CN114693025A - Intelligent park maintenance method and system - Google Patents

Abstract

The invention provides a maintenance method and a maintenance system for an intelligent park, wherein the maintenance method comprises the following steps: collecting information of physical equipment through an Internet of things system of the park, and collecting information of the physical equipment through the Internet of things system of the park; establishing a corresponding digital twin body according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin; simulating the simulation working parameters of the physical equipment in a preset future period of time by using a digital twin model, comparing the simulation working parameters with the normal working parameters to obtain abnormal simulation parameters, and obtaining the simulation time of the abnormal simulation parameters; and sending the related parameters of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel. The invention can send the abnormal simulation parameters and the simulation time of the physical equipment to maintenance personnel so as to maintain the physical equipment in advance and reduce the influence on the work of enterprises.

Description

Smart park maintenance method and system

Technical Field

The invention relates to the technical field of park equipment maintenance, in particular to an intelligent park maintenance method and an intelligent park maintenance system.

Background

The existing park equipment is found by people after the park equipment goes wrong and has influence, and then maintenance personnel in the park are informed to go to maintenance, so that the maintenance of the park equipment is very passive, the equipment can not be maintained in time frequently, and the inconvenience is brought to the work of enterprises in the park.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings in the prior art and provides an intelligent park maintenance method and system.

One embodiment of the present invention provides a method for maintaining an intelligent park, comprising the steps of:

collecting information of physical equipment through an Internet of things system of the park, and collecting information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

establishing corresponding digital twins according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

simulating the simulation working parameters of the physical equipment within a preset future period of time through the digital twin model, comparing the simulation working parameters with the normal working parameters, determining the simulation working parameters as abnormal simulation parameters if the simulation working parameters are out of the numerical range of the normal working parameters, and acquiring the simulation time of the abnormal simulation parameters;

and sending the equipment name, the equipment number, the equipment position, the normal working parameters, the abnormal simulation parameters and the corresponding simulation time of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel.

Compared with the prior art, the intelligent park maintenance method can pre-simulate the working parameters of the physical equipment in the park, so that the abnormal simulation parameters and the corresponding simulation time are obtained and sent to maintenance personnel, the maintenance personnel can maintain the physical equipment in advance, and the influence on the work of enterprises in the park is reduced.

Further, the information of the physical device also includes common problems and corresponding solutions;

acquiring a name or a number of fault equipment sent by a maintenance client and a corresponding fault performance, and finding out the corresponding digital twin according to the name or the number of the fault equipment;

retrieving from the common problem in the corresponding digital twin according to the fault performance;

and if the content corresponding to the fault expression exists in the common problems, sending a solution corresponding to the common problems to the maintenance client.

Further, the information of the physical device also comprises historical problems and corresponding processing modes;

retrieving from the historical problems in the corresponding digital twin according to the fault performance;

and if the historical problems have the content corresponding to the fault expression, sending the processing mode corresponding to the historical problems to the maintenance client.

Further, if the content corresponding to the fault expression does not exist in the common problems and the historical problems, the fault expression is sent to the enterprise to which the physical equipment belongs, the processing mode of the enterprise to which the physical equipment belongs is recorded, and the fault expression and the processing mode are stored as the historical problems and the corresponding processing mode.

Further, the method also comprises the following steps:

acquiring a maintenance record and maintenance content of the physical equipment, and sending the maintenance record and the maintenance content to the corresponding digital twin;

simulating the influence of the maintenance records and the maintenance contents on the service life of the physical equipment through the digital twin model, and predicting the corresponding residual working life of the physical equipment;

and if the residual working life is smaller than a preset threshold value, sending the corresponding residual working life, equipment name, equipment number and equipment position of the physical equipment to the maintenance client.

An embodiment of the present invention further provides an intelligent park maintenance system, including: the system comprises an information acquisition module, a digital twin model establishing module, an abnormal simulation parameter acquisition module and an abnormal simulation parameter sending module;

the information acquisition module is used for acquiring the information of the physical equipment through the Internet of things system of the park and acquiring the information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

the digital twin model establishing module is used for establishing corresponding digital twin bodies according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

the abnormal simulation parameter acquisition module is used for simulating a simulation working parameter of the physical equipment in a preset future period of time through the digital twin model, comparing the simulation working parameter with the normal working parameter, determining the simulation working parameter as an abnormal simulation parameter if the simulation working parameter is out of the numerical range of the normal working parameter, and acquiring the simulation time of the abnormal simulation parameter;

and the abnormal simulation parameter sending module is used for sending the equipment name, the equipment number, the equipment position, the normal working parameters, the abnormal simulation parameters and the corresponding simulation time of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel.

