CN210923853U - Power distribution control detection system - Google Patents

Abstract

The embodiment of the utility model discloses power distribution control detecting system, include: at least one power distribution unit comprising at least one power outlet; the first end of the power parameter acquisition circuit is electrically connected with the power input line, and the second end of the power parameter acquisition circuit is electrically connected with the power signal input end of the power socket and is used for acquiring power parameters of the power socket and the power distribution unit; the processor is electrically connected with the power parameter acquisition circuit and sends out a first display signal based on the power parameters of the power socket and the power distribution unit; the first input end of the controller is in communication connection with the first output end of the processor, a first power-on control signal or a first power-off control signal and a first alarm control signal are sent out based on power parameters of the power socket and the power distribution unit, and the processor sends out a first alarm processing signal based on the first alarm control signal. The technical scheme improves the intelligence degree of the power distribution unit.

Description

Power distribution control detection system

Technical Field

The embodiment of the utility model provides a relate to mains operated control technical field, especially relate to a power distribution control detecting system.

Background

A Power Distribution Unit (PDU) is a cabinet Power Distribution socket that we often say. The application of the power distribution unit can lead the power distribution in the cabinet to be more orderly, reliable, safe, professional and beautiful, and lead the maintenance of the power in the cabinet to be more convenient and reliable.

The intelligent degree of the current power distribution unit is not high, and the requirements of people cannot be met.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a power distribution control detecting system to solve present power distribution unit's intelligent degree and not high, can not satisfy the technical problem of people's demand.

The embodiment of the utility model provides a power distribution control detecting system, include:

the power distribution unit comprises at least one power socket, and the power socket is used for providing a power interface for external electric equipment;

the power supply parameter acquisition circuit is electrically connected with a power supply input line at a first end, is electrically connected with a power supply signal input end of the power supply socket at a second end, and is used for acquiring power supply parameters of the power supply socket and the power supply distribution unit, wherein the power supply parameters of the power supply socket and the power supply distribution unit comprise the current, the voltage and the power of the power supply socket and the current, the voltage and the power of the power supply distribution unit;

the first input end of the processor is electrically connected with the third end of the power parameter acquisition circuit, and a first display signal is sent out based on the power parameters of the power socket and the power distribution unit;

the power distribution unit is characterized by further comprising a controller, a first input end of the controller is in communication connection with a first output end of the processor, a first power-on control signal or a first power-off control signal and a first alarm control signal are sent out based on the power socket and the power parameters of the power distribution unit, and the processor sends out a first alarm processing signal based on the first alarm control signal.

Optionally, the system further comprises an ethernet interface, and the first output end of the processor and the first input end of the controller are electrically connected to the ethernet interface, respectively.

Optionally, the system further comprises a server, and the controller is integrated on the server.

Optionally, the system further comprises an environment detection unit, configured to obtain environment information where the power distribution management unit is located, where the environment information includes at least one of temperature, humidity, water immersion condition, and smoke concentration;

the environment detection unit comprises at least one of a temperature sensor, a humidity sensor, a water immersion sensor and a smoke sensor, and the output end of the temperature sensor is electrically connected with the second input end of the processor and used for acquiring a temperature signal; the output end of the humidity sensor is electrically connected with the third input end of the processor and used for acquiring a humidity signal; the output end of the water immersion sensor is electrically connected with the fourth input end of the processor and is used for acquiring a water immersion condition signal; the output end of the smoke sensor is electrically connected with the fifth input end of the processor and used for acquiring a smoke concentration signal;

the processor sends a second display signal based on at least one of the temperature signal, the humidity signal, the water flooding condition signal, and the smoke concentration signal;

the controller sends out a second alarm control signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal and the smoke concentration signal, and the processor sends out a second alarm processing signal based on the second alarm control signal.

Optionally, the power supply further comprises a switch unit, a control end of the switch unit is electrically connected with a second output end of the processor, a first end of the switch unit is electrically connected with a second end of the power supply parameter acquisition circuit, and a second end of the switch unit is electrically connected with a power supply signal input end of the power supply socket;

the processor is further configured to send a switch on signal based on the first power-on control signal; or, based on the first cut-off power supply control signal, sending a switch cut-off signal;

the switch unit switches on a first end and a second end of the switch unit based on the switch conducting signal; turning off the first and second terminals of the switching unit based on the switch-off signal.

