Double wing expansion box
1. Core function: A three in one green intelligent system
The core value of this product revolves around "energy self-sufficiency+flexible space+intelligent convenience", and the three major functions support each other.
Photovoltaic energy storage system: The top or side of the box is pre installed with foldable/fixed photovoltaic panels, which convert solar energy into electrical energy during the day; The supporting energy storage battery pack can store excess electricity, achieve off grid power supply or grid connected energy replenishment, meet the basic electricity needs of lighting, household appliances, etc., and reduce dependence on traditional power grids.
Double wing expansion space: The main body of the container is of standard container size, which is compact in volume during transportation; After landing, the "wing board" can be extended to both sides to double the internal usable area (usually expanding from 18 square meters to 35-40 square meters), and can be flexibly divided into functional areas such as bedrooms, living rooms, kitchens, etc., suitable for temporary housing, campsite dormitories, emergency command rooms, and other scenarios.
Intelligent control system: Through the APP or local control panel, real-time monitoring of photovoltaic power generation and remaining energy storage can be achieved, and indoor lighting, air conditioning, and security equipment (such as monitoring and smoke alarms) can be automatically adjusted. Some models support remote start stop devices, improving residential convenience and safety.
2. Core advantage: Practical features that adapt to multiple scenarios
Compared to traditional activity board houses or fixed buildings, the differentiation advantages of double wing expansion boxes are significant.
Environmentally friendly and low-carbon: With solar energy as the core energy source, carbon emissions are reduced, and the main body of the box is mostly made of recyclable steel or environmentally friendly composite materials, which conforms to the concept of green building.
Rapid deployment: The core components are prefabricated in the factory, and installation, expansion, and energy system debugging can be completed on site in only 1-2 days, without the need for complex civil construction. It is suitable for emergency relief, temporary projects, and other urgent situations.
Portable migration: After folding the wings, the standard container size can be restored, and it can be transported as a whole by trucks, ships, and other transportation vehicles. It can be flexibly transferred to a new location for reuse according to demand.
3. Typical application scenarios
The flexibility of this product allows it to cover multiple fields and address residential and energy needs in different scenarios.
Emergency relief: After earthquakes, floods and other disasters, temporary resettlement sites can be quickly established, and basic living power supply can be achieved in a power outage environment through the use of photovoltaic systems.
Outdoor campsite: used for RV campsite, study camp, and supporting accommodation in scenic spots, which not only meets the living needs of tourists, but also reduces the impact on the scenic environment through green energy.
Temporary engineering buildings: provide employee dormitories and offices for road, bridge, wind power and other engineering projects in remote areas, without relying on local power grids, reducing construction costs.
Supporting facilities for rural revitalization: In rural areas with weak power grid coverage, they can be used as health stations, cultural rooms, or homestays to ensure continuous power supply through photovoltaic storage systems and help improve rural infrastructure.
The core value of this product revolves around "energy self-sufficiency+flexible space+intelligent convenience", and the three major functions support each other.
Photovoltaic energy storage system: The top or side of the box is pre installed with foldable/fixed photovoltaic panels, which convert solar energy into electrical energy during the day; The supporting energy storage battery pack can store excess electricity, achieve off grid power supply or grid connected energy replenishment, meet the basic electricity needs of lighting, household appliances, etc., and reduce dependence on traditional power grids.
Double wing expansion space: The main body of the container is of standard container size, which is compact in volume during transportation; After landing, the "wing board" can be extended to both sides to double the internal usable area (usually expanding from 18 square meters to 35-40 square meters), and can be flexibly divided into functional areas such as bedrooms, living rooms, kitchens, etc., suitable for temporary housing, campsite dormitories, emergency command rooms, and other scenarios.
Intelligent control system: Through the APP or local control panel, real-time monitoring of photovoltaic power generation and remaining energy storage can be achieved, and indoor lighting, air conditioning, and security equipment (such as monitoring and smoke alarms) can be automatically adjusted. Some models support remote start stop devices, improving residential convenience and safety.
2. Core advantage: Practical features that adapt to multiple scenarios
Compared to traditional activity board houses or fixed buildings, the differentiation advantages of double wing expansion boxes are significant.
Environmentally friendly and low-carbon: With solar energy as the core energy source, carbon emissions are reduced, and the main body of the box is mostly made of recyclable steel or environmentally friendly composite materials, which conforms to the concept of green building.
Rapid deployment: The core components are prefabricated in the factory, and installation, expansion, and energy system debugging can be completed on site in only 1-2 days, without the need for complex civil construction. It is suitable for emergency relief, temporary projects, and other urgent situations.
Portable migration: After folding the wings, the standard container size can be restored, and it can be transported as a whole by trucks, ships, and other transportation vehicles. It can be flexibly transferred to a new location for reuse according to demand.
3. Typical application scenarios
The flexibility of this product allows it to cover multiple fields and address residential and energy needs in different scenarios.
Emergency relief: After earthquakes, floods and other disasters, temporary resettlement sites can be quickly established, and basic living power supply can be achieved in a power outage environment through the use of photovoltaic systems.
Outdoor campsite: used for RV campsite, study camp, and supporting accommodation in scenic spots, which not only meets the living needs of tourists, but also reduces the impact on the scenic environment through green energy.
Temporary engineering buildings: provide employee dormitories and offices for road, bridge, wind power and other engineering projects in remote areas, without relying on local power grids, reducing construction costs.
Supporting facilities for rural revitalization: In rural areas with weak power grid coverage, they can be used as health stations, cultural rooms, or homestays to ensure continuous power supply through photovoltaic storage systems and help improve rural infrastructure.
