CN117111497A - Remote operation and maintenance management system - Google Patents
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- G—PHYSICS
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/042—Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
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Abstract
The application discloses a remote operation and maintenance management system. The intelligent monitoring system comprises a remote equipment maintenance management center, a field intelligent control device connected with the remote equipment maintenance management center and a corresponding cloud remote management system, wherein the cloud remote management system is used for collecting corresponding data information of field related equipment in real time and transmitting the data information to an industrial intelligent gateway, the industrial intelligent gateway is transmitted to a cloud server through the Internet, and corresponding functional modules of the cloud remote management system are used for carrying out corresponding operation and monitoring operation management including parameter adjustment and setting, running conditions, fault diagnosis and maintenance on the field equipment through the field intelligent control device. The remote operation and maintenance management system can manage operation and maintenance by using informatization means, so that operation and maintenance service is visual, efficient, safe and convenient.
Description
The application relates to a division application of a patent application named as remote operation and maintenance management system, the application date of the original application is 2019, 01, 29 and 201910086195.9.
Technical Field
The application relates to the technical field of production and manufacturing, in particular to a remote operation and maintenance management system.
Background
Conventionally, technical service of products is usually carried out by a technician to a field service or a user to send equipment to a technical support center for maintenance, and in order to reduce the problem of increased operation and maintenance cost and timeliness of the technician to the field service, the technical support mode of adopting telephone service is not efficient but is generally adopted, and the technical support cost is greatly increased, and usually, the technical support and maintenance must be carried out by relying on oral communication between the technician and the user, wherein the communication is time-consuming and error-prone. Many users have little knowledge of the device and then when a problem is encountered they must provide the technician with fault information and related operations. In an attempt to solve the problem, the technician may instruct the user to perform a series of complex processes that may not be familiar to the user at all, which may aggravate the problem if the user is unable to operate as correctly as desired, and if the problem is unable to be solved by telephone, the equipment may not continue to be used until the technician is sent to the field to solve the problem, delaying production. Meanwhile, the traditional equipment operation and maintenance mode needs to be managed by appointed special persons, regular cleaning, weekly maintenance, monthly maintenance, whether maintenance and maintenance work are in place or not is difficult to manage and control, and in addition, whether abnormal operation and overload operation occur or not in the equipment operation process, no basis is defined, and particularly old equipment is repaired and replaced, and comprehensive cost accounting cannot be performed. Traditional equipment management mode is just like boot itching, and key points are difficult to grasp, so that key problems are solved.
Disclosure of Invention
In order to overcome the defects of the prior art, the application aims to provide a remote operation and maintenance management system which can manage operation and maintenance by using an informatization means, so that operation and maintenance service is visual, efficient, safe and convenient.
In order to achieve the above object, the present application provides the following solutions:
the remote operation and maintenance management system comprises a mobile terminal server, a remote equipment maintenance management center, a field intelligent control device connected with the remote equipment maintenance management center and a corresponding cloud remote management system, wherein the cloud remote management system is used for collecting corresponding data information of field related equipment in real time and transmitting the corresponding data information to an industrial intelligent gateway, the industrial intelligent gateway is transmitted to the cloud server through the Internet, and corresponding functional modules of the cloud remote management system are used for carrying out corresponding operation and monitoring operation management including parameter adjustment and setting, running conditions, fault diagnosis and maintenance on field equipment through the field intelligent control device; the mobile terminal server realizes the operation of monitoring equipment on various intelligent mobile terminals through the WebUX technology; the corresponding operation and monitoring operation management of the field device can be implemented in a limited manner; the cloud remote management system adds firewall protection between a remote client and a local client;
the cloud remote management system comprises a cloud remote management system and a cloud remote management system, wherein the cloud remote management system comprises a function module of the cloud remote management system, an expert knowledge base module, a maintenance management module, an enterprise information management module, a client management module and a system setting module;
