CN221103488U - State monitoring system for coal mine power equipment - Google Patents

Abstract

The present disclosure relates to a coal mine power equipment status monitoring system, comprising: the system comprises a plurality of data collectors, a plurality of wireless communication devices, data analysis processing equipment and a state display, wherein the plurality of data collectors are connected with the plurality of wireless communication devices in a one-to-one correspondence manner, the plurality of wireless communication devices are connected with the data analysis processing equipment, and the data analysis processing equipment is connected with the state display; the plurality of data collectors are used for collecting equipment data information of the power equipment and transmitting the equipment data information to the plurality of wireless communication devices; the plurality of wireless communication devices are used for sending the received device data information to the data analysis processing device; the data analysis processing equipment is used for determining equipment state information of the power equipment according to the equipment data information and sending the equipment state information to the state display; the status display is used for receiving the equipment status information of the power equipment and displaying the equipment status of the power equipment according to the equipment status information. The fault of the equipment can be early warned, and the operation of the fault equipment can be stopped.

Description

State monitoring system for coal mine power equipment

Technical Field

The disclosure relates to the technical field of communication, in particular to a state monitoring system for coal mine power equipment.

Background

At present, the coal mine power equipment state monitoring module transmits data through wired communication, the common bus is used for data transmission, equipment state data is sent to a monitoring center or a cloud platform to realize real-time monitoring and fault diagnosis, the data transmission is not accurate enough, the transmission speed is low, the transmission efficiency is low, the equipment state monitoring is not timely, the risk of information loss exists, meanwhile, the working environment of the coal mine power equipment is bad, dangers easily occur, an information transmission device is easy to break down, the state of the power equipment cannot be observed, in addition, an electric equipment alarm device is not perfect enough, abnormal equipment can not be timely alarmed, or a power supply can not be cut off due to the abnormal external environment, and a safe working environment can not be provided for workers.

Disclosure of utility model

In order to overcome the problems in the related art, the present disclosure provides a coal mine power equipment status monitoring system.

According to an embodiment of the present disclosure, there is provided a coal mine power equipment status monitoring system, the system including: the system comprises a plurality of data collectors, a plurality of wireless communication devices, data analysis processing equipment and a state display, wherein the plurality of data collectors are connected with the plurality of wireless communication devices in a one-to-one correspondence manner, the plurality of wireless communication devices are connected with the data analysis processing equipment, and the data analysis processing equipment is connected with the state display; the wireless communication device is a wireless communication device based on a wireless data network, the wireless data network comprising a 4G or 5G network;

The plurality of data collectors are used for collecting equipment data information of the power equipment and transmitting the equipment data information to the plurality of wireless communication devices;

The plurality of wireless communication devices are used for sending the received device data information to the data analysis processing device;

The data analysis processing equipment is used for determining equipment state information of the power equipment according to the equipment data information and sending the equipment state information to the state display;

the state display is used for receiving the equipment state information of the power equipment and displaying the equipment state of the power equipment according to the equipment state information.

Optionally, the system further comprises: the plurality of data collectors and the plurality of wireless communication devices are respectively connected with the plurality of data memories in a one-to-one correspondence manner;

The plurality of data memories are used for storing the equipment data information of the power equipment acquired by the plurality of data collectors and transmitting the equipment data information to the plurality of wireless communication devices.

Optionally, the wireless communication device includes: the wireless data receiving end is connected with the data storage in a one-to-one correspondence manner, and the wireless data receiving end is connected with the data analysis processing equipment;

The wireless data transmitting end is used for receiving the equipment data information transmitted by the data memory and transmitting the equipment data information to the wireless data receiving end;

The wireless data receiving end is used for receiving the equipment data information sent by the wireless data sending end and sending the equipment data information to the data analysis processing equipment.

Optionally, the wireless communication device is a 5G wireless communication unit, the wireless data receiving end includes a wireless client device and a wireless network bridge transmitting end, and the wireless data transmitting end includes a wireless network bridge receiving end;

The wireless client device receives a 5G signal which is sent by the data storage through the wireless data sending end and contains the device data information, and converts the 5G signal into a WiFi signal containing the device data information;

The wireless network bridge transmitting end transmits the WiFi signal to the wireless network bridge receiving end;

The wireless network bridge receiving end receives the WiFi signal to acquire the equipment data information in the WiFi signal, and sends the equipment data information to the data analysis processing equipment.

