1. One-click worry-free (only need to install and start once, intelligent control mode)
Simplified operation:No need for complex settings, after installation, the system will automatically complete self-checking, parameter configuration (such as water temperature, pressure calibration) and scene adaptation (heating, cooling, hot water demand) to reduce user learning costs and installation error risks.
Intelligent control mode:The system optimizes operation according to preset logic, automatically identifies seasons, time periods and user habits, and dynamically switches heating, cooling and hot water supply modes (such as automatically starting floor heating + domestic hot water priority in winter), without manual frequent adjustment, reducing efficiency decline or failure caused by human error, improving ease of use, and ensuring the continuity of comfort in the home environment.
2. Automatic energy saving (variable water temperature)
Precise energy consumption control: According to actual user needs, the water temperature is dynamically adjusted in combination with weather data, such as lowering the water temperature setting when heating at low temperatures, and heating on demand when using high temperatures.
Balance between comfort and energy saving: Through variable water temperature technology, while satisfying users' indoor temperature and hot water comfort, it minimizes electric heat loss and avoids energy waste. Long-term use can significantly reduce energy expenses.
Adapt to different scenarios: Supports customized or preset multiple water temperature modes (such as "economic mode", "comfort mode", "fast heating mode"), and flexibly responds to differentiated needs such as family gatherings and daily life.
3. Energy management (cogeneration of hot water, cooling, heat and power, external heat source management, etc.)
Multi-energy synergy: Integrate the output of three energy sources: cooling, heating and electricity. For example, use the waste heat of heat pumps to supply domestic hot water to reduce repeated heating energy consumption; at the same time, connect to external heat sources (such as solar energy, geothermal energy, gas boilers) to achieve "multi-energy complementarity" and reduce dependence on a single energy source.
Cost optimization: Through external heat source management, give priority to the use of low-cost energy (such as electric heating during off-peak hours and solar thermal collection) to reduce operating costs. It is especially suitable for families in multi-climate areas, combining gas auxiliary heating in winter and using natural cold sources for cooling in summer.
Environmental protection and carbon reduction: Support the access of renewable energy, reduce fossil energy consumption, comply with the trend of green homes, and enhance the environmental protection attributes of families (such as reducing carbon emissions and pollutant emissions).
4.IOT service backend
Remote monitoring and control: Users can view the operating status of the equipment (such as water temperature, energy consumption, and working mode) in real time through mobile phone APP or cloud platform, remotely adjust parameters (such as turning on heating in advance and turning off cooling), and receive early warning notifications (such as filter blockage and insufficient refrigerant).
Data management: The backend provides energy consumption statistics and operation reports to help users analyze usage habits and optimize equipment settings (such as finding abnormally high energy consumption during a certain period of time, and adjusting the mode in a targeted manner).
Fault warning and maintenance: Real-time monitoring of equipment operation data, active warning of potential faults (such as sensor abnormalities, compressor overheating) and analysis of equipment health, and provide preventive maintenance suggestions.
5. Online OTA service
Continuous function upgrade: Update system firmware through remote OTA, add new functions (such as push new energy-saving algorithms, compatible with new protocols, i.e. future hydrogen energy interfaces), fix system vulnerabilities, and extend the life cycle of the device.
Convenient maintenance experience: Remotely diagnose faults (such as sensor calibration), download troubleshooting guides by yourself, avoid the cumbersome process of returning traditional equipment to the factory or manually upgrading, reduce after-sales costs, and enhance users' trust in the brand.