the equipment management module comprises two sub-modules, namely an equipment information sub-module and a spare part sub-module; basic information of equipment purchased by the enterprise, technical parameters of the equipment, equipment delivery date, equipment specification model and equipment type parameters can be checked through the equipment information sub-module; the spare part sub-module is used for inquiring the mounting date, the using time, the maintenance period and the last maintenance time information of the vulnerable part of the equipment; the spare part sub-module is used as an archive, each device is provided with an own identity card, and all the devices are checked through the archive; the classification of the archive includes: model files, device files, customer files, device type files, accessory files, and warehouse files; the information of each device comprises file detail information of a device type, a device model, a device factory number, a device factory date, a device alias, a device warranty period, a device warranty date, a software version, an intelligent unit controller and a software version;
the expert knowledge base module comprises four sub-modules, an equipment knowledge base sub-module, an operation standard sub-module, a fault generation sub-module and an equipment specification type sub-module; the equipment knowledge base submodule is used for inquiring all professional parameters of the equipment; the operation standard sub-module has the flow and description of the regular operation of the equipment; the fault code sub-module has the explanation of the displayed code when the corresponding equipment fails; the equipment specification type submodule is used for inquiring parameters and models of all accessories of the equipment. The equipment specification model submodule is used as a fault library management, and all faults in normal times are accumulated to form a fault library so as to search in the fault library when alarm problems occur in various intelligent equipment; the fault library is updated according to the fault alarms of all intelligent devices, and the expert correspondingly gives out fault solutions according to various fault alarms;
the maintenance management module comprises two sub-modules of a fault report and a maintenance work order, wherein the fault report sub-module is used for inquiring specific fault characteristics and symptom descriptions when equipment fails, and comprises the time of the failure, the position of the failure and the level of the failure; the maintenance work sheet sub-module is used for inquiring the fault processing progress and the processing method of the equipment when the equipment is in fault, so that an administrator can conveniently schedule an after-sales engineer to process the equipment. The maintenance management module is used for various business services, including maintenance business, inspection business, exchange business, technical improvement business, accessory verification, old part return to factories, return visit business and equipment verification; business services are tailored to equipment to solve the problems of the equipment, and a matched APP is also provided to more conveniently and rapidly solve various service problems; the various items and texts in various service pages are configurable, and the settings of each link are configurable, so that the method is applicable to various devices.
The enterprise information module comprises: the system comprises an enterprise information sub-module, a user information sub-module, a batch report sub-module, a historical data sub-module, an alarm data sub-module and a data table setting sub-module; the enterprise information sub-module is used for inquiring information such as names, addresses, corresponding responsible persons and the like of the enterprise. The user information sub-module is used for inquiring accounts of the enterprise using the system, and can add or delete users with manager identities and change login passwords of the sub-users. The batch reporting sub-module is used to query the enterprise for historical production batch data and may be printed. The historical data sub-module is used for inquiring data generated in the running process of the equipment and generating a report. The alarm data sub-module can inquire the history alarm condition generated in the running process of the equipment and generate a report; the data table submodule is used for self-defining and setting formats of various report tables;
the client management module is used for inquiring whether the enterprise has the number and the name of the client, whether the client is online or not, and whether the state is uploaded in real time or not;
the system setting module can be used for setting the operation buttons of the system interface in a self-defined mode and is used for inquiring the operation log so as to realize personalized setting of the system interface; the basic management mainly relates to the management on a platform, and the functions of establishment, personnel allocation, personnel authority allocation, mechanism equipment association allocation, various relevant file management of equipment and system configuration of each organization.
Preferably, the system also comprises a network video operation and maintenance module which performs remote real-time operation and maintenance operation guidance with a remote technical service personnel in a field technical service mode through an audio and video recording device which is arranged on a production field and connected with the field intelligent control device or a data collector thereof; the audio and video recording device is a portable pocket or fixed-point device set for a specific position of the relevant production field equipment.
