CN113256073A - BIM-based real-time fault alarm system and method - Google Patents

Abstract

The invention relates to a system and a method, belongs to the field of computers, and particularly relates to a real-time fault alarm system and a real-time fault alarm method based on BIM. The BIM-based real-time fault alarm intelligent processing technology deeply integrates data information of all platforms, effectively carries out deep analysis, data mining, data integration and data trend analysis, aggregates multi-party information data to carry out deep learning, gets through data blocking among the platforms, actively realizes real-time intelligent distribution of equipment fault maintenance, and achieves the health management of the whole life cycle of equipment facilities.

Description

BIM-based real-time fault alarm system and method

Technical Field

The invention relates to an alarm system and method, belongs to the field of computers, and particularly relates to a real-time fault alarm system and method based on BIM.

Background

With the high-speed development of the intellectualization of cities, the wide application of new technologies such as the internet, big data and the internet of things, under the drive of a new information-carrying technology, the rapid development of domestic urban rail transit and the increase of passenger flow expose a series of problems such as high equipment operation intensity, increased workload of maintenance personnel, shorter night maintenance window time and the like, and provide higher requirements and challenges for the maintenance work of the current operating equipment. With the development of the BIM technology, the application of intelligent hardware equipment is popularized, equipment data information, operation company OA system information, EAM system information and data information of different dimensions of each party are integrated, multi-dimensional data such as equipment information data, IOT state information data and an OA information system are used as training bases, equipment fault service models are deeply analyzed and mined, and a real-time fault alarm system based on the BIM is generated. Currently, the maintenance systems on the market also stay scheduled for maintenance, manually analyzing the classified distribution failures, and do not provide good predictive maintenance and intelligent failure distribution.

The problems of data isolated island, information dispersion, platform closure, passive correspondence and the like exist in the traditional operation and maintenance in the current market, data resources, time resources and human resources cannot be fully utilized, and the whole life cycle health management of equipment cannot be reasonably and effectively managed.

Disclosure of Invention

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

The BIM-based real-time fault alarm intelligent processing technology deeply integrates data information of all the platforms, effectively carries out deep analysis, data mining, data integration and data trend analysis, aggregates multi-party information data to carry out deep learning, gets through data blocking among the platforms, actively realizes real-time intelligent distribution of equipment fault maintenance, and achieves the health management of the whole life cycle of equipment facilities.

In order to solve the problems, the scheme of the invention is as follows:

a BIM based real-time fault alarm system comprising:

the data collection and induction service module is used for collecting information data related to alarm and providing a data source for the fault alarm distribution model;

the BIM data information analysis and positioning module is used for intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by the fault alarm distribution module;

and the real-time fault alarm module is used for generating fault alarm based on the BIM model relevant position and fault equipment information.

The BIM-based real-time fault alerting system of claim 1, wherein the real-time fault alerting module comprises:

the work order generation module is used for receiving the fault information reported by the user terminal and dispatching the work order;

and the work order state change module is used for monitoring the work order state and updating and displaying the fault processing progress in real time.

The BIM-based real-time fault alarm system of claim 2, wherein the work order state change module updates the fault list and notifies the maintenance management platform to update the display information when the work order state change module determines that the fault is an equipment fault reported from the mobile terminal.

Preferably, in the BIM-based real-time fault alarm system, the work order state change module monitors the work order state information, and updates the fault equipment state to be in maintenance when the work order state is determined to be one of the assigned, in-process, suspended and other states; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

Preferably, the real-time fault alarm system based on the BIM further includes an equipment fault management module, the equipment fault management module pushes fault equipment information to the maintenance management platform after detecting an equipment fault, the maintenance management platform displays a fault list after receiving an indication trigger of a user, and triggers the work order generation module to generate fault work order information based on a selection of the user about the fault equipment.

A real-time fault alarm method based on BIM is characterized by comprising the following steps:

a data collection and induction service step, which is to collect information data related to alarm and provide a data source for a fault alarm distribution model;

the BIM data information analysis and positioning step, namely intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by a fault alarm distribution model;

and a real-time fault alarm step, which is used for generating fault alarm based on the BIM model relevant position and fault equipment information.

Preferably, in the real-time fault alarm method based on the BIM, the real-time fault alarm step includes:

a work order generation step, which is used for receiving the fault information reported by the user terminal and dispatching the work order;

and a work order state change step for monitoring the work order state and updating and displaying the fault processing progress in real time.

Preferably, in the BIM-based real-time fault alarm method, when the work order state change step determines that the fault is an equipment fault reported from the mobile terminal, the fault list is updated, and the maintenance management platform is notified to update the display information.

