CN112200541A - Water affair enterprise informatization operation management system - Google Patents
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Abstract
The invention discloses a water affair enterprise information operation management system, which comprises: the system comprises a master control system, a plurality of project central control systems and a plurality of control terminals, wherein the master control system is connected with a cloud end system and the project central control systems, the project central control systems belong to the project central control systems, the project central control systems are connected with the control terminals in the regional scope, the cloud end system is connected with the master control system, the project central control systems and the project regional control systems, and the control terminals are connected with the project regional control systems. The invention can complete the unified management of the operation of multiple types of projects of enterprises, realize the interactive sharing of operation information, improve the integrated management efficiency, increase the emergency response speed of emergency and greatly reduce the manual management cost.
Description
Technical Field
The invention relates to the technical field of computers, in particular to an informatization operation management system for water affair enterprises.
Background
With the adjustment and development of social and economic structures, the nation pays high attention to environmental protection, and the comprehensive water environment regulation in the current environmental protection field is gradually implemented, such as village sewage treatment, black and odorous water treatment, resident drinking water improvement and the like. At the present stage, more large-scale enterprises finish the construction of various water projects and gradually adopt more advanced operating equipment, but the sites of the projects are scattered, the quantity is more, the scale of partial stations is small, and managers are seriously lacked. Therefore, how to improve the operation management efficiency of enterprises and save labor cost is very important.
Disclosure of Invention
The invention aims to provide an information operation management system for a water business enterprise, and aims to solve the problems in the prior art.
The invention provides a water affair enterprise information operation management system, which comprises:
the master control system is connected with the cloud system and the plurality of project center control systems, and is used for acquiring production information from the cloud system according to the authority, issuing auxiliary and decision-making operation instructions to each project center control system and performing unified scheduling;
the system comprises a plurality of project center control systems, a master control system, a cloud end system and a plurality of project area control systems subordinate to the project center control systems, wherein the project center control systems are connected with the master control system, the cloud end system and the plurality of project area control systems subordinate to the project center control systems, and are used for acquiring production information uploaded by the governed project area control systems from the cloud end system according to authority, receiving auxiliary and decision-making operation instructions sent by the master control system, issuing auxiliary instructions to the governed project area control systems, and uploading the auxiliary instructions and execution conditions serving as the production information to the cloud end system;
the system comprises a plurality of project area control systems, a plurality of cloud-end systems and a plurality of control terminals, wherein the project area control systems are connected with project center control systems of projects belonging to the project area control systems and the control terminals in area ranges, and are used for receiving various types of operation data and operation state information sent by the control terminals in the area under the control of the project area control systems, analyzing the various types of operation data and the operation state information, generating production scheduling instructions of the corresponding control terminals according to data analysis results obtained by analysis and auxiliary instructions issued by the project center control systems, issuing the production scheduling instructions to the corresponding control terminals, feeding back execution conditions of the auxiliary instructions, and uploading the received various types of operation data, the operation state information, the data analysis results, the scheduling instructions and feedback results obtained by the control terminals after the control terminals receive the instructions;
the cloud system is connected with the master control system, the plurality of project center control systems and the plurality of project area control systems, and is used for receiving the production data uploaded by the project area control systems and providing query interfaces for the project center control systems and the project area control systems;
and the control terminal is connected with the cloud system and the affiliated project area control system, and is used for acquiring various kinds of operation data and operation state information of the specific project, uploading the operation data and the operation state information to the corresponding superior project area control system, executing a scheduling instruction issued by the project area control system and feeding back a result.
By adopting the embodiment of the invention, the regional control terminals, the various central control systems, the master control system and the cloud information are shared, and the instructions are issued by different control levels according to the item types, so that the unified management of the operation of multiple types of projects of an enterprise is completed, the interactive sharing of the operation information is realized, the integrated management efficiency is improved, the emergency response speed of emergency situations is increased, and the manual management cost is greatly reduced.
The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.
Drawings
In order to solve the above problems in the prior art, embodiments of the present invention provide an intensive, efficient and intelligent integrated operation management system for a water-related and environment-friendly enterprise, that is, an enterprise, based on network information, and the integrated, efficient and intelligent integrated operation management system shares information with a cloud terminal through each local control terminal, each central control system, a general control system and different control levels according to item types, and issues instructions to complete unified operation management of multiple types of projects of the enterprise, thereby implementing interactive sharing of operation information, improving integrated management efficiency, increasing emergency response speed in emergency situations, and greatly reducing manual management cost.
