CN111259002A - Monitoring method, monitoring system and monitoring equipment - Google Patents

Abstract

The embodiment of the invention provides a monitoring method, a monitoring system and monitoring equipment. The method comprises the following steps: the data analysis server side acquires collected equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side; the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side; and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored. The invention can realize the monitoring processing of the equipment to be monitored at the monitoring end based on the visualization technology.

Description

Monitoring method, monitoring system and monitoring equipment

Technical Field

The present invention relates to the field of device monitoring, and in particular, to a monitoring method, a monitoring system, and a monitoring device.

Background

The integrated energy system graph-Model platform is an energy graph-Model data visualization system formed based on an energy CIM (Common Information Model) graph-Model system, the result is an energy system graph, an energy system graph concept is formed under the graph Model and a background CIM data Model planning system, and the upper layer application of the energy system graph-Model data visualization system takes the energy system graph Model as a data visualization basis.

Event driven frameworks (EDAs) define a methodology for designing and implementing an application system in which events can be propagated between loosely coupled components and services. The event-driven framework is introduced into the real-time monitoring of the energy elements, so that the performance pressure of network data transmission in the system operation process is reduced, the transmission of invalid information is avoided, the performance and efficiency of graph model monitoring are improved, meanwhile, the response to continuously changing service requirements is improved, the influence on the existing service application is reduced to the maximum extent, and the requirement on new packaging application is also often eliminated. If a special coarse grain service model is adopted, controllable business change can be rapidly determined based on business targets, and the change can be directly, rapidly and effectively implemented to achieve business agility and completeness.

Events represent events that occurred in the past, and are both technical architecture concepts and business concepts. The event-driven programming model is referred to as an event-driven architecture. An event-driven framework is a way to achieve maximum loose coupling between components or services, mediated by events. In the traditional interface-oriented programming, an interface is used as a medium to realize the decoupling between an interface caller and an interface implementer, but the decoupling degree is not very high, if the interface changes, codes of both parties need to be changed, and event driving means that the caller and the callee do not know each other and are only coupled with an intermediate message queue.

Disclosure of Invention

The embodiment of the invention provides a monitoring method, a monitoring system and monitoring equipment.

In one aspect, an embodiment of the present invention provides a monitoring method, where the method includes: the data analysis server side acquires collected equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side; the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side; and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored.

In one embodiment, the method further comprises: the monitoring end establishes a CIM graph model monitoring system in advance; the monitoring end executes visual processing according to the equipment data and the operation result data, and specifically comprises the following steps: and the monitoring end displays the equipment data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

In one embodiment, the pre-establishing, by the monitoring end, a CIM graph-model monitoring system specifically includes:

and the monitoring end establishes a CIM graph model monitoring system according to the equipment model base class table, the equipment model entity table, the equipment endpoint model base class table, the equipment endpoint model entity table and the equipment measurement topological relation table.

In one embodiment, the method further comprises: the secondary metering equipment acquires the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service, and sends the acquired equipment data to the database terminal.

In one aspect, the present invention also provides a monitoring system, the system comprising: the data analysis server is used for acquiring the acquired equipment data of the equipment to be monitored from the database; calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database end; the graph model basic server is used for acquiring the equipment data and the operation result data from the database, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring terminal; and the monitoring end is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

In one embodiment, the monitoring end is further configured to establish a CIM graph-model monitoring system in advance; in terms of performing visualization processing according to the device data and the operation result data, the monitoring end is specifically configured to display the device data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

In one embodiment, the pre-establishing, by the monitoring end, a CIM graph-model monitoring system specifically includes: and the monitoring end establishes a CIM graph model monitoring system according to the equipment model base class table, the equipment model entity table, the equipment endpoint model base class table, the equipment endpoint model entity table and the equipment measurement topological relation table.

In one embodiment, the system further comprises: and the secondary metering equipment is used for acquiring the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service and sending the acquired equipment data to the database terminal.

