Study-type intelligent power supply management system and management method thereof

A technology of intelligent power supply and management system, applied in the direction of electrical program control, program control in sequence/logic controller, etc., can solve the problem that the standby control can only target the same device, so as to reduce system cost, avoid misoperation and save energy. The effect of electricity

Active Publication Date: 2014-04-02
BEIJING ITSYNC TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of this, the main purpose of the present invention is to provide a learning-type intelligent power management syste

Method used

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  • Study-type intelligent power supply management system and management method thereof
  • Study-type intelligent power supply management system and management method thereof
  • Study-type intelligent power supply management system and management method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] figure 1 It shows a schematic structural diagram of a learning-type intelligent power management system according to Embodiment 1 of the present invention; figure 1 As shown, the system includes: a switching power supply 10, a current detection module 20, a control module 30, a relay module 40, a power supply output module 50 and a standby current learning button K, wherein,

[0034] The switching power supply 10 is used to provide voltage and current to the learning intelligent power management system;

[0035] The current detection module 20 is connected to the control module 30 and the relay module 40, and is used to detect the magnitude of the current passing through the wire when the electrical equipment is in a standby state;

[0036] The control module 30 is connected to the current detection module 20, the relay module 40 and the standby current learning button K respectively, and is used to read the current data of the current detection module 20 and control t...

Embodiment 2

[0040] figure 2 It shows a schematic structural diagram of a learning-type intelligent power management system according to Embodiment 2 of the present invention; figure 2 As shown, the control module 30 also includes: a detection unit 302 and a learning unit 304, wherein,

[0041] The detection unit 302 is connected to the standby current learning button K and the learning unit 304 respectively, and is used to detect the status of the standby current learning button K after the power output module 50 is powered on and before the electrical equipment is turned on;

[0042] The learning unit 304 is configured to read the current data of the current detection module 20 and save the current data as the standby current when the detection unit 302 detects that the standby current learning button K is pressed.

[0043] For a system with only a single power output module, a standby current learning button can be used to obtain the standby current of the electrical equipment.

[0...

Embodiment 3

[0048] image 3 It shows a schematic structural diagram of a learning-type intelligent power management system according to Embodiment 3 of the present invention; image 3 As shown, the system also includes: a communication module 60 and a clock module 70, wherein,

[0049] The communication module 60 is connected with the control module 30 and is used for receiving control instructions from the upper control machine and transmitting the control instructions to the control module 30 .

[0050] The mentioned control instructions can be:

[0051] Control the relay module to switch on or off the power supply of the power output module;

[0052] Modify or set the switch mode of the control module, such as modifying the standby time on working days or non-working days;

[0053] Add or subtract temporary working days or non-working days (holidays) or working hours (adjustment of commuting time). The control module 30 and the communication module 60 communicate with each other in...

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Abstract

The invention provides a study-type intelligent power supply management system and a management method thereof. The study-type intelligent power supply management system comprises a switching power supply, a current detection module, a control module, a relay module, a power supply output module and a standby current study button, wherein the switching power supply is used for providing voltage and current to the study-type intelligent power supply management system; the current detection module is used for detecting the magnitude of current passing through a conducting wire when electric equipment is in a standby state; the control module is respectively connected with the current detection module, the relay module and the standby current study button, and is used for reading the current data of the current detection module and controlling the on-off of the relay module according to the state of the electric equipment; the relay module is used for controlling the on-off of the power supply output module. The invention further discloses the management method of the study-type intelligent power supply management system. When the electric equipment is in the standby state for a long time or in a nonworking time, a power supply of the electric equipment is switched off, and the electric energy is saved to the greatest degree.

Description

technical field [0001] The invention relates to the field of intelligent power-saving control, and more specifically, to a learning-type intelligent power management system and a management method thereof. Background technique [0002] At present, many electrical equipment directly turn off the power when shutting down. Such an operation is harmful to the electrical equipment. For example, if the computer is reading and writing to the hard disk, turning off the power will damage the hard disk and cause data loss; After the projector is turned off, the cooling fan needs to work for a period of time to reduce the temperature of the projector. If the power is turned off immediately, the heat will not be dissipated, which will affect the life of the device. If the power supply is not disconnected after shutdown, the above-mentioned electrical equipment will be in a standby state. Now the standby power consumption of a computer is about 5 watts. If each computer is on standby fo...

Claims

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Application Information

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IPC IPC(8): G05B19/04
Inventor 黄喜荣
Owner BEIJING ITSYNC TECH
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