Optionally, the power distribution system further comprises a display device, an input end of the display device is electrically connected to a third output end of the processor, and the display device displays power supply parameters of the power socket and the power distribution unit based on the first display signal; and/or the display device displays the environmental information based on the second display signal.

Optionally, the system further comprises an alarm device, wherein an input end of the alarm device is electrically connected with a fourth output end of the processor;

the alarm device sends out a first alarm signal based on the first alarm processing signal; and/or the alarm device sends out a second alarm signal based on the second alarm processing signal.

Optionally, the power distribution unit includes a first communication end, and the first communication ends of the plurality of power distribution units are connected in communication.

Optionally, the power distribution unit further comprises a horizontal display button for acquiring a horizontal display mode signal, an output end of the horizontal display button is electrically connected to a sixth input end of the processor, and the processor horizontally displays power parameters and/or the environmental information of the power socket and the power distribution unit based on the horizontal display mode signal;

and the vertical display button is used for acquiring a vertical display mode signal, the output end of the vertical display button is electrically connected with the seventh input end of the processor, and the processor vertically displays the power supply parameters and/or the environmental information of the power supply socket and the power supply distribution unit based on the vertical display mode signal.

Optionally, the power distribution unit further comprises an input device for inputting preset power parameters, the input device comprises a keyboard and/or a mouse, the output end of the keyboard is electrically connected with the second input end of the controller, the output end of the mouse is electrically connected with the third input end of the controller, the preset power parameters comprise preset current, preset voltage and preset power of the power socket and preset current, preset voltage and preset power of the power distribution unit.

In the technical scheme of the embodiment, the current, the voltage and the power of each power socket of each power distribution unit and the current, the voltage and the power of each power distribution unit are acquired by the power parameter acquisition circuit and are sent to the processor, the processor sends out a first display signal based on the power parameters of the power sockets and the power distribution units, the controller sends out a first power-on control signal or a first power-off control signal and a first alarm control signal based on the power parameters of the power sockets and the power distribution units, the processor sends out a first alarm processing signal based on the first alarm control signal, the process of automatically monitoring the power parameters of the power sockets and the power distribution units and automatically controlling whether the power sockets can provide power signals for external power equipment according to the monitoring result is realized, and the problem that the intelligent degree of the current power distribution unit is not high is solved, can not meet the technical problem of people's demand.

Drawings

Fig. 1 is a schematic structural diagram of a power distribution control detection system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a power distribution unit according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another power distribution control detection system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

The embodiment of the utility model provides a power distribution control detecting system, figure 1 is the utility model provides a power distribution control detecting system's that provides structural schematic diagram, see figure 1 and figure 2, this power distribution control detecting system includes: at least one power distribution unit 1; the power distribution unit 1 comprises at least one power socket 11, and the power socket 11 is used for providing a power interface for external electric equipment; the power supply parameter acquisition circuit 12 is characterized in that a first end A1 of the power supply parameter acquisition circuit 12 is electrically connected with a power supply input line 13, a second end A2 of the power supply parameter acquisition circuit 12 is electrically connected with a power supply signal input end B1 of the power socket 11 and is used for acquiring power supply parameters of the power socket 11 and the power distribution unit 1, and the power supply parameters of the power socket 11 and the power distribution unit 1 comprise current, voltage and power of the power socket 11 and current, voltage and power of the power distribution unit 1; a first input end C1 of the processor 14 is electrically connected with a third end A3 of the power parameter acquisition circuit 12, and sends out a first display signal based on the power parameters of the power socket 11 and the power distribution unit 1; the power distribution unit further comprises a controller 20, wherein a first input end D1 of the controller 20 is in communication connection with a first output end C2 of the processor 14, and based on power parameters of the power socket 11 and the power distribution unit 1, a first power-on control signal or a first power-off control signal and a first alarm control signal are sent out, and the processor 14 sends out a first alarm processing signal based on the first alarm control signal.

In this embodiment, the power parameter collecting circuit may be exemplarily a power metering board, and the power metering board may include a metering chip, a peripheral current sampling circuit, a voltage sampling circuit, and a power utilization circuit, so as to collect current, voltage, and power of the power outlet and current, voltage, and power of the power distribution unit.

