CN211878439U - Intelligent electric energy detection system and intelligent energy-saving control system - Google Patents

Abstract

The utility model discloses an intelligent electric energy detection system and an intelligent energy-saving control system, wherein the intelligent electric energy detection system is used for detecting power supply branches of a plurality of electric devices and comprises a control circuit and a plurality of voltage and current metering circuits, and the voltage and current metering circuits correspond to the power supply branches one by one; the voltage and current metering circuit is respectively connected with the corresponding power supply branch circuit and the control circuit, and is suitable for detecting the voltage and current information of the corresponding power supply branch circuit and feeding the voltage and current information back to the control circuit; the control circuit is connected with the switches on the power supply branches and is suitable for controlling the on-off of the switches on the corresponding power supply branches according to the voltage and current information. The utility model discloses an intelligence electric energy detection system can control the switch disconnection of corresponding power supply branch road when the voltage and current of power supply branch road is unusual to the energy saving consumes, avoids the emergence of incident.

Description

Intelligent electric energy detection system and intelligent energy-saving control system

Technical Field

The utility model relates to an intelligent electric energy detection system and intelligent energy-saving control system.

Background

Under the environment of wide popularization of smart homes and wide popularization of household appliances, the power consumption requirements of industries and residents are increasingly improved, and the problems of more and more attention are caused by consumption of electric energy consumption detection, intelligent identification and judgment of power consumption units, intelligent identification and closing of useless electric appliances, such as electric leakage of the household appliances, large current and abnormal electric quantity consumption caused by electric appliance faults. The problem that power-consuming electrical appliances such as industrial and office environment air conditioners are forgotten to be turned off, electric energy waste can be caused, safety accidents and the like caused by the fact that high-temperature and high-risk equipment such as air guns and soldering irons are turned off in a leakage mode can be solved. Therefore, the realization and application of an intelligent electric energy detection system and an intelligent energy-saving control system are urgent.

Disclosure of Invention

The utility model aims to solve the technical problem that overcome prior art's defect, provide an intelligent electric energy detection system, it can be in the switch disconnection of the corresponding power supply branch road of control when the voltage and current of power supply branch road is unusual to the energy saving consumes, avoids the emergence of incident.

In order to solve the technical problem, the technical scheme of the utility model is that: an intelligent electric energy detection system is used for detecting power supply branches of a plurality of electric equipment and comprises a control circuit and a plurality of voltage and current metering circuits, wherein the voltage and current metering circuits correspond to the power supply branches one by one; wherein,

the voltage and current metering circuit is respectively connected with the corresponding power supply branch circuit and the control circuit, and is suitable for detecting the voltage and current information of the corresponding power supply branch circuit and feeding the voltage and current information back to the control circuit;

the control circuit is connected with the switches on the power supply branches and is suitable for controlling the on-off of the switches on the corresponding power supply branches according to the voltage and current information.

Furthermore, the control circuit comprises a main control circuit and a plurality of branch control circuits, and the branch control circuits correspond to the power supply branches one to one; wherein,

each voltage and current metering circuit is connected with the main control circuit, and the main control circuit is connected with the switches on the corresponding power supply branches through each branch control circuit;

the main control circuit is suitable for controlling the on-off of a switch on a power supply branch circuit of the corresponding power utilization device through the corresponding branch circuit control circuit according to the voltage and current information.

Furthermore, the main control circuit is an MCU control circuit and is integrated on the switch master gate.

In order to prevent electric energy waste or safety accident sending caused by forgetting to close the electric equipment by workers in an unmanned office place or factory, the utility model also provides an intelligent energy-saving control system, which comprises an image recognition system, a concentrator, a cloud server, a user system and an intelligent electric energy detection system; wherein,

the control circuit of the intelligent electric energy detection system is connected with the concentrator so as to transmit the information of each voltage and current to the concentrator;

the image recognition system is connected with the concentrator and is suitable for recognizing whether people move indoors or not and feeding back recognition results to the concentrator;

the concentrator is connected with the cloud server through 4G power private network communication and is suitable for uploading each voltage and current information and the identification result to the cloud server through 4G power private network communication;

the user system is connected with the cloud server and is suitable for judging whether the user system is in a normal use scene or not according to the identification result and the voltage and current information and reminding related personnel when the user system is judged to be in an abnormal use scene.

Further, the user system is further adapted to send a remote control signal to the cloud server when it is operated;

the cloud server is also suitable for sending the remote control signals received by the cloud server to the corresponding concentrator;

the concentrator is also suitable for controlling the switch of the corresponding power supply branch circuit to be switched off through the control circuit of the intelligent circuit detection system according to the received remote control signal.

Further, a control circuit of the intelligent electric energy detection system is connected with the concentrator through wireless or power carrier communication;

the image recognition system is connected with the concentrator through wireless or power line carrier communication.

