CN106230122A - A kind of power equipment safety monitoring system based on wireless network - Google Patents

Abstract

The invention discloses a wireless network-based power equipment safety monitoring system, which includes an equipment monitoring unit, a wireless transceiver module, a total wireless transceiver, a remote monitoring platform, an alarm device and an intelligent mobile terminal, and each power equipment is equipped with a The equipment monitoring unit and the wireless transceiver module. There are two kinds of wireless transceiver modules in the power equipment, one includes a source wireless transceiver, and the other includes a relay wireless transceiver. The present invention divides 5 to 10 electric devices into one group, and only one wireless transceiver module in one electric device communicates with the total wireless transceiver of the system in each group, which not only reduces the power consumption of the source wireless transceiver, but also It also strengthens the data transmission capability of the present invention, making the operation of the present invention more stable. In addition, when the remote monitoring platform monitors that there is an abnormality in the power equipment, the maintenance personnel can go to the maintenance in time no matter where they are, saving the maintenance time of the power equipment.

Description

A wireless network-based power equipment safety monitoring system

technical field

The invention relates to the technical field of power equipment network monitoring, in particular to a wireless network-based power equipment safety monitoring system.

Background technique

In the current power grid erection, unattended substations have been widely used. The establishment of the centralized control center enables the management and operation tasks of the substation to be realized remotely by the centralized control center, and the operators do not need to enter the substation site. In this mode, the substation’s All monitoring information needs to be uploaded to the centralized control center, and the remote control and remote adjustment operation commands issued by the centralized control center directly reach the on-site actuators of the substation to control the actions of on-site equipment. However, in the existing power equipment safety monitoring system, serial Data transmission is not only complicated in wiring and difficult in maintenance, but also consumes a lot of power, and the stability of system operation is poor.

Contents of the invention

Aiming at the problems existing in the above-mentioned prior art, the present invention makes further improvements on the basis of the prior art. The present invention relates to a wireless network-based power equipment safety monitoring system. The present invention improves the data transmission capacity through hierarchical transmission, and the system The operation stability is high, and when the present invention monitors the abnormality of the electric equipment, it can immediately notify the maintenance personnel to go to the abnormal electric equipment point, saving the maintenance time of the electric equipment.

The present invention realizes the above-mentioned object of the invention through the following technical solutions.

A wireless network-based power equipment safety monitoring system, including an equipment monitoring unit, a wireless transceiver module, a total wireless transceiver, a remote monitoring platform, an alarm device and an intelligent mobile terminal, each power equipment is equipped with an equipment monitoring unit and A wireless transceiver module, the device monitoring unit includes a power supply module, a device data acquisition module and a device data processing module, the power supply module is used to provide operating voltage to the device data acquisition module, device data processing module and wireless transceiver module, the device The data collection module is used to collect the operation information of the electric equipment, the equipment data collection module is electrically connected with the equipment data processing module, the output end of the equipment data processing module is electrically connected with the input end of the wireless transceiver module, the power equipment inside There are two types of wireless transceiver modules, one includes source wireless transceivers, and the other includes relay wireless transceivers;

Every 5 to 10 electric devices are divided into one group, and in each group of electric devices, the wireless transceiver module in one electric device includes a relay wireless transceiver, and the wireless transceiver modules in the rest of the electric devices all include source wireless transceivers, The source wireless transceiver transmits the operation information of the power equipment to the relay wireless transceiver through the wireless network, and the relay wireless transceiver is used to receive the power operation information transmitted by the source wireless transceiver. It is used to receive the operation information sent by the equipment data acquisition module in the power equipment. The wireless transceiver module sends the equipment operation information collected by the equipment acquisition module to the main wireless transceiver through the wireless network. The output terminal of the total wireless transceiver is connected to the The input end of the remote monitoring platform is connected, the output end of the monitoring platform is connected to the alarm device, and the remote monitoring platform communicates wirelessly with the intelligent mobile terminal.