Optionally, the system further comprises: an alarm device; the alarm device comprises a fault instruction receiver and an alarm, and the alarm and the state display are respectively connected with the fault instruction receiver;

The alarm device is used for sending the fault information of the fault state to the alarm device when the fault instruction receiver receives the device state displayed by the state display and the power device is in the fault state, and sending the early warning prompt information through the alarm device;

wherein the device state comprises the power device operational state or a fault state; and the early warning prompt information is to early warn the fault condition of the power equipment through lamplight flashing and/or voice prompt when the power equipment is in a fault state.

Optionally, the alarm is provided with a voice device and an indicator light, the voice device is used for executing the early warning prompt through voice, and the indicator light is used for executing the early warning prompt through lamplight flickering.

Optionally, the data collector includes: at least one of a current sensor, a voltage sensor, a temperature sensor, and a humidity sensor, the device data information including at least one of current, voltage, temperature, and humidity information; the current sensor, the voltage sensor, the temperature sensor and the humidity sensor are respectively connected with the data memory;

The current sensor is used for collecting current signals of the power equipment;

the voltage sensor is used for collecting voltage signals of the power equipment;

The temperature sensor is used for collecting temperature information of the environment where the power equipment is located;

The humidity sensor user collects humidity information of the environment in which the power device is located.

Optionally, the data analysis processing device includes: the system comprises a network switch, an FPGA processor and a master control system, wherein the network switch is connected with wireless data receiving ends of the plurality of wireless communication devices, the FPGA processor is connected with the network switch, and the master control system is connected with the FPGA processor;

The network switch is used for receiving a plurality of pieces of equipment data information transmitted by wireless data receiving ends of the plurality of wireless communication devices and transmitting the plurality of pieces of equipment data information to the FPGA processor;

The FPGA processor is used for determining the equipment state information of the power equipment by analyzing and calculating the equipment data information;

And the main control system is used for sending out a control instruction according to the equipment state information when the FPGA processor determines the equipment state information so as to control the state display to display the equipment state of the power equipment.

Optionally, the system further comprises: the data analysis processing equipment and the power control module of the power equipment are respectively connected with the circuit breaking device;

the circuit breaking device is used for receiving a control instruction sent by a main control system of the data analysis processing equipment when the equipment state information carries the fault state of the power equipment, and executing the control instruction to cut off the power supply of the power equipment.

Optionally, the status display includes: the state instruction receiving equipment is respectively connected with the main control system of the data analysis processing equipment and the state display device, and an indicator lamp is arranged in the state display device;

The state instruction receiving equipment is used for receiving a control instruction sent by a main control system of the data analysis processing equipment and transmitting the control instruction to the state display device;

And the state display device is used for indicating the power equipment to be in an operating state or a fault state through the indicator lamp according to the control instruction.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects:

In the above technical solution, the plurality of data collectors are configured to collect device data information of the power device, and transmit the device data information to the plurality of wireless communication apparatuses; the plurality of wireless communication devices are used for sending the received device data information to the data analysis processing device; the data analysis processing equipment is used for determining equipment state information of the power equipment according to the equipment data information and sending the equipment state information to the state display; the state display is used for receiving the equipment state information of the power equipment and displaying the equipment state of the power equipment according to the equipment state information. Through the technical scheme, the equipment data information of the power equipment is acquired through the coal mine power equipment state monitoring system, the equipment data information is subjected to long-distance wireless transmission through the wireless communication device, the power equipment is subjected to state analysis through the equipment data information, the equipment state information of the power equipment is determined, the equipment state information is displayed, equipment faults can be early warned in time when the equipment breaks down, the running of the fault equipment is stopped, and the damage to workers caused by the power equipment faults is effectively avoided.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

FIG. 1 is a block diagram illustrating a coal mine power equipment status monitoring system in accordance with an exemplary embodiment.