Preferably, the system also comprises a system equipment diagnosis function module which analyzes and diagnoses the operation faults of the on-site intelligent control device and/or the data collector and other equipment according to the acquired data difference type abnormality.
According to the specific embodiment provided by the application, the application discloses the following technical effects:
the remote operation and maintenance management system can check and manage equipment information at any time by collecting the operation data of the equipment in real time, can more efficiently acquire the equipment information, can more conveniently accumulate working experience, can intelligently monitor the equipment by realizing knowledge inheritance, can timely find fault problems through intelligent analysis and comparison of big data, can conveniently check hardware change history, and can know equipment hardware configuration. And the remote fault maintenance reduces the operation and maintenance cost and improves the service quality. And changing the management mode of the manual entry and reporting of the equipment state. The requirements of intelligent manufacturing on equipment use and management are met. The design and development of the whole system can be realized on the most advanced technical platform at present, the shortness and the applicability are strong, and the scientific, reasonable, practical, advanced and operability in the industrial application field is ensured no matter from hardware or software development.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of a remote operation and maintenance management system according to the present application;
fig. 2 is a functional block diagram of a cloud remote management system (software) of the remote operation and maintenance management system of the present application.
Detailed Description
The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.
The terms "first," "second," "third," and "fourth" and the like in the description and in the claims and drawings are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, inclusion of a list of steps, processes, methods, etc. is not limited to the listed steps but may alternatively include steps not listed or may alternatively include other steps inherent to such processes, methods, products, or apparatus.
In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description.
As shown in fig. 1-2. The cloud remote operation and maintenance management system comprises a remote equipment maintenance management center and a field intelligent control device (such as a PLC) and the like, wherein the remote equipment maintenance management center mainly comprises a main control computer connected with the field intelligent control device in a communication mode and an electronic terminal device connected with the main control computer. The electronic terminal device may include a computer, a large display electronic screen, and/or a mobile terminal device (e.g., a mobile phone, etc.).
The PLC input end can be connected with sensors including current, voltage, circuit, signal frequency, noise, temperature, humidity, switch contact and the like. The remote equipment maintenance management center performs corresponding monitoring operation management on the production field equipment by collecting signal data detected by the sensor. If in the site of a customer in Zhejiang, the operation and maintenance system obtains real-time data from a sensor of a remote device, monitors that the temperature of a device box is too high and the negative pressure is abnormal, and the remote data center system informs an administrator of a maintenance management center and a manufacturer device manager of the information through a short message and an APP push function to inform the equipment that the exhaust system of the equipment is likely to be blocked. If the temperature continues to rise, the production will fail and even the equipment may be damaged. The operation and maintenance system can notify the process at the first time in the event. And the operation and maintenance system can compare the current temperature data with the historical data stored in the system in real time, and when the system finds that the matching degree of the real-time data and the data causing the warning at the same time in the system historical library is extremely high, the operation and maintenance system can send corresponding early warning information to inform corresponding staff to process. Such events can be handled as intervention when not occurring.
The cloud remote operation and maintenance management system remote equipment maintenance management center acquires corresponding data of all relevant equipment of a production field in real time through a PLC (programmable logic controller) through the cloud remote management system and transmits the data to an industrial intelligent gateway, the industrial intelligent gateway transmits the data to a cloud server through the Internet, and the cloud remote management system carries out corresponding monitoring operation management including parameter adjustment and setting, running conditions, fault diagnosis, maintenance, repair, maintenance and the like on the production field equipment through a main control computer through a field intelligent control device (or an intelligent control station) through a corresponding system control management function module.
In consideration of better meeting production requirements and implementing remote monitoring of the running state and/or the service condition of on-site production equipment, the cloud remote management system integrally adopts a B/S structure (Browser/Server Browser/Server structure), is a brand new software system construction system based on a wide area network, and can monitor project running by using a WWW browsing technology and combining various script scripting languages and Active technologies of a Browser through Wincc Web Navigator selection, and a remote client does not need to install configuration software, and only needs to key in a corresponding IP address in an IE Browser.
