From the Sector

Paper Converting Machine Company (PCMC) has announced its industry-leading wet wipes folding machines the Rx200 and Mako Clipper are now available with high-content alcohol, measuring as much as 70 percent.

Previously, PCMC wet wipes machines operated with less than 20 percent alcohol, producing disinfectant wipes for personal, home, industrial and automotive use. However, the COVID-19 pandemic has created a spike in demand for sanitizing wipes that contain at least 70 percent alcohol, the key component in killing or deactivating viruses.

To help manufacturers meet the increased demand, PCMC redesigned its Rx200 and Mako Clipper to safely operate with high-content alcohol. The new designs feature increased air exchange for better ventilation and additional sensors to eliminate the risk of flash points and fires. The machines also include IDS 150/300 integrated dual stackers and a redesigned Mako saw to meet more stringent regulations and higher machine performance expectations.

New blade edge and integrity sensors save operators time and money

Paper Converting Machine Company (PCMC), part of Barry-Wehmiller, has announced that the Xcut saw, its newest tissue saw, now includes innovative sensors that monitor saw blade condition. This new technology tracks the edge of the blade and monitors it for the earliest indications of a blade crash.

The blade edge sensor monitors the current diameter of the blade, and automatically adjusts functions like grinder depth and other blade wear compensations. This sensor also gathers data that can be used to study the blade wear rate. Using a blade diameter measurement, which is performed in real time, along with the number of cuts and grind parameters, the PLC can fit a regression function to this data to inform the operator of the estimated number of cuts remaining on the blade for a given product diameter. Understanding blade wear allows operators to more easily optimize the process and preplan for blade changes.

In addition, the Xcut saw features a fiber optic blade integrity sensor. A blade with a chip or portion of the edge missing will produce cuts with streaks or shreds that are unacceptable to most producers. The defect is usually detected only after a significant amount of product is cut and potentially passed on to the packaging operations. The material expense, lost production and time it takes to purge the product from the system are costly. During normal operation, the sensor is covered by the blade. If at any point the sensor becomes uncovered, it puts the saw into emergency stop mode. The sensor would only become uncovered if the blade crashes or breaks. The emergency stop prevents further damage to the saw caused by slinging blade fragments.

“The blade edge technologies, along with the many other innovations on the Xcut, make the saw easier to maintain and safer to operate,” said Jonathon Zahn, PCMC’s Lead Mechanical Engineer for the Xcut. “Ease of use and operator safety are always goals when developing new products at PCMC.”

New tissue log saw allows operators to track critical component lifecycles

Paper Converting Machine Company (PCMC), part of Barry-Wehmiller, has announced that the Xcut saw, its newest tissue log saw, now has the ability to use predictive maintenance to reduce unplanned downtime.

With this new capability, operators will be able to track the lifecycles of critical components and monitor the performance of others. The saw will provide notifications regarding upcoming maintenance requirements before they become critical issues, allowing operators to have replacement parts ready when the time comes.

The Xcut saw will monitor and collect information from servo motor feedback, vibration sensors and other devices, and alert operators when the machine needs maintenance. For example, if an axis becomes more difficult to turn or experiences abnormal vibrations, the predictive maintenance system will provide an alert that the gearbox may need to be replaced.

This multifaceted approach to predictive maintenance allows operators to tackle multiple maintenance tasks at the same time, which reduces downtime and gets the machine back into production more quickly.

How many jackets do you need to get through all the shifts in temperature during fall and winter? The moment may have arrived where just one jacket will do. And how cool would it be if everyone could optimise the warmth of their jacket individually and adapt it to their personal feel-good factor? And all in a product without compromises, where sophisticated design and intelligent fabrics join forces with technological competence? For this ambitious aim, these three leading companies put their heads and their core competencies together.

The Heatable Capsule Collection is on its way
Today, Telekom, AlphaTauri and Schoeller are launching a technological innovation together: the Heatable Capsule Collection. While Telekom is bringing its technological components to the table, AlphaTauri designed the collection and Schoeller developed the heating technologies and fabrics as well as the electronic components. The Heatable Capsule Collection kicks off with a jacket and a gilet in two different colourways. Wearers decide the level of warmth for themselves in the jacket or gilet. The clothing items are operated by app. Individual zones around the pocket and kidney areas can be heated.

