阅读说明：本技术 利用无线通讯实现电压电流监测的方法及其系统 (Method and system for realizing voltage and current monitoring by utilizing wireless communication ) 是由 关守义 胡孟雷 胡旭雷 于 2021-05-26 设计创作，主要内容包括：本申请涉及一种利用无线通讯实现电压电流监测的方法,其包括当获取到通过无线通讯方式发出的监测指令时,根据所述监测指令确定所要监测的线缆数据；将采集到的线缆数据再通过无线通讯方式发回后台控制中心；将发回的所述线缆数据进行数据分析后,生成数据表格与数据曲线；当获取到通过无线通讯方式发出的控制指令时,根据接收到的所述控制指令来控制指定线缆的通断；所述控制指令包括有第一控制指令以及第二控制指令,所述第一控制指令的优先级高于第二控制指令的优先级；当所述第一控制指令与第二控制指令同时发送指令时,将优先执行第一控制指令。本申请具有不仅减小了能量的损耗,而且还能省去繁琐的布线步骤,大大提高了安装效率的效果。(The application relates to a method for realizing voltage and current monitoring by utilizing wireless communication, which comprises the steps of determining cable data to be monitored according to a monitoring instruction when the monitoring instruction sent out in a wireless communication mode is obtained; the collected cable data is sent back to the background control center in a wireless communication mode; after the returned cable data are subjected to data analysis, generating a data table and a data curve; when a control instruction sent out in a wireless communication mode is acquired, controlling the on-off of a specified cable according to the received control instruction; the control instruction comprises a first control instruction and a second control instruction, and the priority of the first control instruction is higher than that of the second control instruction; and when the first control instruction and the second control instruction send instructions simultaneously, the first control instruction is executed preferentially. This application has not only reduced the loss of energy, but also can save loaded down with trivial details wiring step, has improved the effect of installation effectiveness greatly.)

1. A method for realizing voltage and current monitoring by utilizing wireless communication is characterized by comprising the following steps:

when a monitoring instruction sent out in a wireless communication mode is acquired, cable data to be monitored are determined according to the monitoring instruction; the collected cable data is sent back to the background control center in a wireless communication mode; after the returned cable data are subjected to data analysis, generating a data table and a data curve;

when a control instruction sent out in a wireless communication mode is acquired, controlling the on-off of a specified cable according to the received control instruction; the control instruction comprises a first control instruction and a second control instruction, and the priority of the first control instruction is higher than that of the second control instruction; and when the first control instruction and the second control instruction send instructions simultaneously, the first control instruction is executed preferentially.

2. The method of claim 1, wherein the cable data comprises an average value of current per unit time, an average value of voltage per unit time, and a power supply per unit time; and calculating the power consumption, the theoretical line loss and the actual line loss of the specified cable in the specified time period according to the returned cable data, and displaying the power consumption, the theoretical line loss and the actual line loss in a data table and a data curve.

3. The method for realizing voltage and current monitoring by using wireless communication according to claim 1, wherein when a first control instruction is obtained, a corresponding priority information prompt is sent to a designated second control instruction sending terminal according to the type of the received first control instruction; the second control instruction sending terminal is used for sending a second control instruction;

starting to execute the countdown of the set residual trigger time value by taking the priority information prompt received by the second control instruction sending end as the start based on the residual trigger time value set by the first control instruction; and after the residual trigger time value is finished, executing corresponding on-off action on the specified cable according to the type of the first control instruction.

4. The method of claim 3, wherein the monitoring of the voltage and the current is performed by wireless communication,

when a maintenance instruction is acquired, sending maintenance information to a specified second control instruction sending terminal according to the maintenance instruction; and when the second control instruction sending terminal selects one or more optional maintenance options within a specified time period from the received maintenance information, generating maintenance statistical data after submitting the selected maintenance options, and generating a maintenance questionnaire according to the collected maintenance statistical data.

5. The method of claim 4, wherein the monitoring of the voltage and the current is performed by wireless communication,

and the second control instruction sending end performs information binding with a specified cable in the area where the user resides, and when the help seeking instruction sent by the second control instruction sending end is obtained, the area where the second control instruction sending end corresponding to the help seeking instruction is located and the corresponding line are judged according to the specified cable information bound by the second control instruction sending end.

