detachable container house

• Why are more and more environmental organizations advocating the use of prefabricated houses?

  

  Jan 15, 2025

    In recent years, with the concept of sustainable development deeply rooted in the hearts of the people, the construction industry has gradually transformed in the direction of green environmental protection. In this context, prefabricated houses have become a model of environmental protection in the construction industry due to their outstanding performance in resource conservation, pollution reduction and carbon emission control.   1. Analysis of the environmental protection advantages of prefabricated houses   (1). Production stage: reduce material waste   In traditional building construction, a lot of material is often wasted due to manual operation and on-site cutting. The components of the prefabricated house are precisely produced in the factory, and the utilization rate of raw materials is greatly improved, which greatly reduces waste. In addition, factory production allows for better control over the type and quality of materials, thus avoiding unnecessary material loss. Item Traditional building construction Production of prefabricated houses Material utilization 70%-80% 90%-95% Construction waste generated (kg/m²) 30-50 10-15 Material waste rate 20%-30% 5%-10%     Through the data, it can be seen that the material utilization rate of prefabricated houses is as high as more than 90%, much higher than the 70%-80% of traditional buildings, and the amount of construction waste generated has also been reduced by about 70%. In addition, prefabricated houses are more inclined to recyclable and low-carbon materials in their material selection, further enhancing their eco-friendly attributes. (2). Construction phase: reduce on-site pollution   Traditional construction sites are often accompanied by noise, dust and construction waste, which have a negative impact on the surrounding environment. Prefab houses, on the other hand, are modular for a cleaner and more efficient construction process. This prefabricated construction method not only reduces the disturbance to the surrounding residents, but also effectively controls the emission of pollutants during the construction process. Item Traditional building construction Prefabricated house construction Construction period (days) 90-120 30-45 Noise Pollution (dB) 80-100 60-70 Dust concentration (mg/m³) 200-300 50-100     From the data in the table, it can be seen that the construction period of prefabricated houses has been shortened by about 60%, and the noise pollution and dust concentration on the construction site are significantly lower than those of traditional buildings, which can effectively improve the construction environment. At the same time, the assembly process of prefabricated houses basically does not require concrete pouring and large-scale cutting operations, which greatly reduces the generation of dust and wastewater.   (3). Transportation phase: reduce carbon emissions   The components of the prefab house are produced in a centralized factory and then transported to the construction site for assembly, which is more efficient than traditional decentralized transportation and can reduce the carbon emissions of transportation. In addition, the modular design of the prefabricated houses makes the transportation process more optimized and reduces the number of unnecessary transports. Item Traditional building transportation Transportation of prefabricated houses Number of Shipments 10-15 3-5 Carbon Emissions (kg CO₂) 500-800 200-400     The number of transportation times and carbon emissions of prefab houses are significantly lower than those of traditional buildings, and the transportation efficiency is increased by 2-3 times, and the carbon emissions are reduced by about 50%. In addition, more environmentally friendly modes of transportation, such as electric or hybrid vehicles, can be used in the transportation of prefabricated houses, further reducing carbon emissions.     (4). Use stage: energy saving and consumption reduction     Prefabricated houses are often designed with efficient insulation, thermal insulation and energy efficiency, which can effectively reduce the energy consumption of the building. For example, the use of high-efficiency insulation in walls and roof structures can reduce energy consumption for heating in winter and cooling in summer. In addition, prefabricated houses can be integrated with solar photovoltaic systems and rainwater harvesting systems to further enhance energy savings. Item Traditional architecture Prefabricated houses Average annual energy consumption (kWh/m²) 100-150 60-80 Carbon Emissions (kg CO₂/m²) 50-70 30-40     In the use phase, the average annual energy consumption and carbon emissions of prefabricated houses are reduced by about 40%-50%, respectively, further reducing the environmental burden. Compared with traditional buildings, prefabricated houses have obvious advantages in the integration and intelligent management of energy-saving technologies, which can achieve more efficient energy management.   2. Summary of the advantages of environmental protection attributes of prefabricated houses     Through the above comparative analysis, we can summarize the main advantages of detachable container houses in terms of environmental protection attributes:   Reduction of construction waste and material waste: detachable container houses significantly reduce material waste during the production process through precise cutting and modular design.   Reduce pollution on the construction site: Noise, dust and other pollutants on the construction site are greatly reduced, and the construction period is greatly shortened.   Reducing carbon emissions from transportation: The mode of factory production and centralized transportation reduces the number of transportation and carbon emissions.   Energy saving and consumption reduction: detachable container houses have better energy saving effects in the use stage, reducing energy consumption in the process of building use.   Improved resource efficiency: detachable container homes have a greater focus on the use of sustainable materials and recycling, further reducing their dependence on natural resources. 3. Case study: environmental protection data of a prefabricated residential project     Take, for example, a prefabricated housing project in a city with a total floor area of 10,000 square meters and was built using prefabricated housing technology. The following is a comparison of the environmental protection data of the project: Aspect Traditional building construction Prefabricated house construction Reduce the proportion Material Waste (tons) 100 30 70% Construction waste generated (tons) 300 90 70% Construction period (days) 120 40 67% Carbon emissions (tonnes CO₂) 500 250 50%     Through data comparison, it can be seen that the prefabricated housing project is significantly better than traditional construction methods in terms of material waste, construction waste, construction period and carbon emissions. At the same time, the project also uses an intelligent energy management system and renewable energy technology to further enhance energy savings.   4. the future development trend     With the continuous enhancement of environmental awareness and the advancement of construction technology, prefabricated houses will become an important development direction of green buildings in the future. It is expected that future prefabricated homes will be further optimized in the following areas:   Use more environmentally friendly materials: such as recyclable materials, low-carbon concrete, etc.   Increased flexibility in modular design: adaptable to different building types and individual requirements.   Intelligent construction and management: Further improve construction efficiency and reduce environmental impact through digital technology.   Integrated renewable energy systems: such as solar, wind, etc., to provide clean energy for buildings.   Promote the concept of circular economy: realize the efficient use and recycling of resources in the whole life cycle of buildings.   5. Conclusions     With its environmental advantages in production, construction, transportation and use, prefabricated houses are becoming an important way for the construction industry to move towards sustainable development. The comparative analysis of the data shows that prefabricated houses can effectively reduce material waste, construction waste, carbon emissions and energy consumption, and have significant environmental protection attributes. Under the global trend of advocating green buildings, the application and promotion of prefabricated houses will further promote the low-carbon transformation of the construction industry and contribute to the realization of carbon neutrality goals.

