- Business Lines
- inject 4.0
ENGEL is always close to home, worldwide. Choose your country for the fastest way to your tailor-made, high-tech, turnkey injection moulding solution.
From individual injection molding machines to highly integrated production cells, ENGEL delivers tailor-made solutions to the injection molding industry. Developing customer-specific solutions requires more than technological know-how. It relies on understanding and efficiently implementing the customers' individual requirements. To achieve this, ENGEL aligns its industry expertise in five business units, and this not only at its headquarters in Austria. Three years ago, ENGEL Machinery Inc., based in York, Pennsylvania, appointed dedicated business unit managers for North America, and has since then continuously reinforced its local industry know-how as well as application technical capacities. "The feedback of our customers is excellent. The most recent successes confirm that we are on exactly the right track", reports Mark Sankovitch, President of ENGEL Machinery Inc., ahead of the NPE2018. "We can respond to the requirements and requests of our customers in the various industries even faster, and provide them with more targeted support in solving their very individual challenges. As a systems provider, we are increasingly accompanying our customers throughout the entire life cycle of the machines and systems – this is the trend that we are addressing with the new structure."
From automotive to technical molding, to teletronics and on to medical and packaging: Each industry presents its specific challenges, even though the principal trends may be the same. Process integration and automation are continuing to gain importance in North America. At the same time, the producers have increased their focus on the topics of digitalization and networking. What these trends have in common is that they result in more quality, efficiency and cost-effectiveness, but also in a higher complexity of production processes." As a systems solutions provider, we ensure that even complex processes can be easily and securely controlled", states Sankovitch. "This will be clearly represented by the exhibits at our trade show booth."
For the first time in North America, ENGEL will present a fully automated, integrated production cell for the DecoJect process. This technology combines injection molding and IMG (in-mold graining), opening new possibilities for the production of premium interior automotive components. As opposed to conventional in-mold decorating processes, DecoJect does not simply transfer the paint from the foil to the component, but rather the foil is punched out and remains on the component. This way, in addition to color and pattern, surface structure and haptics are also addressed. At the same time, it significantly increases the scratch-resistance of the surfaces. "Even for smaller production runs, DecoJect provides us with an extremely cost-effective possibility of optically upgrading injection molded components and coordinating surfaces in the vehicle interior", emphasizes Larry Alvey, Manager of ENGEL's Automotive Business Unit in North America.
During the NPE, ENGEL will produce interior upper door trim with various surface structures on a duo 5160/1000: From a refined leather grain, including the seam, to a modern carbon look. The DecoJect thin foils were developed by Benecke Kaliko, a member of the Continental Group based in Hannover, Germany.
To start the process, the foil is drawn from the roll into the open mold, heated by an IR-radiator mounted to the robot grip, and preformed directly in the injection mold with the help of vacuum. Immediately afterwards, the foil is back-injected with polypropylene and punched out before the robot removes the component and transfers it to the integrated laser station for precision cutting. One ready to install part leaves the production cell every 60 seconds. Since a design change requires only a few minutes for the exchange of the foil rolls, the lot size no longer affects the cost per unit. To save additional raw material, the MuCell foam injection molding by Trexel (Wilmington, USA) is used. Other partner companies involved in the project are Georg Kaufmann Formenbau (Switzerland), Galvanoform Gesellschaft für Galvanoplastik (Germany), HRSflow (Italy), ICO SYSTEM international coating (Germany) and Borealis (Austria).
With its advanced expertise in automation, ENGEL provides an essential contribution to the efficiency and flexibility of the process. Heating the foil and removing the component from the mold is handled by an ENGEL viper linear robot. In addition, in an easiCell placed directly next to the clamping unit of the injection molding machine, an ENGEL easix articulated robot is integrated with the laser station for the precision cutting of the foils. Thanks to its standardized and modular construction, the automation cell developed by ENGEL allows for the extremely space-saving integration of robots, as well as process units located up- and downstream of the injection molding. It also significantly reduces the complexity of the application. The entire process can be operated using the CC300 control unit of the injection molding machine. The uniform control logic throughout all components of the production cell makes it especially easy for the machine operator to confidently handle the integrated process without any special training.
