CN116317165A - Intelligent remote power management system - Google Patents

Abstract

The invention discloses an intelligent remote power management system which comprises a control end, a monitoring end and a mobile end, wherein the control end is used for remotely receiving power running parameters and sending control instructions, the monitoring end is used for monitoring all parameters of a circuit where a power supply is located in real time, the mobile end is used for receiving alarm information, the monitoring end comprises a monitoring module, an alarm module, a control module, a wireless communication module and a singlechip, the monitoring module is used for monitoring the real-time parameters of the power supply circuit and sending the real-time parameters to the control end through an Ethernet module, and the alarm module is used for alarming information exceeding a threshold value. When the method is implemented, remote control can be realized on the power supply of the machine room, and various parameters of the power supply can be monitored, so that a user can remotely control, and the long-term stable operation of the power supply is ensured.

Description

Intelligent remote power management system

Technical Field

The invention belongs to the technical field of control systems, and particularly relates to an intelligent remote power management system.

Background

In the computer lab, in order to carry out the power supply to each electrical apparatus, can be equipped with the power in it, and because equipment is more in the computer lab, the circuit is responsible for, frequent personnel business turn over, and unsafe factor that exists is more (e.g. the mistake hits circuit, equipment etc.), for this application provides an intelligent remote power management system.

Disclosure of Invention

Therefore, the invention provides an intelligent remote power management system, which effectively solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent remote power management system comprises a control end, a monitoring end and a mobile end,

the control end is used for remotely receiving the power supply operation parameters and sending out control instructions,

the monitoring end is used for monitoring various parameters of the circuit where the power supply is positioned in real time,

the mobile terminal is used for receiving alarm information,

the monitoring end comprises a monitoring module, an alarm module, a control module, a wireless communication module and a singlechip,

the monitoring module is used for monitoring the real-time parameters of the power supply circuit and transmitting the real-time parameters to the control end through the Ethernet module,

the alarm module is used for alarming the information exceeding the threshold value,

the control module is used for controlling the circuit where the power supply is positioned so as to ensure that the power supply can stably operate,

the Ethernet module is used for obtaining the data of the environment detection module and the circuit monitoring module and realizing the remote control of the control module,

the monitoring module, the alarm module, the control module and the wireless communication module are all connected with the singlechip.

Preferably, the monitoring module comprises an environment monitoring module and a circuit monitoring module,

the environment monitoring module is used for monitoring the state of the environment where the power supply is positioned so as to detect the running state of the power supply,

the circuit monitoring module is used for detecting the running state of the circuit where the power supply is located so as to judge whether the circuit is in a normal state or not.

The environment monitoring module comprises a temperature monitoring subunit and a humidity monitoring subunit, wherein the temperature monitoring subunit is used for monitoring temperature information, the humidity monitoring subunit is used for monitoring humidity information, and the information can be transmitted through the Ethernet module.

Preferably, the circuit monitoring module comprises a current monitoring subunit and a voltage monitoring subunit, wherein the current monitoring subunit is used for monitoring current information, the voltage monitoring subunit is used for monitoring voltage information, and the information can be transmitted through the Ethernet module.

Preferably, the alarm module comprises a local alarm subunit and a remote alarm subunit, wherein the local alarm subunit is a display screen and/or audible and visual alarm, and the remote alarm subunit comprises a telephone and short message mode.

Preferably, the power supply control module comprises a single-way switch subunit, a timing switch subunit and a sequential delay restarting subunit.

Preferably, the system further comprises a self-defining module, wherein the self-defining module is used for defining threshold information of the environment monitoring module and the circuit monitoring module so that the alarm module can alarm after the data passes through the threshold.

Preferably, the system also comprises a recording module, an overcurrent protection module, a grounding module, an emergency braking module and a system resetting module,

the recording module is used for recording, exporting and inquiring the operation log and the alarm log,

the overcurrent protection module is used for carrying out load protection on the power supply circuit,

the grounding module is used for setting a safe grounding hole to protect a circuit,

the emergency braking module is used for switching to a one-way all-pass state when an emergency state or local fault occurs in equipment,

the system reset module is used for resetting the network equipment of the equipment to an initial value when the network setting is problematic.

