CN211577694U - Building management system based on BIM - Google Patents
Building management system based on BIM Download PDFInfo
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- CN211577694U CN211577694U CN202020042514.4U CN202020042514U CN211577694U CN 211577694 U CN211577694 U CN 211577694U CN 202020042514 U CN202020042514 U CN 202020042514U CN 211577694 U CN211577694 U CN 211577694U
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Abstract
A building management system based on BIM relates to the field of building management systems, which collects parameters related to electric power in a power supply line by respectively arranging power supply line monitoring equipment on each node of the power supply line in a building, and the database server is used for processing the parameters related to the electric power in the power supply circuit measured by the power supply circuit monitoring equipment to generate monitoring data, meanwhile, generating visual data of a three-dimensional visual model through a BIM server and judging the node state according to a preset threshold range, the BIM terminal displays the three-dimensional visual model of the power supply line and the state information of the nodes in real time, so that a user can conveniently and effectively manage the power supply line in the building, the normal operation of all functions in the building is ensured, the probability of tripping and line fire is reduced as much as possible, and the normal operation of all functions in the building is ensured.
Description
Technical Field
The utility model relates to a building management system technical field especially relates to a can be based on building management system of BIM.
Background
The Building Information Model (BIM) is based on various relevant Information data of a Building engineering project, simulates real Information of a Building through digital Information simulation, and realizes functions of project supervision, property management, equipment management, digital processing, engineering management and the like through a three-dimensional Building model. The BIM has eight characteristics of information completeness, information relevance, information consistency, visualization, coordination, simulation, optimization and graphing, and is widely applied to the field of building design. The position and parameter information of the equipment installed in the building can be intuitively and specifically known through the BIM.
With the increase of population and the development of cities, various high-rise and middle-rise buildings are visible everywhere, and corresponding power supply circuits in the buildings are more and more complicated along with the increase of floors. At present, complex power supply lines are lack of effective management, when one or more nodes of the power supply lines are abnormal in power utilization, the traditional inspection mode often causes time delay, tripping can occur, even line fire is caused, and normal operation of various functions in a building is not facilitated.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to avoid the weak point among the prior art and provide a building management system based on BIM, this building management system based on BIM can effectively manage the power supply line in the building, lowers the probability that tripping operation and circuit conflagration take place as far as, guarantees the normal function of each function in the building.
The purpose of the utility model is realized through the following technical scheme:
there is provided a BIM-based building management system including:
the power supply line monitoring devices are respectively arranged on nodes of a power supply line in a building and are used for collecting parameters related to electric power in the power supply line;
the database server is in wireless communication with the power supply line monitoring devices and is used for processing parameters related to electric power in the power supply lines collected by the power supply line monitoring devices and generating monitoring data;
the BIM server is in wireless communication with the database server and is used for processing monitoring data generated by the database server, generating visual data of a three-dimensional visual model and judging the node state according to a preset threshold range;
and the BIM terminal machine is connected with the BIM server and is used for displaying the three-dimensional visual model of the power supply line and the state information of the nodes in real time. The power supply line monitoring equipment is respectively arranged on each node of a power supply line in a building and used for collecting parameters related to power in the power supply line, the database server is used for processing the parameters related to power in the power supply line measured by the power supply line monitoring equipment to generate monitoring data, the BIM server is used for generating visual data of a three-dimensional visual model and judging the node state according to a preset threshold range, and the BIM terminal is used for displaying the three-dimensional visual model of the power supply line and the state information of the nodes in real time, so that a user can conveniently and effectively manage the power supply line in the building, the normal operation of each function in the building is ensured, the probability of tripping and the occurrence of line fire is reduced as much as possible, and the normal operation of each function in the building is ensured.
Further, the BIM server includes:
the power supply line three-dimensional model database is used for processing the monitoring data generated by the database server and generating the visual data of the three-dimensional visual model;
an update module; and the monitoring module is used for processing the monitoring data generated by the database server and judging the node state according to a preset threshold range.
Further, the power supply line three-dimensional model database comprises a power supply line three-dimensional graph, the geographical position of a node, the rated voltage of the node, the rated current of the node and the rated power of the node.
Further, the updating module compares the rated voltage of the node, the rated current of the node and the rated power of the node with a preset threshold range, divides the threshold range into a plurality of small threshold ranges, and generates corresponding early warning information and early warning levels according to the condition that the threshold ranges fall within the small threshold ranges.
Further, the power supply line monitoring apparatus includes:
the sensor is used for measuring parameters related to electric power in the power supply line;
a communication module that transmits the measured parameters to the database server;
a power module for supplying power to the sensor and the communication module.
Further, the sensor is a current detection sensor or a voltage detection sensor.
Furthermore, each node of the power supply line is a power line interface end of each electric meter of the power supply line.
Further, the mobile phone terminal is connected with the BIM server in a cloud mode and used for giving early warning information to users.
The utility model has the advantages that: the utility model discloses a building management system based on BIM, through being used for gathering the power supply line relevant parameter with electric power on setting up power supply line supervisory equipment respectively on the power supply line in the building power supply line everywhere node, and utilize database server to handle the power supply line that power supply line supervisory equipment measured in with the relevant parameter of electric power, generate monitoring data, the visual data that generates three-dimensional visual model through BIM server simultaneously with judge the node state according to predetermined threshold value scope, and the three-dimensional visual model of power supply line and the status information of node are shown in real time through the BIM terminating machine, convenience of customers carries out effective management to the power supply line in the building, guarantee the normal function of each function in the building, reduce the probability that tripping operation and circuit conflagration take place as far as possible, guarantee the normal function of each function in the building.