The healthcare application presented in Orlando also impresses with an extremely high degree of integration. Interdental brushes known as "scrub!" and developed by Pheneo (Germany) will be produced on a clean-room version of the all-electric e-motion 170/110 T injection molding machine. Together with the grip surface and core, up to 500 bristles can be formed in a single-component injection mold. Extremely delicate in the bristle area, the high-performance precision 8-cavity mold comes from Hack Formenbau (Germany), with Hekuma (Germany) providing the automation. A highly integrated, automated production cell will be presented, built in the modularized HEKUflex design by Hekuma. Immediately after injection molding, the parts will be inspected by a vision system and packed in retail bags, 16 parts to each. A bag leaves the production cell every four seconds.
"With our highly-integrated manufacturing process and the single-component construction we exponentially surpass the efficiency of established products and processes in the market", states Jon Kelm, Manager of Medical and Packaging Business Units for ENGEL North America. "As a rule, interdental brushes consist of three components – the grip surface, a wire mesh, and the filaments – which are usually produced in independent processes. By contrast, our solution does away with entire work steps, and reduces the logistical effort.
With a total shot weight of only 1.93 grams, completely filling eight cavities with filigree structures places very high demands on the mold as well as on the precision and consistency of the injection molding machine. ENGEL has two answers for this: First, the all-electric, high-performance e-motion injection molding machine, and secondly, inject 4.0. Under the inject 4.0 umbrella, ENGEL is bundling software products for the digitalization and networking of production processes, for example the intelligent assistance systems of the iQ product family, which detect fluctuation in the environmental conditions and raw material, and automatically compensates for these before rejects occur. In the CC300 control of the e-motion, visitors can observe how iQ weight control analyzes the pressure curve over the screw position during injection and adapts the switchover-point as well as the injection speed profile and the holding pressure to the current conditions. Simultaneously, iQ clamp control determines and automatically sets the optimum clamping force for the process taking into account the level of mold breathing. As the third system on the team, iQ flow control regulates the temperature differences in the mold's individual circuits and the performance of the pumps in the temperature control devices, ensuring constant temperature conditions while reducing power consumption. "With the intelligent assistance systems, the injection molding machine is continuously self-optimizing", explains Kelm. "This allows all levels of machine operators to achieve optimal results."
In the teletronics industry, the subject of process integration often revolves around plastic/metal hybrid composite components. With the production of thermal switch housings at the NPE, ENGEL proves that it can also forge tailored solutions for this challenge. From the punching of the contacts to the inspection and labeling of ready-to-use electronic components, all work steps are fully automatic. The raw material for the brass carrier plates is fed directly from a reel and prepunched including a thread. The thread is servo-electrically tapped before the carrier plates – still on the line – are overmolded with glass-filled nylon on an ENGEL insert 60V/35 vertical injection molding machine. Quality control happens within the production process. In addition to the camera inspection, high-voltage testing is integrated into the tool, thus already guaranteeing a one hundred percent short-circuit inspection during production. In order to ensure seamless traceability, the good quality parts are labeled by laser before the sprue and carrier tabs are removed and the components are separated from the belt. Eight ready to install parts leave the production cell every 20 seconds.
This production solution, developed by ENGEL in cooperation with its partner MMS Modular Molding Systems (Austria), guarantees the lowest possible cost per unit while also achieving a high degree of flexibility. Thanks to the modular design of the MMS systems, additional processing units can be integrated, for example, for resistance testing or laser welding, riveting, assembly or cleaning of the parts. "Regardless of the number of modules, the entire process can be monitored and regulated via the CC300 control of the insert machine", says Stefan Aberl, director automation at ENGEL North America. "This substantially reduces complexity and significantly simplifies the operation of the entire process."
Thermal switches, such as those used for monitoring electric motors in automobiles or in the domestic appliance industry, are traditionally produced in a complex, multi-stage process. As a rule, the metal components are even punched and overmolded at different locations. This not only requires considerable logistics overhead, but also ties up a large amount of material, since two independent processes need to be started up. This is a considerable cost factor, especially when non-ferrous metals are used.
Highest degree of efficiency with the best quality and shortest cycle times. This is the daily challenge that the manufacturers of beverage caps face. For the production of 26 mm caps with tamper-proof bands made from HDPE, ENGEL is presenting a state-of-the-art solution at the NPE. During the five days of the show, the production cell will run at a cycle time of two seconds, and also achieving outstanding energy efficiency and the highest degree of process consistency.
At the core of the highly-integrated solution is an all-electric e-cap 2440/420 US injection molding machine, equipped with a 96-cavity mold by z-moulds (Austria). On the periphery, ENGEL integrates a dry-air system by Eisbär Trockentechnik (Austria), and an optical inspection system by Intravis (Germany) into the overall concept.
