CN216649322U - Intelligent power distribution monitoring system based on zigbee - Google Patents

Abstract

The utility model provides a zigbee-based intelligent power distribution monitoring system, which comprises: the power distribution monitoring device comprises a plurality of power distribution monitoring devices, a first zigbee data transmission device is connected in each power distribution monitoring device, and the power distribution monitoring devices are respectively arranged at different positions of a circuit system and used for monitoring power supply lines at different positions to obtain electric energy data; the control device is respectively connected with the second zigbee data transmission device and the first remote transmission device, and the first zigbee data transmission device is used for sending the electric energy data to the second zigbee data transmission device so that the control device receives the electric energy data; the control device sends the electric energy data to a second remote transmission device through the first remote transmission device, so that the server receives the electric energy data; and the display device is connected with the server and used for displaying the electric energy data.

Description

Intelligent power distribution monitoring system based on zigbee

Technical Field

The utility model relates to the technical field of data monitoring, in particular to an intelligent power distribution monitoring system based on zigbee.

Background

To computer lab or other large-scale data centers, need monitor its electric parameter with the electric circuit usually, traditional monitoring devices only monitor the electric parameter of major loop, if monitor the electric parameter of advancing electric parameter or key output, can not monitor each single-phase circuit, though some products on the market can carry out single-phase switch to the switch of switch board and detect, but it is not designing to the switch board is whole, uses inconveniently, and the function is also more single.

The chinese patent application with the publication number CN202433463U discloses a power distribution loop circuit parameter monitoring device, which comprises a plurality of acquisition/analysis circuits, a multi-way selection switch and a processor, wherein each acquisition/analysis circuit acquires and analyzes the electrical parameters of a corresponding single-phase power distribution loop; the multi-way selection switch receives a gating instruction of the processor to selectively gate the acquisition/analysis circuit; the processor sends a gating instruction to the multi-path selection switch according to the instruction of the upper computer, receives electrical parameters from the gated acquisition/analysis circuit, controls the working mode of each acquisition/analysis circuit and sends the electrical parameters to the upper computer; this patent can be connected to a plurality of single-phase power consumption return circuits and gather the electric parameter of each item power consumption return circuit to through each collection/analysis circuit to the electric parameter of direct collection carry out analysis processes in order to obtain a plurality of data indexes, have more functions. The host computer can master the power utilization condition of the whole machine room or other data centers more comprehensively.

However, in the prior art, data needs to be monitored and transmitted in a wired line manner, so that the data monitoring device has certain limitations.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent power distribution monitoring system based on zigbee, which can monitor a circuit in a wireless mode, so that the monitoring process is not limited by laying of a line, the management is easy, and the practicability is high.

In a first aspect of the embodiments of the present invention, an intelligent power distribution monitoring system based on zigbee is provided, including:

the power distribution monitoring device comprises a plurality of power distribution monitoring devices, a first zigbee data transmission device is connected in each power distribution monitoring device, and the power distribution monitoring devices are respectively arranged at different positions of a circuit system and used for monitoring power supply lines at different positions to obtain electric energy data;

the control device is respectively connected with the second zigbee data transmission device and the first remote transmission device, and the first zigbee data transmission device is used for sending the electric energy data to the second zigbee data transmission device so that the control device receives the electric energy data;

the server is connected with a second remote transmission device, and the control device sends the electric energy data to the second remote transmission device through the first remote transmission device so that the server receives the electric energy data;

And the display device is connected with the server and used for displaying the electric energy data.

Optionally, in a possible implementation manner of the first aspect, the first remote transmission device and the second remote transmission device are any one or more of a 3G network communication module, a 4G network communication module, and a 5G network communication module.

Optionally, in a possible implementation manner of the first aspect, the power distribution monitoring device includes a power monitoring device, and the power monitoring device includes a voltage sensor and a current sensor;

the voltage sensor and the current sensor are used for acquiring voltage information and current information in a circuit, and the electric energy data comprise the voltage information and the current information.

Optionally, in a possible implementation manner of the first aspect, the power distribution monitoring device includes an environment monitoring device, and the environment monitoring device includes a temperature sensor and a humidity sensor;

the voltage sensor and the current sensor are used for obtaining temperature information and humidity information according to the temperature and the humidity of the circuit, and the temperature information and the humidity information form environmental data.