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.
Fig. 1 is a schematic diagram of a water business enterprise informatization operation management system according to an embodiment of the present invention;
fig. 2 is a detailed schematic diagram of an information operation management system of a water service enterprise according to an embodiment of the present invention;
fig. 3 is a schematic diagram of a water service enterprise information-based operation management system according to an embodiment of the present invention.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. 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.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
According to an embodiment of the present invention, there is provided a water service enterprise information operation management system, fig. 1 is a schematic view of the water service enterprise information operation management system according to the embodiment of the present invention, and as shown in fig. 1, the water service enterprise information operation management system according to the embodiment of the present invention specifically includes:
the system comprises a main control system 10, a plurality of project center control systems and a cloud system 16, wherein the main control system 12 is connected with the cloud system 16 and the project center control systems and is used for acquiring production information from the cloud system according to authority, issuing auxiliary and decision-making operation instructions to the project center control systems and performing unified scheduling; in the embodiment of the invention, the authority of the master control system is higher than that of the project center control system.
In the embodiment of the present invention, the general control system 10 is further configured to issue a four-stage emergency response instruction according to the determined emergency level; the emergency degree of the emergency response command is from low to high as: the emergency response system comprises a first-stage emergency response instruction, a second-stage emergency response instruction, a third-stage emergency response instruction and a fourth-stage emergency response instruction.
The project center control systems 12 are connected with the master control system 10, the cloud end system 16 and a plurality of project area control systems 14 belonging to each project center control system, and are used for acquiring production information uploaded by the managed project area control systems from the cloud end system according to authority, receiving auxiliary and decision-making operation instructions sent by the master control system, issuing auxiliary instructions to the managed project area control systems, and uploading the auxiliary instructions and execution conditions serving as the production information to the cloud end system; the multiple project center control systems 12 specifically include:
the water treatment plant central control system is connected with the master control system, the cloud end system and the plurality of water treatment plant regional control systems, and is used for acquiring production information uploaded by the governed water treatment plant regional control system from the cloud end system according to authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the governed water treatment plant regional control system, and uploading the auxiliary regulation instruction and the execution condition as production information to the cloud end system;
the river sewage central control system is connected with the master control system, the cloud system and the plurality of river sewage area control systems, and is used for acquiring production information uploaded by the governed river sewage area control system from the cloud system according to authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the governed river sewage area control system, and uploading the auxiliary regulation and execution condition to the cloud system as production information;
the village sewage center control system is connected with the master control system, the cloud system and the plurality of village sewage area control systems, and is used for acquiring production information uploaded by the village sewage area control systems in the jurisdiction from the cloud system according to the authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the village sewage area control systems in the jurisdiction, and uploading the auxiliary instruction and the execution condition as the production information to the cloud system.
In the embodiment of the present invention, the project center control system 12 is further configured to issue a three-level emergency response command according to the determined emergency level;
the system comprises a plurality of project area control systems 14, a plurality of cloud-end systems and a plurality of cloud-end systems, wherein the project area control systems 14 are connected with project center control systems 12 of projects belonging to the project area and control terminals 18 in area ranges, and are used for receiving various kinds of operation data and operation state information sent by the control terminals in the area under the control of the project area, analyzing the various kinds of operation data and operation state information, generating production scheduling instructions of the corresponding control terminals according to data analysis results obtained by analysis and auxiliary instructions issued by the project center control systems, issuing the production scheduling instructions to the corresponding control terminals, feeding back execution conditions of the auxiliary instructions, and uploading the received various kinds of operation data, operation state information, data analysis results, scheduling instructions and feedback results obtained by the control terminals after the control terminals receive the instructions as production information to the cloud; the multiple project area control system 14 includes:
