CN216350929U - Electric power energy intelligent monitoring device - Google Patents

Electric power energy intelligent monitoring device Download PDF

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Publication number
CN216350929U
CN216350929U CN202122473593.1U CN202122473593U CN216350929U CN 216350929 U CN216350929 U CN 216350929U CN 202122473593 U CN202122473593 U CN 202122473593U CN 216350929 U CN216350929 U CN 216350929U
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module
display
monitoring
electric energy
power supply
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CN202122473593.1U
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段正刚
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Suzhou QC Solar Co Ltd
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Suzhou QC Solar Co Ltd
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Abstract

The utility model provides an intelligent monitoring device for electric power energy, which comprises a monitoring unit and a display unit, wherein the monitoring unit comprises a monitoring power supply module, a multi-path voltage acquisition module, a multi-path current acquisition module, an electric energy metering module, a data storage module and a main control module, and the electric energy metering module, the data storage module and the main control module are all connected with the monitoring power supply module; the output ends of the multi-path voltage acquisition modules and the output ends of the multi-path current acquisition modules are connected with the input end of the electric energy metering module; the output end of the electric energy metering module is connected with the input end of the data storage module; the input end of the main control module is connected with the output end of the data storage module; the display unit comprises a display power supply module and a display module, the display module is connected with the display power supply module, and the output end of the main control module is connected with the input end of the display module.