  ETIQUETAS CALIENTES : prefab container home prefab house detachable container house affordabel prefabricated house low cost prefabricated home

  LEER MÁS
• How to improve the waterproof of prefab houses?

  

  Jan 21, 2025

  Improving the waterproofing performance of prefab houses is essential to ensure the long-term service life and living comfort of the house. Due to the modular construction of prefabricated houses, many components are prefabricated in the factory and transported to the site and assembled, which is more prone to potential water seepage points such as joints and joints than traditional on-site construction. Therefore, effective measures must be taken to improve waterproofing performance during the design and construction process.   1. Choose a material that is waterproof   The waterproofing performance of building materials is the basis for improving the overall waterproofing ability. The waterproof properties of different materials vary greatly, and choosing the right one is crucial.   Choice of waterproofing material: Waterproof coatings: can be applied to key parts such as walls, floors, and roofs. Common waterproof coatings include polyurethane waterproof coatings, acrylic waterproof coatings, silane/siloxane waterproof coatings, etc. These coatings can form a waterproof membrane during application, effectively preventing moisture from penetrating. Waterproof membrane materials: such as polymer waterproof membrane, thermoplastic waterproof membrane, etc., especially suitable for roofs, basements and other parts that need to be covered in a large area. The waterproof membrane has good durability and toughness, which can effectively prevent water infiltration. Waterproof bricks and tiles: In the exterior walls of prefabricated houses and wet areas such as bathrooms and kitchens, bricks and tiles with excellent waterproof properties can be used. The surface of these materials is smooth and does not absorb water, which effectively prevents the ingress of moisture. Impermeable concrete: In the foundation, exterior wall and other structural parts of the prefabricated house, the use of impermeable concrete can enhance the overall waterproofness of the building. Impermeable concrete prevents moisture from penetrating into the wall through capillary action.   2. Improved seam and interface design   Since the construction of prefabricated houses involves a large number of prefabricated components, joints and joints are the weak links of waterproofing. It is important to strengthen the waterproof design of these areas.   Waterproofing measures for joints: Sealants and sealing tapes: The use of high-quality sealants (such as silicone sealants, polyurethane sealants, etc.) or waterproof sealing tapes, especially at the joints between components, can effectively prevent moisture penetration. Sealants can be used on joints in walls, roofs, and windows. Waterproof fittings: At the joints of prefabricated components, plugs or fittings with a waterproof design can be used. These connectors are designed and made of materials that effectively block moisture from entering the structure. Cross-waterproof layer: At the junction of prefabricated components, a double-layer or staggered waterproof layer is used to increase the reliability of waterproofing. For example, at the junction of the wall and the roof, two different waterproofing layers are used to increase the difficulty of water infiltration.     3. Enhance the waterproofing performance of roofs and foundations   The roof and foundation are the parts of the prefabricated house that are most vulnerable to water, especially rainwater and groundwater infiltration, so special attention must be paid to the waterproofing design.   Roof waterproofing design: Sloping roof design: Design a roof with a reasonable slope to effectively drain water and reduce rainwater retention. Sloping roofs help prevent water accumulation and damage to the roof structure due to long-term water pressure. Roof waterproofing layer: Use high-quality waterproofing materials to cover the entire roof, such as hot-melt waterproofing membranes, waterproofing coatings, etc. For large roofs, waterproofing membranes are an ideal choice to provide long-lasting waterproofing protection. Waterproof drainage system: Reasonably set up the roof drainage system, including roof drains, downpipes and other facilities to ensure that rainwater can be discharged quickly and avoid water seepage caused by water accumulation.   Foundation waterproofing design: Waterproof concrete: The use of waterproof concrete at the foundation of a prefabricated house can effectively resist the infiltration of groundwater. Waterproofing concrete enhances the water resistance of concrete by adding waterproofing agents or employing impermeability technology. Waterproofing membrane or waterproof coating: A waterproofing membrane or waterproof coating can be laid on the outside of the foundation to prevent groundwater from penetrating into the inside of the foundation from the outside. Drainage layer: Setting a drainage layer under the foundation helps to remove stagnant water, reduce the pressure of water on the foundation, and prevent water accumulation from causing damage to the foundation.     4. Waterproof maintenance and inspection   After the prefabricated house is completed, regular waterproofing inspection and maintenance is the key to ensure the long-term waterproofing performance of the house.   Regular inspection and maintenance: Inspect roofs and exterior walls: Regularly inspect roofs and exterior walls for intact waterproofing, for aging sealants, and for cracks or peeling of joints. Repair these damaged parts in time to prevent moisture from penetrating. Inspect the foundation and drainage system: Check the foundation and drainage system for blockages or damage to ensure that the drainage is unobstructed and will not cause water accumulation and seepage problems due to poor drainage. Check the tightness of windows and doors: The joints between the windows and door frames and the walls of prefabricated houses are also weak points in waterproofing, and the seals and sealants need to be checked regularly for good condition and replaced if necessary.     5. Efficient drainage system design   The drainage system around the prefabricated house is an important guarantee to prevent water intrusion, and a reasonable drainage design can effectively guide the flow of rainwater and groundwater to avoid moisture entering the house.   Drainage system design points: Exterior Drainage Slope: Ensure that the ground around the prefabricated house has sufficient slope so that rainwater can quickly flow away from the foundation of the house and avoid moisture being trapped around the building for a long time. Drainage pipes: Install effective drainage pipes around the prefabricated house to ensure that rainwater and groundwater can be quickly directed to a suitable drainage site.   6. Conclusion   Improving the waterproofing performance of prefabricated houses requires a combination of the choice of building materials, joint design, waterproofing construction, waterproofing measures for roofs and foundations, design of drainage systems, and regular inspection and maintenance. By using high-quality waterproofing materials, reasonable design and construction technology, the waterproofing capacity of prefabricated houses can be significantly improved, and structural damage and living discomfort caused by water infiltration can be avoided. With the advancement of technology, waterproofing materials and processes will continue to be optimized, and the prefabricated houses of the future will be more solid and durable, able to provide a safer and more comfortable living environment for occupants.  