In this embodiment, the processor may be a Microcontroller Unit (MCU).

The controller may be a Microcontroller Unit (MCU).

In the present embodiment, the power distribution control detection system includes at least one power distribution unit 1; each power distribution unit 1 comprises at least one power socket 11, the power sockets 11 are used for providing power interfaces for external electric equipment, the power parameter acquisition circuit 12 can acquire the current, the voltage and the power of each power socket 11 of each power distribution unit 1 and the current, the voltage and the power of the power distribution unit 1 and send the current, the voltage and the power to the processor 14, the processor 14 sends a first display signal based on the power parameters of the power sockets 11 and the power distribution unit 1, and a subsequent display device can display the power parameters of the power sockets 11 and the power parameters of the power distribution unit 1 based on the first display signal. The controller 20 sends out a first power-on control signal or a first power-off control signal and a first alarm control signal based on the power parameters of the power socket 11 and the power distribution unit 1, and the processor 14 sends out a first alarm processing signal based on the first alarm control signal, for example, when the current of the power socket 11 is smaller than the preset current of the power socket 11, the controller 20 sends out the first power-on control signal, and the power socket 11 can provide a power signal for the external electric equipment; when the current of the power socket 11 is greater than or equal to the preset current of the power socket 11, the controller 20 sends a first cut-off power control signal and a first alarm control signal, the processor 14 sends a first alarm processing signal based on the first alarm control signal, and the power socket 11 suspends to provide a power signal for the external electric equipment. The technical scheme realizes the automatic monitoring of the power parameters of the power socket 11 and the power distribution unit 1 and the process of automatically controlling whether the power socket can provide power signals for external electric equipment or not according to the monitoring result.

In the technical scheme of the embodiment, the current, the voltage and the power of each power socket of each power distribution unit and the current, the voltage and the power of each power distribution unit are acquired by the power parameter acquisition circuit and are sent to the processor, the processor sends out a first display signal based on the power parameters of the power sockets and the power distribution units, the controller sends out a first power-on control signal or a first power-off control signal and a first alarm control signal based on the power parameters of the power sockets and the power distribution units, the processor sends out a first alarm processing signal based on the first alarm control signal, the process of automatically monitoring the power parameters of the power sockets and the power distribution units and automatically controlling whether the power sockets can provide power signals for external power equipment according to the monitoring result is realized, and the problem that the intelligent degree of the current power distribution unit is not high is solved, can not meet the technical problem of people's demand.

Optionally, on the basis of the above embodiment, fig. 3 exemplarily shows a case of one power distribution unit, the embodiment of the present invention does not limit the number of the power distribution units, referring to fig. 3, the power distribution control detection system further includes an ethernet interface 141, the first output C2 of the processor 14 and the first input D1 of the controller 20 are electrically connected to the ethernet interface 141 respectively, and the first input D1 of the controller 20 is communicatively connected to the first output C2 of the processor 14. Illustratively, the controller 20 and the processor 14 may be communicatively coupled via a Simple Network Management Protocol (SNMP).

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes a server, and the controller 20 is integrated on the server, and can implement automatic monitoring of power parameters of the power socket and the power distribution unit and a process of remotely controlling whether the power socket can provide a power signal for the external electrical device according to a monitoring result.

Optionally, on the basis of the above technical solution, referring to fig. 3, the power distribution control detection system further includes an environment detection unit 15, configured to obtain environment information where the power distribution management unit 1 is located, where the environment information includes at least one of temperature, humidity, water immersion condition, and smoke concentration; the environment detection unit 15 comprises at least one of a temperature sensor 150, a humidity sensor 151, a water immersion sensor 152 and a smoke sensor 153, wherein an output end E1 of the temperature sensor 150 is electrically connected with a second input end C3 of the processor 14 and is used for acquiring a temperature signal; the output end E2 of the humidity sensor 151 is electrically connected with the third input end C4 of the processor 14 and is used for acquiring a humidity signal; the output E3 of the water sensor 152 is electrically connected to the fourth input C5 of the processor 14 for obtaining a water immersion signal; the output E4 of the smoke sensor 153 is electrically connected to the fifth input C6 of the processor 14 for obtaining a smoke concentration signal; the processor 14 sends a second display signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal, and the smoke concentration signal; the controller 20 sends out a second alarm control signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal and the smoke concentration signal, and the processor sends out a second alarm processing signal based on the second alarm control signal.