The present invention divides 5 to 10 electric equipments into one group, and in each group there is only one wireless transceiver module in the electric equipment, that is, the wireless transceiver is interrupted to communicate with the total wireless transceiver of the system, and the other wireless transceivers in the other electric equipment The source wireless transceiver can only communicate with the relay wireless transceiver in this group, which not only reduces the power consumption of the source wireless transceiver, but also strengthens the data transmission capability of the present invention, making the operation of the present invention more stable. In addition, when the remote monitoring platform monitors the abnormality of the power equipment, the alarm device will send out an alarm, and the monitoring personnel can accurately know the location of the abnormal equipment based on the GPS positioning information of the abnormal power equipment, and send the information to the maintenance personnel's smart mobile No matter where the maintenance personnel are at the terminal, they can know the location of the abnormal equipment and can go to it for maintenance in time, thus saving the maintenance time of power equipment.

Further, the equipment data acquisition module includes a video monitoring device, a GPS positioning device, a temperature sensing device, a humidity sensing device, a current monitoring device, a voltage monitoring device and an electrical fire monitoring device, and the video monitoring device is connected with the equipment data processing A video monitoring controller is connected between the modules, a GPS positioning controller is connected between the GPS positioning device and the equipment data processing module, a temperature sensing controller is connected between the temperature sensing device and the equipment data processing module, A humidity sensing controller is connected between the humidity sensing device and the equipment data processing module, a current monitoring controller is connected between the current monitoring device and the equipment data processing module, and the voltage monitoring device and the equipment data processing module A voltage monitoring controller is connected between the modules, and an electrical fire monitoring controller is connected between the electrical fire monitoring device and the equipment data processing module.

Each information that needs to be monitored by the power equipment is connected to the corresponding controller separately, so that even if a certain controller fails, other information of the power equipment can still be monitored, and even the faulty controller can be judged based on other information Whether the equipment information is normal, so as to avoid greater losses caused by the failure of monitoring the entire power equipment.

Further, a clock module is set in each group of electric equipment, the clock module is connected to the equipment data processing module, and the clock module is used to wake up the equipment monitoring unit in the electric equipment, when the equipment monitoring unit of a certain electric equipment When the unit is working, the equipment monitoring units of other equipment are in a dormant state. This not only prevents the wireless transmitting modules in the same group from interfering with each other, but also reduces the burden of the relay wireless transmitter, and also prolongs the working life of the equipment monitoring unit in each power equipment.

Further, the source wireless transceiver includes an AT86RF212 chip, and the relay wireless transceiver and the total wireless transceiver both include a Si4432 chip. The source wireless transceiver does not need a strong transmission capability, and low power consumption and low transmission power can be selected. chip to reduce the cost of the present invention, and the relay wireless transceiver and the total wireless transceiver require strong signal transceiving and transmission capabilities to ensure the stability of the present invention.

Further, the relay wireless transceiver also includes an RF front-end transmitting chip to enhance the transmission capability of the relay wireless transceiver and expand the monitoring scope of the present invention.

Further, the device data processing module includes a TM4C123G single-chip microcomputer.

Further, the power module includes a UPS power supply, a solar battery and a power converter, and the power converter is used for switching between the UPS power supply and the solar battery. The solar battery is used as a backup power source. When the UPS fails, it will be converted to the solar battery to supply power to make the system operate normally.

Further, the remote monitoring platform communicates with the intelligent mobile terminal through GRPS.

Further, the smart mobile terminal is equipped with a positioning module and a navigation tracking module. When the remote monitoring platform finds that there is an abnormality in the power equipment, the nearest maintenance personnel will be analyzed through the positioning information of each smart mobile terminal, and the abnormal power equipment will be identified. The GPS positioning information is sent to the dimensional intelligent mobile terminal, and the maintenance personnel can navigate according to the GPS positioning information, and can reach the abnormal power equipment point in time.

Further, the alarm device includes an indicator light and a buzzer.