Preferably, in the BIM-based real-time fault alarm method, the work order state change step monitors work order state information, and when the work order state is determined to be one of assigned, in-process, suspended, and the like, the state of the faulty equipment is updated to be in maintenance; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

Preferably, the BIM-based real-time fault alarm method is characterized by further comprising an equipment fault management step, wherein the equipment fault management step pushes fault equipment information to a maintenance management platform after detecting an equipment fault, the maintenance management platform displays a fault list after receiving an indication trigger of a user, and triggers the work order generation step to generate fault work order information based on selection of the user on the fault equipment.

Therefore, the invention has the following advantages: (1) the equipment information can be collected in real time, an analysis model of real-time equipment fault alarming is established, effective deep analysis, data mining, data integration and data trend analysis can be carried out, multi-party information data are aggregated for deep learning, data blocking among platforms is opened, real-time intelligent distribution of equipment fault maintenance is actively realized, and the health management of the whole life cycle of equipment facilities is achieved; (2) and a full-flow maintenance work order dispatching method is adopted, so that manual transfer and manual assignment are saved, and the problem of faults is manually analyzed. Time is saved and accurate positioning of problems is realized. And health management records that manage the full life cycle of the device.

Drawings

The accompanying drawings, which are incorporated herein and form a part of the specification, illustrate embodiments of the present invention and, together with the description, further serve to explain the principles of the invention and to enable a person skilled in the pertinent art to make and use the disclosure.

FIG. 1 is a schematic flow chart of the method of the present invention.

FIG. 2 is a flow chart of a method of the data collection and summarization service module according to the present invention.

Detailed Description

Examples

This embodiment provides an intelligent video monitor system based on network camera at first, includes:

the data collection and induction service module is used for collecting information data related to alarm and providing a data source for the fault alarm distribution model;

the BIM data information analysis and positioning module is used for intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by the fault alarm distribution module;

the real-time fault alarm module is used for generating fault alarm based on the BIM model relevant position and fault equipment information, and comprises:

the work order generation module is used for receiving the fault information reported by the user terminal and dispatching the work order;

the work order state change module is used for monitoring the work order state, updating and displaying the fault handling progress in real time, and specifically comprises the following steps:

when the fault is judged to be the equipment fault reported by the mobile terminal, updating the fault list, informing the maintenance management platform to update display information, monitoring the work order state information, and updating the fault equipment state into maintenance when the work order state is judged to be one of the assigned, in-process, suspended and other states; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

The equipment fault management module is used for pushing fault equipment information to a maintenance management platform after detecting equipment faults, the maintenance management platform is used for displaying a fault list after receiving indication triggering of a user, and triggering the work order generation module to generate fault work order information based on selection of the user about the fault equipment.

The embodiment also provides a real-time fault alarm method based on the BIM, which comprises the following steps:

a data collection and induction service step, which is to collect information data related to alarm and provide a data source for a fault alarm distribution model;

the BIM data information analysis and positioning step, namely intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by a fault alarm distribution model;

a real-time fault alarm step, which is used for generating fault alarm based on the BIM model relevant position and fault equipment information, and comprises the following steps:

a work order generation step, which is used for receiving the fault information reported by the user terminal and dispatching the work order;

and a work order state change step for monitoring the work order state and updating and displaying the fault processing progress in real time.

And updating the fault list and informing the maintenance management platform to update the display information when the work order state change step judges that the fault is the equipment fault reported by the mobile terminal. A work order state change step monitors work order state information, and when the work order state is judged to be one of assigned, in-process and suspended states, the state of the fault equipment is updated to be in maintenance; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

And the equipment fault management step is used for pushing fault equipment information to a maintenance management platform after the equipment fault is detected, the maintenance management platform displays a fault list after receiving indication triggering of a user, and triggers the work order generation step to generate fault work order information based on selection of the user about the fault equipment.

The solution of the embodiment of the present invention is further described below with reference to fig. 1-2.

As shown in figure 1, the technical scheme of the invention mainly comprises three major services, namely a model, a data collection and induction service, a BIM data information analysis and positioning service, a real-time fault alarm model and a business communication service

The data collection and induction service is mainly responsible for collecting service data in different service systems, collecting operation and maintenance personnel skill labels, operation and maintenance personnel state information data, intelligent equipment and hardware equipment information signal states, and providing data sources for the fault alarm distribution model by the label information.

The BIM data information analysis and positioning service is used for intelligently analyzing and retrieving the structural data after the BIM model is decomposed, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the position of the information related to the BIM model in the BIM related marker information three-dimensional scene output by the fault alarm distribution model to provide visual and real virtual digital experience and visual progress display.

