Inescop Sipeco Trepa 54 Portable -

Because the software integrates natively with automated cutting machinery, it eliminates the need for physical die-stamps. This allows factories to pivot seamlessly between different shoe styles, making it highly effective for short-run collections, custom bespoke footwear, and agile manufacturing models. Software Ecosystem and Extensions

Enables technicians to perform pattern modifications and grading on-site at different manufacturing facilities.

Because the software is deeply rooted in professional footwear engineering, specialized training is often required. Organizations like the ARSUTORIA School and INGA 3D utilize INESCOP's tools to train the next generation of footwear designers.

Modern footwear manufacturing requires a strong focus on sustainability and digital integration. By standardizing on a digitized pattern workflow like , companies can align with modern manufacturing practices:

This public link is valid for 7 days and shares a thread, including any personal information you added. This link or copies made by others cannot be deleted. If you share with third parties, their policies apply. Can’t copy the link right now. Try again later. inescop sipeco trepa 54 portable

You rarely use power tools that create dust, or you only need water extraction once a year.

7-inch angle grinder with a diamond cup wheel. Result: The 250 mbar suction pressure is immediately noticeable. The machine extracted 95% of the dust at the source. The auto-start function kicked in within 100ms of pulling the grinder’s trigger. After 2 hours of grinding, the filter shaker recovered 100% of the suction. The 54-liter bag filled with 30kg of fine silica dust without a single leak.

SIPECO‑Trepa is primarily a 2D tool. For full 3D design and visualisation, INESCOP offers , a complete 3D design system that integrates seamlessly with SIPECO‑Trepa. ICad3D+ allows designers to draw directly on the digital last (shoe mould) or on the trepa.

: The graded pieces are automatically arranged on the available material (leather, synthetic, etc.) to minimise waste. The system optimises placement and rotation for maximum material utilisation. Because the software is deeply rooted in professional

By automating the tedious process of grading and pattern modification, designers can focus on creativity rather than manual labor. The system handles complex sizing modifications, including adjustments for different widths and lengths. B. Precision and Consistency

By automating the "labour-intensive" parts of footwear design—such as non-conventional constructions like

: Designers use a precise electronic stylus to trace the physical lines of a card stock trepa .

By migrating the power of INESCOP's pattern development systems out of isolated offices and closer to actual production lines, manufacturers shorten the time required to take a shoe concept from a designer's physical last to a scaled, market-ready line of footwear. By standardizing on a digitized pattern workflow like

The "Portable" version allows designers and pattern makers to bring the precision of the factory floor into a mobile or desktop-flexible environment, ensuring that high-quality shoe engineering isn't tethered to a single workstation. 🛠️ Key Features & Innovations Pattern Scanning:

The software is designed to be intuitive for pattern makers who are accustomed to working with paper trepas. Because it starts from a digital version of the pattern, there is no need to begin from scratch every time. This dramatically reduces development time and material waste, while improving accuracy and repeatability.

Users can digitize paper patterns (trepas) directly into the system using a digitizing tablet or modern scanners.