6. The method for monitoring voltage and current by using wireless communication according to claim 5, wherein the second control instruction transmitting terminal is provided with a master user login terminal, and the second control instruction transmitting terminal is bound with the mobile phone number information of a master user; when the main user login end is logged in, the main user login end also has the authority of adding the sub-user, the verification code is obtained by inputting the mobile phone number of the sub-user and clicking, the addition of the sub-user information can be performed through verification after the correct verification code is submitted, the second control instruction sending end performs information binding with the mobile phone number of the sub-user after the addition of the sub-user information is completed, and the sub-user can log in the sub-user login end of the second control instruction sending end by using the mobile phone number; the priority of the main user login end is higher than that of the sub user login end.

7. A system for monitoring voltage and current by wireless communication is characterized in that the system comprises,

the monitoring module is arranged on the appointed cable and used for monitoring the cable data of the appointed cable, and a wireless receiving end and a wireless transmitting end are arranged on the monitoring module;

the monitoring module monitors cable data after receiving the monitoring instruction, and then sends the monitored cable data back to the data processing module through the wireless transmitting end; the data processing module performs data analysis on the returned cable data to generate a data table and a data curve;

the monitoring module further comprises a cable on-off module for controlling the on-off of the cable, the main control module further comprises a first control module, the first control module is used for sending a first control instruction to the cable on-off module, and the cable on-off module controls the on-off of the cable according to the type of the received first control instruction;

the system comprises a user terminal, a first control instruction sending terminal and a cable on-off module, wherein the user terminal is located in an area of the user terminal, the cable on-off module is used for receiving a first control instruction sent by the user terminal, and the cable on-off module is used for controlling the on-off of a specified cable according to the type of the first control instruction; the priority of the first control instruction is higher than the priority of the second control instruction.

8. The system for monitoring voltage and current by using wireless communication according to claim 7, wherein the main control module further comprises a maintenance prompting module, the maintenance prompting module is used for sending maintenance information to the second control instruction sending terminal, the maintenance information comprises maintenance options within a selectable specified time period, the second control instruction sending terminal performs check-up and submits the corresponding options according to the received maintenance information, the second control instruction sending terminal sends the completely filled maintenance information back to the maintenance prompting module, and the maintenance prompting module generates a maintenance questionnaire according to the collected maintenance statistical data.

9. A system for monitoring voltage and current by wireless communication is characterized by comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to: the method for realizing voltage and current monitoring by wireless communication according to any one of claims 1 to 6 is carried out.

Technical Field

The present invention relates to the field of voltage and current monitoring, and in particular, to a method and system for monitoring voltage and current by wireless communication.

Background

At present, the old city transformation progress is accelerated along with the adjustment of national economic structures, the urban area is rapidly enlarged, the living standard of people is continuously improved, and along with the rapid development of commerce and trade, the demand for power utilization of a distribution network is rapidly increased. In order to monitor the line loss of the high-voltage cable, a high-voltage metering device for detecting the line loss is usually installed on the outdoor high-voltage cable. When the existing high-voltage metering device monitors voltage and current, a mutual inductance detection method is mostly used, and in a mutual inductance circuit, when currents with different magnitudes flow through a main winding, corresponding voltages with different magnitudes are induced by an auxiliary winding. By reading the voltage values of the cross winding, the current through the main winding can be calculated. And finally, the output end of the high-voltage metering device transmits the acquired voltage and current signals to the information processing terminal through a signal cable.

The above prior art solutions have the following drawbacks: when the high-voltage metering device detects voltage and current, the collected signals need to be transmitted to the information processing terminal through the signal cable, the signal cable transmission mode has large energy loss, and the workload of laying the field signal cable is large.

Disclosure of Invention

The invention aims to provide a method and a system for realizing voltage and current monitoring by utilizing wireless communication, which have the characteristics of energy loss reduction and convenience in installation.

The method and the system for realizing voltage and current monitoring by utilizing wireless communication adopt the following technical scheme:

when a monitoring instruction sent by a wireless communication mode is acquired, determining according to the monitoring instruction

Determining cable data to be monitored;

the collected cable data is sent back to the background control center in a wireless communication mode; after the returned cable data are subjected to data analysis, generating a data table and a data curve;

when a control instruction sent out in a wireless communication mode is acquired, controlling the on-off of a specified cable according to the received control instruction; the control instruction comprises a first control instruction and a second control instruction, and the priority of the first control instruction is higher than that of the second control instruction; and when the first control instruction and the second control instruction send instructions simultaneously, the first control instruction is executed preferentially.