The collection, for men and women, targets the lifestyle and technology-oriented consumer segment, the so-called “urban explorer”. The apparel is cross-seasonal, suitable for all cooler types of weather, and practical when travelling, hiking or for other sports. The partially heatable gilet can be worn alone or under a jacket.

The ideal feel-good temperature can be selected from two heating levels in the jacket and gilet. Thanks to Schoeller® E-Soft-Shell heating technology the heat function is completely integrated into the fabric and localised as close as possible to the wearer’s body. Beyond that, the inbuilt sensors can measure the microclimate temperature inside the jacket.

The jacket is already being further developed with additional features, where connectivity and AI will become increasingly relevant.

A. Monforts Textilmaschinen GmbH & Co. KG will demonstrate a range of new advances made possible by Industry 4.0 techniques at ITMA 2019 in Barcelona, Spain, from June 20-26.

At stand D101 in Hall 2, visitors will discover the possibilities of ‘digital twin’ capability – now being made available for all Monforts machine systems – and that by exploiting the latest advanced sensor technology, comprehensive technical machine data can now be virtually mapped in the cloud in real time. The data can be easily accessed using the new Monforts Smart Support and Smart Check apps for an instantaneous status overview. All specifications relating to machine performance and the production process can be mapped, to enable vastly simplified and targeted analysis for controlled planning and production. Insights harnessed from such analysis can be used to optimise the actual production process. At the same time, potential sources of error can be anticipated and eliminated, enabling improved machine availability while considerably minimising downtime.

Parts prediction
In addition, the digital twin system provides information on the individual wear parts of a system, such as, for example, converters or gears. “Operators and mill managers are informed by Smart Check sensors when maintenance or the replacement of key components will be required, well ahead of time,” explains Monforts Vice President Klaus A. Heinrichs. “Direct access to the integrated Monforts webshop allows users to instantly order such parts when they are needed, virtually preventing machine downtime.” On request, Monforts can also virtually monitor machine performance and pro-actively alert customers to the need for preventative action. In such cases, however, data is only ever called from the cloud by Monforts when customers have given their full consent, in the interests of data security. Data from Smart Check, for example, can even be used to analyse a system’s energy requirements, allowing machine operation to be optimised by tailoring production runs to the peaks and troughs of electricity costs.

"Datacenter in a box" is the new powerful, flexible and secure IT infrastructure solution for the textile industry of the future

Remscheid/Berlin – Oerlikon Manmade Fibers Segment Industrie 4.0 solutions for the production of polyester, nylon and polypropylene are based on the digitalization of the production landscape and the intelligent processing of the flood of data generated in this way. In the future, the segment will offer its customers a new powerful, flexible and, above all, secure IT infrastructure. The "Datacenter in a box" was presented for the first time at the OpenStack Summit in Berlin, Germany, to a broad specialist audience. The compact datacenter works on the basis of the open operating system OpenStack, which enables virtual computing in a secure private cloud environment.

Externally, the datacenter looks unspectacular: The box contains standard hardware such as server rack, network components, batteries for reliability, monitoring sensors and a few more things. But what counts are the inner values. The Open Source software OpenStack consists of many different services and allows the virtualization of a large pool of computing, storage and network resources in a flexible, scalable private cloud. This brings two central advantages: On the one hand, virtual operation reduces costs and simplifies configuration, adaptation and expansion of the IT infrastructure today and tomorrow. On the other hand, long-cherished wishes for high data protection are fulfilled, because a private cloud maintains secure, highly encrypted data connections away from the World Wide Web.

"The functional diversity of a cloud, operation and hardware in one's own four walls at the same time – our customers immediately understood these advantages" reports Mario Arcidiacono, specialist for Business Intelligence & Data Warehouse at the Oerlikon Manmade Fibers Segment. The IT architecture also guarantees infrastructure management without downtime, the system and virus protection are automatically kept up to date at all times. Another major advantage is the scalability of the hardware and software, which can be adapted to changing requirements.

