From the Sector

Global energy consumption reached a record high in 2019, following a 40-year trend for rapidly increasing energy demand that was only halted by the Coronavirus pandemic. It’s estimated that more than 80 % of this energy is still generated from fossil fuels that produce CO2 emissions and contribute to climate change. Renewable energy offers a solution to this problem, but saving energy whenever possible is an even more effective approach. That are the motives for Trützschler to develop the intelligent card TC 19i, which sets a new benchmark for energy-efficient carding.

The intelligent Trützschler card TC 19i features the unique T-GO gap optimizer, which continuously and automatically monitors and adjusts the carding gap to an ideal position during production. Innovative drive- and air technology further reduce energy consumption of the TC 19i.

The most energy-intensive elements in a carding machine are the drive, the dust suction process and the compressed air system. Permanent suction is needed to remove dust and cotton waste in key places. Smart optimization of these areas has made the intelligent card TC 19i a benchmark for energy efficiency in carding because it uses less electricity, lower suction pressure and less compressed air than other machines, while providing the highest production rates currently available on the market.

In a head-to-head comparison between the TC 19i and a high-performance card from a competitor, the TC 19i consumed at least 10 % less energy per kilogram of material produced when manufacturing rotor yarn from a cotton and cotton waste mix. The compared energy values included electric power consumption and energy required for suction and compressed air and were measured in both cards at the same production of 180 kg/h. A 10 % reduction in energy per kilogram of sliver produced, as proven here by TC 19i, can have a significant impact on a spinning mill’s profitability; annual savings worth a five-digit sum are frequently possible, depending on factors such as the output of the mill. The customer trial also showed TC 19i’s excellent reliability at the customer’s usual production rate of 180 kg/h, and even demonstrated stable performance at 300 kg/h in the same application. Because the TC 19i with T-GO gap optimizer realizes maximum production rates at no compromise in quality, manufacturers can reduce their energy demand and investment costs drastically: Less machines are needed to achieve the desired output, and energy consumption per production is reduced.

This improvement was made possible by a long and sometimes challenging innovation process involving mathematical models of air flows, as well as flow simulations and prototypes. By combining the final flowoptimized parts in the TC 19i, Trützschler’s experts have developed a card that operates with suction pressure of just -740 Pa and with an air requirement of only 4200 m³/h. This translates into 40 % less energy demand for air technology compared to the latest high-performance competitor model.

WEIDMANN GmbH in Süßen is known worldwide as a specialist for the finishing of fiber and down-proof articles and woven industrial fabrics. Customers particularly appreciate the company's reliability and flexibility with regard to their individu-al requirements, and consistently high quality of its products. The Swabian textile manufacturer finishes premium fabrics, mainly for the bedding industry, using the latest technology and in an environmentally conscious manner.

The complex production and finishing processes for high-quality fabrics require a reliable and efficient machine technology. With this in mind, WEIDMANN has always relied on the proven stenter technolo-gy from BRÜCKNER. For many decades, the German textile machinery manufacturer has been a world leader in the con-struction of production lines for the finishing of classical textiles, woven industrial  fabrics, nonwovens, glass fabrics and floor coverings. In addition to stenters, the company's production program also in-cludes coating lines, relaxation dryers, sanfor lines, continuous dyeing lines as well as ovens for the bonding of nonwovens and other special lines. All machines are produced 100% in-house in Germany.

Both companies continuously invest in new and innovative technology in order to be successful and competitive today and in the future. Only Recently, a completely newly developed BRÜCKNER stenter was installed in the ultra-modern plant at WEIDMANN. During the intensive project engineering phase it soon became clear which features are of special importance for their daily production requirements:

• uniform moisture distribution in the machine entry and during pick-up of the specialized   chemicals in the finishing padder before the thermoprocess
• weft-straight fabric flow with minimized residual distortion
• very good accessibility for maintenance and daily cleaning
• sensor technology and automation of setting parameters for energy optimization
• heat-recovery with hot water generation for the dye house
• the line must be fully Industry 4.0 capable

Fibre Extrusion Technology of Leeds, UK has delivered nine meltspinning systems to clients in the biomedical sector since the onset of the Covid-19 pandemic, with a similar number currently on order for 2021/22. This way FET could confirm the position as an acknowledged world leader in meltspinning equipment for the production of precursor materials used in medical devices and as a default supplier for absorbable suture production systems, with orders virtually doubling year on year.