In another aspect, the present invention also provides a monitoring device, including: the data analysis service module is used for acquiring the acquired equipment data of the equipment to be monitored from the database module; calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database module; the graph model basic service module is used for acquiring the equipment data and the operation result data from the database module, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring module; and the monitoring module is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

In one embodiment, the monitoring module is further configured to establish a CIM graph-model monitoring system in advance; in terms of performing visualization processing according to the device data and the operation result data, the monitoring module is specifically configured to display the device data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

In one embodiment, the monitoring module pre-establishes a CIM graph-model monitoring system, which specifically includes: and the monitoring module establishes a CIM graph model monitoring system according to the equipment model base class table, the equipment model entity table, the equipment endpoint model base class table, the equipment endpoint model entity table and the equipment measurement topological relation table.

In one embodiment, the system further comprises: and the secondary metering equipment is used for acquiring the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service, and sending the acquired equipment data to the database module.

Acquiring collected equipment data of equipment to be monitored from a database end through a data analysis server end, calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding the operation result data back to the database end; the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side; and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored. According to the method, the equipment model and the topological structure are utilized, so that the equipment model corresponds to the data in the database one by one, the data of the equipment can be visually reflected on the corresponding equipment model in the CIM graph model monitoring system, and the visual maintenance of the data is realized.

Drawings

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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a monitoring method according to an embodiment of the present invention;

FIG. 2 is a diagram of a CIM graph model monitoring system provided in an embodiment of the present invention

FIG. 3 is a diagram of another CIM graph-model monitoring system provided in the embodiment of the present invention

Fig. 4 is a schematic flow chart of a monitoring method according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention will be clearly described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all 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.

The appearances of the phrases "first," "second," and "third," or the like, in the specification, claims, and figures are not necessarily all referring to the particular order in which they are presented. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Referring to fig. 1, fig. 1 is a schematic flow chart of a monitoring method according to an embodiment of the present invention. The method described in the embodiment of the invention comprises the following steps:

s101, a data analysis server side acquires collected equipment data of equipment to be monitored from a database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side;

specifically, in an energy system, it is often necessary to monitor devices to be monitored (such as many energy devices) in the energy system to determine whether the devices to be monitored operate normally. In the monitoring implementation process, the secondary metering equipment can acquire the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service between the secondary metering equipment and the equipment to be monitored, and send the acquired equipment data to the database end for storage, wherein the equipment data comprises the operation data, the system data and the like of the equipment.

The data analysis server side can acquire acquired device data of the device to be monitored from the database side, and calculate the device data according to a preset calculation model to obtain operation result data, for example, data 2 related to the device a can be obtained by acquiring data 1 of the device a and calculating. And then the data analysis server side feeds back the operation result data to the database side.

S102, the graph mode basic server side obtains the equipment data and the operation result data from the database side, processes the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data which are processed to the monitoring side;

the device data and the operation result data are subjected to data processing according to a preset data processing rule, and the preset data processing rule comprises simple translation processing of the data; such as the original data precision decimal processing, the equipment state value conversion (running state and termination state), the energy flow direction visualization, the multi-state equipment state style expression switching and the like.

After the device data are processed to obtain operation result data, the graph model basic server side can send the device data and the operation result data after data processing to the monitoring side, so that the monitoring side can monitor the device to be monitored.

S103, the monitoring terminal executes visualization processing according to the equipment data and the operation result data, and monitors the equipment to be monitored.

The monitoring end can establish a CIM graph model monitoring system in advance; the monitoring end executes visual processing according to the equipment data and the operation result data, and specifically comprises the following steps: and the monitoring end displays the equipment data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

Specifically, the CIM graph-model monitoring system follows a CIM model framework system, and a database data model behind the CIM graph-model monitoring system is designed as follows: a device model Base class table (CIM _ Dev _ Base), a device model entity table (CIM _ Dev _ Ins), a device endpoint model Base class table (CIM _ Dev _ Terminal _ Base), a device endpoint model entity table (CIM _ Dev _ Terminal _ Ins), and a device metering topology association table (CIM _ Dev _ Topo _ meters).

As shown in fig. 2 and fig. 3, the monitoring end may pre-design a CIM graph-model monitoring system, where the CIM graph-model monitoring system includes a plurality of device models representing corresponding devices, and may display the acquired device data and the operation result data at the corresponding device models, or display the acquired device data and the operation result data in special corresponding display frames. Performing visual display on energy element data based on the equipment data and the operation result data obtained by processing, such as: the method comprises the following steps of visualization of light word plate, resetting of equipment, early warning of equipment running state, analysis of energy utilization rate, visualization of energy element data history/real-time statistical chart, energy element data history ring ratio/same ratio chart and other results.

