Detachable Container House
PZA-1
Mobile Container House.Quick Assembly Box Packing.Prefabricated Movable House. Room Casas Modulares.Container Sandwich Panel Room Office.Living Container House.
Design and Construction
Modular design: Using the modular concept, each component is prefabricated in the factory and then transported to the site for assembly. This design method makes the design and construction of the house more flexible and can be customized according to different needs, such as adjusting the number of rooms, changing the spatial layout, etc.
Standardized production: All components are produced according to unified standards, ensuring the consistency and stability of the building quality, and also facilitating the replacement and maintenance of components.
Short construction period: Factory production and on-site assembly methods greatly shorten the construction period. Compared with traditional construction methods, it can be put into use quickly and can generally be completed within weeks or months.
Performance and quality
Sturdy and durable: Mainly composed of steel materials, it has strong earthquake resistance and deformation resistance, can withstand a certain degree of natural disasters such as earthquakes, typhoons, etc., and has a stable structure and a service life of more than 20 years.
Good sealing performance: Strict manufacturing process ensures that the house has good sealing, can effectively prevent water, wind and dust, and provide a comfortable indoor environment.
Thermal insulation and sound insulation: The wall is usually made of materials such as color steel composite panels, and the interior is filled with thermal insulation and sound insulation materials such as rock wool and polystyrene. It has good thermal insulation and sound insulation effects, and can effectively reduce the impact of the external environment on the interior.
Use and maintenance
Convenient transportation: The overall structure is compact and the weight is relatively light, which is convenient for transportation and handling. It is especially suitable for units that frequently change construction sites or need to be used in different locations, such as construction sites, field work teams, etc.
Convenient disassembly and assembly: It can be moved as a whole, and it can also be easily disassembled and assembled. In the process of disassembly and assembly, the damage to the house structure is small, and it can be reused many times, which greatly reduces the cost of use.
Flexible space utilization: Based on the standard steel chassis, various spatial layouts can be formed through different combinations in horizontal and vertical directions, such as conference rooms, dormitories, kitchens, toilets, etc., to meet different usage needs.
Environmental protection and energy saving: Most components can be recycled and reused, which reduces the generation of construction waste and conforms to the development trend of green buildings. At the same time, the application of energy-saving design and materials also reduces energy consumption.
Technical parameters of assembled container houses
I. Size parameters
(I) Standard container size
Common standard assembled container sizes follow the international container size standards, with a length of 20 feet and 40 feet. in actual applications, they can be combined and spliced according to needs to achieve space expansion.
(II) Customized size
Some manufacturers support customized production, with a length customization range of 3000-12000mm, a width customization range of 2000-3000mm, and a height customization range of 2500-3500mm to meet the needs of diverse usage scenarios.
II. Material parameters
(I) Frame material
Mainly use Q235B or higher strength steel, with a yield strength of ≥235MPa and a tensile strength of ≥375MPa to ensure the strength and stability of the box structure. The surface of the steel is usually hot-dip galvanized, with a galvanized layer thickness of ≥80μm to enhance rust and corrosion resistance and extend service life.
(II) Wall material
Common wall materials include color steel sandwich panels, and the core materials include rock wool, polyurethane, polystyrene, etc. Taking rock wool sandwich panels as an example, the rock wool density is generally 80-120kg/m³, the thermal conductivity is ≤0.044W/(m・K), and it has good thermal insulation and fire resistance. the thickness of color steel plates is generally 0.4-0.6mm, and the coating is polyester (PE) or fluorocarbon (PVDF), which has good weather resistance and impact resistance.
III. Load parameters
(I) Static load
The design value of the roof static load is generally 0.3-0.5kN/㎡, and the ground static load value varies according to the use function. The value for ordinary residential and office use is 2.0-2.5kN/㎡, and it can reach 3.5-5.0kN/㎡ when used for heavy loads such as warehousing.
(II) Live load
The live load value of the roof is usually 0.5 - 0.7kN/㎡. the snow load is designed according to the snow pressure standards of different regions, and the general value is 0.3 - 0.8kN/㎡. the wind load design value is determined according to the basic wind pressure of the building area. Coastal areas are generally designed at 0.8 - 1.2kN/㎡, and inland areas are 0.3 - 0.6kN/㎡.
IV. Performance parameters
(I) Fire performance
Using materials with higher fireproof grades, such as rock wool sandwich panel walls, the combustion performance reaches Class A non-combustible standards, and the fire resistance limit is ≥1 hour, meeting fire safety requirements.
(II) Thermal insulation performance
The overall thermal insulation performance is good, and the wall heat transfer coefficient is ≤0.6W/(㎡・K). It can effectively reduce heat loss in cold areas and block external heat in hot areas to keep the indoor temperature stable.
(III) Waterproof performance
The box body adopts multiple waterproof measures such as sealing strips and waterproof membranes, and the joints are specially treated to ensure no leakage in severe weather such as heavy rain, and the waterproof level reaches IPX5.
(IV) Earthquake resistance
Designed according to the earthquake resistance intensity of 8 degrees and above, it can maintain structural integrity under a certain intensity of earthquake to ensure the safety of personnel and property.
