coal mine production organization level is promoted to be obviously improved, and the user requirements are met.
Description
Technical Field
The utility model relates to the technical field of coal mine production, in particular to a three-dimensional visual information system for coal mine production.
Background
In the production and construction process of coal mines, besides the necessary production pictures such as 'mining engineering plane pictures', 'aboveground and underground comparison pictures', 'industrial wide-field pictures', the three-dimensional model is increasingly applied, and the three-dimensional model can achieve incomparable effects of the two-dimensional plane pictures in the aspects of management layer production command, technician production management, unified scheduling of operation and maintenance staff, exploitation optimization design, staff training, professional education and the like.
There are some software developed mainly for mining engineering purposes, such as: three-dimensional modeling and analysis software MicroLYNX developed by Apollo technologies group company, canada, genicom developed by Genicom software International Inc. can well meet the requirements of mineral resource exploration and evaluation in mining activities, underground mine and open pit design and planning, mineral resource management, mining production management and the like, but the price of the software is relatively expensive.
In recent years, a method for establishing a roadway three-dimensional model through manual interaction based on an Autodesk company software platform is provided, and the method realizes certain automation, but for large-scale roadway modeling, the process is complex, the workload is high, some 3D simulation systems, such as GOCAD and the like, are already developed in the aspect of geologic body modeling, but are generally developed for specific fields, and the existing three-dimensional visual information system for coal mine production cannot meet the requirements.
Disclosure of Invention
The utility model aims to provide a three-dimensional visualized information system for coal mine production, which solves the problem that the existing three-dimensional visualized information system for coal mine production cannot meet the requirements.
In order to achieve the purpose, the utility model provides a three-dimensional visual information system for coal mine production, which comprises a data center, a model center and a management center, wherein the data center is connected with the model center, and the management center is connected with the model center;
the data center collects coal mine production data based on the Internet of things and the sensor technology and uploads the data to the model center;
the model center establishes a coal mine production three-dimensional model through the data;
and the management center is used for the interaction between the user and the model center.
The data center comprises a production data module and a geographic data module, and the production data module is connected with the model center; the geographic data module is connected with the model center.
The model center comprises an establishing module and a video module, wherein the establishing module is respectively connected with the production data module and the geographic data module; the video module is connected with the establishing module.
The management center comprises a patrol module and a presentation module, and the patrol module is connected with the establishment module; the presentation module is connected with the inspection module.
The management center further comprises an analysis module, and the analysis module is connected with the presentation module.
The management center further comprises an alarm module, and the alarm module is connected with the analysis module.
The management center further comprises a right management module, and the right management module is connected with the patrol module.
The utility model discloses a three-dimensional visualized information system for coal mine production, which is characterized in that a model center is used for establishing a three-dimensional model of coal mine production on a GIS basis, a data center is used for collecting coal mine production data through an Internet of things and a sensor, establishing a data intermediate interaction center according to the equipment operation condition of coal mine production and various data of coal mine production environment, realizing data standardization, uploading the data to the model center, driving the three-dimensional model of coal mine production to run in real time, and a management center is used for completing dynamic data and action gestures of users, so that the users can acquire the three-dimensional model and production flow mapping of coal mine production in real time, thereby reflecting the whole process of coal mine production, restoring the whole coal mine production process by means of a 3D visualization technology, guiding daily safety production management of coal mine, having more visual guiding function for handling emergent events, laying information foundation for coal mine disaster prevention and relief, promoting coal mine production organization level to be obviously improved, achieving the goals of highest comprehensive efficiency, least faults and maximum benefit, and meeting user demands.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.
Fig. 1 is a schematic structural view of a three-dimensional visual information system for coal mine production according to a first embodiment of the present utility model.
Fig. 2 is a schematic structural view of a mold center according to a second embodiment of the present utility model.
Fig. 3 is a schematic structural diagram of a management center according to a third embodiment of the present utility model.
Fig. 4 is a schematic view of a patrol module according to a third embodiment of the utility model.
In the figure: 101-data center, 102-model center, 103-management center, 104-production data module, 105-geographic data module, 201-setup module, 202-video module, 301-patrol module, 302-presentation module, 303-analysis module, 304-alarm module, 305-rights management module, 306-location unit, 307-recording unit, 308-navigation unit.
Detailed Description
The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.
The first embodiment of the utility model is as follows:
referring to fig. 1, fig. 1 is a schematic structural diagram of a three-dimensional visualized information system for coal mine production according to a first embodiment of the present utility model.
The utility model provides a three-dimensional visual information system for coal mine production, which comprises the following components: comprising a data center 101, a model center 102 and a management center 103, said data center 101 comprising a production data module 104 and a geographical data module 105. The problem that the existing coal mine production three-dimensional visual information system cannot meet the requirement is solved through the scheme, and it can be understood that the scheme can be used for a coal mine production visual scene and also can be used for solving the coal mine production management problem.