By adopting the technical scheme, when the electric power department needs to monitor the cable data on the appointed cable, once a monitoring instruction sent by adopting a wireless communication mode is obtained, the data acquisition and data monitoring can be carried out on the appointed cable in real time, then the acquired cable data is sent back by utilizing the wireless communication mode, and finally, the corresponding data table and data curve are automatically generated after the sent-back cable data is subjected to data analysis and processing; the staff can more intuitively and clearly acquire real-time data of the cable according to the generated data table and data curve; the monitored cable data are transmitted in a wireless communication mode, energy loss is reduced compared with a traditional mode of transmitting by adopting a signal cable, complicated wiring steps can be omitted, installation efficiency is greatly improved, and the monitored data can be more accurate; when the power department needs to switch on or off the appointed cable, the switching on or off of the appointed cable can be controlled by sending a first control instruction, so that remote control is realized; on-off control of the appointed cable can be realized through a second control instruction, and the second control instruction can be sent out by a downstream user of the power department; when a downstream user needs to perform power-off maintenance or power-off outgoing on a power supply cable at home, the power supply cable at home can be remotely controlled to be powered off by sending a second control instruction, the whole power-off step is very convenient, fast and safe, a circuit element does not need to be touched, and the influence of regions is avoided.

Preferably, the cable data comprises a current average value in unit time, a voltage average value in unit time and power supply power in unit time; and calculating the power consumption, the theoretical line loss and the actual line loss of the specified cable in the specified time period according to the returned cable data, and displaying the power consumption, the theoretical line loss and the actual line loss in a data table and a data curve.

By adopting the technical scheme, the monitored cable data can be more accurate according to the average value of the collected current, voltage and power supply power in unit time, the power department can set a specified time period, and the returned cable data can calculate the power consumption, theoretical line loss and actual line loss of the specified cable according to the set specified time period and display the power consumption, the theoretical line loss and the actual line loss in the data table and the data curve, so that the power department can conveniently analyze the cable data.

Preferably, when a first control instruction is acquired, a corresponding priority information prompt is sent to a specified second control instruction sending terminal according to the type of the received first control instruction; the second control instruction sending terminal is used for sending a second control instruction;

starting to execute the countdown of the set residual trigger time value by taking the priority information prompt received by the second control instruction sending end as the start based on the residual trigger time value set by the first control instruction; and after the residual trigger time value is finished, executing corresponding on-off action on the specified cable according to the type of the first control instruction.

By adopting the technical scheme, when the power department sends the first control instruction, in order to ensure the electricity utilization safety of downstream users, the appointed second control instruction sending end receives the corresponding priority information prompt and starts to execute the countdown of the set residual trigger time value; the downstream users are reminded through priority information prompt, the electric power department performs on-off control on the appointed cable after the countdown of the residual trigger time value is finished, and the buffering time can be reserved for the downstream users by setting the countdown of the residual trigger time value, so that the inconvenience brought to the life of the downstream users due to instantaneous power failure or power on of the electric power department can be reduced, the information interaction between the electric power department and the downstream users is realized, and the user experience of the downstream users is improved.

Preferably, when a maintenance instruction is acquired, sending maintenance information to a specified second control instruction sending terminal according to the maintenance instruction; and when the second control instruction sending terminal selects one or more optional maintenance options within a specified time period from the received maintenance information, generating maintenance statistical data after submitting the selected maintenance options, and generating a maintenance questionnaire according to the collected maintenance statistical data.

By adopting the technical scheme, when the power department needs to perform power-off maintenance on the specified cable in the specified area in the specified time period, the power department can acquire the optimal maintenance time period according to the generated maintenance questionnaire by sending maintenance information to the specified second control instruction sending terminals, and the user of each second control instruction sending terminal can select the maintenance options in the optional specified time period according to the actual conditions of the user; therefore, adverse effects on normal life of the user caused by power failure can be reduced to the maximum extent, and the satisfaction degree of the user is improved.