The cloud remote management system also comprises a mobile terminal server, and the mobile terminal server can monitor the operation of equipment on various intelligent mobile terminals through the WebUX technology. The corresponding operation and monitoring management of the field devices can also be implemented in a limited manner. The cloud remote management system adds firewall protection between the remote client and the local client, so that the security of the whole system of the cloud remote management system can be effectively improved.
In this example, the cloud remote management system includes six functional modules, such as an equipment management module 1, an expert knowledge base module 2, a maintenance management module 6, an enterprise information management module 3, a client management module 4, and a system setting module 5.
The equipment management module comprises two sub-modules, namely an equipment information sub-module and a spare part sub-module. Basic information of equipment purchased by the enterprise, technical parameters of the equipment, delivery date of the equipment, specification model of the equipment, type of the equipment and the like can be checked through the equipment information sub-module. The spare part sub-module can inquire the information such as the installation date, the use time, the maintenance period, the last maintenance time and the like of some vulnerable parts of the equipment. The module is quite an archive, each device is provided with an own identity card, and all the devices can be checked through the archive, so that the devices can be managed conveniently. The base profile is also very fine-grained in classifying profiles, organic type profiles, equipment profiles, customer profiles, equipment type profiles, accessory profiles, warehouse profiles. The information of each device is also comprehensive, and comprises information such as device type, device model, device factory number, device factory date, device alias, device warranty period, device warranty date, software version, intelligent unit controller, file details of the software version and the like. The service can upgrade various devices remotely or change software. Meanwhile, maintenance reminding is set for the equipment, maintenance is regularly reminded, maintenance items are regularly reminded, and the like.
The expert knowledge base module comprises four sub-modules, namely an equipment knowledge base, an operation standard, a fault code and an equipment specification type sub-module. The equipment knowledge base sub-module can inquire all professional parameters of the equipment; the operation standard sub-module has the flow and description of the regular operation of the equipment; the fault code sub-module has the explanation of the displayed code when the corresponding equipment fails; the equipment specification type submodule can inquire parameters and models of all accessories of the equipment. The fault library management is equivalent to that of a fault library management, and all faults at ordinary times are accumulated to form a fault library, so that the alarm problem of various intelligent devices can be found in the fault library later, the fault of the alarm can be conveniently processed later, the fault library can be updated according to the fault alarm of each intelligent device, and according to various fault alarms, an expert correspondingly gives out a fault solution, and all functional modules of the fault library management system can be used for inquiring, adding, modifying, deleting and the like.
The maintenance management module comprises two sub-modules of a fault report and a maintenance work order, and the fault report sub-module can inquire specific fault characteristics and symptom descriptions of equipment when the equipment breaks down, wherein the specific fault characteristics and symptom descriptions comprise the time of the fault, the fault position, the fault grade and the like. The maintenance work sheet module can inquire the fault processing progress and the processing method of the equipment when the equipment is in fault, and the manager can conveniently schedule the after-sales engineers to process. The main functions of the part are various business services including maintenance business, inspection business, traffic business, technical improvement business, accessory verification, old part return to factories, return visit business and equipment verification. The services are tailored to the equipment, so that a plurality of problems of the equipment can be solved, and meanwhile, the matched APP is also provided, so that various service problems can be more conveniently and rapidly solved. The various items and texts in various service pages are configurable, and the settings of each link are configurable, so that the method is applicable to various devices.
The enterprise information module comprises: the system comprises an enterprise information sub-module, a user information sub-module, a batch report sub-module, a historical data sub-module, an alarm data sub-module and a data table setting sub-module; the enterprise information sub-module can query the name, address, corresponding responsible person and other information of the enterprise. The user information sub-module may query the enterprise as to which accounts the set of system is using, and may add or delete users with administrator identity, as well as change the login password of the sub-user. The lot reporting sub-module may query the enterprise for historical production lot data and may print. The historical data sub-module can query data generated in the running process of the equipment and generate a report. The alarm data sub-module can inquire the historical alarm condition generated in the running process of the equipment and generate a report. The data table sub-module can set the formats of various types of report tables in a self-defined mode.