In the present embodiment, the environment detection unit 15 includes at least one of a temperature sensor 150, a humidity sensor 151, a water sensor 152, and a smoke sensor 153, the temperature sensor 150 for acquiring a temperature signal; a humidity sensor 151 for acquiring a humidity signal; a water immersion sensor 152 for acquiring a water immersion condition signal; a smoke sensor 153 for acquiring a smoke concentration signal; the processor 14 sends a second display signal based on at least one of the temperature signal, the humidity signal, the water immersion signal and the smoke concentration signal, and the display device can display at least one of the temperature signal, the humidity signal, the water immersion signal and the smoke concentration signal. The controller 20 issues a second alarm control signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal, and the smoke concentration signal, and the processor 14 issues a second alarm processing signal based on the second alarm control signal. Specifically, the controller 20 sends a second alarm control signal when the temperature is higher than a preset temperature, the humidity is higher than a preset humidity, at least one of water immersion condition and smog dense fog is higher than a preset smog concentration exists. At least one of the temperature sensor 150, the humidity sensor 151, the water immersion sensor 152, and the smoke sensor 153 may be electrically connected to the processor 14 through a sensor interface. The sensor interface may be an RS485 interface or an RS232 interface.

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes a switch unit 16, a control terminal F1 of the switch unit 16 is electrically connected to a second output terminal C7 of the processor 14, a first terminal F2 of the switch unit 16 is electrically connected to a second terminal a2 of the power parameter acquisition circuit 12, and a second terminal F3 of the switch unit 16 is electrically connected to a power signal input terminal B1 of the power socket 11; the processor 14 is further configured to issue a switch-on signal based on the first power-on control signal; alternatively, the processor 14 issues a switch off signal based on the first off power control signal; the switching unit 16 turns on the first terminal and the second terminal of the switching unit 16 based on the switch-on signal; the first terminal and the second terminal of the switching unit 16 are turned off based on the switch-off signal. The switch unit 16 switches on the first end and the second end of the switch unit 16 based on the switch on signal, the power socket 11 can provide a power signal for the external electric device, the switch unit 16 switches off the first end and the second end of the switch unit 16 based on the switch off signal, and the power socket 11 suspends to provide the power signal for the external electric device.

Alternatively, on the basis of the above technical solution, the switch unit 16 may be a relay or a transistor.

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes a display device 17, an input terminal G1 of the display device 17 is electrically connected to a third output terminal C8 of the processor 14, and based on a first display signal, power parameters of the power socket and the power distribution unit are displayed; and/or the display means 17 displays the environment information based on the second display signal. The display device 17 may be exemplified by a liquid crystal display device, a light emitting diode display device, or an organic light emitting diode display device. The display device 17 may display power supply parameters of the power supply socket and the power supply distribution unit based on the first display signal; and/or the display device 17 displays the environmental information based on the second display signal, so that operation and maintenance personnel can conveniently check the operation condition of the equipment on site.

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes an alarm device 18, an input terminal H1 of the alarm device 18 is electrically connected with a fourth output terminal C9 of the processor 14; the alarm device 18 sends out a first alarm signal based on the first alarm processing signal; and/or the alarm device 18 issues a second alarm signal based on the second alarm processing signal. The alarm device 18 may illustratively be a buzzer. Optionally, on the basis of the above technical solution, a status indicator lamp may be further included, and the status indicator lamp is electrically connected to the processor 14, and is turned on when the processor 14 sends out the first alarm processing signal and/or the second alarm processing signal.

Optionally, on the basis of the above technical solution, the power distribution control detection system power distribution unit 1 includes a first communication end, and the first communication ends of the multiple power distribution units are in communication connection to implement a cascade networking of the multiple power distribution units. Illustratively, the first communication terminal of the plurality of power distribution units includes a first communication input terminal and a first communication output terminal, the first communication output terminal of the previous power distribution unit is communicatively connected with the first communication input terminal of the next power distribution unit, the power distribution unit communicatively connected with the server serves as a master, and the rest of the power distribution units serve as slaves.

