Green Bay Innovation Group
GBIG News

5 Ways Pouch Converting Technology Can Protect Your Materials Investment

5 Ways Pouch Converting Technology Can Protect Your Materials Investment

Thanks to dazzling artwork and the latest in science and technology – from the extruder to the printer to the laminator, today’s packaging film is eye-catching and durable.

It’s stunningly beautiful. And expensive.

In fact, by the time the parent roll gets to the converting machine to be made into pre-made pouches, it is at the most expensive point in the ‘film-making’ process.

colorful packages laying flat

As much of that valuable film as possible needs to end up as a successful package -and as little as possible in the scrap bin.

“Pouch converting technology has come a long way to preserve the investment that brand owners make in the materials which ultimately must protect and promote their products,” says Scott Fuller, Pouch Equipment Product Line Manager for CMD.

Here are 5 suggestions to utilize that technology to get the best overall efficiency and least amount of waste in your pre-made pouch converting process.

1.) Choose machines that utilize a shorter footprint and reduced web path – this results in less material needed at thread-up, better web control and less waste.
“Pouch machines have historically been very long,” says Fuller “Threading up the entire length of a 50 or 60 foot machine uses a lot of film, and when adjustments are made at the back of the machine, a lot of material can be wasted waiting for the adjustment to work its way to the front”.
Reducing the machine length and shortening the web path, allows for better web control and more efficient adjustments. “This makes so much sense that CMD reduced the overall length of our 760-SUP machine by 11 feet, and the web-path by over 20 feet” adds Fuller.

2.) Insist that the pouch system your pouches are converted on is easy to use so operators can competently dial in recipes for fewer mistakes, waste and downtime.

man touching touch screen

“After years of consulting with customers, partnering in SMED events and collecting data, it became very clear that the amount of waste associated with difficult-to dial-in-systems was much higher than originally estimated,” says Fuller.

Today’s machines offer sophisticated controls systems that are capable of automating much of the process. “The unresolved step was not the capability of the machinery; rather, it was a matter of refining why, and how the operator needed to interact with the machine.” notes Fuller, adding that simplifying the process and incorporating ease-of-use concepts were critical to closing this gap.

“The updated design of our stand-up pouch system focused on simple, fool-proof adjustments throughout the machine, and intuitive touch screen controls with data-rich reports to predict and prevent downtime,” says Fuller. He notes that the system includes an on-board standard operating condition (SOC) worksheet that can be used to pre-set the machine so very little film is wasted at changeover.

3.) Your system should have robust sealing technology with a wide operating window and a methodology to confirm that the pouches you produce are not only beautiful, but strong, with no leakers.
“With today’s technology, there is no reason you can’t have verifiable data on your pouch quality, and with the price of the film being converted, it makes good sense to expect it,” says Fuller. Data acquisition and IoT has evolved to produce real-time reporting, and powerful KPI dashboards that can be accessed on the machine or remotely.

4.) A reliable system will consistently produce the same quality on each pouch in your production run – resulting in less waste and fewer complaints on final package quality.
“The reliability factor is huge,” says Fuller. “Your pouch machine should consistently produce the same results, without the need for constant minding or excessive readjustment.” Relying on the system to produce the same quality, pouch after pouch, means you can also rely on fewer adjustments and less waste.

5.) A system designed with flexibility in mind is helpful to add the finishes and function that today’s convenience-conscious consumers demand – easy open/close, sturdy stand up properties for shelf appeal, etc… The pouch converting system should be designed to easily add the tooling needed for these extras.

cash on a conveyor belt

“While most pouch systems are designed to add these capabilities, finding one with a design that flexibly moves tooling in and out while retaining robust process stability, is the best choice for consistent quality and less waste.

Much is invested in producing the perfect aesthetics for your packaging. Utilizing ever-improving converting technologies to ensure the most efficient use of that investment is a wise strategy for growth and success.

About CMD

CMD is a technology-driven innovator of converting machinery and automation for plastic bags and pouch packaging for the medical, food and shipping industries. CMD also designs and manufactures quality fueling equipment for the CNG (compressed natural gas) industry. Custom and stock machinery, parts, upgrade kits, and engineering services are offered in the Americas, Europe, Asia, Australia and the Middle East.

CMD is known for advancing technology that offers real value to customers. The firm’s inventions include: high-speed, continuous-motion bag sealing and drawtape trash bag converting; overlap bag winding for one-at-a-time dispensing of bags-on-a-roll; and Intelligent Sealing for verifiable pouch quality. All equipment is built in the U.S; and designed for durability and ease of operation. CMD employs 200 dedicated professionals and operates from a 126,000 sq. ft. campus focused on technology development and manufacturing in Appleton, Wisconsin USA.

www.cmd-corp.com

Green Bay Innovation Group

Bringing Green Bay Companies Together. Green Bay Innovation Group is committed to building an authentic networking experience where innovation can thrive.

Contact Information

Phone: 608-698-3333 
martinpochs@gmail.com
Subscribe to Newsletter


© 2021 Green Bay Innovation Group

LinkedIn
Share