Recent installations include a multi-functional system that can produce both multifilament and monofilament pre-cursor fibres, but nonwoven systems have been particularly prominent, driven by the burgeoning demand for FFP3 masks, gowns and other medical products required during the pandemic. These have been sold to medical device manufacturing companies across the globe, including the Far East, USA and Europe. Research organisations have also invested in FET systems for biomedical applications, the most recent being the University of Leeds in a laboratory scale Spunbond system.

The FET in-house Process Development Laboratory and ongoing collaboration with biomaterial polymer suppliers has helped to optimise the biomedical melt spinning technology. The Laboratory is at the disposal of customers for all aspects of confidential testing and evaluation. To further increase this competitive edge, FET will be opening a new Process Development Laboratory and Visitor Centre in early 2022.

• New HYPER model produces extraordinary printing quality at unparalleled speed, approaching single-pass throughput

Electronics For Imaging, Inc. is launching its third new digital textile printer of 2021, delivering the world’s highest real production throughput for a scanning digital textile printer. The EFI™ Reggiani HYPER is a scanning printer available in 1.8-metre, 2.4-metre or 3.4-metre widths. With an up to eight-colour configuration, the EFI Reggiani HYPER prints at up to 13 linear metres per minute in two-pass production mode, making it the fastest textile scanning printer on the market. The new printer is suitable for high-quality production on knitted or woven fabrics and is designed with smart technology that enables it to be integrated into Industry 4.0 projects.

The new EFI Reggiani HYPER targets the industrial high-speed segment of the multi-pass textile printing sector. Not only is it the fastest multi-pass printer that EFI Reggiani has ever developed, but the fastest of its kind in the market, offering extraordinary printing quality with unmatched productivity.
 
The HYPER’s superfast carriage with 72 printheads can print two passes with production quality at speeds up to 13 metres per minute for a 1.5-metre-wide roll, or up to 10 metres per minute for a 3-metre-wide roll. On a 3.4-metre Reggiani HYPER printer, users can print a pair of 1.5-metre-wide rolls in parallel, delivering a total throughput of up to 20 metres per minute, which is comparable to some single-pass printers currently in the market.
 
The printer is powered by EFI Reggiani genuine inks, with high-quality formulas developed to ensure the best performance in terms of runnability and longer printhead life while producing astonishing colour depth and brightness, as well as excellent fastness properties.       

Zünd Connect compiles production data from integrated Zünd cutting systems into meaningful key performance indicators, such as cutter capacity, availability, and overall equipment effectiveness. Zünd Connect creates transparency and identifies areas in the digital cutting workflow with potential for optimization.

There are many ways to optimize digital cutting and ensure maximum productivity, which is the reason why Zünd now offers Zünd Connect, a monitoring tool that helps the user recognize this potential and increase productivity. Using Zünd Connect, the user can see at a glance when and, more importantly, why machine interruptions occur, how much time is spent in setup, and what the availability of each machine is.

The web-based monitoring tool gives the user access to cutter- performance data at a glance, any time of day. Reliable key performance indicators are available at all times to help users maximize productivity. The system records productivity levels over a freely definable period using Zünd Cut Center – ZCC (Version 3.4 or later) as data source. Data monitoring provides information users need in order to make informed decisions. This comprehensive overview of production data reveals connections that are often overlooked. Zünd Connect supplies valuable key performance indicators for assessing how efficiently cutting systems are working. To be able to improve cutter efficiency, potential areas of improvement must be uncovered and recognized. This potential lies primarily in the technology but also in the way it is being used.