The processor of each power distribution unit is in communication connection with the controller of the server, so that the centralized management and control of the server on the plurality of power distribution management units can be realized. The real-time power utilization condition of the power distribution unit can be directly inspected and controlled through a browser at the server side, the power parameters and the environmental information of the equipment are transmitted to the controller, and the centralized recording and analysis are carried out. Specifically, the power parameter collecting circuit 12 may obtain the current, the voltage, and the power of each power socket 11 of each power distribution unit 1 and the current, the voltage, and the power of the power distribution unit 1, and send the current, the voltage, and the power to the processor 14, the processor 14 sends a first display signal based on the power parameters of the power sockets 11 and the power distribution unit 1, and the display device may display the power parameters of the power sockets 11 and the power parameters of the power distribution unit 1 based on the first display signal. The controller 20 sends out a first power-on control signal or a first power-off control signal and a first alarm control signal based on the power parameters of the power socket 11 and the power distribution unit 1, and the processor 14 sends out a first alarm processing signal based on the first alarm control signal, for example, when the current of the power socket 11 is smaller than the preset current of the power socket 11, the controller 20 sends out the first power-on control signal, and the power socket 11 can provide a power signal for the external electric equipment; when the current of the power socket 11 is greater than or equal to the preset current of the power socket 11, the controller 20 sends a first cut-off power control signal and a first alarm control signal, the processor 14 sends a first alarm processing signal based on the first alarm control signal, the alarm device 18 sends a first alarm signal, the power socket 11 suspends to provide a power signal for the external electric equipment so as to realize automatic monitoring of the power parameters of the power socket 11 and the power distribution unit 1 and automatically control whether the power socket can provide the power signal for the external electric equipment according to the monitoring result. The environment detection unit 15 includes at least one of a temperature sensor 150, a humidity sensor 151, a water immersion sensor 152, and a smoke sensor 153, the temperature sensor 150 for acquiring a temperature signal; a humidity sensor 151 for acquiring a humidity signal; a water immersion sensor 152 for acquiring a water immersion condition signal; a smoke sensor 153 for acquiring a smoke concentration signal; the processor 14 sends a second display signal based on at least one of the temperature signal, the humidity signal, the water immersion signal and the smoke concentration signal, and the display device can display at least one of the temperature signal, the humidity signal, the water immersion signal and the smoke concentration signal. The controller 20 sends out a second alarm control signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal and the smoke concentration signal, the processor 14 sends out a second alarm processing signal based on the second alarm control signal, and the alarm device 18 sends out a second alarm signal. Specifically, the controller 20 sends a second alarm control signal when the temperature is higher than a preset temperature, the humidity is higher than a preset humidity, at least one of water immersion condition and smog dense fog is higher than a preset smog concentration exists.

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes a transverse display button 191 for acquiring a transverse display mode signal, an output terminal I1 of the transverse display button 191 is electrically connected to a sixth input terminal C10 of the processor 14, and the processor 14 is configured to obtain power parameters and/or environmental information of the transverse display power socket and the power distribution unit based on the transverse display mode signal; the vertical display button 192 is used for acquiring a vertical display mode signal, an output end I2 of the vertical display button 192 is electrically connected with a seventh input end C11 of the processor 14, and the processor 14 realizes the form diversity of information displayed by the display device based on the vertical display mode signal, the vertical display power socket and the power supply parameter and/or the environmental information of the power supply distribution unit.

Optionally, on the basis of the above technical solution, the power distribution control detection system further includes an input device 30, configured to input preset power parameters, where the input device 30 includes a keyboard 31 and/or a mouse 32, an output end of the keyboard 31 is electrically connected to the second input end D2 of the controller 20, an output end of the mouse 32 is electrically connected to the third input end D3 of the controller 20, and the preset power parameters include a preset current, a preset voltage, and a preset power of a power socket and a preset current, a preset voltage, and a preset power of a power distribution unit.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious modifications, rearrangements, combinations and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. A power distribution control detection system, comprising:

the power distribution unit comprises at least one power socket, and the power socket is used for providing a power interface for external electric equipment;

the power supply parameter acquisition circuit is electrically connected with a power supply input line at a first end, is electrically connected with a power supply signal input end of the power supply socket at a second end, and is used for acquiring power supply parameters of the power supply socket and the power supply distribution unit, wherein the power supply parameters of the power supply socket and the power supply distribution unit comprise the current, the voltage and the power of the power supply socket and the current, the voltage and the power of the power supply distribution unit;

the first input end of the processor is electrically connected with the third end of the power parameter acquisition circuit, and a first display signal is sent out based on the power parameters of the power socket and the power distribution unit;

the power distribution unit is characterized by further comprising a controller, a first input end of the controller is in communication connection with a first output end of the processor, a first power-on control signal or a first power-off control signal and a first alarm control signal are sent out based on the power socket and the power parameters of the power distribution unit, and the processor sends out a first alarm processing signal based on the first alarm control signal.