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  LEER MÁS
• Detachable Container House Introduction

  

  Jan 16, 2025

  1. The highlights and advantages of the product   (1). Solid and reliable structure   The main frame is made of high-strength hot-dip galvanized steel, with a galvanized layer thickness of 110μm, which has been tested by SGS for 100 hours of salt spray, which has excellent anti-rust ability, and is suitable for all kinds of environments, ensuring the long-term stability of the house structure and ensuring the safety of living and use.   The structural connection is fixed by screws to make the overall frame tight and firm, and the wind resistance is greater than 110km/h and the seismic resistance level is greater than 11 after professional testing, providing customers with a safe and reliable living space. (2). Efficient and convenient features   The construction period is shorter than that of traditional houses, and the standard size detachable container house only takes about 6 hours to complete the whole process from transportation to put into use, which greatly saves time and cost compared with traditional houses, and can meet the needs of temporary activity venues, emergency resettlement and other scenarios that require high building stability in terms of timeliness.   Bulk delivery, can make full use of the internal space of the sea container to reduce transportation costs, can achieve global distribution through a variety of transportation methods, and can be flexibly moved many times, easily meet the requirements of different site layout. (3). Excellent environmental adaptability   The wall adopts 50mm EPS/Rockwool sandwich panel as the standard configuration, which can be customized with 75mm, 100mm and other thicknesses, and the thermal conductivity is as low as 0.022W/(m·K), which effectively blocks heat transfer, maintains stable indoor temperature, reduces energy consumption, and achieves good thermal insulation effect. For colder regions, customization options such as graphene electric flooring are available.   The roof is made of 0.45mm hot-dip galvanized color coated roll, combined with glass wool and 0.25mm internal ceiling hot-dip galvanized color coated roll, which has good thermal insulation performance and strength, can resist the influence of natural factors such as rain erosion and ultraviolet erosion, and can also add additional roof to enhance the effect of heat insulation and waterproofing and relieve the pressure of heavy snow, while improving the aesthetics.   The windows are made of double-layer insulating glass, which effectively increases the thermal insulation and sound insulation effect, reduces heat loss, and creates a comfortable indoor environment. (4). Ultra-long service life   The overall design service life of the house is greater than 30 years, and high-quality steel and advanced manufacturing technology are used to ensure that the house can have better stability in long-term use, reduce the cost of repair and maintenance, and provide customers with safe and lasting living and use space, whether it is as a permanent residence, commercial office space or other application scenarios, it can meet the needs for a long time.     2. Details of the main frame structure   Medium Container：   Top and bottom vertical beam：15X15X2.3mm Q235B and 15X15X2.3mm Q235B   Top and bottom corssbeam：2.3mm special shaped beam Q235B   Top Purlin：40X60X1.0mm Q235B + 40X80X1.0mm Q235B+50X50X1.5mm Q235B   Bottom Purlin：40X80X1.0mm Q235B+80X80X1.0mm Q235B   3. Detailed specification parameter chart   Components Specification Details Performance Benefits Wall panel EPS/Rockwool sandwich panels, thickness is commonly used 50mm (customizable 75/100mm) The thermal conductivity is 0.022W/(m·K), and the thermal insulation performance is excellent Roof  0.45mm hot-dip galvanized prepainted coil Strong weather resistance, resistant to rain and ultraviolet erosion Ceiling Glass wool + 0.25mm hot-dip galvanized color-coated roll internal ceiling The thermal insulation effect is good, and the double slope roof can be selected to enhance the performance and aesthetics Floor 15mm glass magnesium flooring Provides solid support and ensures stability on the ground Windows Double-walled insulating glass The hollow layer improves the thermal insulation and sound insulation effect and reduces heat loss Size Standard size W3000*L5950*H2800mm, support customized other sizes Flexible customization according to customer needs to meet diverse space needs   4. the standard detachable container house size chart   Size External dimensions after installation (mm) Internal dimensions after installation (mm) Weight (kg) Loading quantity 20ft W3000*L5950*H2800 W2800*L5735*H2500 1200 40HQ 17units   5. Customized services     The company is able to meet the customized needs of customers and provide a full range of customized services. In addition to the standard size, a variety of sizes can be customized according to the actual site and use plan to accurately meet various needs. In terms of materials, in addition to the optional wall thickness, free material color customization is also provided, covering wall panels, frames, doors and windows, flooring, etc., to ensure that the house is perfectly integrated with the environment and the project theme. Electrical systems, toilets and other internal facilities can be customized on demand to adapt to different national and regional standards; We also provide OEM, ODM services, packaging can be OEM, our company has rich experience and professional team, with strong customization capabilities, can create a unique detachable container house, widely used in tourism, commercial office, permanent residence, education, outdoor leisure and other fields.   