the water treatment plant regional control systems are connected with the water treatment plant central control system and the water treatment plant control terminals in the regional scope, and are used for receiving various operation data and operation state information of the water treatment plant sent by the water treatment plant control terminals in the region under the control of the water treatment plant regional control systems, analyzing the various operation data and operation state information of the water treatment plant, generating a scheduling instruction of the corresponding water treatment plant control terminal according to the data analysis result obtained by analysis and an auxiliary instruction issued by the project central control system, issuing the scheduling instruction to the corresponding control terminal, feeding back the execution condition of the auxiliary instruction, and uploading the received various operation data, operation state information, data analysis results, scheduling instructions and feedback results of the water treatment plant control terminal after the water treatment plant control terminal receives the instruction execution as production information to the cloud system;
the system comprises a plurality of river sewage area control systems, a plurality of cloud end systems and a plurality of city control terminals, wherein the river sewage area control systems are connected with a river sewage center control system and the city control terminals in an area range, and are used for receiving various operation data and operation state information of river operation sent by the city control terminals in the area under the control of the river sewage center control systems, analyzing the various operation data and operation state information of the river operation, generating scheduling instructions corresponding to the city control terminals according to data analysis results obtained by analysis and auxiliary instructions issued by a project center control system, issuing the scheduling instructions to the corresponding control terminals, feeding back the execution conditions of the auxiliary instructions, and uploading the received various operation data, operation state information, data analysis results, scheduling instructions and feedback results obtained by the city control terminals after receiving the instructions to the cloud end systems as production information;
the system comprises a plurality of village sewage area control systems, a plurality of village sewage area control systems and a plurality of town control terminals in area ranges, wherein the village sewage area control systems are connected with a village sewage center control system and the town control terminals in the area ranges and used for receiving various operation data and operation state information of town operation sent by the town control terminals in the district within the jurisdiction of the village sewage center control systems, analyzing the various operation data and operation state information of the town operation, generating a scheduling instruction of the corresponding town control terminal according to the data analysis result obtained by analysis and an auxiliary instruction issued by a project center control system, issuing the scheduling instruction to the corresponding control terminal, feeding back the execution condition of the auxiliary instruction, and uploading the received feedback results of the various operation data, the operation state information, the data analysis result, the scheduling instruction and the received instruction execution of the town control terminal to a cloud end system as.
In the embodiment of the present invention, the project area control system 14 is further configured to issue a secondary emergency response command according to the determined emergency level;
the cloud system 16 is connected with the master control system 10, the plurality of project center control systems 12 and the plurality of project area control systems 14, and is used for receiving production data uploaded by the project area control systems and providing query interfaces for the project center control systems and the project area control systems;
and the control terminal 18 is connected with the affiliated project area control system 16 and is used for acquiring various kinds of operation data and operation state information of the specific project, uploading the operation data and the operation state information to the corresponding upper-level project area control system, executing a scheduling instruction issued by the project area control system and feeding back a result.
The control terminal 18 specifically includes:
the water treatment plant control terminal is connected with the water treatment plant regional control system and is used for acquiring various operation data and operation state information of the water treatment plant, transmitting the operation data and the operation state information to the corresponding upper-level water treatment plant regional control system, executing a scheduling instruction issued by the water treatment plant regional control system and feeding back a result;
the city control terminal is connected with the affiliated river sewage area control system and is used for acquiring various operation data and operation state information of river operation, transmitting the operation data and the operation state information to the corresponding superior river sewage area control system, executing a scheduling instruction issued by the river sewage area control system and feeding back a result;
and the town control terminal is connected with the village sewage area control system to which the town control terminal belongs, and is used for acquiring various running data and running state information of running of each town, transmitting the running data and the running state information to the village sewage area control system at the corresponding upper level, executing a scheduling instruction issued by the village sewage area control system and feeding back a result.
In the embodiment of the present invention, the control terminal 18 is further configured to issue a primary emergency response instruction according to the determined emergency level;
the above technical solutions of the embodiments of the present invention are described in detail below with reference to the accompanying drawings.
Fig. 2 is a detailed schematic diagram of a water service enterprise informatization operation management system according to an embodiment of the present invention, as shown in fig. 2:
the water-service environment-friendly enterprise informatization operation management system comprises an enterprise master control system, a cloud system, a water treatment plant central control system, a village sewage central control system, a river sewage central control system (hereinafter referred to as each project central control system), a regional control system of each project central control system, a water treatment plant control terminal of the water treatment plant regional control system, each city control terminal of the river sewage control system and each town control terminal of the village sewage control system.