Optionally, in a possible implementation manner of the first aspect, the environment data is sequentially sent to the server through the first zigbee data transmission device, the second zigbee data transmission device, the control device, the first remote transmission device, and the second remote transmission device for display.

Optionally, in a possible implementation manner of the first aspect, the server is connected to a database, and the server is configured to store the electric energy data and the environment data in the database respectively for storage.

Optionally, in a possible implementation manner of the first aspect, the database includes an electrical energy storage unit, an environment storage unit, and a clock circuit;

the database is used for storing the received electric energy data in an electric energy storage unit, and the clock circuit is used for adding clock information to the electric energy data;

the database is used for storing the received environment data in an environment storage unit, and the clock circuit is used for adding clock information to the environment data.

Optionally, in a possible implementation manner of the first aspect, the control device is any one or more of a processor, a controller, an integrated circuit, a single chip microcomputer, and an FPGA.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a first embodiment of a zigbee-based intelligent power distribution monitoring system;

fig. 2 is a schematic structural diagram of a second embodiment of the intelligent power distribution monitoring system based on zigbee.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The embodiment of the utility model provides an intelligent power distribution monitoring system based on zigbee, which has a schematic structural diagram as shown in fig. 1, and specifically comprises:

the power distribution monitoring device comprises a plurality of power distribution monitoring devices, wherein a first zigbee data transmission device is connected in each power distribution monitoring device, and the power distribution monitoring devices are respectively arranged at different positions of a circuit system and used for monitoring power supply lines at different positions to obtain electric energy data. The utility model can preset a plurality of power distribution monitoring devices, monitors the line through the power distribution monitoring devices to obtain corresponding electric energy data, and can realize short-distance wireless transmission of the electric energy data through the first zigbee data transmission device.

And the control device is respectively connected with the second zigbee data transmission device and the first remote transmission device, and the first zigbee data transmission device is used for sending the electric energy data to the second zigbee data transmission device so that the control device receives the electric energy data.

In the embodiment provided by the utility model, preferably, the control device is any one or more of a processor, a controller, an integrated circuit, a single chip microcomputer and an FPGA. The transmission of the electric energy data is realized through equipment with processing functions, such as a processor, a controller, an integrated circuit, a single chip microcomputer, an FPGA and the like.

According to the utility model, the second zigbee data transmission device is connected with the first zigbee data transmission device, and a short-distance wireless communication link is established, so that the power distribution monitoring device can wirelessly transmit the electric energy data in a short distance. After receiving the electric energy data, the control device can remotely transmit the electric energy data through the first remote transmission device.

The control device sends the electric energy data to the second remote transmission device through the first remote transmission device, so that the server receives the electric energy data. In the technical scheme provided by the utility model, the server can establish communication connection with the first remote transmission device and the control device through the second remote transmission device, so that the server receives corresponding electric energy data.

In one possible embodiment, the first remote transmission device and the second remote transmission device are any one or more of a 3G network communication module, a 4G network communication module, and a 5G network communication module.

And the display device is connected with the server and used for displaying the electric energy data. The display device can be arranged at the server, the electric energy data received by the server can be displayed through the display device, and a user and an administrator can conveniently perform subsequent control and management on the corresponding circuit.

According to the technical scheme provided by the utility model, the control device collects the electric energy data of a plurality of lines in the circuit system in a near field communication mode, and then remotely transmits the electric energy data in a remote transmission mode. According to the utility model, the electric energy data is transmitted in a wireless communication mode, so that the data transmission is more convenient.

In one possible embodiment, the power distribution monitoring device comprises a power monitoring device comprising a voltage sensor and a current sensor;

the voltage sensor and the current sensor are used for acquiring voltage information and current information in a circuit, and the electric energy data comprises the voltage information and the current information.

According to the technical scheme provided by the utility model, the voltage sensor and the current sensor can be used for detecting the power supply circuit in the circuit system to obtain corresponding voltage information and current information, so that an administrator and a user can master the voltage information and the current information of the power supply circuit at any time.