Drawings
The invention is further described with the aid of the accompanying drawings, in which, however, the embodiments do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be derived from the following drawings without inventive effort.
Fig. 1 is a block diagram of a building management system based on BIM of the present invention.
The figure includes:
the system comprises a power supply line monitoring device 1, a database server 2, a BIM server 3, a BIM terminal 4, a power supply line three-dimensional model database 5, an updating module 6, a sensor 7, a communication module 8, a power supply module 9, a current detection sensor 10, a voltage detection sensor 11 and a mobile phone terminal 12.
Detailed Description
The invention will be further described with reference to the following examples.
Examples
A building management system based on BIM of this embodiment, as shown in fig. 1, includes:
the power supply line monitoring devices 1 are respectively arranged on nodes of a power supply line in a building and used for collecting parameters related to electric power in the power supply line;
the database server 2 is in wireless communication with the plurality of power supply line monitoring devices 1, and is used for processing parameters related to electric power in the power supply lines collected by the plurality of power supply line monitoring devices 1 and generating monitoring data;
the BIM server 3 is in wireless communication with the database server 2 and is used for processing monitoring data generated by the database server 2, generating visual data of a three-dimensional visual model and judging the node state according to a preset threshold range;
and the BIM terminal machine 4 is connected with the BIM server 3 and is used for displaying a three-dimensional visual model of a power supply line and state information of nodes in real time. The power supply line monitoring equipment 1 is respectively arranged on each node of a power supply line in a building and used for collecting parameters related to power in the power supply line, the parameters related to the power in the power supply line, which are measured by the power supply line monitoring equipment 1, are processed by the database server 2 to generate monitoring data, the visual data of the three-dimensional visual model is generated by the BIM server 3, the node state is judged according to a preset threshold range, the three-dimensional visual model of the power supply line and the state information of the nodes are displayed in real time by the BIM terminal machine 4, a user can conveniently and effectively manage the power supply line in the building, the normal operation of each function in the building is ensured, the probability of tripping and the occurrence of line fire is reduced as much as possible, and the normal operation of each function in the building is ensured.
The BIM server 3 includes:
the power supply line three-dimensional model database 5 is used for processing the monitoring data generated by the database server 2 and generating the visual data of a three-dimensional visual model;
an update module 6; and the monitoring module is used for processing the monitoring data generated by the database server 2 and judging the node state according to a preset threshold range.
The power supply line three-dimensional model database 5 comprises a power supply line three-dimensional graph, the geographical position of a node, the rated voltage of the node, the rated current of the node and the rated power of the node.
The updating module 6 compares the rated voltage of the node, the rated current of the node and the rated power of the node with a preset threshold range, divides the threshold range into a plurality of small threshold ranges, and generates corresponding early warning information and early warning grade according to the condition that the threshold ranges fall within the small threshold ranges.
The power supply line monitoring apparatus 1 includes:
a sensor 7, wherein the sensor 7 is used for measuring parameters related to electric power in the power supply line;
a communication module 8, said communication module 8 transmitting the measured parameters to said database server 2;
a power module 9, wherein the power module 9 is used for supplying power to the sensor 7 and the communication module 8.
The sensor 7 is a current detection sensor 10 and a voltage detection sensor 11.
Each node of the power supply line is a power line interface end of each electric meter of the power supply line.
The building management system based on the BIM further comprises a mobile phone terminal 12, wherein the mobile phone terminal 12 is in cloud connection with the BIM server 3 and used for giving early warning information to a user.
It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.
Claims (8)
1. A building management system based on BIM, its characterized in that: the method comprises the following steps:
the power supply line monitoring devices are respectively arranged on nodes of a power supply line in a building and are used for collecting parameters related to electric power in the power supply line;
the database server is in wireless communication with the power supply line monitoring devices and is used for processing parameters related to electric power in the power supply lines collected by the power supply line monitoring devices and generating monitoring data;
the BIM server is in wireless communication with the database server and is used for processing monitoring data generated by the database server, generating visual data of a three-dimensional visual model and judging the node state according to a preset threshold range;
and the BIM terminal machine is connected with the BIM server and is used for displaying the three-dimensional visual model of the power supply line and the state information of the nodes in real time.
2. The BIM-based building management system of claim 1, wherein: the BIM server includes:
the power supply line three-dimensional model database is used for processing the monitoring data generated by the database server and generating the visual data of the three-dimensional visual model;
an update module; and the monitoring module is used for processing the monitoring data generated by the database server and judging the node state according to a preset threshold range.
3. The BIM-based building management system of claim 2, wherein: the power supply line three-dimensional model database comprises a power supply line three-dimensional graph, the geographical position of a node, the rated voltage of the node, the rated current of the node and the rated power of the node.
4. The BIM-based building management system of claim 3, wherein: the updating module compares the rated voltage of the node, the rated current of the node and the rated power of the node with a preset threshold range, divides the threshold range into a plurality of small threshold ranges, and generates corresponding early warning information and early warning grade according to the condition that the threshold ranges fall within the small threshold ranges.
5. The BIM-based building management system of claim 4, wherein: the power supply line monitoring apparatus includes:
the sensor is used for measuring parameters related to electric power in the power supply line;
a communication module that transmits the measured parameters to the database server;
a power module for supplying power to the sensor and the communication module.
6. The BIM-based building management system of claim 5, wherein: the sensor is a current detection sensor or a voltage detection sensor.
7. The BIM-based building management system of claim 1, wherein: each node of the power supply line is a power line interface end of each electric meter of the power supply line.
8. The BIM-based building management system of claim 1, wherein: the mobile phone terminal is connected with the BIM server in a cloud mode and used for giving early warning information to users.
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