According to the monitoring method provided by the embodiment, the data analysis server side obtains the acquired equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side; the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side; and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored. By utilizing the equipment model and the topological structure, the equipment model corresponds to the data in the database one by one, so that the data of the equipment can be visually reflected on the corresponding equipment model in the CIM graph model monitoring system, and the visual maintenance of the data is realized.

Referring to fig. 4, fig. 4 is a schematic flow chart of a monitoring method according to an embodiment of the present invention. The method described in the embodiment of the invention comprises the following steps:

s401, the secondary metering equipment acquires the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service, and sends the acquired equipment data to the database terminal.

In the monitoring implementation process, the secondary metering equipment can acquire the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service between the secondary metering equipment and the equipment to be monitored, and send the acquired equipment data to the database end for storage, wherein the equipment data comprises the operation data, the system data and the like of the equipment.

S402, the data analysis server side acquires collected equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side;

the data analysis server side can acquire acquired device data of the device to be monitored from the database side, and calculate the device data according to a preset calculation model to obtain operation result data, for example, data 2 related to the device a can be obtained by acquiring data 1 of the device a and calculating. And then the data analysis server side feeds back the operation result data to the database side.

S403, the graph mode basic server side obtains the equipment data and the operation result data from the database side, processes the equipment data and the operation result data according to a preset data processing rule, and sends the equipment data and the operation result data after data processing to the monitoring side;

the device data and the operation result data are subjected to data processing according to a preset data processing rule, and the preset data processing rule comprises simple translation processing of the data; such as the original data precision decimal processing, the equipment state value conversion (running state and termination state), the energy flow direction visualization, the multi-state equipment state style expression switching and the like.

After the device data are processed to obtain operation result data, the graph model basic server side can send the device data and the operation result data after data processing to the monitoring side, so that the monitoring side can monitor the device to be monitored.

S404, the monitoring terminal displays the equipment data and the operation result data at the corresponding position in the CIM graph-model monitoring system.

The monitoring end can establish a CIM graph model monitoring system in advance; the monitoring end executes visual processing according to the equipment data and the operation result data, and specifically comprises the following steps: and the monitoring end displays the equipment data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

Specifically, the CIM graph-model monitoring system follows a CIM model framework system, and a database data model behind the CIM graph-model monitoring system is designed as follows: a device model Base class table (CIM _ Dev _ Base), a device model entity table (CIM _ Dev _ Ins), a device endpoint model Base class table (CIM _ Dev _ Terminal _ Base), a device endpoint model entity table (CIM _ Dev _ Terminal _ Ins), and a device metering topology association table (CIM _ Dev _ Topo _ meters).

As shown in fig. 2 and fig. 3, the monitoring end may pre-design a CIM graph-model monitoring system, where the CIM graph-model monitoring system includes a plurality of device models representing corresponding devices, and may display the acquired device data and the operation result data at the corresponding device models, or display the acquired device data and the operation result data in special corresponding display frames. Performing visual display on energy element data based on the equipment data and the operation result data obtained by processing, such as: the method comprises the following steps of visualization of light word plate, resetting of equipment, early warning of equipment running state, analysis of energy utilization rate, visualization of energy element data history/real-time statistical chart, energy element data history ring ratio/same ratio chart and other results.

According to the monitoring method provided by the embodiment, the data analysis server side obtains the acquired equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side; the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side; and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored. By utilizing the equipment model and the topological structure, the equipment model corresponds to the data in the database one by one, so that the data of the equipment can be visually reflected on the corresponding equipment model in the CIM graph model monitoring system, and the visual maintenance of the data is realized.

The present invention also provides an embodiment of a monitoring system, as shown in fig. 5, the system described in the embodiment of the present invention includes:

the data analysis server is used for acquiring the acquired equipment data of the equipment to be monitored from the database; calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database end;

in particular, in an energy system, it is often necessary to monitor devices to be monitored (such as a plurality of energy devices) in the energy system to determine whether the devices to be monitored operate normally. In the monitoring implementation process, the secondary metering equipment can acquire the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service between the secondary metering equipment and the equipment to be monitored, and send the acquired equipment data to the database end for storage, wherein the equipment data comprises the operation data, the system data and the like of the equipment.

