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A combination of sorting and storage automation allows users to take full advantage of high-powered fiber lasers.

Initially, the following scenario sounds like a dream come true:  You’re looking to grow or modernize your fabrication business by adding or replacing a laser cutting machine, and every option available is a fiber-powered machine that will make quick work of what you have on your current production schedule. Not only does the upgrade from a CO2 laser to a fiber laser (or even a fiber to a higher power fiber) give you a machine that fits in roughly the same floor space, but it also consumes less energy and is likely five times more productive on average.

That dream come true, however, can start to get scary, fast. The math stops revolving around the inch per minute (ipm) feed rate of a laser cutting head and starts to reckon with a new metric: tons per hour across the cutting table.

It is well within the capabilities of modern laser equipment to cut 1/4- in. steel faster than 500 ipm. The nest runtime in a 500-lb. sheet of steel that took 30 min. or longer on the 10-year-old machine is reduced to 6 min. This equipment is now capable of processing 2.5 tons of steel per hour, or a full truckload of steel in one 8-hour shift. This requires a human (or team of humans) to handle 83 lbs./min., every minute, to keep the laser on. It’s difficult to see this task continuing on as strictly manual labor, especially with the missed opportunity of saving money by using that labor elsewhere in the shop.

This may conjure up images of a hectic, fast-paced laser work-in- progress (WIP) area full of parts and carts and hammers and forklifts driving full speed everywhere. This is a reality created if the shop focuses only on ipm without any automation considerations. Automation exists to increase productivity and efficiency, and when used properly in the fabrication environment, it makes life calm, controlled, predictable and profitable.

At the speeds of current high-powered fiber lasers, automation is a mandatory part of the equation for maximum return on investment. This adds another layer of decisions in what can already be a complex equipment evaluation and selection process. But, in discussions with prospects and customers, one thing is clear: The end goal for shops of all sizes is turning lasers into smart, automated fulfillment centers for parts, removing labor from the process and repurposing that resource elsewhere.

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Sorting systems effectively separate what the user needs from what they don’t need.

Sorting systems effectively separate what the user needs from what they don’t need.

Automated storing

In the next five to 10 years, North American fabricators are poised to adopt larger and smarter storage and retrieval solutions for sheet metal, but not just for raw material storage. With the adoption of the 10-plus kW fiber laser, the traditional 10-shelf tower no longer holds all the jobs that might be needed in a given day or even a single shift. A small tower storage system like this does help to reduce the critical path nature of a loading event, but the input buffer just isn’t large enough to feed the beast, and the output buffer is non-existent.

Therefore, the ability to segregate jobs from different customers or even jobs with the same material and thickness for routing to a press brake, the next operation, is a valuable shop management tool to have available. Too often, the value proposition

of organized laser WIP storage is overlooked. The secret to getting parts from the first operation to the second is to control when and how that takes place, and when that philosophy is embraced, a storage system can, indeed, offer several advantages:

Organization

Whether a job for a single customer or an amalgamation of jobs of the same material thickness, they all likely require the same tooling setup at the press brake and are easily grouped as such.

Scheduling and planning

The biggest morning productivity killer in a laser area is needing to sort through 10 or 20 sheets of material to get to the job that is prioritized first in the cutting schedule because it has the closest due date. If the sheet count in a cut parts shelf is controlled and limited to two or three nests or even a single sheet, the tower storage makes the sorting operations significantly easier when the parts are retrieved.

Workflow process

Completed jobs can be stored together or can be stored by subsequent downstream processes.

Floorspace

This is the largest single impact outbound or cut parts storage has on a high-powered laser shop. If a high-powered fiber laser has the same production output of five older lasers, it creates all of the parts those five older lasers would without the nooks and crannies of five independent work centers to store the parts as they come off the machine.

The key piece of the fully automated workflow after cutting is the ability to separate the product from the scrap in an efficient and controllable manner.

In addition to being able to move a lot of mass, sorting systems also prevent damage to parts during the removal and stacking process.

In addition to being able to move a lot of mass, sorting systems also prevent damage to parts during the removal and stacking process.

With multiple end effector options, including customizable variants, sorting systems now have the ability to meet the needs of a job shop environment.

With multiple end effector options, including customizable variants, sorting systems now have the ability to meet the needs of a job shop environment.

Automated sorting

Thanks to the ability to separate the product from the scrap in an efficient and controllable manner, the era of the automated sorting system for laser cutting is here. Sorting systems are no strangers to punching workflows where parts not removed in sequence could cause issues in the remainder of the nest. They are also much more forgiving to pick up considering the effective "kerf" that a punching tool creates when following an outer profile.

The speed of a high-powered fiber laser comes in handy here as the relative incremental cost of making nest programs "intervention free" by adding stress relief cuts and destructing inner cutouts to avoid tip-ups is too low not to consider. This is the real impact of high power, being able to cut competitively without having to cut corners. A programmer that is used to having to squeeze every last second out of an older CO2 laser just to keep up with production demands would feel unfamiliar with nesting for automated removal.

Relief/Waste Destruction Cuts

Cutting well is the key to sorting well. Shown are three types of relief or waste destruction cuts applied at the part level. While these extra steps add a few seconds to the cut time, they greatly contribute to the reliability of the automated sorting process.

When resources are less available on nights and weekends, a large storage system combined with automated sorting allow for an orderly Monday morning flow of laser work-in-progress parts.

When resources are less available on nights and weekends, a large storage system combined with automated sorting allow for an orderly Monday morning flow of laser work-in-progress parts.

If a sorting system can pick and place a 100-lb. part in 10 sec., that’s an effective 600 lbs./min. run rate, well above what a laser would typically process on its own.

So, looking at a sorting system combined with a large outbound storage system, the benefits compound in the following ways:

Organization

A tray of parts contains only parts and no skeletons. Parts move to the next operation with no “on the floor” decisions made by an operator. The sorting system is also unable to mix up "left" and "right" components, as they are different at a digital level and not subject to visual mistakes.

Scheduling

Parts dispatched first according to open or planned capacity, and scrap can be dealt with on an as-available basis instead of being a growing addition to a laser WIP area.

Streamlined workflows

As neat stacks of parts flow out on command, downstream processes are provided with streamlined workflows without the typical bottlenecks experienced with manual sorting and stacking.

Floorspace

Without a manual breakout area required, those square feet can be repurposed for value-adding processes or equipment.

Winning combo

Taking it to the next step, fabricators who have purchased an automated press brake will say that the real business impact happened when they started quoting work based on an automated workflow. They were able to win more jobs in larger quantities and increase their top and bottom lines.

The same applies to sorting systems. While there is typically a high margin on small lot sizes, the real returns that drive growth come in being able to deliver a higher quantity of product quickly and consistently. When trying to justify an investment, look at not only the jobs that comprise the current book of business but also the jobs that were lost to competitors. Cost per part likely played a big role in that buying decision.

The cost per part on an automated high-powered fiber laser cannot be beat by older equipment and expanding the order book without being able to exercise control over the additional work is a recipe for disaster. Using a combination of sorting and storage automation allows for shorter lead times, less back pain, and a smaller footprint with expanded production capabilities. Sounds like a recipe for success.

As published in Shop Floor Lasers
March/ April 2021

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