To combine minimal energy consumption with outstanding process consistency and precision in the production of beverage caps, ENGEL relies on the all-electric high-performance machines of the e-cap series, which, with clamping forces of 120 to 460 US tons, were developed specifically for this market segment. With their high-performance servo-drives, the e cap machines ensure the required plasticizing capacity and maximizes part production quality even when using the new high-strength HDPE materials with an MFI significantly lower than 2 or even 1 g/10 min. "Geometrically, beverage caps have reached their lightweighting minimum", clarifies packaging expert Jon Kelm, "while simultaneously placing higher demands on precision and repeatability." In spite of its impressive performance, the e cap uses very little power and cooling water, even at high speed. The increased ejection and clamping forces help to achieve very short cycle times.
At the NPE2018, ENGEL packaging is represented with a total of two integrated production cells. At its exhibition booth (South Hall, Booth S27009), Campetella Robotic Center from Italy is producing airline cups in thin-wall technology on an all-electric ENGEL e motion 740/240 T US injection molding machine using a mold produced by Fostag (Switzerland). The cups are removed from the mold with the help of high-speed automation, and packed immediately after injection molding.
With cycle times significantly below 3 seconds and injection speeds of more than 500 mm per second, the all-electric machines of the e-motion series are being increasingly used for the production of thin-walled containers. The closed system for toggle levers and spindles guarantees optimal, clean lubrication of all moving machine components at all times, thus complying with the strict hygiene requirements of the food industry.
In the technical molding exhibition area of ENGEL at the NPE2018, the focus is on the advanced processing of liquid silicone (LSR). Lenses for LED headlights will be produced on an e-victory 310/120 US injection molding machine equipped with a two-cavity mold by ACH solution (Austria). These technical parts represent a wide range of applications. From automotive to construction to street lighting, LSR is rapidly gaining in importance. This is due to its special characteristics. Highly transparent LSR has a lower yellowing index than standard lens materials, is UV-resistant, and stable across a very broad temperature range of -20 to +150 °C. In addition, even complex lens geometries can be efficiently and consistently produced with injection molding.
ENGEL has a great deal of worldwide LSR project experience in various industries, and is therefore considered a preferred partner of the lighting industry in the market introduction of the new lens material. This is the first time that ENGEL is presenting the production of LSR lenses at a trade show.
"Prerequisite for the economic production of advanced products with liquid silicone are automated processes and a high degree of precision and stability in the injection molding process", states Steve Broadbent, responsible for elastomer projects in the application technology of ENGEL in North America. "Thanks to its tie-bar-less clamping unit, the e-victory machine with its electric injection unit has shown itself to be predestined for this purpose." Free access to the mold interior simplifies setup and keeps the production cell compact. Since the mold mounting platens can be used all the way to the edge, the lens mold, which is larger in size due to the complex component structure, fits into a comparatively small 120-ton injection molding machine. In addition, the robot can access the cavity directly from the side and requires less vertical space.
The tie-bar-less injection molding machines by ENGEL impress with an outstanding parallelism of mold mounting platens. The patented force divider enables the moving mold mounting platen to follow the mold exactly while clamping force is building up and ensures that the initiated clamping force is distributed evenly across the surface. This prevents burr formation even when processing low-viscosity materials such as LSR. The components require no rework and can be used immediately after the injection molding process.
ENGEL is implementing the high-tech solution in cooperation with its partner. The mold as well as the dosage system were developed and constructed by ACH solution, and the mold is using the new electric nozzle control ServoShot.
As systems provider, when processing LSR ENGEL also integrates all components of the production cell into a common control so that the entire process, including LSR dosage and handling, can be adjusted and controlled via the CC300 operator panel of the injection molding machine.
The NPE2018 once again confirms the leading position of ENGEL and tie-bar-less injection molding machines in LSR processing. Altogether, four LSR applications with ENGEL injection molding machines – three of which with tie-bar-less machines – will be presented at the trade show. At Wacker Silicones (headquartered in Germany) in the South Hall, Booth S24179, coasters will be produced on a hydraulic victory 200/120 with a 4-cavity mold. An additional tie-bar-less application is being run on a victory 200/55 at the booth of the tool builder Burteck from Windsor, CT (US) in the South Hall, Booth S30045. And Shin-Etsu Silicones from Akron, Ohio, will produce eyeglass lenses on an all-electric e-mac 170/55 machine using an optical grade LSR with the mold coming from Roembke (Ossian, Indiana). The Shin-Etsu booth is in the South Hall, Booth S20125.