The data analysis server side can acquire acquired device data of the device to be monitored from the database side, and calculate the device data according to a preset calculation model to obtain operation result data, for example, data 2 related to the device a can be obtained by acquiring data 1 of the device a and calculating. And then the data analysis server side feeds back the operation result data to the database side.

The device data and the operation result data are subjected to data processing according to a preset data processing rule, and the preset data processing rule comprises simple translation processing of the data; such as the original data precision decimal processing, the equipment state value conversion (running state and termination state), the energy flow direction visualization, the multi-state equipment state style expression switching and the like.

After the device data are processed to obtain operation result data, the graph model basic server side can send the device data and the operation result data after data processing to the monitoring side, so that the monitoring side can monitor the device to be monitored.

The graph model basic server is used for acquiring the equipment data and the operation result data from the database, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring terminal;

and the monitoring end is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

The monitoring end can establish a CIM graph model monitoring system in advance; the monitoring end executes visual processing according to the equipment data and the operation result data, and specifically comprises the following steps: and the monitoring end displays the equipment data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

Specifically, the CIM graph-model monitoring system follows a CIM model framework system, and a database data model behind the CIM graph-model monitoring system is designed as follows: a device model Base class table (CIM _ Dev _ Base), a device model entity table (CIM _ Dev _ Ins), a device endpoint model Base class table (CIM _ Dev _ Terminal _ Base), a device endpoint model entity table (CIM _ Dev _ Terminal _ Ins), and a device metering topology association table (CIM _ Dev _ Topo _ meters).

As shown in fig. 2 and fig. 3, the monitoring end may pre-design a CIM graph-model monitoring system, where the CIM graph-model monitoring system includes a plurality of device models representing corresponding devices, and may display the acquired device data and the operation result data at the corresponding device models, or display the acquired device data and the operation result data in special corresponding display frames. Performing visual display on energy element data based on the equipment data and the operation result data obtained by processing, such as: the method comprises the following steps of visualization of light word plate, resetting of equipment, early warning of equipment running state, analysis of energy utilization rate, visualization of energy element data history/real-time statistical chart, energy element data history ring ratio/same ratio chart and other results.

By using the monitoring system provided by the embodiment, the equipment model and the topological structure are utilized, so that the equipment model corresponds to the data in the database one by one, the data of the equipment can be visually reflected on the corresponding equipment model in the CIM graph model monitoring system, and the visual maintenance of the data is realized.

The invention also provides an embodiment of a monitoring device, the device described in the embodiment of the invention comprises:

the data analysis service module is used for acquiring the acquired equipment data of the equipment to be monitored from the database module;

calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database module;

specifically, in an energy system, it is often necessary to monitor devices to be monitored (such as many energy devices) in the energy system to determine whether the devices to be monitored operate normally. In the monitoring implementation process, the secondary metering equipment can acquire the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service between the secondary metering equipment and the equipment to be monitored, and send the acquired equipment data to the database module for storage, wherein the equipment data comprises the operation data, the system data and the like of the equipment.

The data analysis service module can acquire acquired device data of the device to be monitored from the database module, and calculate the device data according to a preset calculation model to obtain operation result data, for example, data 2 related to the device a can be obtained by acquiring data 1 of the device a. And then the data analysis service module feeds back the operation result data to the database module.

The device data and the operation result data are subjected to data processing according to a preset data processing rule, and the preset data processing rule comprises simple translation processing of the data; such as the original data precision decimal processing, the equipment state value conversion (running state and termination state), the energy flow direction visualization, the multi-state equipment state style expression switching and the like.

After the device data are processed to obtain operation result data, the graph model basic service module can send the device data and the operation result data after data processing to the monitoring module, so that the monitoring module can monitor the device to be monitored.

The graph model basic service module is used for acquiring the equipment data and the operation result data from the database module, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring module;

and the monitoring module is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

The monitoring module can establish a CIM graph model monitoring system in advance; the monitoring module executes visualization processing according to the equipment data and the operation result data, and specifically comprises: and the monitoring module displays the equipment data and the operation result data at corresponding positions in the CIM graph model monitoring system.