The real-time fault alarm model is a core function, and integrates equipment data information, personnel data information, BIM model data information, asset data information, coding rule audit and the like to perform effective data disassembly, marking and output to form a training model of real equipment, a BIM model, maintenance personnel, an asset system and four-party intelligent division of labor.

And the business communication service module is used for carrying out full-flow automatic communication on the result output by the fault alarm distribution model and systems such as a maintenance system, an asset system, a personnel system and the like.

As shown in FIG. 2, the invention builds a data collection service module by using a Spring group micro-service architecture, realizes data acquisition and data acquisition capability for each system in an interface mode, feeds back to a real-time fault alarm system, and performs real-time fault alarm by carrying out early-stage data collection, alarm signal state and human body state on equipment

The BIM-based real-time fault alarm intelligent processing technology deeply integrates data information of all platforms, effectively carries out deep analysis, data mining, data integration and data trend analysis, aggregates multi-party information data to carry out deep learning, gets through data blocking among the platforms, actively realizes real-time intelligent distribution of equipment fault maintenance, and achieves the health management of the whole life cycle of equipment facilities.

As can be seen from the above description, the invention saves manual transfer and manual assignment and manually analyzes the fault problem by the full-flow maintenance work order dispatching method. Time is saved and accurate positioning of problems is realized. And health management records that manage the full life cycle of the device.

It is noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not necessarily referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

The previous description of the disclosure is provided to enable any person skilled in the art to make or use the disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. Thus, the disclosure is not intended to be limited to the examples and designs described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A BIM-based real-time fault alarm system, comprising:

the data collection and induction service module is used for collecting information data related to alarm and providing a data source for the fault alarm distribution model;

the BIM data information analysis and positioning module is used for intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by the fault alarm distribution model;

and the real-time fault alarm module is used for generating fault alarm based on the BIM model relevant position and fault equipment information.

2. The BIM-based real-time fault alerting system of claim 1, wherein the real-time fault alerting module comprises:

the work order generation module is used for receiving the fault information reported by the user terminal and dispatching the work order;

and the work order state change module is used for monitoring the work order state and updating and displaying the fault processing progress in real time.

3. The BIM-based real-time fault alarm system of claim 2, wherein the work order state change module updates the fault list and notifies the maintenance management platform to update the display information when determining that the fault is an equipment fault reported from the mobile terminal.

4. The BIM-based real-time fault alarm system of claim 2, wherein the work order status change module monitors work order status information, and updates the status of the faulty equipment to maintenance when the work order status is determined to be one of assigned, in-process, or suspended status; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

5. The BIM-based real-time fault alarm system according to claim 2, further comprising an equipment fault management module, wherein the equipment fault management module pushes fault equipment information to a maintenance management platform after detecting an equipment fault, the maintenance management platform displays a fault list after receiving an indication trigger of a user, and triggers the work order generation module to generate fault work order information based on a selection of the user on the fault equipment.

6. A real-time fault alarm method based on BIM is characterized by comprising the following steps:

a data collection and induction service step, which is to collect information data related to alarm and provide a data source for a fault alarm distribution model;

the BIM data information analysis and positioning step, namely intelligently analyzing and retrieving the structural data decomposed by the BIM model, intelligently analyzing and retrieving the skills of maintenance personnel, and positioning the related position of the BIM model in a three-dimensional scene by combining BIM related mark information output by a fault alarm distribution model;

and a real-time fault alarm step, which is used for generating fault alarm based on the BIM model relevant position and fault equipment information.

7. The BIM-based real-time fault alarming method according to claim 1, wherein the real-time fault alarming step comprises:

a work order generation step, which is used for receiving the fault information reported by the user terminal and dispatching the work order;

and a work order state change step for monitoring the work order state and updating and displaying the fault processing progress in real time.

8. The BIM-based real-time fault alarm method according to claim 2, wherein the work order state change step updates the fault list and notifies the maintenance management platform to update the display information when the fault is determined to be an equipment fault reported from the mobile terminal.

9. The BIM-based real-time fault alarm method according to claim 2, wherein the work order status change step monitors work order status information, and updates the faulty equipment status to maintenance when the work order status is determined to be one of assigned, in-process, suspended, etc.; otherwise, further judging whether the work order state is closed or cancelled, and updating the equipment state to be normal when the work order state is judged to be closed or cancelled.

10. The BIM-based real-time fault alarm method according to claim 2, further comprising a device fault management step, wherein the device fault management step pushes fault device information to a maintenance management platform after detecting a device fault, the maintenance management platform displays a fault list after receiving an indication trigger of a user, and triggers the work order generation step to generate fault work order information based on a selection of the user on the fault device.

Images