Description

Electric power energy intelligent monitoring device
Technical Field
The utility model relates to the technical field of electric power energy monitoring, in particular to an electric power energy intelligent monitoring device.
Background
Along with the continuous development of scientific technology and national economy, people have higher and higher requirements on electric power energy, and more electric power equipment is used by people in order to meet the production and living needs of people.
In the household electricity consumption, there are many electric power devices, but the household electricity meters currently used can only detect the total electricity consumption of all the electric power devices in the electricity consumption area in a certain period, cannot accurately obtain the electricity consumption of a single electric power device or an electricity consumption branch, and do not have a statistical function. The user can not clearly know the load distribution situation, which often results in the waste of electric energy.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the defects that the electricity consumption meter in the prior art cannot accurately obtain the electricity consumption of single electric equipment or electricity consumption branches and does not have a statistical function, and provides an intelligent electric energy monitoring device.
In order to achieve the purpose, the utility model adopts the following technical scheme: an intelligent monitoring device for electric power energy comprises a monitoring unit and a display unit, wherein the monitoring unit comprises a monitoring power supply module, a multi-path voltage acquisition module, a multi-path current acquisition module, an electric energy metering module, a data storage module and a main control module, and the electric energy metering module, the data storage module and the main control module are all connected with the monitoring power supply module; the output ends of the multi-path voltage acquisition modules and the output ends of the multi-path current acquisition modules are connected with the input end of the electric energy metering module; the output end of the electric energy metering module is connected with the input end of the data storage module; the input end of the main control module is connected with the output end of the data storage module; the display unit comprises a display power supply module and a display module, the display module is connected with the display power supply module, and the output end of the main control module is connected with the input end of the display module.
Preferably, the electric energy metering module comprises an electric energy summing submodule and a plurality of electric energy metering submodules, the electric energy metering submodules correspond to the multiple paths of voltage acquisition modules one by one, each path of voltage acquisition module and the corresponding current acquisition module are connected with the corresponding electric energy metering submodule, the output ends of the electric energy metering submodules are connected with the input end of the electric energy summing submodule, and the output end of the electric energy summing submodule is connected with the input end of the data storage module.
Preferably, the monitoring unit further comprises a monitoring shell, the monitoring power supply module, the multi-path voltage acquisition module, the electric energy metering module, the data storage module and the main control module are all arranged in the monitoring shell, and the multi-path current acquisition module is arranged outside the monitoring shell; the display unit further comprises a display shell, and the display power supply module and the display module are arranged in the display shell.
Furthermore, the monitoring unit also comprises a first wireless transceiving module, the first wireless transceiving module is arranged in the monitoring shell, the first wireless transceiving module is connected with the monitoring power supply module, and the first wireless transceiving module is connected with the main control module; the display unit also comprises a second wireless transceiver module, the second wireless transceiver module is arranged in the display shell and is connected with the display power supply module, and the second wireless transceiver module is connected with the display module; the first wireless transceiving module is in communication connection with the second wireless transceiving module.
Furthermore, the monitoring unit further comprises a gateway module, the gateway module is arranged in the monitoring shell and connected with the monitoring power supply module, and the output end of the main control module is connected with the input end of the gateway module.
Further, the display unit further comprises a temperature monitoring module and a humidity monitoring module, the temperature monitoring module and the humidity monitoring module are both arranged in the display shell, the temperature monitoring module and the humidity monitoring module are both connected with the display power supply module, and the output end of the temperature monitoring module and the output end of the humidity monitoring module are both connected with the input end of the display module.
Further, the display unit further comprises a date and time module, the date and time module is arranged in the display shell and connected with the display power supply module, and the output end of the date and time module is connected with the input end of the display module.
Compared with the prior art, the utility model has the beneficial effects that: the voltage and current data of each power device or each power utilization branch circuit are monitored through the multi-path voltage acquisition module and the multi-path current acquisition module, and the power utilization data of each power device or each power utilization branch circuit are calculated through the electric energy metering module, so that the simultaneous monitoring and metering of each power device or each power utilization branch circuit are realized; the data storage module is used for storing the electricity utilization data of each power device or each electricity utilization branch, so that the electricity utilization data can be counted conveniently; the power utilization data of each power device or power utilization branch are displayed through the display module, a user can know the power utilization condition intuitively, the power utilization condition is reasonably planned, and the power waste is reduced.
Drawings
Fig. 1 is a schematic structural diagram of an intelligent monitoring apparatus for electric energy according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of an intelligent monitoring device for electric energy according to another embodiment of the present invention.
Detailed Description
In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.
Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent monitoring device for electric energy according to an embodiment of the present invention, in which the intelligent monitoring device for electric energy includes a monitoring unit 001 and a display unit 002.
The monitoring unit 001 is used to monitor and store voltage and current data of each power device or power branch. The monitoring unit 001 comprises a monitoring power supply module 1, a multi-path voltage acquisition module 2, a multi-path current acquisition module 3, an electric energy metering module 4, a data storage module 5 and a main control module 6, wherein the electric energy metering module 4, the data storage module 5 and the main control module 6 are all connected with the monitoring power supply module 1 so as to be supplied with power by the monitoring power supply module 1 and ensure normal use of the monitoring power supply module; the multi-path voltage acquisition module 2 and the multi-path current acquisition module 3 are in one-to-one correspondence, the output end of the multi-path voltage acquisition module 2 and the output end of the multi-path current acquisition module 3 are both connected with the input end of the electric energy metering module 4, specifically, the multi-path voltage acquisition module 2 comprises a first voltage acquisition module 21 and a second voltage acquisition module 22, the multi-path current acquisition module 3 comprises a first current acquisition module 31 and a second current acquisition module 32, the first voltage acquisition module 21 corresponds to the first current acquisition module 31, the second voltage acquisition module 22 corresponds to the second current acquisition module 32, the first voltage acquisition module 21, the first current acquisition module 31, the second voltage acquisition module 22 and the second current acquisition module 32 are all connected with the input end of the electric energy metering module 4, the voltage and current data of each circuit are transmitted to the electric energy metering module 4, so that the electric energy metering module 4 calculates the electricity data of each circuit; the output end of the electric energy metering module 4 is connected with the input end of the data storage module 5 so as to transmit the electricity consumption data to the data storage module 5; the input end of the main control module 6 is connected with the output end of the data storage module 5 to obtain the electricity utilization data.