Preferably, the second control instruction sending end performs information binding with a specified cable in an area where a user resides, and when the help seeking instruction sent by the second control instruction sending end is obtained, the area where the second control instruction sending end corresponding to the help seeking instruction is located and a corresponding line are judged according to the specified cable information bound by the second control instruction sending end.

Through adopting above-mentioned technical scheme, when the outage takes place for the trouble when the power supply line of low reaches user, low reaches user's accessible second control instruction sending terminal sends the instruction of seeking help, after the electric power department received the instruction of seeking help, can be according to the appointed cable information that the second control instruction sending terminal bound, judge the second control instruction sending terminal place region that the instruction of seeking help corresponds and the circuit that corresponds, thereby can make things convenient for and quick the trouble position of finding corresponding circuit more, thereby can in time send maintenance personal to the circuit that breaks down and maintain.

Preferably, the second control instruction sending end is provided with a master user login end, and the second control instruction sending end is bound with the mobile phone number information of the master user; when the main user login end is logged in, the main user login end also has the authority of adding the sub-user, the verification code is obtained by inputting the mobile phone number of the sub-user and clicking, the addition of the sub-user information can be performed through verification after the correct verification code is submitted, the second control instruction sending end performs information binding with the mobile phone number of the sub-user after the addition of the sub-user information is completed, and the sub-user can log in the sub-user login end of the second control instruction sending end by using the mobile phone number; the priority of the main user login end is higher than that of the sub user login end.

By adopting the technical scheme, the master user can log in the master user login end to add a plurality of sub-user authorities, after the addition of the sub-user information is completed, the second control instruction sending end performs information binding with the mobile phone number of the sub-user, when the power supply line of the residential place is powered off due to a fault, the sub-user can send a help seeking instruction by logging in the sub-user login end of the second control instruction sending end, when the main user and the sub-user directly dial the telephone of the power department to feed back the fault condition, because the mobile phone number information of the main user and the sub-user is bound with the second control instruction sending end, the electric power department can accurately find the appointed cable in the appointed area according to the mobile phone number information, the query efficiency is improved, and the electric power department can accurately position the position of the cable with faults for users who do not use digital equipment well or users with poor language expression capability.

In a second aspect, a system for voltage and current monitoring using wireless communication is provided, comprising,

the monitoring module is arranged on the appointed cable and used for monitoring the cable data of the appointed cable, and a wireless receiving end and a wireless transmitting end are arranged on the monitoring module;

the monitoring module monitors cable data after receiving the monitoring instruction, and then sends the monitored cable data back to the data processing module through the wireless transmitting end; the data processing module performs data analysis on the returned cable data to generate a data table and a data curve;

the monitoring module further comprises a cable on-off module for controlling the on-off of the cable, the main control module further comprises a first control module, the first control module is used for sending a first control instruction to the cable on-off module, and the cable on-off module controls the on-off of the cable according to the type of the received first control instruction;

the system comprises a user terminal, a first control instruction sending terminal and a cable on-off module, wherein the user terminal is located in an area of the user terminal, the cable on-off module is used for receiving a first control instruction sent by the user terminal, and the cable on-off module is used for controlling the on-off of a specified cable according to the type of the first control instruction; the priority of the first control instruction is higher than the priority of the second control instruction.

By adopting the technical scheme, the remote wireless monitoring on the cable data can be realized, and the remote wireless on-off control on the appointed cable can also be realized.

Preferably, the main control module further includes a maintenance prompting module, the maintenance prompting module is configured to send maintenance information to the second control instruction sending terminal, the maintenance information includes options maintained within a selectable specified time period, after the second control instruction sending terminal performs collusion and submission on corresponding options according to the received maintenance information, the second control instruction sending terminal sends the filled maintenance information back to the maintenance prompting module, and the maintenance prompting module generates a maintenance questionnaire according to the collected maintenance statistical data.

By adopting the technical scheme, when the electric power department needs to maintain the specified line, the maintenance information can be sent to the second control instruction sending terminal through the maintenance prompting module, the second control instruction sending terminal can check and submit the corresponding options according to the received maintenance information, and the second control instruction sending terminal can resend the filled maintenance information to the maintenance prompting module, so that the electric power department can conveniently select a better maintenance time period according to the option proportion in the maintenance questionnaire, and the influence on the life of downstream users can be reduced.