6. Application scenarios (1). Temporary residence   Construction site dormitories: Construction sites have a long construction period, and workers need stable and convenient accommodation. The integrated house can be built quickly to provide a comfortable living environment for workers, with beds, tables and chairs, toilets, and shower facilities, and can also be flexibly spliced and expanded according to the number of workers, and can be disassembled and relocated to the next construction site after the project is completed.   Disaster relief settlements: After earthquakes, floods, typhoons and other natural disasters, a large number of victims are in urgent need of temporary shelter. Easy to transport and quick to install, the integrated house can set up a resettlement community in the affected area within a few days, ensuring that the victims have shelter from the wind and rain, keeping warm and cold, and helping them through the difficult transition period.   Temporary housing for large-scale events: When holding large-scale events such as the Olympic Games, World Cup, and music festivals, there are a large number of volunteers and staff, and the integrated housing can quickly build temporary dormitories around the event venue to meet the needs of large-scale personnel accommodation in the short term, and can be easily dismantled after the event. Commercial & Office Use (2). Travel and vacation   Characteristic homestays: In tourist attractions, seashores, mountainous areas and other places, integrated house B&Bs with unique shapes and different styles are deeply loved by tourists. It can be a Scandinavian-style log cabin that blends into the forest landscape; It can also be a coastal style container homestay, with a terrace and a sea view, bringing tourists a different accommodation experience.   Vacation villas: For people who pursue personalized vacation life, integrated houses can be customized to create private holiday villas, with spacious internal space, luxurious facilities, and can also be built on the site of natural scenery such as mountains and rivers, pastorals, etc., with both privacy and comfort.   Campsite accommodation: In addition to traditional tents, campsites are becoming more popular for integrated house-style "glamping" units, which are equipped with beds, electricity, and private bathrooms, allowing campers to enjoy the convenience of modern life while being close to nature without having to work hard. (3). Public facilities   Public toilets: urban parks, scenic spots, streets and other areas with high traffic can be quickly integrated with house-type public toilets. These toilets are designed to be environmentally friendly, with water-saving appliances, clean interiors, and exterior that blends in with the surrounding environment to improve the city's public services.  Rest Stations for Sanitation Workers: Rest Stations for Sanitation Workers in Integrated Houses on both sides of the street provide sanitation workers with shelter from the wind and rain, rest and drink water, and store tools, reflecting the city's care for front-line workers. (4). Education   Temporary teaching sites: When schools in remote mountainous areas encounter damage to school buildings due to natural disasters, or the number of students increases suddenly, the integrated house can quickly build temporary classrooms, equip tables, chairs, blackboards, and multimedia teaching equipment to ensure the uninterrupted development of teaching activities.   Campus function expansion: In urban campuses, integrated houses are used to expand characteristic teaching areas, such as pottery classrooms, robotics laboratories, psychological counseling rooms, etc., to meet the diverse space needs of quality education at low cost and high efficiency. (5). Healthcare   Temporary medical stations: In remote villages, communities, or during the period of epidemic prevention and control, integrated houses can quickly set up temporary medical stations, set up consultation rooms, treatment rooms, and drug storage rooms to supplement the shortcomings of primary medical resources and respond to public health emergencies.   Rehabilitation and recuperation centers: Some small rehabilitation and recuperation institutions use integrated houses and are located in the suburbs with beautiful environment to create a quiet and well-equipped rehabilitation space to assist patients in physical and mental recuperation.     