For the present embodiment, the data center 101 is connected to the model center 102, and the management center 103 is connected to the model center 102;
the data center 101 collects coal mine production data based on the internet of things and sensor technology, and uploads the data to the model center 102;
the model center 102 establishes a coal mine production three-dimensional model through the data;
the management center 103 is configured to interact with the model center 102 by a user. The model center 102 is used for obtaining equipment operation conditions of coal mine production and various data of environments of coal mine production through the Internet of things and sensor technology, the model center 102 is used for obtaining data of the equipment operation conditions of the coal mine production and the data intermediate interaction center through the GIS and suggesting, the data are normalized, the data are uploaded to the model center 102, real-time operation of the coal mine production three-dimensional model is driven, the management center 103 is used for obtaining dynamic data and action gestures of a user, the user enters the model center 102, and three-dimensional model and production flow mapping of the coal mine production are obtained in real time, so that the whole process of the coal mine production is reflected.
Wherein the production data module 104 is connected to the model center 102; the geographic data module 105 is connected to the model center 102. The production data module 104 acquires the operation condition of the coal mine production equipment through monitoring equipment and sensor technology, including equipment operation state, equipment fault detection, equipment lubrication management and equipment control management data, and uploads the data to the model center 102, and the geographic data module 105 acquires the coal mine production environment data through the internet of things and sensor technology and uploads the data to the model center 102.
According to the three-dimensional visualized information system for coal mine production, the production data module 104 uploads equipment operation condition data of coal mine production to the model center 102, the geographic data module 105 uploads environmental condition data of coal mine production to the model center 102, the model center 102 is based on a GIS foundation to obtain data resume a three-dimensional model for coal mine production, the management center 103 is used for interacting a user with the model center 102, the whole coal mine production process is obtained in real time in the three-dimensional model, the whole coal mine production process is restored by means of a 3D visualization technology, daily safety production management of a coal mine is guided, a more visual guiding effect is provided for handling emergency accidents of the coal mine, an information foundation is laid for coal mine disaster prevention and relief, the coal mine production organization level is promoted to be obviously improved, the aims of highest comprehensive efficiency, least faults and maximum benefits are achieved, and the user requirements are met.
The second embodiment of the utility model is as follows:
referring to fig. 2 on the basis of the first embodiment, fig. 2 is a schematic structural diagram of a model center 102 according to a second embodiment of the present utility model.
The model center 102 of the present embodiment includes a build module 201 and a video module 202.
For the present embodiment, the establishing module 201 is connected to the production data module 104 and the geographic data module 105 respectively; the video module 202 is connected to the setup module 201. The building module 201 is configured to obtain equipment operation condition data of coal mine production and environment condition data of coal mine production, build a corresponding three-dimensional model of coal mine production based on a GIS foundation, upload the three-dimensional model data to the video module 202, and display the three-dimensional model in real time by the video module 202 and reflect the three-dimensional model to the management center 103.
By using the three-dimensional visualized information system for coal mine production, a user interacts with the building module 201 through the management center 103, monitors the coal mine production process in real time, and finally feeds back the coal mine production process directly through the video module 202, so that the user can conveniently check the coal mine production process, the whole coal mine production process is restored by means of a 3D visualization technology, the daily safe production management of the coal mine is guided, more visual guidance effect is provided for the treatment of emergency events, an information foundation is laid for disaster prevention and relief of the coal mine, the coal mine production organization level is promoted to be obviously improved, the targets of highest comprehensive efficiency, least faults and maximum benefits are achieved, and the user requirements are met.
The third embodiment of the utility model is as follows:
referring to fig. 3 and 4, fig. 3 is a schematic structural diagram of a management center 103 according to a third embodiment of the present utility model. Fig. 4 is a schematic structural diagram of a patrol module 301 according to a third embodiment of the present utility model.
The management center 103 of the present embodiment includes a patrol module 301, a presentation module 302, an analysis module 303, an alarm module 304, and a rights management module 305, and the patrol module 301 includes a positioning unit 306, a recording unit 307, and a navigation unit 308.
For the present embodiment, the inspection module 301 is connected to the establishment module 201; the presentation module 302 is connected to the patrol module 301. The inspection module 301 is configured to interact with the establishment module 201, enter a three-dimensional model of coal mine production to perform inspection, acquire an equipment operation condition and an environmental condition in the coal mine production process, and the presentation module 302 acquires data acquired by the inspection module 301, analyzes production data at multiple angles through a histogram, a trend graph, a same-loop ratio and other various data display forms, and can flexibly select a data source to perform real-time check and comparison of historical data and assist in production management data analysis.
Wherein the analysis module 303 is connected to the presentation module 302. The analysis module 303 is configured to obtain the data of the operation condition and the environmental condition of the coal mine production equipment displayed by the presentation module 302, analyze the data, determine whether the data exceeds a set threshold, and if the data exceeds the set threshold, upload an instruction to the alarm module 304.
Next, the alarm module 304 is connected to the analysis module 303. The alarm module 304 receives the instruction of the analysis module 303, and sends information to an operator to inform the operator that the coal mine production is abnormal, so that the operator can maintain the coal mine production conveniently.