Preferably, the method comprises the following steps:

one or more processors;

a memory;

one or more application programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to: and executing the operation corresponding to the number source reservation method shown in any possible implementation manner in the first aspect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the staff can more intuitively and clearly acquire real-time data of the cable according to the generated data table and data curve; the monitored cable data are transmitted in a wireless communication mode, energy loss is reduced compared with a traditional mode of transmitting by adopting a signal cable, complicated wiring steps can be omitted, installation efficiency is greatly improved, and the monitored data can be more accurate;

2. the inconvenience brought to the life of the downstream users by the instant power-off or power-on of the power department is reduced, the information interaction between the power department and the downstream users is realized, and the user experience of the downstream users is improved;

3. according to the percentage of options submitted by different users for maintenance in a specified time period, the power department can obtain the optimal maintenance time period according to the generated maintenance questionnaire.

Drawings

Fig. 1 is a schematic flow chart of a cable data monitoring method according to the present application.

Fig. 2 is a flowchart illustrating a method for controlling command transmission according to the present application.

Fig. 3 is a flowchart illustrating a method for sending a maintenance instruction according to the present application.

Fig. 4 is a control flow diagram of a second control instruction sending end according to the present application.

Description of reference numerals: 1. a monitoring module; 11. a cable on-off module; 2. a main control module; 21. a data processing module; 22. a first control module; 4. and the second control instruction sends the end.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

A method for monitoring voltage and current by wireless communication, as shown in fig. 1-4, comprises the following steps:

and S1, when a monitoring instruction sent by the power department in a wireless communication mode is acquired, determining cable data to be monitored according to the received monitoring instruction. The cable data comprises a current average value in unit time, a voltage average value in unit time and power supply power in unit time. The specific unit time value of the monitoring instruction can be directly controlled by the power department, for example, the data of the specified cable in the specified area can be collected and monitored within 1 hour, 2 hours or 24 hours. The power department can also monitor the cable data all weather by sending a monitoring instruction for monitoring the cable in real time.

And S2, acquiring corresponding cable data according to the unit time value set by the monitoring instruction, and then sending the acquired cable data back to the background control center in a wireless communication mode. The background control center is a computer controlled by the power department.

And S3, analyzing and calculating the power consumption, the theoretical line loss and the actual line loss of the appointed cable in the appointed time period according to the returned cable data, and finally generating a corresponding data table and a corresponding data curve. The theoretical line loss is an initial power supply power value transmitted to the main cable by the power station, cable data on each branch cable connected to the main cable are independently monitored, and then the theoretical line loss and the actual line loss can be completely and accurately obtained by comparing the collected power supply power value sum of each cable with the initial power supply power value. Finally, the values are fed back in the form of a data table and/or a data curve.

By the detection method, the signal transmission is carried out in a wireless communication mode, so that the energy loss of the traditional signal cable transmission can be reduced, and the monitored cable data can be more accurate and reliable. And the operation and installation of the power department are facilitated, a large number of signal cables do not need to be laid, and the workload is greatly reduced.

The wireless communication mode can adopt a WiFi module, a 3G module, a 4G module, a 5G module and the like, and the remote communication or remote control function is provided by networking resources of a link network. The link network broadly refers to a general or private network such as a public network, an intranet, a home network, or the like. The network interfaces and protocols included in the wireless communication method may include: satellite network interfaces and protocols, wireless network interfaces and protocols, and the like. The satellite network interface and protocol comprises a satellite positioning interface and protocol, a satellite communication interface and protocol and the like; the wireless network interface and protocol comprises a wireless positioning interface and protocol, a wireless communication interface and protocol and the like.

As shown in fig. 2, the method further comprises the following steps:

and Z1, acquiring a control instruction sent out in a wireless communication mode.

And Z2, controlling the on-off of the specified cable according to the type of the received control command.

The types of the control instruction comprise: an indication to "open the cable power circuit" and an indication to "close the cable power circuit". When the control command gives an instruction to "close the cable power supply circuit", the power supply circuit of the specified cable will be closed.

When the control command gives an instruction of "opening the cable power supply circuit", the power supply circuit of the specified cable is conducted. The control instructions are divided into a first control instruction and a second control instruction according to the priority, and the priority of the first control instruction is higher than that of the second control instruction. The first control instruction is controlled and issued by the power department, and the second control instruction is controlled and issued by a downstream user of the power department. When the first control instruction and the second control instruction send instructions simultaneously, the first control instruction is executed preferentially.

