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Selection The ARBURG Magazine Projects CONTENT Selection Projects 2008 MASTHEAD - Project: Sinsheimer Kunstofftechnik - Project: CFAO France - Project: Bayer Material Science - Project: Kongsberg Automotive - Products: MULTILIFT V SELECT Teach-in Funktion - Project: Sitec - K 2007: Integrating functions in the injection moulding process - K 2007: Injection moulding and more - Project: Kunststoff- und Elektrotechnik - Project: Gross + Froelich - Customer Report: Kronacher Werkzeugbau - Customer Report: Helvoet - Customer Report: MP Plast - Customer Report: PEHA today, the ARBURG magazine Reprints - including excerpts - only by express permission Responsible: Matthias Uhl Editorial advisory board: Oliver Giesen, Juliane Hehl, Martin Hoyer, Herbert Kraibühler, Bernd Schmid, Jürgen Schray, Wolfgang Umbrecht, Renate Würth Editorial team: Uwe Becker (text), Nicolai Geyer (text), Markus Mertmann (photos), Oliver Schäfer (text), Vesna Sertic (photos), Susanne Wurst (text), Peter Zipfel (layout) Editorial address: ARBURG GmbH + Co KG, Postfach 1109, 72286 Lossburg, Germany Tel.: +49 (0) 7446 33-3105, Fax: +49 (0) 7446 33-3413 e-mail: [email protected], www.arburg.com Autom A nyone who has consciously given attention to the subject, will have been amazed to discover the variety and the multitude of applications for lids and covers. Many of these often unremarkable moulded parts are equipped with seals for protection against dirt and moisture. These are normally rubber seals. However, seals made from liquid silicone rubber (LSR) are being increasingly used. Sinsheimer Kunststofftechnik GmbH (SKT) commissioned ARBURG with the development and construction of a fully-automated production cell for the injection of liquid silicone seals onto metal covers. The system operates fully autonomously, beginning with preheating of the components through to the leak test at the end of the production process. “It was important for us to obtain a complete solution from a single source,” explains SKT Managing Director Uwe Heiss. In addition to the machine itself, ARBURG was responsible for mould-related consulting and the entire automation. The task: to inject an LSR seal directly onto the metal base material. The production process must be fully automated and the sealing of all produced parts tested. As Uwe Heiss goes on to explain, the specification was formulated in the shortest possible time with the support of the 2 ARBURG experts. “The fact that the ALLROUNDER machines are relatively easy to configure, proved to be an advantage at the planning stage.” The background for the demanding requirement profile is that SKT produces parts for numerous automotive suppliers and must meet their high quality requirements. “In comparison with the previously practised semi-automated production, we will have a continuous and reproducible production process in the future,” says Uwe Heiss. As a further advantage, he mentions the short cycle time and the consequently significantly improved productivity. 35 injection moulding machines with clamping forces from 250 to 3,000 kN are in operation at the SKT parent factory in Sinsheim and in the production facility in Mosbach. For this project, ARBURG designed a complex autonomous production cell. It is based upon a fully-hydraulic ALLROUNDER 520 C with a clamping force of 2,000 kN. The machine has been equipped with a size 350 liquid silicone cylinder module, an air blast device as well as a vacuum device and a hydraulic needle-type shut-off nozzle. today 39/2008 A robotic system suitable for the task at hand was selected:a MULTILIFT V in cantilever design with a maximum load weight of 25 kg. The metal covers with edge lengths of 180 x 330 x 14 mm (W x L x H) weigh about 400 grams. The gripper mounted on the robotic system must also be appropriately robust and must perform a variety of tasks. It must insert parts on the nozzle side of the mould and must remove finished parts from the ejector side. For handling the parts, the gripper is equipped with insertion and removal modules that can swivel downwards through 90 degrees independently of one another. Due to the required unit volumes, a two-cavity mould was installed. The seals must not contain any air enclosures. A preheating station for temperature conditioning the inserts, a cooling station and an inspection station for finished parts were integrated into the system. The parts are provided via an externally-loaded paternoster system, without interrupting ongoing production. A special challenge posed by this project was the programming for Selection PROJECT ated sealing the complex movement sequences of the robotic system. This becomes clear when considering a complete cycle: The system works on the “first in, first out” principle. A linear unit lifts two inserts at a time out of the paternoster system and transports them to the preheating station. The metal covers are preheated by a hot air blower to a maximum of 90 °C. The linear unit then transports the preheated covers to a transfer station. If, due to an interruption, the specified heating time is exceeded, the system automatically sorts out the overheated covers and excludes them from further processing. The robotic system takes over the unprocessed parts and sets them down on a conveyor belt at the production cell outlet. From there, the operator can return the parts to the paternoster storage. The same procedure is applied to parts which have to wait too long in the transfer station. In the next step, the gripper moves to receive the parts, swivels the insertion module through 90 degrees to the horizontal position and picks up the covers using vacuum suction units. Subsequently, the module again swivels through 90 degrees and moves into the open mould with the parts now held vertically. The gripper is aligned via centring pins which enter bushes on the nozzle side of the mould. A lift plate on the insertion module then moves forward in order to transfer the metal covers to the mould. They are held there by means of vacuum. Insertion and removal are performed simultaneously, whereby the insertion module also plays a small role in the removal process. This is because as soon as the lift plate is in the forward position, four parallel grippers grasp the overflows protruding In a highly-complex production cell (top), seals made from silicone are injection moulded onto metal covers. The MULTILIFT V in cantilever design (left and above) removes and transports the parts via a gripper that hinges through 90°. today 39/2008 3 The parts are set down on eight cooling places (top and left). From there, they are transported to an inspection station by the MULTILIFT V, are leak tested and are set down on a conveyor belt as good parts (below). from the nozzle side of the mould. When the lift plate moves back, the grippers simultaneously remove the overflows. Meanwhile, on the ejector side, the