Seamlessly outputs standard formats (DXF, HPGL, ISO) directly to cutting systems like Zünd CAD/CAM equipment.
: The Footwear Technological Institute (based in Spain) is an internationally recognized hub for industrial innovation, specialized software development, and sustainable manufacturing practices.
The ( INESCOP ) is a world-renowned Spanish research entity focused strictly on technological innovation for the footwear sector. One of its most impactful software legacy systems is SIPECO (Sistema Inescop de Patronaje, Escalado y Corte de piezas).
+------------------+ +-------------------+ +------------------+ | Physical Trepa | --> | Scanner / Tablet | --> | SIPECO Portable | | (Master Shell) | | Digitization Input| | Pattern Grading | +------------------+ +-------------------+ +------------------+ | v +------------------+ | CNC / Laser Cut | | Material Output | +------------------+ 1. Zero-Installation Hardware Mobility inescop sipeco trepa 54 portable
This article explores the features, benefits, and applications of the Inescop Sipeco Trepa software, emphasizing how this technology drives innovation in the shoe industry.
Courses are usually held in computer labs with a maximum of , and participants receive a digital manual and a certificate upon completion.
Eliminates formatting errors between the design office and production floor. One of its most impactful software legacy systems
The Trepa 54 Portable system was engineered as a self-contained, mobile hardware and software workstation. It allowed pattern makers to digitize their physical paper or cardboard shells directly on the factory floor, modify them dynamically, and execute automatic size grading.
| Parameter | Details | |-----------|---------| | Model | Inescop Sipeco TREPA 54 Portable | | Measurement scales | Shore A / Shore D | | Measuring range | 0–100 Shore units | | Resolution | 0.1 Shore | | Accuracy | ±1 Shore | | Indenter shape (Shore A) | Truncated 35° cone, 0.79 mm diameter | | Indenter shape (Shore D) | 30° cone with 0.2 mm radius tip | | Spring force (Shore A) | 0.055 N – 8.05 N | | Spring force (Shore D) | 0.055 N – 44.5 N | | Display | LCD, backlit | | Memory | Up to 100 readings | | Output | USB / RS-232 | | Power supply | Rechargeable Li-ion battery | | Operating temperature | 0°C to 50°C | | Dimensions (L x W x H) | 160 x 70 x 40 mm (approx.) | | Weight | ~300 g |
WARNING: NOMINAL SPACE. UNCALIBRATED. PROCEED? (Y/N) Courses are usually held in computer labs with
+--------------------------------------------------------------+ | INESCOP SIPECO OPERATIONAL PIPELINE | +--------------------------------------------------------------+ | | | [ 1. Physical Shell ] ---> [ 2. Hardware Digitization ] | | (Original Trepa) (Portable Scanner / Tablet) | | | | | v | | [ 4. Automatic Cutting ] <-- [ 3. Parametric Modification ] | | (Zünd CAM Outputs) (ICad2D+ / Grading Engine) | | | +--------------------------------------------------------------+ Core Technical Specifications & Hardware Architecture
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
Designers can isolate individual components—such as the vamp, quarter, lining, and reinforcements—directly from the digitized shell. Any subsequent changes to the master shell automatically cascade down to the extracted parts.
Seamlessly outputs standard formats (DXF, HPGL, ISO) directly to cutting systems like Zünd CAD/CAM equipment.
: The Footwear Technological Institute (based in Spain) is an internationally recognized hub for industrial innovation, specialized software development, and sustainable manufacturing practices.
The ( INESCOP ) is a world-renowned Spanish research entity focused strictly on technological innovation for the footwear sector. One of its most impactful software legacy systems is SIPECO (Sistema Inescop de Patronaje, Escalado y Corte de piezas).
+------------------+ +-------------------+ +------------------+ | Physical Trepa | --> | Scanner / Tablet | --> | SIPECO Portable | | (Master Shell) | | Digitization Input| | Pattern Grading | +------------------+ +-------------------+ +------------------+ | v +------------------+ | CNC / Laser Cut | | Material Output | +------------------+ 1. Zero-Installation Hardware Mobility
This article explores the features, benefits, and applications of the Inescop Sipeco Trepa software, emphasizing how this technology drives innovation in the shoe industry.
Courses are usually held in computer labs with a maximum of , and participants receive a digital manual and a certificate upon completion.
Eliminates formatting errors between the design office and production floor.
The Trepa 54 Portable system was engineered as a self-contained, mobile hardware and software workstation. It allowed pattern makers to digitize their physical paper or cardboard shells directly on the factory floor, modify them dynamically, and execute automatic size grading.
| Parameter | Details | |-----------|---------| | Model | Inescop Sipeco TREPA 54 Portable | | Measurement scales | Shore A / Shore D | | Measuring range | 0–100 Shore units | | Resolution | 0.1 Shore | | Accuracy | ±1 Shore | | Indenter shape (Shore A) | Truncated 35° cone, 0.79 mm diameter | | Indenter shape (Shore D) | 30° cone with 0.2 mm radius tip | | Spring force (Shore A) | 0.055 N – 8.05 N | | Spring force (Shore D) | 0.055 N – 44.5 N | | Display | LCD, backlit | | Memory | Up to 100 readings | | Output | USB / RS-232 | | Power supply | Rechargeable Li-ion battery | | Operating temperature | 0°C to 50°C | | Dimensions (L x W x H) | 160 x 70 x 40 mm (approx.) | | Weight | ~300 g |
WARNING: NOMINAL SPACE. UNCALIBRATED. PROCEED? (Y/N)
+--------------------------------------------------------------+ | INESCOP SIPECO OPERATIONAL PIPELINE | +--------------------------------------------------------------+ | | | [ 1. Physical Shell ] ---> [ 2. Hardware Digitization ] | | (Original Trepa) (Portable Scanner / Tablet) | | | | | v | | [ 4. Automatic Cutting ] <-- [ 3. Parametric Modification ] | | (Zünd CAM Outputs) (ICad2D+ / Grading Engine) | | | +--------------------------------------------------------------+ Core Technical Specifications & Hardware Architecture
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
Designers can isolate individual components—such as the vamp, quarter, lining, and reinforcements—directly from the digitized shell. Any subsequent changes to the master shell automatically cascade down to the extracted parts.