The client management module can inquire whether the enterprise has the number and the name of the client, whether the client is online, whether the client is uploaded in real time and the like.
The system setting module can set the operation buttons of the system interface in a self-defined mode, can query the operation log and can realize personalized setting of the system interface. The basic management mainly relates to the management on a platform, and has the functions of building each organization mechanism, personnel allocation, personnel authority allocation, mechanism and equipment association allocation, various relevant file management of equipment, system configuration and the like.
The cloud remote management system also comprises a network video operation and maintenance module which is used for conducting remote real-time operation and maintenance operation guidance with remote technical service personnel in a field technical service mode through an audio and video recording device which is arranged on a production field and connected with the field intelligent control device or a data acquisition device thereof. The audio and video recording device can be a portable pocket-sized or a pointing device set for a specific location of the associated production field device.
And the cloud remote operation and maintenance management system also comprises a system equipment diagnosis function module which analyzes and diagnoses the operation faults of the on-site intelligent control device and/or the data acquisition device and other equipment according to the acquired data difference type abnormality (such as the acquired related data is separated from the routine and the like) through the system equipment diagnosis function module. The rest of the structure and the corresponding monitoring management operation mode of the embodiment are similar to those of the embodiment.
In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.
The principles and embodiments of the present application have been described herein with reference to specific examples, the description of which is intended only to assist in understanding the methods of the present application and the core ideas thereof; also, it is within the scope of the present application to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the application.
Claims (3)
1. The remote operation and maintenance management system is characterized by comprising a mobile terminal server, a remote equipment maintenance management center, a field intelligent control device connected with the remote equipment maintenance management center and a corresponding cloud remote management system, wherein the cloud remote management system is used for collecting corresponding data information of field related equipment in real time and transmitting the corresponding data information to an industrial intelligent gateway, the industrial intelligent gateway is transmitted to the cloud server through the Internet, and corresponding functional modules of the cloud remote management system are used for carrying out corresponding operation and monitoring operation management including parameter adjustment and setting, running condition, fault diagnosis and maintenance on field equipment through the field intelligent control device; the mobile terminal server realizes the operation of monitoring equipment on various intelligent mobile terminals through the WebUX technology; the corresponding operation and monitoring operation management of the field device can be implemented in a limited manner; the cloud remote management system adds firewall protection between a remote client and a local client;
the cloud remote management system comprises a cloud remote management system and a cloud remote management system, wherein the cloud remote management system comprises a function module of the cloud remote management system, an expert knowledge base module, a maintenance management module, an enterprise information management module, a client management module and a system setting module;
the equipment management module comprises two sub-modules, namely an equipment information sub-module and a spare part sub-module; basic information of equipment purchased by the enterprise, technical parameters of the equipment, equipment delivery date, equipment specification model and equipment type parameters can be checked through the equipment information sub-module; the spare part sub-module is used for inquiring the mounting date, the using time, the maintenance period and the last maintenance time information of the vulnerable part of the equipment; the spare part sub-module is used as an archive, each device is provided with an own identity card, and all the devices are checked through the archive; the classification of the archive includes: model files, device files, customer files, device type files, accessory files, and warehouse files; the information of each device comprises file detail information of a device type, a device model, a device factory number, a device factory date, a device alias, a device warranty period, a device warranty date, a software version, an intelligent unit controller and a software version;