Each project center control system is in network link with the master control system; each water purification plant area control terminal is linked with the corresponding upper-level regional control system through a network, and the water purification plant regional control system is linked with the corresponding upper-level central control system through the network; each river channel control terminal is linked with the corresponding upper-level regional control system through a network, and each river channel regional control system is linked with the corresponding upper-level central control system through a network; each village sewage control terminal is linked with the corresponding superior regional control system through a network, and each village sewage regional control system is linked with the corresponding superior central control system through a network.
Each project area control system, each project center control system and the total control system are connected with the cloud system through a network, each access end (except the total control system) uploads information to the cloud, and each access end can read various information stored in the cloud according to the authority.
Each water purification plant area control terminal: collecting various operating data, abnormal operation and other state information of the water treatment plant, and transmitting the state information to a corresponding upper-level regional control system; each river control terminal: collecting various operating data and state information of the operation of the river channel, and transmitting the operating data and the state information to a corresponding upper-level regional control system; each village sewage control terminal: and collecting various running data and state information of running of each town and transmitting the running data and the state information to a corresponding upper-level regional control system.
And each regional control system receives the running data and the state information of each water plant, river channel and village sewage terminal in the region under the jurisdiction of the regional control system through a network, analyzes the information, forms a production scheduling instruction of the corresponding terminal, issues the production scheduling instruction, and uploads a data analysis result, a scheduling instruction, a feedback result after the terminal receives the instruction execution and the like in the production process to the cloud system.
Each project center control system is connected with the cloud system and the managed area control system through a network, is connected with the cloud system, can acquire various production information uploaded by the managed area control system from the cloud system according to authority, and can directly issue auxiliary instructions to the managed area control system.
The master control system is in network connection with the cloud system and the project central control systems, can acquire control end operation data and operation states uploaded by any project of the cloud system through authority, and can issue auxiliary and decision-making operation instructions to the central control system of each project to perform unified scheduling.
As shown in fig. 3, in the system with fourteen possible arrangements according to the present invention, each local operation terminal corresponds to each local operation department, each project company operation department corresponds to each project regional control system, branch company operation department corresponds to each project central control system, and headquarter operation department corresponds to the head control system.
A plurality of local water purification plants, river channels and agricultural sewage operation terminals collect operation information and operation states through water quality treatment modules and transmit the operation information and the operation states to a regional control system in charge of an operation department of each project company through a PC network port.
And the operation department of each project company issues a scheduling instruction through the uploaded operation information, and can also adjust local operation parameters directly through remote control in the authority. Meanwhile, the regional control system uploads the received operation information and scheduling instruction information to the cloud sharing system.
The branch company operation part checks the operation data and the operation state information uploaded by the control terminals of all the parts of the cloud system, the scheduling instruction and the scheduling instruction execution condition uploaded to the cloud by the control centers of all the areas according to the authority, and the branch company issues the auxiliary scheduling instruction according to the cloud information. And uploading the auxiliary call information and the execution condition to a cloud sharing system.
The headquarter operator has the highest authority level, and all information of the cloud sharing system can be checked. The headquarters can issue decision-making instructions according to the processing result of the acquired information.
The operation management method establishes a four-level emergency response mechanism, judges the level of an emergency situation through a system, respectively generates the starting authorities of the response mechanisms of the four levels of I, II, III and IV at a local control terminal, a regional control system, a central control system and a headquarter control system, and issues starting influence instructions by corresponding operation management personnel.
The emergency response mechanism is divided into a plurality of categories, including equipment fault maintenance, inlet water quality condition change, outlet water quality failure, technical problem category, technical personnel allocation and the like. The technical staff and technical support, headquarter operator has the highest authority.
The enterprise establishes an enterprise internal information management platform according to the information cloud hidden management system and mode, enterprise employees have own account numbers, and can exchange according to technical problems encountered in actual work and be fed back to an operation technical department by an administrator to improve a cloud system, other control systems, a management mode and the like.
The control systems at all levels have different authorities for calling the cloud information, and if a subordinate control system wants to call the information outside the authority, the subordinate control system needs to be approved by a headquarter manager.
In summary, the technical solutions of the embodiments of the present invention have the following beneficial effects:
(1) the operation management mode interconnects a master control system, each project center control system, each project regional control system and each project control terminal through a network, corresponds to four levels of each water purification plant station operation management part, a river channel operation management part, a village sewage operation management part of an enterprise, and a project regional operation company, an enterprise branch company and an enterprise headquarter, forms an enterprise four-level network information water affair project operation management system, and is favorable for the enterprise to carry out overall supervision on projects all over the country from top to bottom.