2. The power distribution control detection system of claim 1, further comprising an ethernet interface, wherein the first output of the processor and the first input of the controller are electrically connected to the ethernet interface, respectively.

3. The power distribution control detection system of claim 1, further comprising a server, wherein the controller is integrated on the server.

4. The power distribution control detection system according to claim 1, further comprising an environment detection unit configured to obtain environment information where the power distribution management unit is located, where the environment information includes at least one of temperature, humidity, water immersion condition, and smoke concentration;

the environment detection unit comprises at least one of a temperature sensor, a humidity sensor, a water immersion sensor and a smoke sensor, and the output end of the temperature sensor is electrically connected with the second input end of the processor and used for acquiring a temperature signal; the output end of the humidity sensor is electrically connected with the third input end of the processor and used for acquiring a humidity signal; the output end of the water immersion sensor is electrically connected with the fourth input end of the processor and is used for acquiring a water immersion condition signal; the output end of the smoke sensor is electrically connected with the fifth input end of the processor and used for acquiring a smoke concentration signal;

the processor sends a second display signal based on at least one of the temperature signal, the humidity signal, the water flooding condition signal, and the smoke concentration signal;

the controller sends out a second alarm control signal based on at least one of the temperature signal, the humidity signal, the water immersion condition signal and the smoke concentration signal, and the processor sends out a second alarm processing signal based on the second alarm control signal.

5. The power distribution control detection system of claim 4, further comprising a switch unit, wherein a control terminal of the switch unit is electrically connected to the second output terminal of the processor, a first terminal of the switch unit is electrically connected to the second terminal of the power parameter acquisition circuit, and a second terminal of the switch unit is electrically connected to the power signal input terminal of the power socket;

the processor is further configured to send a switch on signal based on the first power-on control signal; or, based on the first cut-off power supply control signal, sending a switch cut-off signal;

the switch unit switches on a first end and a second end of the switch unit based on the switch conducting signal; turning off the first and second terminals of the switching unit based on the switch-off signal.

6. The power distribution control detection system of claim 4,

the input end of the display device is electrically connected with the third output end of the processor, and the power parameters of the power socket and the power distribution unit are displayed based on the first display signal; and/or the display device displays the environmental information based on the second display signal.

7. The power distribution control detection system of claim 4, further comprising an alarm device, an input of the alarm device being electrically connected to the fourth output of the processor;

the alarm device sends out a first alarm signal based on the first alarm processing signal; and/or the alarm device sends out a second alarm signal based on the second alarm processing signal.

8. The power distribution control detection system of claim 1, wherein the power distribution unit includes a first communication port, the first communication ports of the plurality of power distribution units being communicatively coupled.

9. The power distribution control detection system of claim 6, further comprising a landscape button for acquiring a landscape mode signal, wherein an output terminal of the landscape button is electrically connected to a sixth input terminal of the processor, and the processor is configured to landscape power parameters and/or the environmental information of the power socket and the power distribution unit based on the landscape mode signal;

and the vertical display button is used for acquiring a vertical display mode signal, the output end of the vertical display button is electrically connected with the seventh input end of the processor, and the processor vertically displays the power supply parameters and/or the environmental information of the power supply socket and the power supply distribution unit based on the vertical display mode signal.

10. The power distribution control detection system of claim 1, further comprising an input device for inputting preset power parameters, wherein the input device comprises a keyboard and/or a mouse, an output terminal of the keyboard is electrically connected to the second input terminal of the controller, and an output terminal of the mouse is electrically connected to the third input terminal of the controller, and the preset power parameters comprise preset current, preset voltage and preset power of the power socket and preset current, preset voltage and preset power of the power distribution unit.

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