FIG. 2 is a block diagram of another coal mine power equipment status monitoring system, according to an example embodiment.

FIG. 3 is a block diagram of another coal mine power equipment status monitoring system, according to an example embodiment.

FIG. 4 is a block diagram illustrating yet another coal mine power equipment status monitoring system in accordance with an exemplary embodiment.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

It will be appreciated that although operations are described in a particular order in the figures, this should not be construed as requiring that these operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. In certain circumstances, multitasking and parallel processing may be advantageous.

FIG. 1 is a block diagram of a coal mine power equipment status monitoring system, as shown in FIG. 1, according to an exemplary embodiment, the coal mine power equipment status monitoring system 100 includes: a plurality of data collectors 101, a plurality of wireless communication devices 102, a data analysis processing apparatus 103 and a status display 104, wherein the plurality of data collectors 101 are connected with the plurality of wireless communication devices 102 in a one-to-one correspondence manner, the plurality of wireless communication devices 102 are connected with the data analysis processing apparatus 103, and the data analysis processing apparatus 103 is connected with the status display 104; the wireless communication device 102 is a wireless communication device based on a wireless data network, including a 4G or 5G network;

The plurality of data collectors 101 are configured to collect device data information of the power device and transmit the device data information to the plurality of wireless communication apparatuses 102;

the plurality of wireless communication means 102 are for transmitting the received device data information to the data analysis processing device 103;

The data analysis processing device 103 is configured to determine device status information of the power device according to the device data information, and send the device status information to the status display 104;

The status display 104 is configured to receive device status information of the power device, and display a device status of the power device according to the device status information.

Illustratively, when constructing a coal mine site, electric energy is required to be consumed to maintain the operation and running of a coal mine site device, a plurality of electric devices are arranged at the coal mine site, a plurality of data collectors 101 are arranged for the plurality of electric devices at the coal mine site, the plurality of data collectors 101 are in one-to-one correspondence with a plurality of wireless communication devices 102, the data collectors 101 collect device data information of the electric devices, and the device data information is transmitted to the wireless communication devices 102; the wireless communication apparatus 102 transmits the received device data information to the data analysis processing device 103; the data analysis processing device 103 judges the device state information of the power device according to the device data information and sends the device state information to the state display 104; the status display 104 receives the device status information of the power device and displays the device status of the power device according to the device status information, thereby reminding a worker of the current operating status of the power device.

FIG. 2 is a block diagram of another coal mine power equipment status monitoring system, shown in FIG. 2, according to an exemplary embodiment, the coal mine power equipment status monitoring system 100 further comprising: a plurality of data memories 105, the plurality of data collectors 101 and the plurality of wireless communication devices 102 are respectively connected with the plurality of data memories 105 in a one-to-one correspondence manner;

the plurality of data memories 105 are used for storing the device data information of the power device acquired by the plurality of data collectors 101 and transmitting the device data information to the plurality of wireless communication apparatuses 102.

Illustratively, the data collector 101 collects the device data information of the electric power device, stores the device data information in the data memory 105, sends the device data information to the wireless communication device 102 through the data memory 105, and the wireless communication device 102 receives the device data information and sends the received device data information to the data analysis processing device 103, so as to realize remote transmission of the device data information in the operation state of the electric power device in the coal mine site.

Optionally, the wireless communication device 102 includes: a wireless data receiving end and a wireless data transmitting end, wherein the wireless data transmitting end is connected with the data storage 105 in a one-to-one correspondence manner, and the wireless data receiving end is connected with the data analysis processing equipment 103;

The wireless data transmitting end is configured to receive the device data information sent by the data storage 105, and send the device data information to the wireless data receiving end;

the wireless data receiving end is configured to receive the device data information sent by the wireless data sending end, and send the device data information to the data analysis processing device 103.

Illustratively, when the data memory 105 transmits the device data information to the wireless communication apparatus 102, the wireless data transmitting end of the wireless communication apparatus 102 receives the device data information transmitted by the data memory 105, the wireless communication apparatus 102 performs long-distance wireless transmission of the device data information, transmits the device data information from the wireless data transmitting end, and receives the device data information through the wireless data receiving end, which transmits the received device data information to the data analysis processing device 103, and the wireless communication apparatus 102 performs long-distance wireless transmission of the device data information.