(2) The general control system, each central control system, each project regional control system and the cloud sharing system are interconnected, and according to corresponding authorities, information such as operating parameters, operating states, scheduling instructions and the like of each project including a cloud water purification plant, a river channel, village sewage and the like can be adjusted, so that a problem processing mode for mutual reference among projects and operating companies is facilitated, and branch companies and headquarters can issue auxiliary and decision-making scheduling instructions.
(3) The control system of each project area grades the operation information to form a problem processing grade, and high-grade problems can be decided by each project area control center or headquarters, and advanced technicians are assigned to provide technical support, so that the corresponding operation difficulty is solved. And the low-level problems are tasks such as routing inspection, maintenance, operation parameter adjustment and the like are distributed. The system can be realized by automatic control adjustment of the system, and can also be solved by scheduling corresponding technicians.
(4) The water affair information operation management system can realize that the headquarters of a large water affair enterprise can monitor the operation states of water affair projects in all regions of the country through the cloud information sharing system, and improves the operation management efficiency through hierarchical management according to the problem level; the regional control system can remotely control various project control terminals, so that the labor cost is reduced.
(5) The cloud information sharing system comprises various operation problem types and solutions of various items, is favorable for mutual reference of the items, and is favorable for enterprises to summarize operation results to form core competitiveness.
It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (6)
1. A water affair enterprise informatization operation management system is characterized by comprising:
the master control system is connected with the cloud system and the plurality of project center control systems, and is used for acquiring production information from the cloud system according to the authority, issuing auxiliary and decision-making operation instructions to each project center control system and performing unified scheduling;
the system comprises a plurality of project center control systems, a master control system, a cloud end system and a plurality of project area control systems subordinate to the project center control systems, wherein the project center control systems are connected with the master control system, the cloud end system and the plurality of project area control systems subordinate to the project center control systems, and are used for acquiring production information uploaded by the governed project area control systems from the cloud end system according to authority, receiving auxiliary and decision-making operation instructions sent by the master control system, issuing auxiliary instructions to the governed project area control systems, and uploading the auxiliary instructions and execution conditions serving as the production information to the cloud end system;
the system comprises a plurality of project area control systems, a plurality of cloud-end systems and a plurality of control terminals, wherein the project area control systems are connected with project center control systems of projects belonging to the project area control systems and the control terminals in area ranges, and are used for receiving various types of operation data and operation state information sent by the control terminals in the area under the control of the project area control systems, analyzing the various types of operation data and the operation state information, generating production scheduling instructions of the corresponding control terminals according to data analysis results obtained by analysis and auxiliary instructions issued by the project center control systems, issuing the production scheduling instructions to the corresponding control terminals, feeding back execution conditions of the auxiliary instructions, and uploading the received various types of operation data, the operation state information, the data analysis results, the scheduling instructions and feedback results obtained by the control terminals after the control terminals receive the instructions;
the cloud system is connected with the master control system, the plurality of project center control systems and the plurality of project area control systems, and is used for receiving the production data uploaded by the project area control systems and providing query interfaces for the project center control systems and the project area control systems;
and the control terminal is connected with the affiliated project area control system and is used for acquiring various kinds of running data and running state information of the specific project, uploading the running data and the running state information to the corresponding superior project area control system, executing a scheduling instruction issued by the project area control system and feeding back a result.
2. The system according to claim 1, wherein the control terminal specifically includes:
the water treatment plant control terminal is connected with the water treatment plant regional control system and is used for acquiring various operation data and operation state information of the water treatment plant, transmitting the operation data and the operation state information to the corresponding upper-level water treatment plant regional control system, executing a scheduling instruction issued by the water treatment plant regional control system and feeding back a result;
the city control terminal is connected with the affiliated river sewage area control system and is used for acquiring various operation data and operation state information of river operation, transmitting the operation data and the operation state information to the corresponding superior river sewage area control system, executing a scheduling instruction issued by the river sewage area control system and feeding back a result;
and the town control terminal is connected with the village sewage area control system to which the town control terminal belongs, and is used for acquiring various running data and running state information of running of each town, transmitting the running data and the running state information to the village sewage area control system at the corresponding upper level, executing a scheduling instruction issued by the village sewage area control system and feeding back a result.
