CN111930056A - Power monitoring system and method for intelligent building - Google Patents
Power monitoring system and method for intelligent building Download PDFInfo
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- CN111930056A CN111930056A CN202010762007.2A CN202010762007A CN111930056A CN 111930056 A CN111930056 A CN 111930056A CN 202010762007 A CN202010762007 A CN 202010762007A CN 111930056 A CN111930056 A CN 111930056A
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- G05—CONTROLLING; REGULATING
- 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
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Abstract
The invention relates to an electric power monitoring system and method of an intelligent building, wherein the system comprises an electric power data acquisition module, a data acquisition module and a data acquisition module, wherein the electric power data acquisition module comprises a plurality of node electric quantity instruments, and all the node electric quantity instruments are electrically connected to a node circuit of a building electric power network in a distributed mode and used for acquiring electric power data of nodes in the building; the power data marking module is used for marking the acquired power data in the building at a corresponding position in a pre-constructed building power three-dimensional model; and the power data monitoring module is used for carrying out power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to an analysis result and monitoring a power grid in the building in real time according to the alarm information. According to the invention, the power data in the building are monitored in three dimensions through the building power three-dimensional model, so that the monitoring effect can be improved, and the monitoring is more vivid; in addition, the user and the emergency power can be monitored separately at the same time, the monitoring is performed in a definite time, and the monitoring effect is good.
Description
Technical Field
The invention relates to the field of intelligent buildings, in particular to a power monitoring system and method for intelligent buildings.
Background
With the development of science and technology, intelligent building management systems are developed more and more rapidly. People in modern buildings all require high-tech monitoring systems for places with potential safety hazards, and the existing intelligent building management systems in the market all have respective limitations, for example, the existing intelligent building management systems are based on plane monitoring, and the monitoring effect is not visual enough.
Disclosure of Invention
The invention aims to provide an electric power monitoring system and method for an intelligent building, which can realize three-dimensional monitoring and is more vivid in monitoring.
The technical scheme for solving the technical problems is as follows: an electric power monitoring system for intelligent building comprises the following modules,
the electric power data acquisition module comprises a plurality of node electric quantity instruments, and all the node electric quantity instruments are electrically connected to a node circuit of a building electric power network in a distributed manner and used for acquiring electric power data of nodes in a building;
the power data marking module is used for marking the acquired power data in the building at a corresponding position in a pre-constructed building power three-dimensional model;
and the power data monitoring module is used for carrying out power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to an analysis result, and monitoring a power grid in the building in real time according to the alarm information.
On the basis of the technical scheme, the invention can be further improved as follows.
The building power three-dimensional modeling module is used for building the building power three-dimensional model according to the power grid structure in the building.
Further, the building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model; the power data includes user power data and emergency power data.
Further, the power data marking module is specifically configured to mark the acquired user power data in the building on the building user power three-dimensional model, and mark the acquired emergency power data in the building on the building emergency power three-dimensional model.
Further, the power data monitoring module is specifically used for performing power analysis on the building user power three-dimensional model marked with the user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
The invention has the beneficial effects that: the system of the invention carries out three-dimensional monitoring on the power data in the building through the building power three-dimensional model, can improve the monitoring effect and enables the monitoring to be more vivid; in addition, the user and the emergency power can be monitored separately at the same time, the monitoring is performed in a definite time, and the monitoring effect is good.
Based on the power monitoring system for the intelligent building, the invention also provides a power monitoring method for the intelligent building.
A power monitoring method for intelligent building includes the following steps,
s1, acquiring power data of nodes in the building;
s2, marking the acquired power data in the building at the corresponding position in the pre-constructed building power three-dimensional model;
and S3, performing power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to the analysis result, and monitoring the power grid in the building in real time according to the alarm information.
On the basis of the technical scheme, the invention can be further improved as follows.
The building power three-dimensional modeling module is used for building the building power three-dimensional model according to the power grid structure in the building.
Further, the building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model;
the power data includes user power data and emergency power data.
Further, the power data marking module is specifically configured to mark the acquired user power data in the building on the building user power three-dimensional model, and mark the acquired emergency power data in the building on the building emergency power three-dimensional model.
Further, the power data monitoring module is specifically used for performing power analysis on the building user power three-dimensional model marked with the user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
The invention has the beneficial effects that: the method of the invention carries out three-dimensional monitoring on the power data in the building through the building power three-dimensional model, can improve the monitoring effect and enables the monitoring to be more vivid; in addition, the user and the emergency power can be monitored separately at the same time, the monitoring is performed in a definite time, and the monitoring effect is good.
Drawings
Fig. 1 is a block diagram of an electric power monitoring system for smart buildings according to the present invention;
fig. 2 is a flowchart of an electric power monitoring method for intelligent buildings according to the present invention.
Detailed Description
The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.
As shown in fig. 1, a power monitoring system for intelligent building includes the following modules,
the electric power data acquisition module comprises a plurality of node electric quantity instruments, and all the node electric quantity instruments are electrically connected to a node circuit of a building electric power network in a distributed manner and used for acquiring electric power data of nodes in a building;
the power data marking module is used for marking the acquired power data in the building at a corresponding position in a pre-constructed building power three-dimensional model;
and the power data monitoring module is used for carrying out power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to an analysis result, and monitoring a power grid in the building in real time according to the alarm information.