7. the price advantage     Our detachable container house is significantly competitively priced, there are no hidden fees. Compared with products in the same industry, under the same quality and configuration, our price is more advantageous, so that customers can obtain high-quality space solutions at a lower cost and create greater value for customers.   8. Delivery capacity     Suzhou Daxiang container House Co., Ltd. has a strong delivery capacity, far exceeding the level of its peers. Our factory can deliver in four days at the earliest, for orders within 60 sets, we guarantee delivery in 3-4 days, and orders within 200 sets can be delivered to customers within a week. Our efficient production process and perfect supply chain management system ensure the rapid processing and timely delivery of orders, so that customers do not need to worry about construction delays, and can be quickly put into use to meet the needs of various urgent or time-sensitive projects.   9. Logistics and transportation     We offer a variety of flexible trade process options, including EXW, FOB, CIF, DDP, etc., to support sea and rail transportation methods to meet customers' different logistics needs and cost budgets. We have a dedicated logistics department and have established long-term and stable cooperative relations with many shipping companies, which can ensure the priority booking of shipping space and the safe transportation of goods. With rich logistics experience and professional team, we can quickly provide customers with accurate logistics quotations, and logistics costs are lower than industry standards, saving transportation costs for customers, providing convenient, efficient and economical logistics solutions to ensure that products are delivered to customers around the world on time and safely.   10. Warranty commitment     We provide up to 5 years quality warranty service for every customer, during the warranty period, for any failure or damage caused by product quality problems, we will repair or replace parts for customers free of charge, so that customers have no worries. Whether it is structural components, walls, roofs, doors and windows, or internal electrical systems, plumbing, etc., as long as there is a quality problem, we will quickly respond and solve it to ensure that the house is always in good condition, and protect the rights and interests of customers and the return on investment.   11. Example of installation steps     (1). Site selection and preparation: select the flat and hardened ground to place the house, ensure that the ground is level, and try to avoid placing the house in a low-lying place to prevent rainwater backlogging. If the site is in a low-lying area, it can be considered to build a concrete foundation or steel structure support foundation according to the actual situation to ensure the stability and safety of the house.   (2). Housing installation and positioning: transport the loose materials to the selected site, and arrange workers to install them in the correct steps and sequence   (3). External water and electricity connection (optional solar energy): The power supply interface and water pipe interface can be installed on site outside the house, and the external power supply and water pipe can be connected to the corresponding interface to ensure the normal water and electricity supply. If the customer chooses to use solar energy, they can install solar panels on the roof of the house or at a suitable location around the periphery according to the installation instructions of the solar equipment, and connect them to the electrical system inside the house to achieve solar power supply and improve the flexibility and environmental protection of energy use.   (4). Installation and commissioning of internal facilities: installation and commissioning are carried out according to customer-customized internal facilities, such as cabinets, etc. Make sure that the cabinet is installed firmly, the door opens and closes smoothly, and the internal storage space is reasonably laid out to meet the needs of use. Carry out a comprehensive inspection and commissioning of other internal facilities, such as electrical systems, toilet facilities (if customized), etc., to ensure that the facilities are operating normally and that the house can be delivered to customers for normal use.       Choosing detachable container house from Suzhou Daxiang Integrated Housing Co., Ltd. is choosing an innovative, efficient, environmentally friendly, comfortable and cost-effective living and working space solution. With excellent quality, professional service, rich experience and strong customization capabilities, we will carefully create the ideal residential and commercial space for you, and work together to open a new chapter of a better life and career development, and move towards a better future together.

  ETIQUETAS CALIENTES : 2 storey container house cheap prefab container house detachable container house affordable prefabricated house low cost container home

  LEER MÁS