Design of Engineered Angle Walls
These walls are a combination of drywall structures with lightweight porous materials used as infill between them
In this wall construction system, the wall frames are made of wood, wood-based products, or screw-compatible materials, installed according to the architectural plan.
Required utility ducts are routed through the frame gaps. The final surface is finished with gypsum board, plywood, or similar panels.
To enhance the thermal and acoustic resistance of the wall, the empty space between the panels is filled with lightweight, porous material produced by the ZSMP smart pump.
Since the interior of the wall is not hollow and is filled with pre-specified materials, these walls offer excellent resistance to heat and sound transmission. They contribute to significant energy savings during both cold and warm seasons and, due to their superior acoustic insulation, enhance the quality of life within the building.
They feature very fast installation times, require minimal labor, and allow for the adjustment of the weight and composition of the infill using premixed and engineered materials.
Fully engineered and safe, these walls are designed to prevent collapse in the event of earthquakes or fire
Project Description
The Engineere Wall Project is an innovative system in the construction industry that combines a framed structure with advanced filler technology, offering an optimized solution to the challenges of traditional and industrial walls. In this method:
The wall’s primary structure is built using wooden frames or a wood-plastic composite, based on architectural plans.
Mechanical and electrical installations are embedded and secured within designated paths inside the frame.
The final wall surface is completed using gypsum, cement, or plywood panels.
The internal cavity of the wall is filled with lightweight, insulating material produced and injected by the ZSMP smart pump. These materials can feature sound, heat, and moisture insulation properties.
This process results in walls that are not only quick and precise to install but also offer high structural strength, optimal insulation performance, and enhanced safety against fire and earthquakes
هدف اصلی این پروژه، توسعه و ارائه یک روش نوین در اجرای دیوارهای ساختمانی است که مشکلات روشهای سنتی و صنعتی را برطرف کند. این رویکرد بر مبنای ترکیب تکنولوژیهای نوین در تولید و اجرای دیوار شکل گرفته و ویژگیهای زیر را در بر دارد:
کاهش وزن دیوارها با استفاده از مصالح سبک و مقاوم افزایش ایمنی در برابر زلزله و آتشسوزی از طریق یکپارچهسازی دیوار با سازه بهبود عملکرد عایقبندی صوتی، حرارتی و رطوبتی افزایش سرعت و دقت اجرا با استفاده از سیستمهای مهندسیشده کاهش هزینههای ساخت و نگهداری با بهینهسازی مصرف مصالح و انرژی
این رویکرد، گامی مؤثر در ارتقای کیفیت ساختوساز، کاهش اتلاف انرژی و افزایش ایمنی ساختمانها محسوب شده و تحولی جدید در صنعت ساختمان ایجاد خواهد کرد