Optionally, the wireless communication apparatus 102 is a 5G wireless communication unit, the wireless data receiving end includes a wireless client device and a wireless bridge transmitting end, and the wireless data transmitting end includes a wireless bridge receiving end;

The wireless client device receives the 5G signal containing the device data information sent by the data storage 105 through the wireless data sending end, and converts the 5G signal into a WiFi signal containing the device data information;

the wireless network bridge transmitting end transmits the WiFi signal to the wireless network bridge receiving end;

The wireless bridge receiving end receives the WiFi signal to obtain the device data information in the WiFi signal, and sends the device data information to the data analysis processing device 103.

The wireless client device is a wireless CPE (Customer Premises Equipment ), which is a communication device that is mainly used to provide wireless data communication services. Typically comprising a radio receiver and a radio transmitter, which can receive and convert radio signals from an operator to enable use in a customer home network. A user may easily connect to the internet through Wi-Fi or other wireless technology without using a traditional wired connection. The wireless CPE device is widely used in rural areas, remote areas, or areas where it is difficult to lay a wired network to provide a fast and stable internet access service.

Optionally, the data collector 101 includes: at least one of a current sensor, a voltage sensor, a temperature sensor, and a humidity sensor, the device data information including at least one of current, voltage, temperature, and humidity information; the current sensor, the voltage sensor, the temperature sensor and the humidity sensor are respectively connected with the data memory;

The current sensor is used for collecting current signals of the power equipment;

the voltage sensor is used for collecting voltage signals of the power equipment;

The temperature sensor is used for collecting temperature information of the environment where the power equipment is located;

the humidity sensor user gathers humidity information of the environment in which the power device is located.

Optionally, the data analysis processing device 103 includes: the system comprises a network switch, an FPGA processor and a master control system, wherein the network switch is connected with wireless data receiving ends of the plurality of wireless communication devices 102, the FPGA processor is connected with the network switch, and the master control system is connected with the FPGA processor;

The network switch is configured to receive a plurality of the device data information transmitted by the wireless data receiving ends of the plurality of wireless communication apparatuses 102, and transmit a plurality of the device data information to the FPGA processor;

The FPGA processor is used for determining the equipment state information of the power equipment by analyzing and calculating the equipment data information;

The main control system is configured to, when the FPGA processor determines the device status information, issue a control instruction according to the device status information to control the status display 104 to display a device status of the power device.

Wherein the FPGA processor is a programmable silicon chip that allows a user to customize the design on its hardware structure, allowing the user to reconfigure its functionality without remanufacturing the entire hardware, the FPGA processor having greater flexibility and lower power consumption. The FPGA processor may be implemented with core functional blocks (e.g., instruction sets, registers, control logic, etc.) of the processor on an FPGA chip.

Optionally, the status display 104 includes: a status instruction receiving device and a status display device, wherein the status instruction receiving device is respectively connected with the main control system of the data analysis processing device 103 and the status display device, and an indicator light is arranged in the status display device;

The status instruction receiving device is configured to receive a control instruction sent by the main control system of the data analysis processing device 103, and transmit the control instruction to the status display device;

The state display device is used for indicating the power equipment to be in an operating state or a fault state through the indicator lamp according to the control instruction.

Through the technical scheme, the coal mine power equipment state monitoring system is formed by the plurality of data collectors, the plurality of wireless communication devices, the data analysis processing equipment and the state display, equipment data information of the power equipment is collected by the coal mine power equipment state monitoring system, the equipment data information is transmitted in a long-distance wireless mode through the wireless communication devices, the equipment state information of the power equipment is determined by carrying out state analysis on the power equipment through the equipment data information, the equipment state information is displayed, the running state of the equipment can be timely displayed when the equipment fails, and workers can pay attention to the running condition of the power equipment in time.