Meanwhile, the rights management module 305 is connected with the patrol module 301. The rights management module 305 designs related rights, gives corresponding functions, prevents users from logging in repeatedly in a plurality of systems, has calendar event management scheduling functions based on hours, days, months, quarters and years, can customize daily control and event response similar to holidays, provides a quality stamp of source data and a timestamp identification technology, automatically informs users of abnormal data, has a log diagnosis function, performs system operation responsibility and accident recall datamation, adapts to various screen sizes and has no distortion phenomenon.
In addition, the positioning unit 306 and the recording unit 307, the positioning unit 306 is connected with the setup module 201; the recording unit 307 is connected to the positioning unit 306. The navigation unit 308 is connected to the setup module 201. The positioning unit 306 obtains the geographic position of the user based on the GPS and transmits the geographic position of the user to the establishment model, the establishment model changes the three-dimensional model according to the gesture and the action of the user, the user can enter the three-dimensional model for patrolling in the scene, the recording unit 307 records and stores the three-dimensional model data for patrolling of the user, the later tracing is convenient, the navigation unit 308 obtains the data of the establishment module 201 and generates route data, the position of the current region in the coal mine production general map can be rapidly positioned, and personnel positioning linkage is supported in the three-dimensional system.
By using the three-dimensional visualized information system for coal mine production in this embodiment, a user enters the inspection module 301 through the rights management module 305, the building module 201 obtains the user gesture action data of the positioning unit 306, and produces a corresponding three-dimensional model, so that the user can personally inspect the three-dimensional model for coal mine production, the navigation unit 308 provides a route map for the user, the user can conveniently inspect, in the inspection process, the presentation module 302 analyzes the operation condition and the environmental condition of the coal mine production equipment in inspection through a histogram, a trend map, a same-ring ratio and other various data display forms, whether the analysis module 303 exceeds a set threshold value, if the analysis module exceeds the set threshold value, an instruction is issued to the alarm module 304, the alarm module 304 produces a corresponding information reminder and uploads the corresponding information reminder to an operator, and the operator can conveniently process the information.
And opening the island of the safety production data to build the full-dynamic perception three-dimensional visual management comprehensive platform. The traditional scheduling production management basis is that the off-line multi-system multi-platform planar collection disperses the data running in each business plate, and the safety production is guided after manual screening comprehensive analysis. The operation conditions of each production system of the mine can be intuitively and three-dimensionally monitored in real time through the project achievements, the pre-alarm threshold value of each business data is visually displayed according to the requirements, key attention targets can be provided for managers, the management efficiency is improved, and powerful help is provided for coal mine production management decisions.
And the operation and maintenance efficiency of the coal mine is improved. The traditional operation and maintenance is passive processing after equipment fails or a production flow goes wrong, and the implementation of the project utilizes a 3D visualization technology to combine various data early warning values to construct a virtual reality environment capable of perceiving a real state, and when a critical abnormal range of the data state occurs, an alarm can be actively given, and operation and maintenance personnel are informed of intervention according to requirements.
The safety and economic benefits are improved. The coal mine production environment is complex, the running state of all devices is achieved, and the working condition of staff plays a vital role in the safety production of the mine. By constructing a three-dimensional visual coal mine and industrial control fusion system, production accidents are reduced, and safety and economic benefits of coal mine enterprises are improved.
The man-saving effect is reduced, and the coal mine safety production level is improved. The three-dimensional visual coal mine and industrial control fusion system is established to lay a logic system foundation for the implementation of the intelligent mine and the unmanned mine in the next step, so that personnel intervention is reduced, and the safety production level of the coal mine is improved.
The method promotes the coal mine production organization level to be obviously improved, achieves the aims of highest comprehensive efficiency, least faults and maximum benefits, and meets the requirements of users.
The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.
Claims (7)
1. A three-dimensional visual information system for coal mine production is characterized in that,
the system comprises a data center, a model center and a management center, wherein the data center is connected with the model center, and the management center is connected with the model center;
the data center collects coal mine production data based on the Internet of things and the sensor technology and uploads the data to the model center;
the model center establishes a coal mine production three-dimensional model through the data;
and the management center is used for the interaction between the user and the model center.
2. The three-dimensional visualized information system for coal mine production according to claim 1, wherein,
the data center comprises a production data module and a geographic data module, and the production data module is connected with the model center; the geographic data module is connected with the model center.
3. A three-dimensional visual information system for coal mine production according to claim 2,
the model center comprises an establishing module and a video module, wherein the establishing module is respectively connected with the production data module and the geographic data module; the video module is connected with the establishing module.
4. A three-dimensional visual information system for coal mine production according to claim 3,
the management center comprises a patrol module and a presentation module, and the patrol module is connected with the establishment module; the presentation module is connected with the inspection module.
5. The three-dimensional visualized information system for coal mine production of claim 4, wherein,
the management center further comprises an analysis module, and the analysis module is connected with the presentation module.
6. The three-dimensional visualized information system for coal mine production of claim 5, wherein,
the management center further comprises an alarm module, and the alarm module is connected with the analysis module.
7. The three-dimensional visualized information system for coal mine production of claim 4, wherein,
the management center also comprises a right management module, and the right management module is connected with the patrol module.
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