Specifically, the CIM graph-model monitoring system follows a CIM model framework system, and a database data model behind the CIM graph-model monitoring system is designed as follows: a device model Base class table (CIM _ Dev _ Base), a device model entity table (CIM _ Dev _ Ins), a device module point model Base class table (CIM _ Dev _ Terminal _ Base), a device module point model entity table (CIM _ Dev _ Terminal _ Ins), and a device metering topology association table (CIM _ Dev _ Topo _ meters).

As shown in fig. 2 and fig. 3, the monitoring module may pre-design a CIM graph-model monitoring system, where the CIM graph-model monitoring system includes a plurality of device models representing corresponding devices, and may display the acquired device data and the operation result data at the corresponding device models, or display the acquired device data and the operation result data in special corresponding display frames. Performing visual display on energy element data based on the equipment data and the operation result data obtained by processing, such as: the method comprises the following steps of visualization of light word plate, resetting of equipment, early warning of equipment running state, analysis of energy utilization rate, visualization of energy element data history/real-time statistical chart, energy element data history ring ratio/same ratio chart and other results.

By using the monitoring system provided by the embodiment, the equipment model and the topological structure are utilized, so that the equipment model corresponds to the data in the database one by one, the data of the equipment can be visually reflected on the corresponding equipment model in the CIM graph model monitoring system, and the visual maintenance of the data is realized.

Claims (10)

1. A method of monitoring, the method comprising:

the data analysis server side acquires collected equipment data of the equipment to be monitored from the database side, calculates the equipment data according to a preset calculation model to obtain calculation result data, and feeds the calculation result data back to the database side;

the graph model basic server side obtains the equipment data and the operation result data from the database side, performs data processing on the equipment data and the operation result data according to a preset data processing rule, and then sends the equipment data and the operation result data subjected to data processing to the monitoring side;

and the monitoring end executes visual processing according to the equipment data and the operation result data to monitor the equipment to be monitored.

2. The method of claim 1, further comprising: the monitoring end establishes a CIM graph model monitoring system in advance;

the monitoring end executes visual processing according to the equipment data and the operation result data, and specifically comprises the following steps:

and the monitoring end displays the equipment data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

3. The method according to claim 1, wherein the monitoring end pre-establishes a CIM graph-model monitoring system, specifically comprising:

and the monitoring end establishes a CIM graph model monitoring system according to the equipment model base class table, the equipment model entity table, the equipment endpoint model base class table, the equipment endpoint model entity table and the equipment measurement topological relation table.

4. The method of claim 1, further comprising:

the secondary metering equipment acquires the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service, and sends the acquired equipment data to the database terminal.

5. A monitoring system, the system comprising:

the data analysis server is used for acquiring the acquired equipment data of the equipment to be monitored from the database; calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database end;

the graph model basic server is used for acquiring the equipment data and the operation result data from the database, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring terminal;

and the monitoring end is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

6. The system of claim 5, wherein the monitoring end is further configured to pre-establish a CIM graph-model monitoring system;

in terms of performing visualization processing according to the device data and the operation result data, the monitoring end is specifically configured to display the device data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

7. The system according to claim 5, wherein the monitoring end pre-establishes a CIM graph-model monitoring system, specifically comprising:

and the monitoring end establishes a CIM graph model monitoring system according to the equipment model base class table, the equipment model entity table, the equipment endpoint model base class table, the equipment endpoint model entity table and the equipment measurement topological relation table.

8. The system of claim 5, further comprising:

and the secondary metering equipment is used for acquiring the equipment data of the equipment to be monitored through a preset data acquisition protocol and a preset data acquisition service and sending the acquired equipment data to the database terminal.

9. A monitoring device, characterized in that the device comprises:

the data analysis service module is used for acquiring the acquired equipment data of the equipment to be monitored from the database module;

calculating the equipment data according to a preset calculation model to obtain operation result data, and feeding back the operation result data to the database module;

the graph model basic service module is used for acquiring the equipment data and the operation result data from the database module, processing the equipment data and the operation result data according to a preset data processing rule, and then sending the equipment data and the operation result data after data processing to the monitoring module;

and the monitoring module is used for executing visual processing according to the equipment data and the operation result data and monitoring the equipment to be monitored.

10. The monitoring device of claim 9, wherein the monitoring module is further configured to pre-establish a CIM graph-model monitoring system;

in terms of performing visualization processing according to the device data and the operation result data, the monitoring module is specifically configured to display the device data and the operation result data at corresponding positions in the CIM graph-model monitoring system.

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