After the technical scheme is adopted, the utility model discloses following beneficial effect has:

1. the utility model discloses an intelligent electric energy detecting system can detect the voltage current information of each power supply branch road in real time, and when voltage current information is unusual, control circuit can control the switch disconnection of corresponding power supply branch road, and then saves the energy consumption, and reduces the probability that the incident takes place;

2. the utility model discloses an intelligent energy-saving control system through image identification system discerns whether there is the physical activity, and transmit the discernment result to the concentrator through wireless or power line carrier communication, simultaneously intelligent electric energy detection system detects the voltage current information of each power supply branch road and feeds back to the concentrator, the concentrator uploads each voltage current information and discernment result to the cloud server through 4G electric power private network communication, user system is according to the voltage current information of cloud server and the discernment result comprehensive judgement whether for the normal use scene, when judging that the scene of abnormal use sends the warning to relevant personnel to remind relevant personnel remote control the switch disconnection of corresponding power supply branch road, the utility model discloses an intelligent energy-saving control system can be under the scene of nobody's official working, staff forget to close big energy consumption and high temperature electrical equipment through the mutual cooperation of intelligent electric energy detection system and image identification system, greatly reduces energy consumption and prevents safety accidents.

Drawings

Fig. 1 is a schematic block diagram of the intelligent electric energy detection system of the present invention;

fig. 2 is a schematic block diagram of the intelligent energy-saving control system of the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

Example one

As shown in fig. 1 and 2, an intelligent power detection system is used for detecting power supply branches 2 of a plurality of electric devices 1, and includes a control circuit and a plurality of voltage and current metering circuits 3, wherein the voltage and current metering circuits 3 correspond to the power supply branches 2 one by one; wherein,

the voltage and current metering circuit 3 is respectively connected with the corresponding power supply branch circuit 2 and the control circuit, and is suitable for detecting the voltage and current information of the corresponding power supply branch circuit 2 and feeding the information back to the control circuit;

the control circuit is connected with the switches 11 on the power supply branches 2 and is suitable for controlling the on-off of the switches 11 on the corresponding power supply branches 2 according to the information of the voltage and the current.

In the present embodiment, the voltage-current measuring circuit 3 is an HLW8012 measuring chip.

As shown in fig. 1 and 2, the control circuit includes a main control circuit and a plurality of branch control circuits 4, and the branch control circuits 4 correspond to the power supply branches 2 one to one; wherein,

each voltage and current metering circuit 3 is connected with the main control circuit, and the main control circuit is connected with the switch 11 on the corresponding power supply branch 2 through each branch control circuit 4;

the main control circuit is suitable for controlling the on-off of the switch 11 on the power supply branch 2 of the corresponding power utilization setting through the corresponding branch control circuit 4 according to the voltage and current information.

In this embodiment, the branch control circuit 4 selects a branch DZ47 single relay control switch circuit.

As shown in fig. 1 and 2, the main control circuit is an MCU control circuit 6 integrated on the switch bus 5.

In the embodiment, the MCU control circuit adopts STM32G070RBT6 in ST series.

Specifically, the utility model discloses an intelligent electric energy detection system can listen the voltage and current information of each power supply branch road 2 in real time, and when voltage and current information is unusual, control circuit can control the disconnection of switch 11 of corresponding power supply branch road 2, and then the energy saving consumed the festival to reduce the probability that the incident takes place.

Example two

As shown in fig. 1 and 2, an intelligent energy-saving control system includes an image recognition system 7, a concentrator 8, a cloud server 9, a user system 10, and an intelligent power detection system according to the first embodiment; wherein,

the control circuit of the intelligent electric energy detection system is connected with the concentrator 8 so as to transmit the information of each voltage and current to the concentrator 8;

the image recognition system 7 is connected with the concentrator 8 and is suitable for recognizing whether people are moving indoors or not and feeding back recognition results to the concentrator 8;

the concentrator 8 is connected with the cloud server 9 through 4G power private network communication and is suitable for uploading each voltage and current information and each recognition result to the cloud server 9 through 4G power private network communication;

the user system 10 is connected to the cloud server 9, and is adapted to determine whether the usage scenario is a normal usage scenario or not according to the recognition result and the voltage and current information, and to remind the relevant person when the usage scenario is determined to be an abnormal usage scenario.

As shown in fig. 1 and 2, the user system 10 is further adapted to send a remote control signal to the cloud server 9 when it is operated;

the cloud server 9 is also adapted to send the remote control signals it receives to the respective concentrator 8;

the concentrator 8 is also adapted to control the switch 11 of the corresponding power supply branch 2 to open by means of the control circuit of the intelligent circuit detection system, according to the remote control signal it receives.

As shown in fig. 1 and 2, the control circuit of the intelligent power detection system is connected to the concentrator 8 through wireless or power carrier communication;

the image recognition system 7 is connected with the concentrator 8 through wireless or power carrier communication.