Compared with the prior art, the intelligent park maintenance system can pre-simulate the working parameters of the physical equipment in the park, so that the abnormal simulation parameters and the corresponding simulation time are obtained and sent to maintenance personnel, the maintenance personnel can maintain the physical equipment in advance, and the influence on the work of enterprises in the park is reduced.

Further, the system also comprises a fault expression acquisition module, a common problem retrieval module and a solution sending module;

the information acquisition module is also used for acquiring common problems of the physical equipment and corresponding solutions;

the fault performance acquisition module is used for acquiring a fault equipment name or number and a corresponding fault performance sent by a maintenance client, and searching the corresponding digital twin according to the fault equipment name or number;

the common problem retrieval module is used for retrieving the common problems in the corresponding digital twin according to the fault expressions;

the solution sending module is used for sending the solution corresponding to the common problem to the maintenance client if the content corresponding to the fault expression exists in the common problem.

Further, the system also comprises a historical problem retrieval module and a processing mode sending module;

the information acquisition module is also used for acquiring historical problems of the physical equipment and corresponding processing modes;

the historical problem retrieval module is used for retrieving the historical problems in the corresponding digital twin according to the fault performance;

and the processing mode sending module is used for sending the processing mode corresponding to the historical problem to the maintenance client if the content corresponding to the fault expression exists in the historical problem.

Further, the system also comprises a historical problem storage module;

and the historical problem storage module is used for sending the fault expression to an enterprise to which the physical equipment belongs when the content corresponding to the fault expression does not exist in the common problems and the historical problems, recording the processing mode of the enterprise to which the physical equipment belongs, and storing the fault expression and the processing mode as the historical problems and the corresponding processing mode.

Further, the system also comprises a maintenance record acquisition module, a residual life prediction module and a residual life sending module;

the maintenance record acquisition module is used for acquiring maintenance records and maintenance contents of the physical equipment and sending the maintenance records and the maintenance contents to the corresponding digital twin;

the residual life prediction module is used for simulating the influence of the maintenance record and the maintenance content on the life of the physical equipment through the digital twin model and predicting the corresponding residual working life of the physical equipment;

and the residual service life sending module is used for sending the corresponding residual service life, equipment name, equipment number and equipment position of the physical equipment to the maintenance client when the residual service life is smaller than a preset threshold.

In order that the invention may be more clearly understood, specific embodiments thereof will be described hereinafter with reference to the accompanying drawings.

Drawings

FIG. 1 is a flowchart of a smart park maintenance method according to one embodiment of the present invention.

FIG. 2 is a flowchart of equipment problem handling for a smart park maintenance method according to one embodiment of the present invention.

FIG. 3 is a flowchart of equipment life prediction for a smart park maintenance method according to one embodiment of the present invention.

FIG. 4 is a block diagram of an intelligent park maintenance system according to one embodiment of the present invention.

FIG. 5 is a block diagram of equipment problem handling for an intelligent park maintenance system according to one embodiment of the present invention.

FIG. 6 is a block diagram of the equipment life prediction of the intelligent park maintenance system according to one embodiment of the present invention.

1. An information acquisition module; 2. a digital twin model building module; 3. an anomaly simulation parameter acquisition module; 4. an abnormal simulation parameter sending module; 5. a fault performance acquisition module; 51. a common problem retrieval module; 52. a solution sending module; 53. a historical problem retrieval module; 54. a processing mode sending module; 6. a maintenance record acquisition module; 7. a residual life prediction module; 8. and a residual life sending module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, which is a flowchart illustrating a method for maintaining an intelligent park according to an embodiment of the present invention, including the following steps:

s1, acquiring information of the physical equipment through an Internet of things system of the park, and acquiring information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

s2, establishing corresponding digital twins according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

s3, simulating the simulation working parameters of the physical equipment in a preset future period of time through the digital twin model, comparing the simulation working parameters with the normal working parameters, determining the simulation working parameters as abnormal simulation parameters if the simulation working parameters are out of the numerical range of the normal working parameters, and acquiring the simulation time of the abnormal simulation parameters;

and S4, sending the equipment name, the equipment number, the equipment position, the normal working parameters, the abnormal simulation parameters and the corresponding simulation time of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel.

