CN211319218U - Intelligent factory monitoring and control system based on BIM - Google Patents

Abstract

The utility model provides an intelligence mill monitoring and control system based on BIM, include: a plurality of smart machines, a plurality of sensor, BIM management platform, BIM display terminal, all the smart machines are connected BIM display terminal, all the sensor is connected BIM display terminal, BIM display terminal is equipped with AI voice control module and audio alert module, BIM management platform generates the visual building model of intelligent factory. The utility model discloses a BIM management platform generates the visual building model of intelligent mill on BIM display terminal, realizes the real-time supervision to intelligent mill.

Description

Intelligent factory monitoring and control system based on BIM

Technical Field

The utility model relates to a BIM technical field, concretely relates to intelligence mill monitoring and control system based on BIM.

Background

Building Information Modeling (BIM) is based on various relevant Information data of a construction project, Building models are built, and real Information of buildings is simulated through digital Information. The method has five characteristics of visualization, coordination, simulation, optimization and graphing.

The constantly changing environment of various devices and personnel in a factory brings difficulty to timely know the conditions in the factory, and the problems of resource waste and low working efficiency are easily caused due to the difficulty in real-time supervision of the factory.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to avoid the weak point among the prior art and provide an intelligent factory monitoring and control system based on BIM, the better supervises mill.

The purpose of the utility model is realized through the following technical scheme: the utility model provides an intelligence mill monitoring and control system based on BIM, include: a plurality of smart machines, a plurality of sensor, BIM management platform, BIM display terminal, all the smart machines are connected BIM display terminal, all the sensor is connected BIM display terminal, BIM display terminal is equipped with AI voice control module and audio alert module, BIM management platform generates the visual building model of intelligent factory.

Preferably, the visualized building model is generated by three-dimensional information rendering through a computer.

Preferably, data of the smart device and the sensor are imported into the visual building model point-to-point.

Preferably, the visualized building model designs a three-dimensional scene through an OpenMP parallel development technology and draws the three-dimensional scene in parallel.

Preferably, the three-dimensional information rendering is performed by a cluster consisting of a plurality of computers.

Preferably, the three-dimensional information rendering is visualized by an OSG rendering engine.

Preferably, the AI voice control module dialogues with a person through a human body intelligent perception technology and explains an operation condition of an intelligent factory.

Preferably, the BIM display terminal has any number of display screens.

According to the above technical scheme, the utility model discloses following beneficial effect has: the utility model provides an intelligence mill monitoring and control system based on BIM generates the visual building model of intelligent mill on BIM display terminal through BIM management platform, realizes the real-time supervision to intelligent mill.

Drawings

The invention is further described with the aid of the accompanying drawings, in which, however, the embodiments do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be derived from the following drawings without inventive effort.

Fig. 1 is the utility model discloses an intelligent factory monitoring and control system's based on BIM block diagram.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

The structural block diagram of the intelligent factory monitoring and control system based on the BIM of the embodiment includes: a plurality of smart machines, a plurality of sensor, BIM management platform, BIM display terminal, all the smart machines are connected BIM display terminal, all the sensor is connected BIM display terminal, BIM display terminal is equipped with AI voice control module and audio alert module, BIM management platform generates the visual building model of intelligent factory.

In this embodiment, the visualized building model is generated by rendering three-dimensional information through a computer, including dynamic graph drawing and three-dimensional spatial information visualization.

Three-dimensional information rendering within the resolution range supported by a single computer, including geographic information rendering, is performed by multiple computers. For example: massive information data and insufficient single-machine computing capacity; or ultra-high resolution, such as 4000 million and more pixels, it is difficult for a single computer to provide dynamic point-to-point rendering of up to 24 frames. When a cluster consisting of a plurality of computers carries out three-dimensional rendering, the computing power of the cluster is the sum of the computing power of each node. Therefore, in this embodiment, a very high-end computer or graphic computing hardware is not required, and clustering can be performed by using common hardware devices through software and an advanced architecture, so as to obtain a BIM platform with the best cost performance. The present embodiment is to render only the portion of the content that it is to display by a single node (computer). However, for complex scenes, the non-displayed portion is clipped, which consumes some time and computing power, but overall, this portion is not the maximum resource consumption for three-dimensional rendering. In the embodiment, a parallel graph drawing technology is adopted, one large-resolution picture is split into a plurality of small pictures, a plurality of players are adopted to respectively render the pictures, and a common PC server can realize distributed graph rendering and splicing, so that the graph rendering efficiency is greatly improved, the dependence on professional hardware is reduced, and the hardware investment is greatly saved.

