Main application scenarios of smart circuit breakers ‌

 Main application scenarios of smart circuit breakers ‌

‌1. Home scenarios ‌

‌Remote control and electricity safety ‌

Remotely switch on and off electrical circuits through mobile phone APP or voice assistants (such as Alexa, Siri) to avoid energy waste or safety hazards ‌.

Real-time monitoring of current, voltage, leakage and other parameters, actively cut off faulty circuits and push alarms to prevent fires ‌.

‌Energy management and optimization ‌

Automatically adjust the operating time of high-power consumption equipment (such as water heaters, charging piles) according to peak and valley electricity prices to reduce electricity costs ‌.

Cooperate with solar energy systems to intelligently allocate the priority of municipal power and self-generated power to improve the utilization rate of green energy ‌.

‌Home security linkage ‌

Link with smoke sensors, gas alarms and other equipment to trigger power-off protection to prevent the spread of fire ‌.

‌2. Industry and production fields ‌

‌Factories and workshops ‌

Real-time monitoring of the current, voltage and temperature of production equipment, rapid disconnection of faulty circuits, and prevention of equipment damage and production interruptions ‌.

Ensure the power stability of precision manufacturing scenarios (such as electronics factories) to prevent voltage fluctuations from affecting product quality ‌. ‌Mines and heavy industries‌

Adapt to harsh environments, remotely control power equipment in dispersed areas, and ensure safe production in mines‌.

‌Power systems and substations‌

Used for power distribution and protection in distribution rooms and substations, support remote monitoring and fault diagnosis, and improve operation and maintenance efficiency‌.

‌III. Commercial buildings and public facilities‌

‌Office buildings and shopping malls‌

Smartly manage power consumption in different regions, such as automatically shutting down the power supply of non-essential electrical appliances after get off work to achieve energy saving‌.

Monitor energy consumption data of air conditioners, lighting and other equipment, and optimize power consumption strategies‌.

‌Hospitals and schools‌

Real-time monitoring of electrical lines, preventing fires caused by overload or short circuit, and ensuring the safety of crowded places‌.

‌Hotels and exhibition centers‌

Control the circuits of guest rooms or exhibition areas on demand to improve energy efficiency‌.

‌IV. Urban infrastructure and temporary scenarios‌

‌Infrastructure construction sites‌

Manage temporary power distribution equipment (such as lighting and air conditioning), accurately count power consumption, and prevent illegal power consumption‌.

Remotely control circuit status to reduce the need for manual inspections‌. ‌Public places (such as subway stations and sports venues)‌

Real-time monitoring of power loads to avoid tripping caused by multiple high-power devices running at the same time‌.

‌V. Integration of smart cities and the Internet of Things‌

‌Smart buildings and communities‌

As the underlying power distribution facilities, integrated into the building management system, to achieve visualization and remote control of power consumption data‌.

Cooperating with the smart fire protection system, real-time statistics of power consumption data and early warning of fire risks‌.

‌Smart grid‌

Support renewable energy access, optimize urban power distribution, and improve grid stability‌.

‌Urban security and emergency management‌

Link the urban security system through the Internet of Things technology to quickly respond to power failures or safety hazards‌.

‌VI. Special scenarios‌

‌Cultural relics protection units and nursing homes‌

Provide highly sensitive leakage protection and temperature monitoring to ensure the safety of electricity use in special places‌.

‌Agriculture and gardening‌

Control the timing switches of circuits such as irrigation equipment and greenhouse lighting to improve the efficiency of agricultural power management‌.