Compared with the prior art, the present invention at least has the following benefits:

(1) The present invention divides 5 to 10 power equipment into one group, and each group has only one wireless transceiver module in the power equipment, that is, interrupts the wireless transceiver, communicates with the total wireless transceiver of the system, and the rest of the power The source wireless transceiver in the device can only communicate with the relay wireless transceiver in this group, which not only reduces the power consumption of the source wireless transceiver, but also strengthens the data transmission capability of the present invention, making the operation of the present invention more efficient. Stablize.

(2) When using the present invention, when the remote monitoring platform monitors that the power equipment is abnormal, the alarm device will send out an alarm, and the monitoring personnel can accurately know the location of the abnormal equipment according to the GPS positioning information of the abnormal power equipment, and send the information to To the intelligent mobile terminal of the maintenance personnel, no matter where the maintenance personnel are, they can know the location of the abnormal equipment, and can go to the maintenance personnel in time, thus saving the maintenance time of the electric equipment.

(3) In the present invention, the equipment monitoring unit of each electric equipment in the same group is set so that only one equipment monitoring unit is in the working state at the same time, thereby avoiding the mutual interference of the wireless transmitting modules in the same group, and also reducing the need for relay wireless The burden on the transmitter also prolongs the working life of the equipment monitoring unit in each power equipment.

Description of drawings

The drawings described here are used to provide a further understanding of the embodiments of the present invention, constitute a part of the application, and do not limit the embodiments of the present invention. In the attached picture:

Fig. 1 is a functional block diagram of an embodiment of the present invention;

Fig. 2 is a functional block diagram of an equipment monitoring unit in an embodiment of the present invention.

detailed description

In order to make the purpose, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the examples and accompanying drawings. As a limitation of the present invention.

Example 1:

As shown in Figures 1 and 2, a wireless network-based power equipment safety monitoring system includes an equipment monitoring unit, a wireless transceiver module, a total wireless transceiver, a remote monitoring platform, an alarm device, and an intelligent mobile terminal. The device is equipped with a device monitoring unit and a wireless transceiver module. The device monitoring unit includes a power module, a device data acquisition module and a device data processing module. The power module is used to provide work for the device data acquisition module, device data processing module and wireless transceiver module. Voltage, the equipment data acquisition module is used to collect the operation information of the power equipment, the equipment data acquisition module is electrically connected with the equipment data processing module, the output terminal of the equipment data processing module is electrically connected with the input terminal of the wireless transceiver module, and the There are two types of wireless transceiver modules, one includes source wireless transceivers, and the other includes relay wireless transceivers;

In this embodiment, 5 electric devices are divided into one group, and of course other numbers can be used as a group, such as any integer number from 5 to 10 as a group. In each group of electric devices, there is a wireless transceiver module in one electric device including the middle Following the wireless transceiver, the wireless transceiver modules in the rest of the power equipment include the source wireless transceiver. The source wireless transceiver transmits the operating information of the electric equipment to the relay wireless transceiver through the wireless network. The relay wireless transceiver is used to receive the source The power operation information transmitted by the wireless transceiver, the relay wireless transceiver is also used to receive the operation information sent by the equipment data acquisition module in the power equipment, and the wireless transceiver module sends the equipment operation information collected by the equipment acquisition module to the general through the wireless network The wireless transceiver, the output end of the total wireless transceiver is connected to the input end of the remote monitoring platform, the output end of the monitoring platform is connected to the alarm device, and the remote monitoring platform communicates with the intelligent mobile terminal wirelessly.

The present invention divides 5 to 10 electric equipments into one group, and in each group there is only one wireless transceiver module in the electric equipment, that is, the wireless transceiver is interrupted to communicate with the total wireless transceiver of the system, and the other wireless transceivers in the other electric equipment The source wireless transceiver can only communicate with the relay wireless transceiver in this group, which not only reduces the power consumption of the source wireless transceiver, but also strengthens the data transmission capability of the present invention, making the operation of the present invention more stable. In addition, when the remote monitoring platform monitors the abnormality of the power equipment, the alarm device will send out an alarm, and the monitoring personnel can accurately know the location of the abnormal equipment based on the GPS positioning information of the abnormal power equipment, and send the information to the maintenance personnel's smart mobile No matter where the maintenance personnel are at the terminal, they can know the location of the abnormal equipment and can go to it for maintenance in time, thus saving the maintenance time of power equipment.