On the basis of multi-core computation and parallel program design, a multi-core three-dimensional scene is designed by utilizing the parallelism of three-dimensional scene data and an OpenMP parallel development technology to draw a visual building model of an intelligent factory in parallel, multi-core computing resources of a computer are fully utilized, a plurality of synchronous threads are derived to draw non-relevant data of the three-dimensional scene in parallel and an OSG rendering engine is adopted for visualization, rendering and vivid display of the three-dimensional model are supported, roaming, zooming and dragging at any visual angle are supported, and obvious delay and tailing do not exist.

Operating state parameters of intelligent equipment and important sensors in the intelligent factory are led into the visual building model point to point through a visual building model open data interface of the intelligent factory, and visual display is carried out on a parallel splicing display system. The remote inspection and remote inquiry of the running state of the equipment are realized through the visual building model; displaying the escape opening and the emergency evacuation rendezvous point of each area; when important alarm occurs, a CCTV picture for alarm is automatically called, alarm sound is given out through the voice alarm module, a visual building model of an alarm area is automatically popped up, red flashing information appears in the corresponding alarm area, and the system automatically prompts a route which quickly reaches the scene at the fastest speed.

The AI intelligent voice interaction control of the embodiment adopts a human body intelligent sensing technology, and can carry out conversation with people to execute corresponding operation instructions through big data training and data import. For example, the image can be called and the large screen can be split according to the instruction of a person, and the data display image can be exported (such as an energy report, the plant area load distribution condition, the plant area meteorological condition and the running state of a power system); the whole operation condition of a factory area and a system and the operation principle of the system can be explained, and when the problem can not be answered or judged, the meaning of the problem can be asked reversely, and the intention of the problem can be confirmed.

In this embodiment, the purpose of visualization management is to completely present as much information as possible in time and space, and high definition, completeness, three-dimensional and dynamic are required. The visual collaborative management system refers to a plurality of display systems, each of which may have its own features, may be single-screen or multi-screen, may have a resolution of 1K or 100K, and the goal of multi-screen interaction is to allow a user to interact with any one of the display systems. By adopting a multi-screen interactive display technology, the server adopts a parallel computer cluster technology and a three-dimensional visualization technology to realize the visualization of ultra-high definition and ultra-large data volume, and can display ultra-large scale pictures, play ultra-high definition videos, perform three-dimensional analog simulation and dynamically display huge data in a visualization mode.

The embodiment provides an intelligent factory monitoring and control system based on BIM, which generates a visual building model of an intelligent factory on a BIM display terminal through a BIM management platform, and realizes real-time supervision of the intelligent factory.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. An intelligent factory monitoring and control system based on BIM, comprising: a plurality of smart machines, a plurality of sensor, BIM management platform, BIM display terminal, all the smart machines are connected BIM display terminal, all the sensor is connected BIM display terminal, BIM display terminal is equipped with AI voice control module and audio alert module, BIM management platform generates the visual building model of intelligent factory.

2. The BIM-based intelligent plant monitoring and control system of claim 1, wherein: and the visual building model is generated by rendering three-dimensional information through a computer.

3. The BIM-based intelligent plant monitoring and control system of claim 1, wherein: data of the intelligent device and the sensor are imported into the visual building model point to point.

4. The BIM-based intelligent plant monitoring and control system of claim 1, wherein: the visual building model designs a three-dimensional scene through an OpenMP parallel development technology and draws in parallel.

5. The BIM-based intelligent plant monitoring and control system of claim 2, wherein: the three-dimensional information rendering is performed by a cluster consisting of a plurality of computers.

6. The BIM-based intelligent plant monitoring and control system of claim 2, wherein: and the three-dimensional information rendering is visualized through an OSG rendering engine.

7. The BIM-based intelligent plant monitoring and control system of claim 1, wherein: the AI voice control module is in conversation with people through a human intelligent perception technology and explains the operation condition of an intelligent factory.

8. The BIM-based intelligent plant monitoring and control system of claim 1, wherein: the BIM display terminal has any number of display screens.

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