And downstream users of the power department send second control instructions through a second control instruction sending terminal, and the second control instruction sending terminal can only send the second control instructions to a specified power supply cable where the downstream users live. And when a first control instruction sent by the power department is acquired, sending a corresponding priority information prompt to a specified second control instruction sending end according to the type of the received first control instruction. And starting from the fact that the appointed second control instruction sending terminal receives the priority information prompt based on the residual trigger time value set by the first control instruction, and displaying and counting down the residual trigger time value on the second control instruction sending terminal by the priority information prompt. The power department may make changes to the remaining trigger time value. Specifically, when the power department needs to perform power-off control on a specified cable in a specified area, the power department may set a specific remaining trigger time value, and then send an instruction of "closing a cable power supply loop" through a first control instruction. And after receiving the instruction of the first control instruction, sending a priority information prompt of closing a cable power supply loop to a specified second control instruction sending terminal, displaying and executing countdown of the residual trigger time value on a second control instruction sending terminal, and after receiving the countdown of the residual trigger time value, closing the power supply loop of the specified cable.

As shown in fig. 3 and 4, the method further comprises the following steps:

and Q1, when the maintenance instruction sent by the power department is acquired, sending maintenance information to a specified second control instruction sending terminal according to the received maintenance instruction. The maintenance information includes a plurality of selectable options for maintenance during a specified time period. The content of the maintenance information is edited and sent by the power department through a computer, and the maintenance information can be displayed on a mobile phone or other mobile terminals with displays of downstream users. The maintenance information comprises an information prompt for power failure maintenance, a plurality of selectable options for power failure maintenance in a specified time period and a selectable selection frame positioned at the beginning of the corresponding option, and the selectable selection frame can be selected singly or in a multiple mode.

Q2, when the second control instruction sending terminal selects one or more selectable maintenance options in the appointed time period from the received maintenance information and submits the options, the maintenance statistical data is generated. The maintenance statistical data comprises house number information corresponding to downstream users, corresponding selected options and the occupation ratio of each option.

Q3, according to the maintenance statistics data that gathers to produce and maintain the questionnaire, the maintenance questionnaire that produces can make things convenient for the more audio-visual proportion of comparing each option of electric power department, and electric power department can also be according to different demands and will maintain the chart and switch into bar graph or line graph with maintaining.

By sending the maintenance information to the designated second control instruction sending terminals, the user of each second control instruction sending terminal can select the maintenance options in the selectable designated time period according to the actual situation of the user, and the power department can obtain the optimal maintenance time period according to the option proportion in the generated maintenance questionnaire, so that the adverse effect on the normal life of the user caused by power failure can be reduced to the greatest extent, and the satisfaction degree of the user is improved.

The second control instruction sending end is in information binding with the appointed cable of the area where the downstream user resides, and when the help seeking instruction sent by the second control instruction sending end is obtained, the electric power department can quickly and easily judge the area where the second control instruction sending end corresponding to the help seeking instruction is located and the corresponding circuit according to the appointed cable information bound by the second control instruction sending end. Therefore, when the power failure of the cable occurs due to the fault, the power department can conveniently find the fault cable in time.

The second control instruction sending end is provided with a master user login end and is bound with the mobile phone number information of the master user. After a user logs in the main user login end through a mobile phone number, the main user login end also has the authority of adding the sub-user, the verification code is obtained by inputting the mobile phone number of the sub-user and clicking, after the correct verification code is submitted, the addition of the sub-user information can be performed through verification, after the addition of the sub-user information is completed, the second control instruction sending end carries out information binding with the mobile phone number of the sub-user, and the sub-user can log in the sub-user login end of the second control instruction sending end by utilizing the mobile phone number. The priority of the main user login end is higher than that of the sub user login end.