The predetermined future period of time may be 3 days, 5 days, 1 week or even 1 month in the future, wherein the shorter the specific time of the predetermined future period of time, the more accurate the simulated operating parameters are.

Compared with the prior art, the intelligent park maintenance method can pre-simulate the working parameters of the physical equipment in the park, so that the abnormal simulation parameters and the corresponding simulation time are obtained and sent to maintenance personnel, the maintenance personnel can maintain the physical equipment in advance, and the influence on the work of enterprises in the park is reduced.

Referring to fig. 2, in a possible embodiment, the information of the physical device further includes a common problem and a corresponding solution;

s5, acquiring a name or a number of a fault device sent by a maintenance client and a corresponding fault performance, and finding out the corresponding digital twin according to the name or the number of the fault device;

s51, retrieving the common problems in the corresponding digital twin according to the fault expressions;

and S52, if the content corresponding to the fault expression exists in the common problems, sending the solution corresponding to the common problems to the maintenance client.

The maintenance client can be a hardware device capable of being networked or a software program installed on the intelligent mobile device.

The failure expression can be obtained directly by inputting characters, or obtained by inputting voice and converting into characters, or attached with pictures of the physical equipment.

And the method is favorable for maintenance personnel to quickly process the faults of the physical equipment caused by common problems.

In a possible embodiment, the information of the physical device further includes historical problems and corresponding processing manners;

s53, retrieving the historical problems in the corresponding digital twin according to the fault performance;

and S54, if the historical problems have the contents corresponding to the failure expression, sending the processing modes corresponding to the historical problems to the maintenance client.

The maintenance personnel can quickly process the faults of the physical equipment, which are the same as the historical problems.

In a possible embodiment, if there is no content corresponding to the failure expression in the common problem and the historical problem, the failure expression is sent to the enterprise to which the physical device belongs, the processing mode of the enterprise to which the physical device belongs is recorded, and the failure expression and the processing mode are stored as the historical problem and the corresponding processing mode.

The historical problems can be updated in time, and the maintenance efficiency of the physical equipment is improved.

Referring to fig. 3, in one possible embodiment, the method further includes the following steps:

s6, obtaining maintenance records and maintenance contents of the physical equipment, and sending the maintenance records and the maintenance contents to the corresponding digital twin;

s7, simulating the influence of the maintenance record and the maintenance content on the service life of the physical equipment through the digital twin model, and predicting the corresponding residual service life of the physical equipment;

and S8, if the residual working life is smaller than a preset threshold value, sending the corresponding residual working life, equipment name, equipment number and equipment position of the physical equipment to the maintenance client.

Through the maintenance record and the maintenance content, the residual working life of the corresponding physical equipment can be accurately simulated and predicted, so that maintenance personnel can be reminded to replace the physical equipment in time.

Referring to fig. 4, an embodiment of the present invention further provides an intelligent park maintenance system, including: the system comprises an information acquisition module 1, a digital twin model building module 2, an abnormal simulation parameter acquisition module 3 and an abnormal simulation parameter sending module 4;

the information acquisition module 1 is used for acquiring information of the physical equipment through an Internet of things system of the park and acquiring information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

the digital twin model establishing module 2 is used for establishing corresponding digital twin according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

the abnormal simulation parameter obtaining module 3 is configured to simulate, by using the digital twin model, a simulation working parameter of the physical device within a preset future period of time, compare the simulation working parameter with the normal working parameter, determine, if the simulation working parameter is outside a numerical range of the normal working parameter, the simulation working parameter as an abnormal simulation parameter, and obtain a simulation time of the abnormal simulation parameter;

the abnormal simulation parameter sending module 4 is configured to send the device name, the device number, the device location, the normal operating parameter, the abnormal simulation parameter, and the corresponding simulation time of the physical device corresponding to the abnormal simulation parameter to a maintenance worker.

The predetermined future period of time may be 3 days, 5 days, 1 week or even 1 month in the future, wherein the shorter the specific time of the predetermined future period of time, the more accurate the simulated operating parameters are.

Compared with the prior art, the intelligent park maintenance system can pre-simulate the working parameters of the physical equipment in the park, so that the abnormal simulation parameters and the corresponding simulation time are obtained and sent to maintenance personnel, the maintenance personnel can maintain the physical equipment in advance, and the influence on the work of enterprises in the park is reduced.