In this particular embodiment:
the building power three-dimensional modeling module is used for building the building power three-dimensional model according to a power grid structure in a building.
The building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model; the power data includes user power data and emergency power data.
The power data marking module is specifically used for marking the acquired user power data in the building on a building user power three-dimensional model and marking the acquired emergency power data in the building on a building emergency power three-dimensional model.
The power data monitoring module is specifically used for carrying out power analysis on a building user power three-dimensional model marked with user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
The system of the invention carries out three-dimensional monitoring on the power data in the building through the building power three-dimensional model, can improve the monitoring effect and enables the monitoring to be more vivid; in addition, the user and the emergency power can be monitored separately at the same time, the monitoring is performed in a definite time, and the monitoring effect is good.
Based on the power monitoring system for the intelligent building, the invention also provides a power monitoring method for the intelligent building.
As shown in fig. 2, a power monitoring method for intelligent building includes the following steps,
s1, acquiring power data of nodes in the building;
s2, marking the acquired power data in the building at the corresponding position in the pre-constructed building power three-dimensional model;
and S3, performing power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to the analysis result, and monitoring the power grid in the building in real time according to the alarm information.
In this particular embodiment:
the building power three-dimensional modeling module is used for building the building power three-dimensional model according to a power grid structure in a building.
The building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model;
the power data includes user power data and emergency power data.
The power data marking module is specifically used for marking the acquired user power data in the building on a building user power three-dimensional model and marking the acquired emergency power data in the building on a building emergency power three-dimensional model.
The power data monitoring module is specifically used for carrying out power analysis on a building user power three-dimensional model marked with user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
The method of the invention carries out three-dimensional monitoring on the power data in the building through the building power three-dimensional model, can improve the monitoring effect and enables the monitoring to be more vivid; in addition, the user and the emergency power can be monitored separately at the same time, the monitoring is performed in a definite time, and the monitoring effect is good.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (10)
1. The utility model provides an electric power monitored control system of wisdom building which characterized in that: comprises the following modules which are used for realizing the functions of the system,
the electric power data acquisition module comprises a plurality of node electric quantity instruments, and all the node electric quantity instruments are electrically connected to a node circuit of a building electric power network in a distributed manner and used for acquiring electric power data of nodes in a building;
the power data marking module is used for marking the acquired power data in the building at a corresponding position in a pre-constructed building power three-dimensional model;
and the power data monitoring module is used for carrying out power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to an analysis result, and monitoring a power grid in the building in real time according to the alarm information.
2. The power monitoring system for intelligent buildings according to claim 1, wherein: the building power three-dimensional modeling module is used for building the building power three-dimensional model according to a power grid structure in a building.
3. The power monitoring system for intelligent buildings according to claim 2, wherein: the building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model; the power data includes user power data and emergency power data.
4. The power monitoring system for intelligent buildings according to claim 3, wherein: the power data marking module is specifically used for marking the acquired user power data in the building on a building user power three-dimensional model and marking the acquired emergency power data in the building on a building emergency power three-dimensional model.
5. The power monitoring system for intelligent buildings according to claim 3 or 4, wherein: the power data monitoring module is specifically used for carrying out power analysis on a building user power three-dimensional model marked with user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
6. A power monitoring method for an intelligent building is characterized by comprising the following steps: comprises the following steps of (a) carrying out,
s1, acquiring power data of nodes in the building;
s2, marking the acquired power data in the building at the corresponding position in the pre-constructed building power three-dimensional model;
and S3, performing power analysis on the building power three-dimensional model marked with the power data, generating alarm information in the building power three-dimensional model according to the analysis result, and monitoring the power grid in the building in real time according to the alarm information.
7. The method for monitoring the power of the intelligent building according to claim 6, wherein: the building power three-dimensional modeling module is used for building the building power three-dimensional model according to a power grid structure in a building.
8. The method for monitoring electric power of intelligent building according to claim 7, wherein: the building power three-dimensional model comprises a building user power three-dimensional model and a building emergency power model;
the power data includes user power data and emergency power data.
9. The method for monitoring power of intelligent building according to claim 8, wherein: the power data marking module is specifically used for marking the acquired user power data in the building on a building user power three-dimensional model and marking the acquired emergency power data in the building on a building emergency power three-dimensional model.
10. The method for monitoring electric power of intelligent building according to claim 8 or 9, wherein: the power data monitoring module is specifically used for carrying out power analysis on a building user power three-dimensional model marked with user power data, generating first alarm information in the building user power three-dimensional model according to an analysis result, and monitoring a power grid in a building in real time according to the first alarm information;
the method is further specifically used for performing power analysis on the building emergency power three-dimensional model marked with the emergency power data, generating second alarm information in the building emergency power three-dimensional model according to an analysis result, and monitoring the power grid in the building in real time according to the second alarm information.
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