Example 2:

This embodiment is a further improvement made on the basis of the above embodiments, as shown in Figure 1 and Figure 2, in this embodiment, the equipment data processing module includes a TM4C123G single-chip microcomputer, and the equipment data acquisition module includes a video monitoring device, a GPS positioning device , temperature sensing device, humidity sensing device, current monitoring device, voltage monitoring device and electrical fire monitoring device, a video monitoring controller is connected between the video monitoring device and the equipment data processing module, between the GPS positioning device and the equipment data processing module A GPS positioning controller is connected between the temperature sensing device and the equipment data processing module, a temperature sensing controller is connected between the humidity sensing device and the equipment data processing module, a humidity sensing controller is connected between the humidity sensing device and the equipment data processing module, and the current monitoring device and the equipment data processing module are connected. A current monitoring controller is connected between the equipment data processing modules, a voltage monitoring controller is connected between the voltage monitoring device and the equipment data processing module, and an electrical fire monitoring controller is connected between the electrical fire monitoring device and the equipment data processing module.

Each information that needs to be monitored by the power equipment is connected to the corresponding controller separately, so that even if a certain controller fails, other information of the power equipment can still be monitored, and even the faulty controller can be judged based on other information Whether the equipment information is normal, so as to avoid greater losses caused by the failure of monitoring the entire power equipment.

In addition, a clock module is set in each group of electric equipment, and the clock module is connected with the equipment data processing module. The clock module is used to wake up the equipment monitoring unit in the electric equipment. When the equipment monitoring unit of a certain electric equipment is working, other equipment The device monitoring unit is in sleep state. This not only prevents the wireless transmitting modules in the same group from interfering with each other, but also reduces the burden of the relay wireless transmitter, and also prolongs the working life of the equipment monitoring unit in each power equipment.

Example 3:

This embodiment is a further improvement on the basis of the above embodiments, as shown in Figure 1 and Figure 2, in this embodiment, the source wireless transceiver includes an AT86RF212 chip, and the relay wireless transceiver and the total wireless transceiver include Si4432 chip, the source wireless transceiver does not need strong transmission capability, can choose the chip of low power consumption, low transmission power, to reduce the cost of the present invention, and relay wireless transceiver and total wireless transceiver need very strong signal transceiving Transmission capability to ensure the stability of the present invention. In addition, the relay wireless transceiver also includes an RF front-end transmitting chip to enhance the transmission capability of the relay wireless transceiver and expand the monitoring range of the present invention.

Example 4:

This embodiment is a further improvement on the basis of the above embodiments, as shown in Figure 1 and Figure 2, in this embodiment, the power module includes a UPS power supply, a solar battery and a power converter, and the power converter is used in Switch between UPS power and solar cells. The solar battery is used as a backup power source. When the UPS fails, it will be converted to the solar battery to supply power to make the system operate normally. The remote monitoring platform communicates with the smart mobile terminal through GRPS. The intelligent mobile terminal is equipped with a positioning module and a navigation tracking module. When the remote monitoring platform finds that there is an abnormality in the power equipment, the nearest maintenance personnel can be analyzed through the positioning information of each intelligent mobile terminal, and the GPS positioning information of the abnormal power equipment will be sent To the dimensional intelligent mobile terminal, the maintenance personnel can navigate according to the GPS positioning information, and can reach the abnormal power equipment point in time. In addition, the alarm device includes an indicator light and a buzzer.

As described above, the present invention can be preferably carried out.