the expert knowledge base module comprises four sub-modules, an equipment knowledge base sub-module, an operation standard sub-module, a fault generation sub-module and an equipment specification type sub-module; the equipment knowledge base submodule is used for inquiring all professional parameters of the equipment; the operation standard sub-module has the flow and description of the regular operation of the equipment; the fault code sub-module has the explanation of the displayed code when the corresponding equipment fails; the equipment specification type sub-module is used for inquiring parameters and models of all accessories of the equipment; the equipment specification model submodule is used as a fault library management, and all faults in normal times are accumulated to form a fault library so as to search in the fault library when alarm problems occur in various intelligent equipment; the fault library is updated according to the fault alarms of all intelligent devices, and the expert correspondingly gives out fault solutions according to various fault alarms;
the maintenance management module comprises two sub-modules of a fault report and a maintenance work order, wherein the fault report sub-module is used for inquiring specific fault characteristics and symptom descriptions when equipment fails, and comprises the time of the failure, the position of the failure and the level of the failure; the maintenance work sheet sub-module is used for inquiring the fault processing progress and the processing method of the equipment when the equipment is in fault, so that an administrator can conveniently schedule an after-sales engineer to process the equipment; the maintenance management module is used for various business services, including maintenance business, inspection business, exchange business, technical improvement business, accessory verification, old part return to factories, return visit business and equipment verification; business services are tailored to equipment to solve the problems of the equipment, and a matched APP is also provided to more conveniently and rapidly solve various service problems; the various items and the text in various service pages are configurable, and the setting of each link is configurable, so that the method is applicable to various devices;
the enterprise information module comprises: the system comprises an enterprise information sub-module, a user information sub-module, a batch report sub-module, a historical data sub-module, an alarm data sub-module and a data table setting sub-module; the enterprise information submodule is used for inquiring the name and address of the enterprise and the corresponding responsible person information; the user information submodule is used for inquiring accounts of the enterprise using the system, adding or deleting users according to the identity of an administrator, and changing login passwords of the child users; the batch reporting sub-module is used for inquiring historical production batch data of the enterprise and printing; the historical data sub-module is used for inquiring data generated in the running process of the equipment and generating a report; the alarm data sub-module can inquire the history alarm condition generated in the running process of the equipment and generate a report; the data table submodule is used for self-defining and setting formats of various report tables;
the client management module is used for inquiring whether the enterprise has the number and the name of the client, whether the client is online or not, and whether the state is uploaded in real time or not;
the system setting module can be used for setting the operation buttons of the system interface in a self-defined mode and is used for inquiring the operation log so as to realize personalized setting of the system interface; the basic management mainly relates to the management on a platform, and the functions of establishment, personnel allocation, personnel authority allocation, mechanism equipment association allocation, various relevant file management of equipment and system configuration of each organization.
2. The remote operation and maintenance management system according to claim 1, further comprising a network video operation and maintenance module for conducting remote real-time operation and maintenance operation guidance with a remote technical service staff in a field technical service manner through an audio and video recording device which is arranged at a production field and is connected with a field intelligent control device or a data collector thereof; the audio and video recording device is a portable pocket or fixed-point device set for a specific position of the relevant production field equipment.
3. The remote operation and maintenance management system according to claim 1, further comprising a system equipment diagnosis function module, wherein the system equipment diagnosis function module is used for analyzing and diagnosing the operation faults of equipment such as the on-site intelligent control device and/or the data collector according to the acquired data difference type abnormality.
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CN202211691807.5A CN117111497A (en) | 2019-01-29 | 2019-01-29 | Remote operation and maintenance management system |
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CN202211691807.5A CN117111497A (en) | 2019-01-29 | 2019-01-29 | Remote operation and maintenance management system |
CN201910086195.9A CN109857020A (en) | 2019-01-29 | 2019-01-29 | Novel maintenance management system |
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CN110286661A (en) * | 2019-06-25 | 2019-09-27 | 南京传业环保科技有限公司 | Intelligent monitoring and operation management system for sewage treatment |
CN110989528A (en) * | 2019-12-12 | 2020-04-10 | 杭州领克信息科技有限公司 | Remote maintenance method of industrial equipment |
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