Digital Patterning

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This site is for industry professionals interested in faster, more profitable pattern making with digital patterning.

Ensuring Profitable customization of Automotive Interiors

Ensuring Profitable customization of Automotive Interiors

In the US, Automotive businesses specializing in interior repair or design of aftermarket products are on the rise.  The industry employs about 337,629 people, rakes in roughly $42 billion annually, and grew more than 2.0 percent per year between 2012 and 2017.

Yet, even with this increased demand, the economics of building and sustaining these businesses can be extremely challenging.   Transitioning to digital solutions has proven to be an easy-to-implement and cost-effective way to address this challenge.

Digital Solutions for Automotive Interiors design and manufacturing.

Digital solutions such as 3D CAD, digital patterning software and automated cutting equipment are used in almost every textile and composite product manufacturing industry.  These tools reduce or eliminate legacy manual processes and help businesses recover product design-cycle time and profitability.   A quick overview of some of the leading solutions and typical workflows highlights the advantages of making the move to digital.

In the digital process, 3D Scanning captures the design, the 3D model is editing into “pieces” in the CAD tool, and then an FEA mesh model is ready for the precision flattening process in ExactFlat. The transition to digital means a legacy manual process that might have taken hours is reduces to minutes.

In the digital process, 3D Scanning captures the design, the 3D model is editing into “pieces” in the CAD tool, and then an FEA mesh model is ready for the precision flattening process in ExactFlat. The transition to digital means a legacy manual process that might have taken hours is reduces to minutes.

3D Scanning - capture the design

Automotive interiors are 3Dimensional.  Precisely capturing the correct 3D measurements is the critical first step in the repair or retrofit process.  The “Drape and Tape” method is the typical approach.  In this process, plastic or Mylar film is:

  1. Draped over existing product such as a car seat,

  2. Taped down and marked up,

  3. Cut and measured,

  4. Uploaded into patterning software using digitizing equipment.

While highly-experienced technicians can perform this task within a reasonable amount of time, the duration of the process as well as potential rework effort due to errors tends to have a large impact on overall costs.

3D Scanning has proven to provide a cost-effective alternative to the manual approach.   The current generation of handheld scanners can quickly create an accurate 3D CAD representation of the design.  The digital model is then edited to add features (cut lines, different material sections, etc…) and is immediately ready for flattening.

Different materials properties can be assigned to each piece in the design and then the entire model if flattened simultaneously. Click on the image to view a brief walk through of the process

Different materials properties can be assigned to each piece in the design and then the entire model if flattened simultaneously. Click on the image to view a brief walk through of the process

ExactFlat Digital Patterning – Convert 3D to 2D patterns in minutes

Even though the final parts are 3D, the textiles used to create them (cloth fabrics, vinyl, natural and synthetic leathers, etc…) are flat, 2D materials.   In the digital workflow, digital patterning software such as ExactFlat is used to rapidly convert the 3D designs into exact 2D patterns.

The software automates the steps by:

  • Simplifying the design model for optimal compute time using Finite Element Analysis (FEA) technology.

  • Assigning actual material properties to ensure the precise flattening behavior of each piece.

  • Providing strain displays which are used to validate fit and wear estimation of the pattern before any expensive material is cut.

 

Gerber Technologies - Pattern engineering and marker making

The final stage before manufacturing is to prepare the patterns and markers for cutting.  This step also benefits from the transition to digital because the 2D patterns, which were created directly from the 3D Scanned models, can now be used immediately on the automated cutter or pattern engineering software.

In a recent example, the manufacturer used Gerber AccuMark 2D patterning software to:

  • View cut lines for the pattern

  • Add or recognize existing seam allowance and notch location data specified by the designers

  • Optimize the material usage for the parts (Gerber AccuNest)

  • Label each piece to reduce cut, and sew time.

Once completed, the marker is ready for cutting. 

Gerber AccuMark works directly with the 2D Patterns created in ExactFlat. Linking the 3D CAD design to the 2D Pattern, eliminates the “trial and error” or “drape and tape” phase of the pattern making process.

Gerber AccuMark works directly with the 2D Patterns created in ExactFlat. Linking the 3D CAD design to the 2D Pattern, eliminates the “trial and error” or “drape and tape” phase of the pattern making process.

Learn More – Sign up to test the workflow on your products

As shown in this example, the transition from legacy manual methods to digital processes can dramatically reduce costs associated with expert labor, rework and wasted material.   This all combines to help increase the profitability achieved on every project. 

To learn more, simply click on the link below to schedule a time to speak with one of our experts.

Enabling Cost-effective use of Composite Materials - Part II

Enabling Cost-effective use of Composite Materials - Part II

Enabling Cost-effective use of Composite Materials in Aircraft Design

Enabling Cost-effective use of Composite Materials in Aircraft Design