Referring to fig. 5, in a possible embodiment, the system further includes a failure performance obtaining module 5, a common problem retrieving module 51 and a solution sending module 52;

the information acquisition module 1 is also used for acquiring common problems of the physical equipment and corresponding solutions;

the failure performance acquisition module 5 is configured to acquire a failure device name or number and a corresponding failure performance sent by a maintenance client, and find out a corresponding digital twin according to the failure device name or number;

the common question retrieving module 51 is configured to retrieve the common questions from the corresponding digital twins according to the fault expressions;

the solution sending module 52 is configured to send the solution corresponding to the common problem to the maintenance client if the content corresponding to the failure expression exists in the common problem.

The maintenance client can be a hardware device capable of being networked or a software program installed on the intelligent mobile device.

The failure expression can be obtained directly by inputting characters, or obtained by inputting voice and converting into characters, or attached with pictures of the physical equipment.

And the method is favorable for maintenance personnel to quickly process the faults of the physical equipment caused by common problems.

In a possible embodiment, the system further comprises a history question retrieval module 53 and a processing mode sending module 54;

the information acquisition module 1 is also used for acquiring historical problems of the physical equipment and corresponding processing modes;

the historical problem retrieval module 53 is configured to retrieve the historical problems from the corresponding digital twins according to the failure performances;

the processing method sending module 54 is configured to send the processing method corresponding to the historical problem to the maintenance client if the historical problem has content corresponding to the failure expression.

The maintenance personnel can quickly deal with the faults of the physical equipment, which are the same as the historical problems.

In one possible embodiment, the system further comprises a history question storage module;

and the historical problem storage module is used for sending the fault expression to an enterprise to which the physical equipment belongs when the content corresponding to the fault expression does not exist in the common problems and the historical problems, recording the processing mode of the enterprise to which the physical equipment belongs, and storing the fault expression and the processing mode as the historical problems and the corresponding processing mode.

The historical problems can be updated in time, and the maintenance efficiency of the physical equipment is improved.

Referring to fig. 6, in a possible embodiment, the system further includes a maintenance record obtaining module 6, a remaining life predicting module 7, and a remaining life sending module 8;

the maintenance record obtaining module 6 is configured to obtain a maintenance record and maintenance content of the physical device, and send the maintenance record and the maintenance content to the corresponding digital twin;

the residual life prediction module 7 is configured to simulate, through the digital twin model, an influence of the maintenance record and the maintenance content on the life of the physical device, and predict a corresponding residual working life of the physical device;

and the remaining service life sending module 8 is configured to send the corresponding remaining service life of the physical device, the device name, the device number, and the device position to the maintenance client when the remaining service life is smaller than a preset threshold.

Through the maintenance record and the maintenance content, the residual working life of the corresponding physical equipment can be accurately simulated and predicted, so that maintenance personnel can be reminded to replace the physical equipment in time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An intelligent park maintenance method is characterized by comprising the following steps:

collecting information of physical equipment through an Internet of things system of the park, and collecting information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

establishing a corresponding digital twin body according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

simulating the simulation working parameters of the physical equipment within a preset future period of time through the digital twin model, comparing the simulation working parameters with the normal working parameters, determining the simulation working parameters as abnormal simulation parameters if the simulation working parameters are out of the numerical range of the normal working parameters, and acquiring the simulation time of the abnormal simulation parameters;

and sending the equipment name, the equipment number, the equipment position, the normal working parameters, the abnormal simulation parameters and the corresponding simulation time of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel.

2. The intelligent park maintenance method according to claim 1, wherein: the information of the physical equipment also comprises common problems and corresponding solutions;

acquiring a name or a number of fault equipment sent by a maintenance client and a corresponding fault performance, and finding out the corresponding digital twin according to the name or the number of the fault equipment;

retrieving from the common problem in the corresponding digital twin according to the fault performance;

and if the content corresponding to the fault expression exists in the common problems, sending a solution corresponding to the common problems to the maintenance client.

3. The intelligent park maintenance method according to claim 2, wherein: the information of the physical equipment also comprises historical problems and corresponding processing modes;

retrieving from the historical questions in the corresponding digital twins according to the fault performance;

and if the historical problems have the content corresponding to the fault expression, sending the processing mode corresponding to the historical problems to the maintenance client.

