An intelligent power control system
By integrating multiple sensors and smart chips, the intelligent power control system solves the safety hazards and energy waste problems of traditional power systems, and achieves all-round power safety protection, high efficiency and energy saving, and intelligent and convenient management, adapting to the needs of multiple scenarios.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 杨成洪
- Filing Date
- 2025-06-03
- Publication Date
- 2026-07-03
AI Technical Summary
Traditional power systems lack real-time monitoring, leading to safety hazards and energy waste. Furthermore, existing energy-saving products have limited functionality and cannot meet the comprehensive needs of safety, energy conservation, and intelligent control.
It adopts an intelligent power control system that integrates radar, infrared sensors, temperature and humidity sensors, light sensors, odor sensors, etc., combined with wireless communication technology and intelligent chips, to achieve real-time monitoring, remote management and wireless expansion. It supports multi-functional expansion interfaces and provides comprehensive power safety protection and high energy efficiency.
It achieves comprehensive power safety protection, high efficiency and energy saving, improves management convenience, adapts to multi-scenario needs, supports wireless expansion and remote control, and reduces power waste and safety hazards.
Smart Images

Figure CN224459370U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an intelligent power control system, specifically an intelligent power control system. Background Technology
[0002] Currently, the following problems exist in power management:
[0003] 1. Safety issues: Traditional power systems lack real-time monitoring and are prone to fires or equipment damage due to overload, short circuits, etc.
[0004] 2. Energy saving issues: Appliances being left on standby, lights being left on unnecessarily, and air conditioners running ineffectively lead to a large amount of wasted electricity.
[0005] 3. Convenience issues: It relies on manual management, cannot be remotely controlled, and is prone to energy waste or safety hazards due to forgetfulness or inconvenience in operation.
[0006] 4. Limitations of existing products: Energy-saving products on the market have limited functions and cannot simultaneously meet the needs of safety, energy saving and intelligent control.
[0007] Therefore, there is an urgent need for a power control system that integrates safety protection, intelligent energy saving, and remote management. Summary of the Invention
[0008] To solve the above-mentioned technical problems, the technical solution provided by this utility model is: an intelligent power control system, including machine A and machine B, wherein:
[0009] The A unit includes a power input, transformer, battery interface, radar and infrared sensors, temperature and humidity sensors, light sensors, audio output module, odor sensor, first intelligent chip, multi-functional expansion interface, and manual emergency button;
[0010] The B unit includes a power inlet, a power outlet, a fuse, a transformer, a first contactor, a second smart chip, and a second contactor;
[0011] Machine A and Machine B are connected wirelessly, and Machine B can be added indefinitely.
[0012] Furthermore, the A-machine monitors environmental data in real time using radar and infrared sensors, temperature and humidity sensors, light sensors, and odor sensors, and transmits the data to a smart chip for analysis and processing.
[0013] Furthermore, the B-machine controls the on / off state of the power outlet through the first contactor, thereby achieving intelligent management of the power supply.
[0014] The advantages of the utility model compared to the prior art are:
[0015] 1. Comprehensive electrical safety protection
[0016] By monitoring the current in real time through fuses and smart chips, the power supply can be quickly cut off in case of overload or short circuit to prevent electrical fires.
[0017] The manual emergency button provides an emergency power-off function, enhancing system reliability.
[0018] 2. High efficiency and energy saving, reducing electricity costs.
[0019] By employing a combination of radar, infrared, and light-sensing detection, the system achieves "lights off when people leave, and power off equipment," eliminating standby power consumption.
[0020] Temperature and humidity sensors and odor sensors intelligently adjust the operation of air conditioning and fresh air systems to avoid unnecessary power consumption.
[0021] 3. Intelligent and convenient, improving management efficiency
[0022] It supports remote control via mobile app / PC, allowing users to view power consumption data and adjust device switches anytime, anywhere.
[0023] Automated scene modes, such as away mode and sleep mode, can be switched with one click, reducing manual operation.
[0024] Wireless communication technologies such as Wi-Fi, Bluetooth, and ZigBee require no wiring, offer flexible installation options, and are suitable for both new and old buildings.
[0025] 4. Highly scalable, adaptable to various scenarios.
[0026] Unit B supports unlimited cascading and can be flexibly expanded according to different scenarios such as home, office, and factory.
[0027] The multi-functional expansion interface supports the connection of other smart devices such as cameras and smoke detectors, enabling the construction of a more complete security and energy management system. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the structure of an intelligent power control system according to the present invention.
[0029] The components are as follows: 1. Power inlet; 2. Transformer; 3. Transformer; 4. Radar and infrared sensor; 5. Temperature and humidity sensor; 6. Light sensor; 7. Audio output module; 8. Odor sensor; 9. First chip; 10. Second chip; 11. Third chip; 12. Multifunctional expansion interface; 13. Manual emergency button; 14. Power inlet; 15. Power outlet; 16. Fuse; 17. Transformer; 18. First contactor; 19. Second contactor; 20. Fourth chip. Detailed Implementation
[0030] The present invention will now be described in further detail with reference to the accompanying drawings.
[0031] The present invention will be described in detail with reference to the accompanying drawings.
[0032] In a specific implementation, this utility model provides an intelligent power control system, including machine A and machine B, wherein:
[0033] The A unit includes a power input 1, a transformer 2, a battery interface 3, a radar and infrared sensor 4, a temperature and humidity sensor 5, a light sensor 6, an audio output module 7, an odor sensor 8, a first intelligent chip, a multi-functional expansion interface 12, and a manual emergency button 13.
[0034] The B unit includes a power inlet 14, a power outlet 15, a fuse 16, a transformer 17, a first contactor 18, a second smart chip, and a second contactor 19.