The invention has the following advantages:

when the method is implemented, remote control can be realized on the power supply of the machine room, and various parameters of the power supply can be monitored, so that a user can remotely control, and the long-term stable operation of the power supply is ensured.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a circuit diagram of a circuit board multi-CPU system of the present invention;

FIG. 3 is a RESET circuit diagram of FIG. 2 according to the present invention;

FIG. 4 is a circuit diagram of the ICSP of FIG. 2 in accordance with the present invention;

FIG. 5 is a circuit diagram of the EEPROM of FIG. 2 in accordance with the present invention;

FIG. 6 is a circuit diagram of the RTC of FIG. 2 of the present invention;

fig. 7 is a circuit diagram of the temp. circuit of fig. 2 in accordance with the present invention;

FIG. 8 is a circuit diagram of the LCD of FIG. 2 according to the present invention;

FIG. 9 is a J7 circuit diagram of FIG. 2 in accordance with the present invention;

fig. 10 is a J8 circuit diagram of fig. 2 in accordance with the present invention.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention discloses an intelligent remote power management system, which comprises a control end, a monitoring end and a mobile end,

the control end is used for remotely receiving the power supply operation parameters and sending out control instructions, the control end is used for remotely controlling so as to realize the on-site monitoring,

the monitoring end is used for monitoring various parameters of a circuit where the power supply is positioned in real time so as to observe the power supply at multiple angles,

the mobile terminal is used for receiving alarm information, and when the power supply data is abnormal, the alarm module can alarm so as to process the abnormal data in time.

The monitoring end comprises a monitoring module, an alarm module, a control module, a wireless communication module and a singlechip,

the monitoring module is used for monitoring the real-time parameters of the power supply circuit, thereby more comprehensively and completely monitoring the power supply, realizing the protection of the power supply, sending the power supply to the control end through the Ethernet module, the monitoring module can be a universal meter and is connected with the monitoring power supply circuit, thereby acquiring the parameters of the power supply circuit,

the alarm module is used for alarming information exceeding a threshold value, various alarm forms can be adopted, so that a user is timely reminded, the alarm module can be an audible and visual alarm module, namely, after monitoring data exceeds the threshold value information, the audible and visual alarm module can send out audible and visual alarm,

the control module is used for controlling the circuit where the power supply is located so as to ensure that the power supply can stably operate, and the control module can remotely control, which can be an electromagnetic valve, so as to control the circuit,

the Ethernet module is used for obtaining the data of the environment detection module and the circuit monitoring module and realizing the remote control of the control module,

the monitoring module, the alarm module, the control module and the wireless communication module are all connected with the singlechip,

the singlechip can be a singlechip pic18f97j60 of a U.S. micro-core, and mainly is used for collecting temperature and humidity, data, storing web pages, an Ethernet interface, RS485 communication and an interface for collecting current and voltage of a module and a display screen.

The monitoring module comprises an environment monitoring module and a circuit monitoring module,

the environment monitoring module is used for monitoring the state of the environment where the power supply is positioned so as to detect the running state of the power supply,

the circuit monitoring module is used for detecting the running state of the circuit where the power supply is located so as to judge whether the circuit is in a normal state or not.

The environment monitoring module comprises a temperature monitoring subunit and a humidity monitoring subunit, wherein the temperature monitoring subunit is used for monitoring temperature information, the humidity monitoring subunit is used for monitoring humidity information, and the information can be transmitted through the Ethernet module.

The circuit monitoring module comprises a current monitoring subunit and a voltage monitoring subunit, wherein the current monitoring subunit is used for monitoring current information, the voltage monitoring subunit is used for monitoring voltage information, and the information can be transmitted through the Ethernet module.

The alarm module comprises a local alarm subunit and a remote alarm subunit, wherein the local alarm subunit is a display screen and/or audible and visual alarm, and the remote alarm subunit comprises a telephone and short message mode.

The power supply control module comprises a single-way switch subunit, a timing switch subunit and a sequential delay restarting subunit,

the sequential delay starting is provided, and equipment damage caused by excessive instantaneous peak current is prevented.

The system also comprises a self-defining module, wherein the self-defining module is used for defining the threshold information of the environment monitoring module and the circuit monitoring module so that the alarm module can alarm after the data passes over the threshold.