OpenStack Summit: Project example with yarn manufacturer from Vietnam presented

With these trump cards and a project example, the Group segment confidently presented itself to a genuine specialist audience in mid-November. At this year's OpenStack Summit in Berlin, where thousands of cloud professionals met, Oerlikon Manmade Fibers Segment CEO Georg Stausberg presented the customer installation at Century Synthetic Fibre Corporation, which supplies many well-known sporting goods manufacturers. The Vietnamese producer of high-quality yarns not only uses the new datacenter, but also the connection to the new "Common Service Platform (CSP)" of the Oerlikon Manmade Fibers Segment as well as an innovative new dashboard solution in prototype status. In this case, the digital instrument panel supports employee communication during shift changes in the yarn factory and introduces agile methods into the work process. The board visualizes the progress of central key figures and operating parameters from the current production process. Based on this, the employees of the successive shifts can now exchange important process and quality information and possible instructions for action within a few minutes in a structured stand-up meeting. "For the customer this means an immediate improvement of the processes, and he can significantly increase the efficiency and quality of his employees' work," assures Joerg Gross, Senior Manager in the IT-architecture team at the Oerlikon Manmade Fibers Segment.

New IT-basis for the Plant Operation Center (POC) already successful established on the market

The fixed connection to the "Common Service Platform (CSP)" of the Oerlikon Manmade Fibers Segment plays a pioneering role in such solutions. This enables services and software updates to be provided smoothly, quickly and automatically. In this way, service applications can transform collected data into instructions or automated commands to secure and improve processes. For example, the secure availability of management solutions such as the Plant Operation Center (POC) for process monitoring can be increased and possible errors can be rectified very quickly. The new digital solution AIM4DTY (AIM = Artificial Intelligence Manufacturing), which was unveiled at the ITMA ASIA + CITME 2018 in Shanghai, China, a few weeks ago, can also be implemented in this way. AIM4DTY uses methods of machine learning, determines probable causes of errors in texturing and helps to improve quality during production.

Launch at ITMA Barcelona 2019

The Oerlikon Manmade Fibers Segment offers such remote-supported services on request. Data will therefore only be transferred to the “Common Service Platform (CSP)” with the customer's consent. In addition, all data is processed in accordance with the new European General Data Protection Regulation (GDPR) and all other international data protection standards. Against this backdrop, the Oerlikon Manmade Fibers Segment plans to provide its datacenter with graded or customer-specific solutions: from complete service to provision with customer training for its own operations. After initial practical experience with several pilot customers, the segment intends to launch its offering on the market next year and officially present it to the textile industry at ITMA 2019 in Barcelona, Spain.

Lectra has leveraged more than 10 years of experience in connected manufacturing to offer Versalis®, an innovative digital solution designed to cut leather without compromise on quality. Featuring a powerful automatic nesting system for overall improvements in efficiency, the fully automated solution enables automotive leather suppliers to cut costs, improve productivity and minimize waste while also establishing a pathway to value-added Industry 4.0 processes.

Currently, almost 90% of leather used for automotive applications is cut using manual die presses, which require designers to build a physical prototype and finalize the design through trial and error. Lectra offers a fully digitalized leather solution from prototyping to cut parts—when used in combination with Lectra’s 3D prototyping and pattern-making software, Versalis digital leather cutting solution enables a 12-16 week reduction in development and launch cycles for vehicle seating models.
During the leather-cutting phase, the latest release of Versalis LeatherSuite allows automotive leather suppliers to achieve up to 15% greater productivity. Lectra’s end-to-end automotive leather offering furthermore guarantees optimal uptime through an extensive worldwide support network of field engineers and technical experts.
"Lectra focuses on a consultative approach that allows it to fully understand the customer’s needs before building a solution comprising software, hardware, consulting, training, and after-sales support,” said Frost & Sullivan Industry Analyst Kamalesh Mohanarangam. "Lectra’s equipment is fitted with more than 200 sensors that predict failure and immediately report issues to its call centres. This product feature and service has resulted in 98% uptime and very fast mean time to repair."

Although digital leather cutting solutions are an investment, leather cutters and Tier-1 suppliers have begun to recognize the value of these products. On average, Lectra’s solutions help customers achieve up to 7% savings on leather compared to manual die-press methods by minimizing human error and variability in the cutting room. A benchmark test of leather trim cutting for door panels demonstrated a 3.5% gain in material made possible by Versalis’ superior nesting capabilities compared to the customer’s yield using manual nesting with die press machines, representing potential savings of €9 million per year.
Versalis is the fruit of significant R&D investment for the company, which has always made re-investment of capital a priority. As part of a transformational plan, Lectra spent more than €50 million in investments between 2011 and 2015. With Lectra’s new strategy focusing on supporting their customers’ transition to Industry 4.0 standards, Lectra will increase the share of revenues dedicated to R&D to 10% for the period from 2017 to 2019, representing a rise of about 50% between 2016 and 2019.