FIG. 3 is a block diagram of another coal mine power equipment status monitoring system, shown in FIG. 3, according to an exemplary embodiment, the coal mine power equipment status monitoring system 100 further comprising: an alarm device 106; the alarm device 106 includes a fault instruction receiver and an alarm, the alarm and the status display 104 being respectively connected to the fault instruction receiver;

The alarm device 106 is configured to send, when the fault instruction receiver receives the device state displayed by the state display 104 and the power device is in a fault state, fault information of the fault state to the alarm, and send the early warning prompt information through the alarm;

Wherein the device state includes the power device operational state or a fault state; the early warning prompt information is to early warn the fault condition of the power equipment through lamplight flashing and/or voice prompt when the power equipment is in a fault state.

Illustratively, when the power equipment is in a fault state, the state display 104 displays the equipment, the fault instruction receiver receives the equipment state displayed by the state display 104 and sends the fault information of the fault state to the alarm, and the alarm sends the early warning prompt information to prompt a worker to pay attention to the fault information of the power equipment in time.

Optionally, the alarm is provided with a voice device and an indicator light, the voice device is used for executing the early warning prompt through voice, and the indicator light is used for executing the early warning prompt through lamplight flashing.

FIG. 4 is a block diagram of yet another coal mine power equipment status monitoring system, as shown in FIG. 4, according to an exemplary embodiment, the coal mine power equipment status monitoring system 100 further includes: a circuit breaking device 107, the data analysis processing apparatus 103 and the power control module 400 of the power apparatus being connected to the circuit breaking device 107, respectively;

The circuit breaking device 107 is configured to receive a control instruction sent by the main control system of the data analysis processing apparatus 103 when the apparatus status information carries a fault status of the electrical apparatus, and execute the control instruction to cut off the power supply of the electrical apparatus.

Illustratively, when the power equipment is in a fault state and the fault state sends the early warning prompt information through the alarm, the main control system of the data analysis processing equipment 103 sends a control instruction to the circuit breaking device 107, and the circuit breaking device 107 receives the control instruction sent by the main control system of the data analysis processing equipment 103 and controls the power control module 400 of the power equipment to cut off the power supply of the power equipment, so that the damage to the staff caused by the fault of the power equipment is effectively avoided.

According to the technical scheme, the equipment data information of the electric equipment is collected through the coal mine electric equipment state monitoring system, the equipment data information is transmitted in a long-distance wireless mode through the wireless communication device, the equipment data information is used for carrying out state analysis on the electric equipment, the equipment state information of the electric equipment is determined, the equipment state information is displayed, when the alarm equipment receives the equipment state displayed by the state display, the fault condition of the electric equipment is early warned through lamplight flickering and/or voice prompt, and when the fault state of the electric equipment is carried in the equipment state information, the circuit breaking device receives a control instruction sent by the main control system of the data analysis processing equipment, the control instruction is executed to cut off the power supply of the electric equipment, the equipment fault can be early warned in time when the equipment breaks down, the operation of the fault equipment is stopped, and the damage to staff is effectively avoided.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the embodiments described above, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (10)

1. A coal mine power equipment condition monitoring system, the system comprising: the system comprises a plurality of data collectors, a plurality of wireless communication devices, data analysis processing equipment and a state display, wherein the plurality of data collectors are connected with the plurality of wireless communication devices in a one-to-one correspondence manner, the plurality of wireless communication devices are connected with the data analysis processing equipment, and the data analysis processing equipment is connected with the state display; the wireless communication device is a wireless communication device based on a wireless data network, the wireless data network comprising a 4G or 5G network;

The plurality of data collectors are used for collecting equipment data information of the power equipment and transmitting the equipment data information to the plurality of wireless communication devices;

The plurality of wireless communication devices are used for sending the received device data information to the data analysis processing device;

The data analysis processing equipment is used for determining equipment state information of the power equipment according to the equipment data information and sending the equipment state information to the state display;

the state display is used for receiving the equipment state information of the power equipment and displaying the equipment state of the power equipment according to the equipment state information.

2. The system of claim 1, wherein the system further comprises: the plurality of data collectors and the plurality of wireless communication devices are respectively connected with the plurality of data memories in a one-to-one correspondence manner;

The plurality of data memories are used for storing the equipment data information of the power equipment acquired by the plurality of data collectors and transmitting the equipment data information to the plurality of wireless communication devices.