The display unit 002 is used to display the voltage and current data of each power device or power branch. Display element 002 includes display module 7 and demonstration power module 8, and display module 7 is connected with demonstration power module 8, and the output of main control module 6 is connected with the input of display module 7 in order to transmit the power consumption data to display module 7 to show by display module 7.
In a preferred embodiment, the monitoring unit 001 further includes a monitoring housing (not shown in the figure), the monitoring power supply module 1, the multi-path voltage acquisition module 2, the electric energy metering module 4, the data storage module 5 and the main control module 6 are all disposed in the monitoring housing to protect these modules, and the multi-path current acquisition module 3 is disposed outside the monitoring housing to facilitate the realization of the functions thereof; display element 002 still includes and shows the casing (not shown in the figure), and display module 7 and demonstration power module 8 all set up in the display casing, so, set up monitoring unit 001 and display element 002 independently respectively, are convenient for set up monitoring unit 001 near power equipment or with the electric branch road, set up display element 002 and look over the position of use at convenience of customers.
Preferably, the monitoring unit 001 further includes a first wireless transceiver module 81, the first wireless transceiver module 81 is disposed in the monitoring housing, the first wireless transceiver module 81 is connected to the monitoring power supply module 1 to be powered by the monitoring power supply module 1, and the first wireless transceiver module 81 is connected to the main control module 6; the display unit 002 further includes a second wireless transceiver module 82, the second wireless transceiver module 82 is disposed in the display housing, the second wireless transceiver module 82 is connected to the display power supply module 8 to be powered by the display power supply module 8, and the second wireless transceiver module 82 is connected to the display module 7; the first wireless transceiver module 81 is in communication connection with the second wireless transceiver module 82, so that the main control module 6 and the display module 7 can communicate with each other in a wireless manner, and wiring is reduced.
Preferably, monitoring unit 001 still includes gateway module 9, and gateway module 9 sets up in the monitoring shell, and gateway module 9 is connected with monitoring power module 1, and host system 6's output is connected with gateway module 9's input to can upload the power consumption data backstage and cloud on, make things convenient for the power consumption data to show at computer or mobile terminal.
Preferably, the display unit 002 further includes a temperature monitoring module 10 and a humidity monitoring module 11, the temperature monitoring module 10 and the humidity monitoring module 11 are both disposed in the display housing, the temperature monitoring module 10 and the humidity monitoring module 11 are both connected with the display power supply module 8, so as to supply power to the display power supply module 8, the output ends of the temperature monitoring module 10 and the humidity monitoring module 11 are both connected with the input end of the display module 7, so as to transmit the temperature and the humidity data to the display module 7 for displaying.
Preferably, the display unit 002 further includes a date and time module 12, the date and time module 12 is disposed in the display housing, the date and time module 12 is connected with the display power supply module 8 to be supplied with power by the display power supply module 8, and an output end of the date and time module 12 is connected with an input end of the display module 7 to transmit date and time information to the display module 7 for display.
Referring to fig. 2, fig. 2 is a schematic structural diagram of an intelligent monitoring device for electric energy according to another embodiment of the present invention, compared with the embodiment in fig. 1, in this embodiment, an electric energy metering module 4 includes an electric energy summing sub-module 41 and a plurality of electric energy metering sub-modules 42, the plurality of electric energy metering sub-modules 42 correspond to multiple voltage acquisition modules 2 one to one, each voltage acquisition module 2 and its corresponding current acquisition module 3 are connected to its corresponding electric energy metering sub-module 42 to transmit voltage and current data of each electric power device or electric power utilization branch to the electric energy metering sub-module 42, so that the electric energy metering sub-module 42 calculates electric energy consumption data, output terminals of the plurality of electric energy metering sub-modules 42 are connected to input terminals of the electric energy summing sub-module 41 to calculate total electric energy consumption data by the electric energy summing sub-module 41, output terminals of the electric energy summing sub-module 41 are connected to input terminals of a data storage module 5, so as to transmit the electricity utilization data of each power device or each electricity utilization branch and the total electricity utilization data to the data storage module 5 for storage.
Specifically, the plurality of electric energy metering submodules 42 include a first electric energy metering submodule 421 and a second electric energy metering submodule 422, the first electric energy metering submodule 421 corresponds to the first voltage acquisition module 21, the second electric energy metering submodule 422 corresponds to the second voltage acquisition module 22, the first voltage acquisition module 21 and the first current acquisition module 31 are both connected to the first electric energy metering submodule 421, the second voltage acquisition module 22 and the second current acquisition module 32 are both connected to the second electric energy metering module 422, the output ends of the first electric energy metering submodule 421 and the second electric energy metering submodule 422 are both connected to the input end of the electric energy summing submodule 41, and the output end of the electric energy summing submodule 41 is connected to the input end of the data storage module 5.
In practical use, the multi-path current acquisition module 3 can be a current sensor which is clamped on a measured line to measure the current value of the measured line and transmit the obtained current value to the electric energy metering module 4.
According to the intelligent monitoring device for the power energy, the voltage and current data of each power device or each power utilization branch circuit are monitored through the multi-path voltage acquisition module and the multi-path current acquisition module, the power utilization data of each power device or each power utilization branch circuit is calculated through the electric energy metering module, and the simultaneous monitoring and metering of each power device or each power utilization branch circuit are realized; the data storage module is used for storing the electricity utilization data of each power device or each electricity utilization branch, so that the electricity utilization data can be counted conveniently; the power utilization data of each power device or power utilization branch are displayed through the display module, a user can know the power utilization condition intuitively, the power utilization condition is reasonably planned, and the power waste is reduced.
The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the utility model. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims (7)