Zünd Connect is available in a "Monitor" or an "Analyzer" version.

Kornit Digital (Nasdaq: KRNT), a worldwide market leader in digital textile printing technology, announced UK textile printing company Rialto Designs has invested in a Kornit Presto S with Softener Solution to drive printed textile fashion innovation.

Founded 25 years ago by textile technologist brothers Riyaz and Mohsin Omarji, Rialto Designs has established a client base that includes many of the UK’s leading fashion brands.
In recent years, the company has downsized its analog screen production and adopted digital direct-to-garment capabilities. Two Kornit Avalanche HD6 systems for on-demand DTG production have streamlined operations and increased output to gain new market opportunities.

The latest single-step, eco-friendly Kornit Presto S helps align Rialto’s roll-to-roll workflow with commercial growth and delivers high-quality natural and synthetic pieces, in any quantity and in short order.

Kornit’s DTG technology supports Rialto to deliver a service that sets it apart on speed, sustainability, and high quality. Clients can now order printed samples across hundreds of fabric bases—polyester and natural—and receive their orders within 24 hours.

After a long break, the international nonwovens industry will meet again in Geneva, Switzerland, from October 19 to 22, 2021 on the occasion of INDEX. DiloGroup offers tailormade production systems from one supplier and will inform about its portfolio and the latest equipment developments from fibre opening to the finished felt.

A new, simplified elliptical needle beam drive makes Hyperpunch technology also attractive for standard application. Hyperpunch HαV allows a more uniform stitch distribution in the preneedling process especially in combination with the new needle pattern 6000X. In a complete needling line this felt homogenization process can be improved further by using the new needle pattern 8000X which is a milestone in the needle pattern development process and results in endproduct surfaces with low markings over a wide range of advances/stroke.

The “3D-Lofter” which was first presented during ITMA 2019 in Barcelona offers a wider range of nonwovens applications by exploring the third dimension. A series of single web forming units which work according to the aerodynamic web forming principle deliver defined fibre masses in varied patterns on a base needlefelt. A stress oriented production of technical formed parts resulting in fibre savings or patterned DI-LOUR or DI-LOOP felts are two examples for this technology which explores new application areas for needlefelts The 3D-Lofter technology may also be used “inverted” for filling up bad spots in web mats and thus achieves a better homogeneity of e. g. spunlace, thermobond or airlay products.

The DiloLine 4.0 concept offer I4.0 modules which not only support the user but also facilitate quality control and maintenance by a maximum data transparency in production and control of operation. The Dilo solutions “Smart Start” for a fully automatic start of the production line or “DI-LOWATT” for energy savings are accompanied by Siemens solutions which can be selected via App or Data Cloud “MindSphere”.

Apart from machines for needling technology we offer in cooperation with partner companies also production lines including thermobonding and hydroentangling components.

• Long-term partnership between the Austrian textile producer FEINJERSEY and the German textile machinery manufacturer BRÜCKNER

The Feinjersey Group is an internationally operating textile company and supplies the "global players" of the textile industry worldwide. The value chain of the company, which is based in Götzis, Austria, ranges from yarn processing to the finished product.

As a fully integrated production company, the internationally active textile company Feinjersey attaches great importance to a high quality standard and guarantees care at every step in the process chain. With approx. 250 employees and annual sales of around 45 million euros, the company knits, dyes and finishes top-quality knitted fabrics as well as elastic woven fabrics for a wide range of applications.

Products are made for the fashion, sports, workwear and technical textiles sectors. Among other things, fabrics for the automotive industry, laminating backings and coating substrate for artificial leather or foils, construction textiles or fabrics for medical technology are all produced.

The Austrian textile manufacturer has been certified with the Bluesign textile seal and ensures efficient use of resources with modern machinery. Water and energy consumption as well as pollutant emissions are to be reduced to a minimum.