The working method of the intelligent energy-saving control system comprises the following steps:

each voltage and current metering unit of the intelligent electric energy detection system detects the voltage and current information of the corresponding power supply branch 2 and feeds the information back to the control circuit of the intelligent electric energy detection system, and the control circuit feeds the voltage and current information of each power supply branch 2 back to the concentrator 8;

the image recognition system 7 recognizes whether an object is moving indoors or not, and feeds back the recognition result to the concentrator 8;

the concentrator 8 uploads the voltage and current information and the identification result to the cloud server 9 through 4G power private network communication;

the user system 10 determines whether the usage scenario is normal according to the voltage and current information of the cloud server 9 and the identification result, and when the user system 10 determines that the usage scenario is abnormal, the user system 10 sends a prompt.

In this embodiment, the method further includes:

after receiving the prompt sent by the user system 10, the relevant personnel send corresponding remote control signals to the cloud server 9 through the user system 10;

the cloud server 9 sends the received remote control signal to the corresponding concentrator 8;

the concentrator 8 sends the remote control signal received by it to the control circuit of the corresponding intelligent power detection system, which controls the switch 11 of the corresponding power supply branch 2 to be switched off.

Specifically, when the condition one and the condition two are simultaneously satisfied, the user system 10 determines the usage scenario as an abnormal usage scenario;

the first condition is as follows: the recognition result of the image recognition system 7 is the indoor unmanned activity;

and a second condition: the user system 10 determines the power consumption device with abnormal energy consumption according to the voltage and current information.

The utility model discloses an intelligence energy-saving control system passes through mutually supporting of intelligent electric energy detection system and image identification system 7, can forget to close under the scene of big energy consumption and high temperature electrical equipment unmanned official working, staff, greatly reduces the energy consumption to the prevention incident takes place.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. An intelligent electric energy detection system is used for detecting power supply branches (2) of a plurality of electric equipment (1) and is characterized in that,

the power supply device comprises a control circuit and a plurality of voltage and current metering circuits (3), wherein the voltage and current metering circuits (3) correspond to the power supply branches (2) one by one; wherein,

the voltage and current metering circuit (3) is respectively connected with the corresponding power supply branch circuit (2) and the control circuit, and is suitable for detecting the voltage and current information of the corresponding power supply branch circuit (2) and feeding the information back to the control circuit;

the control circuit is connected with the switch (11) on the power supply branch (2) and is suitable for controlling the on-off of the switch (11) on the corresponding power supply branch (2) according to the voltage and current information.

2. The intelligent power detection system of claim 1,

the control circuit comprises a main control circuit and a plurality of branch control circuits (4), and the branch control circuits (4) correspond to the power supply branches (2) one by one; wherein,

each voltage and current metering circuit (3) is connected with the main control circuit, and the main control circuit is connected with a switch (11) on the corresponding power supply branch (2) through each branch control circuit (4);

the main control circuit is suitable for controlling the on-off of a switch (11) on the power supply branch (2) of the corresponding power utilization device through the corresponding branch control circuit (4) according to the voltage and current information.

3. The intelligent power detection system of claim 2,

the main control circuit is an MCU control circuit (6) and is integrated on the switch master gate (5).

4. An intelligent energy-saving control system is characterized in that,

the intelligent electric energy detection system comprises an image recognition system (7), a concentrator (8), a cloud server (9), a user system (10) and the intelligent electric energy detection system according to any one of claims 1-3; wherein,

the control circuit of the intelligent electric energy detection system is connected with the concentrator (8) to transmit each voltage and current information to the concentrator (8);

the image recognition system (7) is connected with the concentrator (8) and is suitable for recognizing whether people are moving indoors or not and feeding back recognition results to the concentrator (8);

the concentrator (8) is connected with the cloud server (9) through 4G power private network communication and is suitable for uploading each voltage and current information and the identification result to the cloud server (9) through 4G power private network communication;

the user system (10) is connected with the cloud server (9) and is suitable for judging whether the scene is a normal use scene or not according to the identification result and the voltage and current information and reminding related personnel when the scene is judged to be an abnormal use scene.

5. The intelligent energy-saving control system according to claim 4,

the user system (10) is further adapted to send a remote control signal to the cloud server (9) when it is operated;

the cloud server (9) is also adapted to send the remote control signals it receives to the respective concentrator (8);

the concentrator (8) is also adapted to control the switch (11) of the corresponding power supply branch (2) to open by means of the control circuit of the intelligent circuit detection system according to the remote control signal it receives.

6. The intelligent energy-saving control system according to claim 4,

the control circuit of the intelligent electric energy detection system is connected with the concentrator (8) through wireless or power carrier communication;

the image recognition system (7) is connected with the concentrator (8) through wireless or power carrier communication.

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