3. The system of claim 2, wherein the wireless communication device comprises: the wireless data receiving end is connected with the data storage in a one-to-one correspondence manner, and the wireless data receiving end is connected with the data analysis processing equipment;

The wireless data transmitting end is used for receiving the equipment data information transmitted by the data memory and transmitting the equipment data information to the wireless data receiving end;

The wireless data receiving end is used for receiving the equipment data information sent by the wireless data sending end and sending the equipment data information to the data analysis processing equipment.

4. The system of claim 3, wherein the wireless communication device is a 5G wireless communication unit, the wireless data receiving end comprises a wireless client device and a wireless bridge transmitting end, and the wireless data transmitting end comprises a wireless bridge receiving end;

The wireless client device receives a 5G signal which is sent by the data storage through the wireless data sending end and contains the device data information, and converts the 5G signal into a WiFi signal containing the device data information;

The wireless network bridge transmitting end transmits the WiFi signal to the wireless network bridge receiving end;

The wireless network bridge receiving end receives the WiFi signal to acquire the equipment data information in the WiFi signal, and sends the equipment data information to the data analysis processing equipment.

5. The system of claim 1, wherein the system further comprises: an alarm device; the alarm device comprises a fault instruction receiver and an alarm, and the alarm and the state display are respectively connected with the fault instruction receiver;

The alarm device is used for sending fault information of the fault state to the alarm device when the fault command receiver receives the device state displayed by the state display and the power device is in the fault state, and sending early warning prompt information through the alarm device;

wherein the device state comprises the power device operational state or a fault state; and the early warning prompt information is to early warn the fault condition of the power equipment through lamplight flashing and/or voice prompt when the power equipment is in a fault state.

6. The system of claim 5, wherein the alarm is provided with a voice device for performing the early warning prompt by voice and an indicator light for performing the early warning prompt by flashing light.

7. The system of claim 2, wherein the data collector comprises: at least one of a current sensor, a voltage sensor, a temperature sensor, and a humidity sensor, the device data information including at least one of current, voltage, temperature, and humidity information; the current sensor, the voltage sensor, the temperature sensor and the humidity sensor are respectively connected with the data memory;

The current sensor is used for collecting current signals of the power equipment;

the voltage sensor is used for collecting voltage signals of the power equipment;

The temperature sensor is used for collecting temperature information of the environment where the power equipment is located;

The humidity sensor user collects humidity information of the environment in which the power device is located.

8. The system of claim 1, wherein the data analysis processing device comprises: the system comprises a network switch, an FPGA processor and a master control system, wherein the network switch is connected with wireless data receiving ends of the plurality of wireless communication devices, the FPGA processor is connected with the network switch, and the master control system is connected with the FPGA processor;

The network switch is used for receiving a plurality of pieces of equipment data information transmitted by wireless data receiving ends of the plurality of wireless communication devices and transmitting the plurality of pieces of equipment data information to the FPGA processor;

The FPGA processor is used for determining the equipment state information of the power equipment by analyzing and calculating the equipment data information;

And the main control system is used for sending out a control instruction according to the equipment state information when the FPGA processor determines the equipment state information so as to control the state display to display the equipment state of the power equipment.

9. The system of claim 1, wherein the system further comprises: the data analysis processing equipment and the power control module of the power equipment are respectively connected with the circuit breaking device;

the circuit breaking device is used for receiving a control instruction sent by a main control system of the data analysis processing equipment when the equipment state information carries the fault state of the power equipment, and executing the control instruction to cut off the power supply of the power equipment.

10. The system of claim 1, wherein the status display comprises: the state instruction receiving equipment is respectively connected with the main control system of the data analysis processing equipment and the state display device, and an indicator lamp is arranged in the state display device;

The state instruction receiving equipment is used for receiving a control instruction sent by a main control system of the data analysis processing equipment and transmitting the control instruction to the state display device;

And the state display device is used for indicating the power equipment to be in an operating state or a fault state through the indicator lamp according to the control instruction.