[0035] Machine A and Machine B are connected wirelessly, and Machine B can be added indefinitely. Example
[0036] To address the aforementioned problems, this invention integrates multiple sensing technologies and links mobile and PC software programs, employing the following methods to solve existing problems.
[0037] 1. Regarding safety: Limit switch circuit breakers and energy consumption data acquisition technology are used to monitor the power load in real time, resolving issues caused by overload and short circuits, and ensuring electrical safety. The intelligent early warning system can detect potential power faults in advance, reducing safety hazards and effectively achieving the goal of worry-free safety.
[0038] 2. Regarding convenience and manpower: The equipment incorporates internet technology to develop a dedicated APP, allowing administrators to remotely set sensor parameters, monitor and control the scene's power system, achieving unattended operation, saving labor costs, and effectively achieving the goal of convenience and ease of use.
[0039] Regarding energy conservation and market issues:
[0040] The system automatically controls power supply based on the venue's operating hours to avoid unnecessary energy consumption. Utilizing radar, infrared, timer, and light control technologies, it achieves "lights off when people leave, appliances shut off when not in use." Combined with temperature and odor sensors, it intelligently adjusts HVAC and ventilation systems to optimize energy consumption. Furthermore, by managing public area power through timer, infrared, radar, light control, odor sensing, temperature sensing, and humidity sensing technologies, it reduces electricity waste and effectively achieves cost-saving and energy-efficient goals.
[0041] Taking the family setting as an example:
[0042] Install unit A in the living room and connect unit B to the main circuit.
[0043] Set lighting strategies via the app: automatically turn off the lights when the radar detects no one and the light sensor determines that the brightness is sufficient.
[0044] The air conditioner is controlled by temperature and humidity sensor 5, maintaining a constant temperature of 26℃, and automatically switches to energy-saving mode when no one is around.
[0045] In the event of a sudden short circuit, Unit B will cut off the power within 0.1 seconds, and the APP will simultaneously push an alarm.
[0046] In industrial / office settings, precise zone control can be achieved by expanding the number of B-type machines.
[0047] To facilitate data transmission, the A-machine uses radar and infrared sensor 4, temperature and humidity sensor 5, light sensor 6 and odor sensor 8 to monitor environmental data in real time and transmit the data to the smart chip for analysis and processing.
[0048] To facilitate intelligent management of the power supply, the B unit controls the on / off state of the power outlet 15 through the first contactor 18, thereby realizing intelligent management of the power supply.
[0049] As a further explanation of this utility model, the system also includes a mobile or PC software program for remotely setting sensor parameters, monitoring the power system status, and controlling the power supply.
[0050] As a further explanation of this utility model, the multi-functional expansion interface 12 of machine A and the second contactor 19 of machine B support the access of external devices to expand the system functions.
[0051] As a further explanation of this utility model, the manual emergency button 13 of the A machine is used to manually control the power supply in an emergency.
[0052] As a further explanation of this utility model, the fuse 16 of the B machine is used for overload or short circuit protection to ensure electrical safety.
[0053] As a further explanation of this utility model, the size and specifications of the A and B machines of the system can be customized according to actual needs. The first intelligent chip includes a first chip 9, a second chip 10 and a third chip 11, and the second intelligent chip includes a fourth chip 20.
[0054] As a further explanation of this utility model, the system achieves the energy-saving effect of "lights off when people leave and appliances shut off" through the linkage of timed control, infrared sensing, radar detection, light control, temperature and humidity adjustment and odor detection technologies.
[0055] As a further explanation of this utility model, the system realizes data interaction between machine A and machine B through wireless transmission technology, without the need to lay additional wires.
[0056] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.
Claims
1. An intelligent power control system, characterized by: Including machine A and machine B, where: The A unit includes a power input (1), a transformer (2), a battery interface (3), a radar and infrared sensor (4), a temperature and humidity sensor (5), a light sensor (6), an audio output module (7), an odor sensor (8), a first intelligent chip, a multi-functional expansion interface (12), and a manual emergency button (13). The B unit includes a power inlet (14), a power outlet (15), a fuse (16), a transformer (17), a first contactor (18), a second smart chip, and a second contactor (19). Machine A and Machine B are connected wirelessly, and Machine B can be added indefinitely.
2. The intelligent power control system of claim 1, wherein: The A-machine monitors environmental data in real time through radar and infrared sensors (4), temperature and humidity sensors (5), light sensors (6) and odor sensors (8), and transmits the data to the smart chip for analysis and processing.
3. The intelligent power control system of claim 1, wherein: The B machine controls the on / off state of the power outlet (15) through the first contactor (18) to realize intelligent management of power supply.
4. The intelligent power control system of claim 2 or 3, wherein: The system also includes mobile or PC software programs for remotely setting sensor parameters, monitoring power system status, and controlling power supply.
5. The intelligent power control system of claim 1, wherein: The multi-function expansion interface (12) of machine A and the second contactor (19) of machine B support the access of external devices to expand system functions.
6. The intelligent power control system of claim 1, wherein: The manual emergency button (13) of the A machine is used to manually control the power supply in an emergency.
7. The intelligent power control system of claim 1, wherein: The fuse (16) of the B machine is used for overload or short circuit protection to ensure electrical safety.
8. The intelligent power control system of claim 1, wherein: The dimensions of the A and B units of the system can be customized according to actual needs. The first intelligent chip includes a first chip (9), a second chip (10) and a third chip (11), and the second intelligent chip includes a fourth chip (20).
9. The intelligent power control system of claim 1, wherein: The system enables data exchange between machine A and machine B through wireless transmission technology, eliminating the need for additional wiring.