PRANCE metalwork is a leading manufacturer of metal ceiling and facade systems.
The project is located in Riyadh, Saudi Arabia, and involves a high-end residential villa community with a total area of approximately 5,000 sqm. The scope of work includes the development, fabrication, and supply of façade shading and roofing systems for multiple villa units.
The project focuses on delivering a shading solution that integrates well with the building architecture while meeting overall quality and performance requirements.
Project Timeline:
2026
Products We Offer:
Perforated aluminum sheet and vertical solar shading panel
Application Scope:
Shading and roofing systems for villa facades
Services We Offer:
Planning product drawings, selecting materials, processing, manufacturing, and providing technical guidance, installation drawings.
The project involved a cluster of high-end villas with strict requirements for façade consistency and detailing quality. Each villa varied in structure and façade dimensions, adding complexity to coordination and execution.
In addition, the overall site scale made traditional manual measurement less efficient and more prone to error. Collecting accurate data across multiple buildings would have required significant time and still carried the risk of deviations.
The main challenge was adapting the shading system to varying building conditions while maintaining a consistent overall appearance across all villa units. At the same time, the team needed a more reliable and efficient way to capture accurate site data to support downstream work.
We carried out high-precision 3D scanning across the entire site to capture the actual built conditions of each villa. Compared to conventional manual measurement, this approach provided a faster and more reliable way to collect accurate data on site.And the technical team a clear understanding of the real building geometry from the start.
After data collection, the point cloud was processed into detailed digital models for each villa. The design team worked directly on this data, allowing the system to align closely with actual site conditions.
This approach made it easier to adapt the design to different structures. It also reduced the need for adjustments during installation, as most conditions had already been taken into account in advance.
For the wall panel system, we solve the unevenness in the existing framing structure. The recorded deviation data reflects the level of misalignment between the framing system and the panel surface.
To address this issue, our technical team has designed an installation system with adjustable components that allow for forward and backward movement. This adjustment capability ensures an even finish for the wall panels.
With accurate data in the early measurement process, the production phase became more controlled and easier to manage. Component dimensions were verified earlier, which helped streamline the fabrication process.
This reduced material waste and minimized rework caused by dimensional discrepancies. As a result, installation on site became more efficient, with fewer adjustments required and a smoother overall workflow.
Precision bending, welding, grinding, and coating processes are carried out under strict manufacturing standards and rigorous quality control, ensuring that every product meets the precision and quality standards required by the project.
Before batch delivery for this project, the site engineers and client representatives conducted an on-site evaluation at our manufacturing facility. All the products successfully passed the quality control audit.