The system also comprises a recording module, an overcurrent protection module, a grounding module, an emergency braking module and a system resetting module,

the recording module is used for recording, exporting and inquiring the operation log and the alarm log,

the overcurrent protection module is used for carrying out load protection on the power supply circuit,

the grounding module is used for setting a safe grounding hole to protect a circuit,

the emergency braking module is used for switching to a single-way all-pass state when an emergency state or a local fault occurs in the equipment, providing an emergency switch function, switching all output passages to a straight-through state when the emergency state or the local fault occurs in the equipment, recovering to a previous control state after the fault is removed,

the system reset module is used for resetting the network equipment of the equipment to an initial value when the network setting is problematic.

As shown in FIG. 2, the circuit board adopts a multi-CPU system, a modularized design, a singlechip pic18f97j60 with a U.S. micro-core is used as a main board, a domestic stc singlechip is used as a module, a host computer is communicated with the module through 485 to collect voltage and current and send a control instruction, the host CPU collects temperature and humidity, a webpage is embedded inside, when the ip address of the host computer is accessed remotely, the webpage can be uploaded, the conditions of temperature, humidity, voltage and current are browsed, and a system administrator can remotely control the system administrator.

Claims (8)

1. Intelligent remote power management system, its characterized in that: comprises a control end, a monitoring end and a mobile end,

the control end is used for remotely receiving the power supply operation parameters and sending out control instructions,

the monitoring end is used for monitoring various parameters of the circuit where the power supply is positioned in real time,

the mobile terminal is used for receiving alarm information,

the monitoring end comprises a monitoring module, an alarm module, a control module, a wireless communication module and a singlechip,

the monitoring module is used for monitoring the real-time parameters of the power supply circuit and transmitting the real-time parameters to the control end through the Ethernet module,

the alarm module is used for alarming the information exceeding the threshold value,

the control module is used for controlling the circuit where the power supply is positioned so as to ensure that the power supply can stably operate,

the Ethernet module is used for obtaining the data of the environment detection module and the circuit monitoring module and realizing the remote control of the control module,

the monitoring module, the alarm module, the control module and the wireless communication module are all connected with the singlechip.

2. The intelligent remote power management system of claim 1, wherein: the monitoring module comprises an environment monitoring module and a circuit monitoring module,

the environment monitoring module is used for monitoring the state of the environment where the power supply is positioned so as to detect the running state of the power supply,

the circuit monitoring module is used for detecting the running state of the circuit where the power supply is located so as to judge whether the circuit is in a normal state or not.

3. The intelligent remote power management system of claim 1, wherein: the environment monitoring module comprises a temperature monitoring subunit and a humidity monitoring subunit, wherein the temperature monitoring subunit is used for monitoring temperature information, the humidity monitoring subunit is used for monitoring humidity information, and the information can be transmitted through the Ethernet module.

4. The intelligent remote power management system of claim 2, wherein: the circuit monitoring module comprises a current monitoring subunit and a voltage monitoring subunit, wherein the current monitoring subunit is used for monitoring current information, the voltage monitoring subunit is used for monitoring voltage information, and the information can be transmitted through the Ethernet module.

5. The intelligent remote power management system of claim 1, wherein: the alarm module comprises a local alarm subunit and a remote alarm subunit, wherein the local alarm subunit is a display screen and/or audible and visual alarm, and the remote alarm subunit comprises a telephone and short message mode.

6. The intelligent remote power management system of claim 1, wherein: the power supply control module comprises a one-way switch subunit, a timing switch subunit and a sequential delay restarting subunit.

7. The intelligent remote power management system of claim 1, wherein: the system also comprises a self-defining module, wherein the self-defining module is used for defining the threshold information of the environment monitoring module and the circuit monitoring module so that the alarm module can alarm after the data passes over the threshold.

8. The intelligent remote power management system of claim 1, wherein: the system also comprises a recording module, an overcurrent protection module, a grounding module, an emergency braking module and a system resetting module,

the recording module is used for recording, exporting and inquiring the operation log and the alarm log,

the overcurrent protection module is used for carrying out load protection on the power supply circuit,

the grounding module is used for setting a safe grounding hole to protect a circuit,

the emergency braking module is used for switching to a one-way all-pass state when an emergency state or local fault occurs in equipment,

the system reset module is used for resetting the network equipment of the equipment to an initial value when the network setting is problematic.

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