In textile finishing in particular, the focus is on minimising energy consumption as this process is the most energy-intensive in the entire process chain. Feinjersey uses its own photovoltaic system for this purpose, as well as the heat recovery and exhaust air purification systems on the stenter frames. By using the waste heat from production, the company's buildings are heated. All six stenter frames at Feinjersey are made by BRÜCKNER and produce with three-stage heat recovery and exhaust air purification systems.

The latest BRÜCKNER line has a working width of 4.20 m and is mainly used for the finishing of high-ly elastic and extremely sensitive knitted fabric. In order to avoid yellowing on the fabric, the stenter is equipped with an indirect gas heating system. The knitting oil vapours coming from the fabric during the heat-setting process are extracted from the dryer and cleaned in a BRÜCK-NER ECO-AIR exhaust air cleaning system before being extracted to atmosphere. The complete exhaust air treat-ment on the newest stenter is carried out by a multistage BRÜCKNER ECO-HEAT and ECO-AIR system.

The MS Ultrasonic Technology Group is a globally recognized technology and innovation leader in ultrasonic joining technology and develops and builds flexible special machines, pioneering series machines, modular systems and efficient components for high-performance complete solutions.

This enables optimal welding, punching, sealing, cut-off welding and riveting of thermoplastics, textiles and nonwovens as well as cutting of food and other products.

To ensure sustainable growth, MS is focusing on expanding its application portfolio and entering new market segments. MS Ultrasonic Technology Group is part of the listed MS Industrie AG with internationally active companies.

In addition to the company's previous activities, MS is now placing a new focus on the continuous welding of nonwovens and other materials.

More than 30 years of experience in the development and production of high-quality and innovative ultrasonic components, coupled with know-how in drive and control technology, will be incorporated into the new business segment. This means that customers receive ready-to-integrate systems with maximum precision from a single source. With the new MS Competence Center in Ettlingen (Germany), MS is fulfilling the wish of many customers to expand its application portfolio to include continuous joining, embossing and perforating of nonwovens and sealing of packaging.

MS is thus adding an innovative and specialized site, while maintaining a high level of vertical integration and support for all specialist areas through its main site in Spaichingen (Germany). In two application laboratories and a measurement and analysis laboratory, tests, evaluations and optimizations of various welding tasks are just as much a part of the service as the in-house production of engraving rollers through to complete systems.

• Application engineering consulting for your welding task
• Support in the design of the engraving roll
• Execution of feasibility studies
• Welding tests to determine the process parameters
• Individualized process optimization
• Finding solutions for problematic welding applications
• Testing of quality-describing characteristics (tightness, porosity, strength)
• Microscopic analysis of the welded joint in 3D
• Sample creation and pre-series production

Fibre Extrusion Technology Ltd of Leeds, UK has installed a new meltspinning system to upgrade research facilities at NIRI, the Nonwovens Innovation & Research Institute Ltd UK, a global leader in nonwoven engineering and product development.

Established in 1998, FET is a leading supplier of laboratory and pilot meltspinning systems with installations in over 35 countries and has now successfully processed almost 30 different polymer types in multifilament, monofilament and nonwoven formats.
 
The installation comprises a FET-102 Series Laboratory Meltblown Spinning System and FET-103 Monofilament Meltspinning System. This advanced equipment enhances NIRI’s extensive pilot facilities and state-of-the-art analytical laboratory for fast tracking innovation. In particular, the FET meltblown system will be utilised for R&D, pilot projects, sampling and prototyping, proof of concept testing and for designing cost-effective, sustainable and innovative products.

NIRI supports global manufacturing companies to identify new opportunities for meltblown nonwovens, develop their next generation of products and accelerate their commercialisation activities. NIRI’s new upgraded laboratory and pilot system from FET can process a wide range of polymer types, including chemically recycled polymers, bio-polymers and many difficult-to-process materials.