3. The system of claim 1, wherein the plurality of project area control systems specifically comprise:
the water treatment plant regional control systems are connected with the water treatment plant central control system and the water treatment plant control terminals in the regional scope, and are used for receiving various operation data and operation state information of the water treatment plant sent by the water treatment plant control terminals in the region under the control of the water treatment plant regional control systems, analyzing the various operation data and operation state information of the water treatment plant, generating a scheduling instruction of the corresponding water treatment plant control terminal according to the data analysis result obtained by analysis and an auxiliary instruction issued by the project central control system, issuing the scheduling instruction to the corresponding control terminal, feeding back the execution condition of the auxiliary instruction, and uploading the received various operation data, operation state information, data analysis results, scheduling instructions and feedback results of the water treatment plant control terminal after the water treatment plant control terminal receives the instruction execution as production information to the cloud system;
the system comprises a plurality of river sewage area control systems, a plurality of cloud end systems and a plurality of city control terminals, wherein the river sewage area control systems are connected with a river sewage center control system and the city control terminals in an area range, and are used for receiving various operation data and operation state information of river operation sent by the city control terminals in the area under the control of the river sewage center control systems, analyzing the various operation data and operation state information of the river operation, generating scheduling instructions corresponding to the city control terminals according to data analysis results obtained by analysis and auxiliary instructions issued by a project center control system, issuing the scheduling instructions to the corresponding control terminals, feeding back the execution conditions of the auxiliary instructions, and uploading the received various operation data, operation state information, data analysis results, scheduling instructions and feedback results obtained by the city control terminals after receiving the instructions to the cloud end systems as production information;
the system comprises a plurality of village sewage area control systems, a plurality of village sewage area control systems and a plurality of town control terminals in area ranges, wherein the village sewage area control systems are connected with a village sewage center control system and the town control terminals in the area ranges and used for receiving various operation data and operation state information of town operation sent by the town control terminals in the district within the jurisdiction of the village sewage center control systems, analyzing the various operation data and operation state information of the town operation, generating a scheduling instruction of the corresponding town control terminal according to the data analysis result obtained by analysis and an auxiliary instruction issued by a project center control system, issuing the scheduling instruction to the corresponding control terminal, feeding back the execution condition of the auxiliary instruction, and uploading the received feedback results of the various operation data, the operation state information, the data analysis result, the scheduling instruction and the received instruction execution of the town control terminal to a cloud end system as.
4. The system of claim 1, wherein the plurality of project center control systems specifically comprise:
the water treatment plant central control system is connected with the master control system, the cloud end system and the plurality of water treatment plant regional control systems, and is used for acquiring production information uploaded by the governed water treatment plant regional control system from the cloud end system according to authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the governed water treatment plant regional control system, and uploading the auxiliary regulation instruction and the execution condition as production information to the cloud end system;
the river sewage central control system is connected with the master control system, the cloud system and the plurality of river sewage area control systems, and is used for acquiring production information uploaded by the governed river sewage area control system from the cloud system according to authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the governed river sewage area control system, and uploading the auxiliary regulation and execution condition to the cloud system as production information;
the village sewage center control system is connected with the master control system, the cloud system and the plurality of village sewage area control systems, and is used for acquiring production information uploaded by the village sewage area control systems in the jurisdiction from the cloud system according to the authority, receiving an auxiliary and decision-making operation instruction sent by the master control system, issuing an auxiliary instruction to the village sewage area control systems in the jurisdiction, and uploading the auxiliary instruction and the execution condition as the production information to the cloud system.
5. The system of claim 1, wherein the master control system has a higher authority than the project center control system.
6. The system of claim 1,
the control terminal is further used for issuing a primary emergency response instruction according to the determined emergency level;
the project area control system is further used for issuing a secondary emergency response instruction according to the determined emergency level;
the project center control system is further used for issuing a three-level emergency response instruction according to the determined emergency level;
the master control system is further used for issuing a four-stage emergency response instruction according to the determined emergency level; the emergency degree of the emergency response command is from low to high as: the emergency response system comprises a first-stage emergency response instruction, a second-stage emergency response instruction, a third-stage emergency response instruction and a fourth-stage emergency response instruction.
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