Claims (10)

1. A wireless network-based power equipment safety monitoring system is characterized in that: it includes an equipment monitoring unit, a wireless transceiver module, a total wireless transceiver, a remote monitoring platform, an alarm device and an intelligent mobile terminal, and each power equipment contains An equipment monitoring unit and a wireless transceiver module are provided, and the equipment monitoring unit includes a power supply module, a equipment data collection module and a equipment data processing module, and the power supply module is used to provide the equipment data collection module, the equipment data processing module and the wireless transceiver module Working voltage, the equipment data acquisition module is used to collect the operation information of the electric equipment, the equipment data acquisition module is electrically connected with the equipment data processing module, and the output end of the equipment data processing module is electrically connected with the input end of the wireless transceiver module , there are two types of wireless transceiver modules in the power equipment, one includes a source wireless transceiver, and the other includes a relay wireless transceiver; Every 5 to 10 electric devices are divided into one group, and in each group of electric devices, the wireless transceiver module in one electric device includes a relay wireless transceiver, and the wireless transceiver modules in the rest of the electric devices all include source wireless transceivers, The source wireless transceiver transmits the operation information of the power equipment to the relay wireless transceiver through the wireless network, and the relay wireless transceiver is used to receive the power operation information transmitted by the source wireless transceiver. It is used to receive the operation information sent by the equipment data acquisition module in the power equipment. The wireless transceiver module sends the equipment operation information collected by the equipment acquisition module to the main wireless transceiver through the wireless network. The output terminal of the total wireless transceiver is connected to the The input end of the remote monitoring platform is connected, the output end of the monitoring platform is connected to the alarm device, and the remote monitoring platform communicates wirelessly with the intelligent mobile terminal. 2. The wireless network-based power equipment safety monitoring system according to claim 1, wherein the equipment data acquisition module includes a video monitoring device, a GPS positioning device, a temperature sensing device, a humidity sensing device, and a current monitoring device. device, a voltage monitoring device and an electrical fire monitoring device, a video monitoring controller is connected between the video monitoring device and the equipment data processing module, a GPS positioning controller is connected between the GPS positioning device and the equipment data processing module, and the A temperature sensing controller is connected between the temperature sensing device and the equipment data processing module, a humidity sensing controller is connected between the humidity sensing device and the equipment data processing module, and the current monitoring device and the equipment data processing module A current monitoring controller is connected between the modules, a voltage monitoring controller is connected between the voltage monitoring device and the equipment data processing module, and an electrical fire monitoring controller is connected between the electrical fire monitoring device and the equipment data processing module . 3. The wireless network-based power equipment safety monitoring system according to claim 1, characterized in that: a clock module is set in each group of said power equipment, said clock module is connected with a device data processing module, and said clock module It is used to wake up the equipment monitoring unit in the electrical equipment. When the equipment monitoring unit of a certain electrical equipment is working, the equipment monitoring units of other equipment are in a dormant state. 4. The wireless network-based power equipment safety monitoring system according to claim 1, wherein the source wireless transceiver includes an AT86RF212 chip, and the relay wireless transceiver and the main wireless transceiver both include a Si4432 chip. 5. The wireless network-based power equipment safety monitoring system according to claim 4, wherein the relay wireless transceiver further includes an RF front-end transmitting chip. 6. The wireless network-based power equipment safety monitoring system according to claim 1, wherein the equipment data processing module includes a TM4C123G single-chip microcomputer. 7. The wireless network-based power equipment safety monitoring system according to claim 1, characterized in that: the power supply module includes a UPS power supply, a solar battery and a power converter, and the power converter is used for connecting the UPS power supply and the solar battery switch. 8. The wireless network-based power equipment safety monitoring system according to claim 1, characterized in that: the remote monitoring platform communicates with the smart mobile terminal through GRPS. 9. The wireless network-based power equipment safety monitoring system according to claim 8, characterized in that: said smart mobile terminal is provided with a positioning module and a navigation tracking module. 10. The wireless network-based power equipment safety monitoring system according to claim 1, wherein the alarm device includes an indicator light and a buzzer.