In one possible embodiment, the power distribution monitoring device comprises an environmental monitoring device comprising a temperature sensor and a humidity sensor;

the voltage sensor and the current sensor are used for obtaining temperature information and humidity information according to the temperature and the humidity of the circuit, and the temperature information and the humidity information form environment data.

And the environment data sequentially passes through the first zigbee data transmission device, the second zigbee data transmission device, the control device, the first remote transmission device and the second remote transmission device, and is sent to the server for display.

The transmission mode of the environmental data and the transmission mode of the electric energy data can be the same, and the environment of the power supply line in the circuit system can be monitored through the voltage sensor and the current sensor, so that an administrator and a user can master the environment state of the power supply line at any time.

In one possible embodiment, as shown in fig. 2, the server is connected to a database, and the server is configured to store the electric energy data and the environmental data in the database respectively for storage.

Wherein, the database comprises an electric energy storage unit, an environment storage unit and a clock circuit.

The database is used for storing the received electric energy data in an electric energy storage unit, and the clock circuit is used for adding clock information to the electric energy data.

The database is used for storing the received environment data in an environment storage unit, and the clock circuit is used for adding clock information to the environment data.

According to the technical scheme provided by the utility model, the electric energy data and the environment data are respectively stored through the database, when the electric energy data and the environment data are stored, the electric energy data are stored through the electric energy storage unit, and clock information is added to the data in the storage process of the electric energy data, so that a subsequent administrator and a user can conveniently count the electric energy data according to a time sequence when checking the electric energy data. The environment data are stored through the environment storage unit, and clock information is added to the data in the storage process of the environment data, so that subsequent managers and users can conveniently count the environment data according to a time sequence when viewing the environment data.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The utility model provides an intelligent power distribution monitoring system based on zigbee which characterized in that includes:

the power distribution monitoring device comprises a plurality of power distribution monitoring devices, a first zigbee data transmission device is connected in each power distribution monitoring device, and the power distribution monitoring devices are respectively arranged at different positions of a circuit system and used for monitoring power supply lines at different positions to obtain electric energy data;

the control device is respectively connected with the second zigbee data transmission device and the first remote transmission device, and the first zigbee data transmission device is used for sending the electric energy data to the second zigbee data transmission device so that the control device receives the electric energy data;

the control device sends the electric energy data to a second remote transmission device through the first remote transmission device, so that the server receives the electric energy data;

And the display device is connected with the server and used for displaying the electric energy data.

2. The zigbee-based intelligent power distribution monitoring system as claimed in claim 1,

the first remote transmission device and the second remote transmission device are any one or more of a 3G network communication module, a 4G network communication module and a 5G network communication module.

3. The zigbee-based intelligent power distribution monitoring system as claimed in claim 1,

the power distribution monitoring device comprises an electric energy monitoring device, and the electric energy monitoring device comprises a voltage sensor and a current sensor;

the voltage sensor and the current sensor are used for acquiring voltage information and current information in a circuit, and the electric energy data comprises the voltage information and the current information.

4. The zigbee-based intelligent power distribution monitoring system as claimed in claim 3,

the power distribution monitoring device comprises an environment monitoring device, and the environment monitoring device comprises a temperature sensor and a humidity sensor;

the voltage sensor and the current sensor are used for obtaining temperature information and humidity information according to the temperature and the humidity of the circuit, and the temperature information and the humidity information form environmental data.

5. The intelligent zigbee-based power distribution monitoring system according to claim 4,

and the environment data sequentially passes through the first zigbee data transmission device, the second zigbee data transmission device, the control device, the first remote transmission device and the second remote transmission device, and is sent to the server for display.

6. The intelligent zigbee-based power distribution monitoring system according to claim 5,

the server is connected with a database and is used for respectively storing the electric energy data and the environment data in the database for storage.

7. The intelligent zigbee-based power distribution monitoring system according to claim 6,

the database comprises an electrical energy storage unit, an environment storage unit and a clock circuit;

the database is used for storing the received electric energy data in an electric energy storage unit, and the clock circuit is used for adding clock information to the electric energy data;

the database is used for storing the received environment data in an environment storage unit, and the clock circuit is used for adding clock information to the environment data.

8. The zigbee-based intelligent power distribution monitoring system as claimed in claim 1,

The control device is any one or more of a processor, a controller, an integrated circuit, a singlechip and an FPGA.

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