1. An intelligent monitoring device for electric energy is characterized by comprising a monitoring unit and a display unit,
the monitoring unit comprises a monitoring power supply module, a multi-path voltage acquisition module, a multi-path current acquisition module, an electric energy metering module, a data storage module and a main control module, wherein the electric energy metering module, the data storage module and the main control module are all connected with the monitoring power supply module; the multi-path voltage acquisition modules correspond to the multi-path current acquisition modules one by one, and the output ends of the multi-path voltage acquisition modules and the output ends of the multi-path current acquisition modules are connected with the input end of the electric energy metering module; the output end of the electric energy metering module is connected with the input end of the data storage module; the input end of the main control module is connected with the output end of the data storage module;
the display unit comprises a display power supply module and a display module, the display module is connected with the display power supply module, and the output end of the main control module is connected with the input end of the display module.
2. The intelligent monitoring device for electric energy according to claim 1, wherein the electric energy metering module comprises an electric energy summing sub-module and a plurality of electric energy metering sub-modules, the plurality of electric energy metering sub-modules correspond to the plurality of voltage collecting modules one by one, each voltage collecting module and the corresponding current collecting module are connected with the corresponding electric energy metering sub-module, the output ends of the plurality of electric energy metering sub-modules are connected with the input end of the electric energy summing sub-module, and the output end of the electric energy summing sub-module is connected with the input end of the data storage module.
3. The intelligent monitoring device for electric energy according to claim 1 or 2, wherein the monitoring unit further comprises a monitoring housing, the monitoring power supply module, the multi-path voltage acquisition module, the electric energy metering module, the data storage module and the main control module are all disposed in the monitoring housing, and the multi-path current acquisition module is disposed outside the monitoring housing; the display unit further comprises a display shell, and the display power supply module and the display module are arranged in the display shell.
4. The intelligent monitoring device for electric power energy according to claim 3, wherein the monitoring unit further comprises a first wireless transceiver module, the first wireless transceiver module is disposed in the monitoring housing, the first wireless transceiver module is connected to the monitoring power supply module, and the first wireless transceiver module is connected to the main control module; the display unit further comprises a second wireless transceiver module, the second wireless transceiver module is arranged in the display shell and connected with the display power supply module, and the second wireless transceiver module is connected with the display module; the first wireless transceiving module is in communication connection with the second wireless transceiving module.
5. The intelligent monitoring device for electric power energy of claim 3, wherein the monitoring unit further comprises a gateway module, the gateway module is disposed in the monitoring housing, the gateway module is connected to the monitoring power supply module, and the output terminal of the main control module is connected to the input terminal of the gateway module.
6. The intelligent monitoring device for electric power energy of claim 3, wherein the display unit further comprises a temperature monitoring module and a humidity monitoring module, the temperature monitoring module and the humidity monitoring module are both disposed in the display housing, the temperature monitoring module and the humidity monitoring module are both connected to the display power supply module, and an output end of the temperature monitoring module and an output end of the humidity monitoring module are both connected to an input end of the display module.
7. The intelligent monitoring device for electric energy according to claim 3, wherein the display unit further comprises a date and time module, the date and time module is disposed in the display housing, the date and time module is connected to the display power supply module, and an output terminal of the date and time module is connected to an input terminal of the display module.
CN202122473593.1U 2021-10-14 2021-10-14 Electric power energy intelligent monitoring device Active CN216350929U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122473593.1U CN216350929U (en) 2021-10-14 2021-10-14 Electric power energy intelligent monitoring device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122473593.1U CN216350929U (en) 2021-10-14 2021-10-14 Electric power energy intelligent monitoring device

Publications (1)

Publication Number Publication Date
CN216350929U true CN216350929U (en) 2022-04-19

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122473593.1U Active CN216350929U (en) 2021-10-14 2021-10-14 Electric power energy intelligent monitoring device

Country Status (1)

Country Link
CN (1) CN216350929U (en)

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