4. The intelligent park maintenance method according to claim 3, wherein: and if the content corresponding to the fault expression does not exist in the common problems and the historical problems, sending the fault expression to an enterprise to which the physical equipment belongs, recording the processing mode of the enterprise to which the physical equipment belongs, and storing the fault expression and the processing mode as the historical problems and the corresponding processing mode.

5. The intelligent park maintenance method according to claim 4, further comprising the steps of:

acquiring a maintenance record and maintenance content of the physical equipment, and sending the maintenance record and the maintenance content to the corresponding digital twin;

simulating the influence of the maintenance records and the maintenance contents on the service life of the physical equipment through the digital twin model, and predicting the corresponding residual working life of the physical equipment;

and if the residual working life is smaller than a preset threshold value, sending the corresponding residual working life, equipment name, equipment number and equipment position of the physical equipment to the maintenance client.

6. A smart park maintenance system, comprising: the system comprises an information acquisition module, a digital twin model establishing module, an abnormal simulation parameter acquisition module and an abnormal simulation parameter sending module;

the information acquisition module is used for acquiring information of the physical equipment through an Internet of things system of the park and acquiring information of the physical equipment through the Internet of things system of the park; the information of the physical equipment comprises equipment name, equipment number, equipment position, normal working parameters and equipment operation data;

the digital twin model establishing module is used for establishing corresponding digital twin bodies according to the information of each physical device; establishing a digital twin model of the park according to the connection relation of each digital twin;

the abnormal simulation parameter acquisition module is used for simulating a simulation working parameter of the physical equipment in a preset future period of time through the digital twin model, comparing the simulation working parameter with the normal working parameter, determining the simulation working parameter as an abnormal simulation parameter if the simulation working parameter is out of the numerical range of the normal working parameter, and acquiring the simulation time of the abnormal simulation parameter;

the abnormal simulation parameter sending module is used for sending the equipment name, the equipment number, the equipment position, the normal working parameters, the abnormal simulation parameters and the corresponding simulation time of the physical equipment corresponding to the abnormal simulation parameters to maintenance personnel.

7. The intelligent park maintenance system according to claim 6, wherein: the system also comprises a fault performance acquisition module, a common problem retrieval module and a solution sending module;

the information acquisition module is also used for acquiring common problems of the physical equipment and corresponding solutions;

the fault performance acquisition module is used for acquiring a fault equipment name or number and a corresponding fault performance sent by a maintenance client, and searching the corresponding digital twin according to the fault equipment name or number;

the common problem retrieval module is used for retrieving the common problems in the corresponding digital twin according to the fault expressions;

the solution sending module is used for sending the solution corresponding to the common problem to the maintenance client if the content corresponding to the fault expression exists in the common problem.

8. The intelligent park maintenance system according to claim 7, wherein: the system also comprises a historical problem retrieval module and a processing mode sending module;

the information acquisition module is also used for acquiring historical problems of the physical equipment and corresponding processing modes;

the historical problem retrieval module is used for retrieving the historical problems in the corresponding digital twin according to the fault performance;

and the processing mode sending module is used for sending the processing mode corresponding to the historical problem to the maintenance client if the content corresponding to the fault expression exists in the historical problem.

9. The intelligent park maintenance system according to claim 8, wherein: the system also comprises a history problem storage module;

and the historical problem storage module is used for sending the fault expression to an enterprise to which the physical equipment belongs when the content corresponding to the fault expression does not exist in the common problems and the historical problems, recording the processing mode of the enterprise to which the physical equipment belongs, and storing the fault expression and the processing mode as the historical problems and the corresponding processing mode.

10. The intelligent park maintenance system according to claim 9, wherein: the system also comprises a maintenance record acquisition module, a residual life prediction module and a residual life sending module;

the maintenance record acquisition module is used for acquiring maintenance records and maintenance contents of the physical equipment and sending the maintenance records and the maintenance contents to the corresponding digital twin bodies;

the residual life prediction module is used for simulating the influence of the maintenance record and the maintenance content on the life of the physical equipment through the digital twin model and predicting the corresponding residual working life of the physical equipment;

and the residual service life sending module is used for sending the corresponding residual service life, equipment name, equipment number and equipment position of the physical equipment to the maintenance client when the residual service life is smaller than a preset threshold.

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