The implementation principle of the method for realizing voltage and current monitoring by utilizing wireless communication in the embodiment of the application is as follows: the monitored cable data are transmitted in a wireless communication mode, energy loss is reduced compared with a traditional mode of transmitting by adopting a signal cable, complicated wiring steps can be omitted, installation efficiency is greatly improved, and the monitored data can be more accurate; when the power department needs to switch on or off the appointed cable, the switching on or off of the appointed cable can be controlled by sending a first control instruction, so that remote control is realized; on-off control of the appointed cable can be realized through a second control instruction, and the second control instruction can be sent out by a downstream user of the power department; when a downstream user needs to perform power-off maintenance or power-off outgoing on a power supply cable at home, the power supply cable at home can be remotely controlled to be powered off by sending a second control instruction, the whole power-off step is very convenient, fast and safe, a circuit element does not need to be touched, and the influence of regions is avoided.

The above embodiments describe a method for implementing voltage and current monitoring by using wireless communication from the perspective of method flow, and the following embodiments describe a system for implementing voltage and current monitoring by using wireless communication from the perspective of a virtual module or a virtual unit, which are described in detail in the following embodiments.

The embodiment of the application provides a system for realizing voltage and current monitoring by using wireless communication, which is used for realizing the method for realizing voltage and current monitoring by using wireless communication, and as shown in fig. 4, the system for realizing voltage and current monitoring by using wireless communication specifically comprises a monitoring module 1, a main control module 2 and a second control instruction sending terminal 4.

Monitoring module 1 installs on appointed cable and is used for monitoring the cable data of appointed cable, is provided with wireless receiving terminal and wireless transmitting terminal on the monitoring module 1. The wireless receiving end is used for receiving radio signals sent by the electric power department or downstream users through the computer end or the mobile phone end, and the wireless transmitting end is used for sending the radio signals back to the computer end or the mobile phone end of the electric power department or downstream users.

The main control module 2 comprises a data processing module 21, wherein the output end of the data processing module 21 is used for sending a monitoring instruction to the wireless receiving end of the monitoring module 1, the monitoring module 1 monitors cable data after receiving the monitoring instruction, and the monitoring module 1 sends the monitored cable data back to the data processing module 21 through the wireless transmitting end; the data processing module 21 performs data analysis on the cable data sent back to generate a data table and a data curve.

The monitoring module 1 further comprises a cable on-off module 11 for controlling the on-off of the cable, the main control module 2 further comprises a first control module 22, the first control module 22 is used for sending a first control instruction to the cable on-off module 11, and the cable on-off module 11 controls the on-off of the cable according to the type of the received first control instruction.

The system for realizing voltage and current monitoring by utilizing wireless communication further comprises a second control instruction sending terminal 4 controlled by a downstream user, the second control instruction sending terminal 4 is in information binding with the monitoring module 1 on the appointed cable in the area where the user terminal is located, and when the second control instruction sending terminal 4 sends a second control instruction to the cable on-off module 11 on the appointed cable in the area, the cable on-off module 11 controls the on-off of the appointed cable according to the type of the second control instruction after receiving the second control instruction. The priority of the first control instruction is higher than the priority of the second control instruction.

The system for realizing voltage and current monitoring by utilizing wireless communication also comprises: a processor and a memory. Wherein the processor is coupled to the memory, such as via a bus. Optionally, the electronic device may further comprise a transceiver. It should be noted that the transceiver in practical application is not limited to one, and the structure of the electronic device does not constitute a limitation to the embodiments of the present application.

The processor may be a CPU (central processing unit), a general purpose processor, a DSP (digital signal processor), an ASIC (application specific integrated circuit), an FPGA (field programmable gate array) or other programmable logic device, a transistor logic device, a hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. A processor may also be a combination of computing functions, e.g., comprising one or more microprocessors, a DSP and a microprocessor, or the like.

A bus may include a path that transfers information between the above components. The bus may be a PCI (peripheral component interconnect) bus, an EISA (extended industry standard architecture) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc.

The memory may be, but is not limited to, a ROM (read only memory) or other type of static storage device that can store static information and instructions, a RAM (random access memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (electrically erasable programmable read only memory), a CD-ROM (compact read only memory), or other optical disk storage, optical disk storage (including compact disk, laser disk, optical disk, digital versatile disk, blu-ray disk, etc.), a magnetic disk storage medium, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory is used for storing application program codes for executing the scheme of the application and is controlled by the processor to execute. The processor is configured to execute the application program code stored in the memory to implement the aspects illustrated in the foregoing method embodiments.

The system for monitoring voltage and current by using wireless communication includes but is not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. But also a server, etc.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.