Skip to content
MarketScale
‹ Back to IndustriesEngineering & Construction

The Benefits of Active Case Squaring

Is container collapse the root cause of your damaged products? After confirming that the corrugated cardboard is the appropriate strength for your product, one area of improvement may be box construction. Whether case building is done manually or by machine, one thing that often gets missed in the secondary packaging is skewed corners, with angles…

This story was produced through MarketScale. See how Engineering & Construction teams put it to work with Partner & Channel Enablement.

Share
The Benefits of Active Case Squaring

Is container collapse the root cause of your damaged products? After confirming that the corrugated cardboard is the appropriate strength for your product, one area of improvement may be box construction.

Whether case building is done manually or by machine, one thing that often gets missed in the secondary packaging is skewed corners, with angles that aren’t quite right. It’s difficult for humans to square up the packing cases with the naked eye (without losing speed), and few mechanical case erectors are designed with a fail-safe to ensure each corner is perfectly square before it’s sealed and rolls off the line. The result often shows up on the pallet, as the never-quite-even stack emerges.

Are you sending out skewed containers?

According to Packaging World as much as 11% of shipments arrive at distribution centers with at least some case damage; even though the average is 2%, finding ways to reduce that figure can save you a bundle in the long run. That’s why when it comes to choosing the right automated case erector for your secondary packaging module, speed isn’t the lone consideration. Precision squaring of the cases is critical.

Low-quality cardboard, improper handling, failure to stabilize the load in transit, and exposure to excessive humidity all can result in fallen, punctured containers and damaged goods that the retailer can’t sell. Some of these things are beyond your control. But skewed corners on shipping containers doesn’t have to be one of them. You can eliminate some of the risk of container failure with smart automation features such as active box squaring.

Why do boxes need a good square? Corrugated cardboard is designed to handle a certain amount of weight and pressure. But the formula works best when the box is properly built and assembled as designed. When a variable such as an off-kilter box angle enters the picture, that can lead to uneven distribution of pressure, thereby reducing the container’s compression strength.

How does active box squaring work?

Unlike standard machines, INSITE Packaging’s case erector takes a couple of extra steps to make sure each and every case rolls off with perfectly squared corners.

First, a pair of photo eyes scan the edges of the case, checking the angles of the corner before sealing. If that corner is off-kilter, one of the side belts guiding the box responds with a burst of speed to align with the other belt and adjusts the squaring before it’s sealed. That ensures when the box rolls off, ready for packing, it has nice, even corners.

When you can build shipping boxes with this level of machine precision, “everything just works better up the supply chain line,” says Paul Grussing, a technician at INSITE Packaging.

Boxes stack more evenly and securely on the pallet, decreasing the likelihood (and danger) of pallet collapse. The walls of the container are less likely to bow and bend. Month over month, you’ll see a positive impact on your per-unit cost.

A well-built box has more impact than you would think! Contact INSITE Packaging today and start seeing the benefits on your line.

For the latest news, videos, and podcasts in the Retail Industry, be sure to subscribe to our industry publication.

Follow us on social media for the latest updates in B2B!

Twitter – @MarketScale

Facebook – facebook.com/marketscale

LinkedIn – linkedin.com/company/marketscale

Engineering & Construction: are you visible to AI?

Before they reach out, Engineering & Construction buyers ask AI engines which vendors to trust. See how AI describes your company today, and where competitors show up instead.

Free workspace

You just read one expert. Imagine publishing your whole team.

This article was produced through MarketScale. Create a free workspace and turn your own team's expertise into articles, video, and social posts. No credit card, no demo required.

NPS +73 · 1,000+ creators · 38+ countries

What you get, free

Your own MarketScale Studio workspace
One video edit a month, on us
AI writing, editing, and publishing tools
In-platform coaching to learn the system

More Engineering & Construction Insights

AI moves from back office to job site in construction's next build-out

AI moves from back office to job site in construction's next build-out

McCarthy Building Companies has entered a multimillion-dollar agreement with Palantir to enhance AI adoption. However, RICS experts highlight that data readiness and organizational culture pose significant challenges. This development signals a shift in integrating AI within construction sectors.

  • 01McCarthy Building Cos. signs a major deal with Palantir.
  • 02Data readiness is a critical hurdle for AI integration.
  • 03Organizational culture impacts AI adoption in construction.

Jul 11, 2026

South Korea commits $7.5 billion to AI-autonomous manufacturing as smart factory count hits 30,000

South Korea commits $7.5 billion to AI-autonomous manufacturing as smart factory count hits 30,000

South Korea is investing $7.5 billion in advancing AI-autonomous manufacturing, with a significant increase in smart factories, now totaling 30,000. The initiative also targets the development of 100 AI manufacturing zones throughout the country.

  • 01South Korea invests $7.5 billion in AI-autonomous manufacturing.
  • 02There are currently 30,000 smart factories in South Korea.
  • 03The government aims to develop 100 AI manufacturing zones.

Jul 11, 2026

Construction's productivity crisis: why ML cost forecasting and off-site methods are converging

Construction's productivity crisis: why ML cost forecasting and off-site methods are converging

U.S. construction productivity has decreased since 1968. Machine learning models and off-site construction methods are becoming pivotal in bridging this productivity gap by providing accurate cost forecasting and efficient building practices.

  • 01U.S. construction productivity has been declining since 1968.
  • 02Machine learning models offer enhanced cost forecasting capabilities.
  • 03Off-site construction methods contribute to improved project efficiency.

Jul 10, 2026

Explore More Engineering & Construction Insights

Read more expert perspectives from across Engineering & Construction.

Browse Engineering & Construction Hub

For B2B teams

Your experts could be publishing here

Stories like this one run on content MarketScale captures from real practitioners. See how your team's expertise becomes coverage in Engineering & Construction and beyond.

Book a 15-minute demo

Or call us. No forms required. We pick up. 214-945-2512