lift plate of the removal module has moved forward in order to remove the finished parts using vacuum suction units. The MULTILIFT V then moves out of the mould and the insertion module again swivels downwards through 90 degrees, so that the parallel grippers can drop the overflows. The MULTILIFT, with the empty insertion module swivelled downwards, then moves over the cooling table. The exact target position depends upon the relevant dwell time of the finished parts on the cooling table. This is because the finished parts are taken in and out of storage according to the “first in, first out” principle. On the cooling table, a total of eight cooling places for four injection cycles are available. Cooling of the finished parts is supported by one fan per cooling place. Consequently, the insertion module is first lowered over those finished parts that have been subjected to the longest cooling period at this point in time, in order to collect them. The system then repositions itself, the removal 4 module swivels downwards through 90 degrees and the two hot covers that have just been demoulded are set down onto the currently free places. The robotic system then moves to the inspection station with the insertion and removal modules still swivelled downwards. Here, the removal module picks up the already inspected finished parts. Subsequently, the insertion module transfers the finished parts that were just collected from the cooling station to a pickup plate for the leak test. The MULTILIFT can now return to its starting position at the transfer station for the preheated inserts. For the leak test, a hold-down device presses the covers against the pick-up plate before the hollow spaces under the covers are evacuated. Further handling of the finished parts depends upon the test result. Good parts are placed on the conveyor belt, reject parts in a rejects crate. SKT is already planning the next extension of production, as the trend towards direct moulding of LSR seals onto carriers made from steel, aluminium or plastic is proceeding at a dramatic rate. today 39/2008 INFOBOX Founded: Sinsheimer Kunststofftechnik GmbH (SKT) in 2000 Employees: 150 in the SKT Group Turnover: 25 million euros for the SKT Group Machine fleet: approx. 90 injection moulding machines with a clamping force range from 250 to 4,000 kN Products: Production of thermoplastic parts and items made from silicone Contact: SKT - Sinsheimer Kunststofftechnik GmbH, Kaiserstraße 1, 74889 Sinsheim-Weiler, Germany www.s-k-t.com Selection PROJECT Going it together I nnovative, complex and technologically superior: these were the requirements of the French Training Centre, CFAO (Centre de Formations d’Apprentis d’Oyonnax) for the production cell that is to be used for training purposes. A total of twelve partners were involved in this project, which was completed within 15 months. The Training Centre for Plastics Processing, CFP (Centre de Formation de la Plasturgie), was the principal coordinator of the project. And the main contractor for the complete production cell was the French ARBURG subsidiary, which worked in close cooperation with the Project Department of the parent company. The project was conceived by an expert team of representatives from each of the cooperative partners. The aim was to produce a complex, technical moulded part with an innovative design by means of a high-tech process. After the product - a versatile ruler with angular measurement, integrated magnifying glass and laser-printed scale - and its design had been defined, the next step was to find the most suitable production process. It was determined that the best way to manufacture this high-quality ruler would be with a single-cavity mould. Furthermore, rheological studies showed that sequential three-point injection would achieve the optimum flow characteristics and result in reduced deformation of the finished part. Important features of the injection moulding process were the hot runner system with three needle shut-off nozzles with external control for sequential injection and pressure and temperature control sensors in the mould. To produce the magnifying glass during the injection moulding process, the mould was equipped with a core-pull-controlled stamp. At the heart of the production cell was an electric ALLROUNDER 420 A with a clamping force of 1,000 kN and a MULTILIFT V vertical robotic system for removing and setting down parts. A turning unit integrated in the gripper enabled the rulers to be positioned on the 24-station rotary table in such a way as to enable the underside to be laserprinted after the appropriate cooling time. today 38/2008 The rulers cool off on the 24-station rotary table and are then conveyed to the laser-printing process. In this project, both the material - transparent PMMA - and the quality of the moulded part meant that the laser process was subject to stringent requirements. At the end of the process, to protect the rulers they were set down in trays on the conveyor belt by the robotic system. 5 A full line-up B ayer MaterialScience AG now has six production cells in operation at its Thermoplastics Testing Centre and a seventh already in planning, for the fully automatic production of test pieces and test plates. The project system was installed at the beginning of this year, on the basis of an ALLROUNDER 570 C with which test plates of three different thicknesses are being produced. Bayer MaterialScience AG belongs to the international Bayer Corporation and has a total of 60 ALLROUNDERs in operation at its production and research plants around the world. Around 20 of these are in the Thermoplastics Testing Centre (TTC) in Uerdingen. The company has worked together with ARBURG for more than 25 years and “the cooperation is excellent,” emphasises Bernd Winkelmann (Global Activities at the TTC) and he explains why: “In ARBURG, we have an extremely reliable development partner and we are very impressed with the continuity of its company development and its consistent implementation of state-of-the-art production processes.” Selection PROJECT of projects A focal point of research at the Thermoplastics Testing Center is the development of scratch-resistant coatings for the automotive glazing sector. The new production cell is employed for the development of optical components. “This enables us to get develop- ed on machines with offset injection using a straight, cold runner direct sprue. Furthermore, particle contamination of surfaces is prevented by clean-air modules above the machine’s clamping unit and the robotic system and ionisation of the test plates from both sides. Stations in the automated test piece production line (photos from left): Three-cavity mould for test plates with different thicknesses, sprue separation at the cutting station, cooling section with coded mould nests and transfer to the packaging system. ing section. At the end of the cooling section, the test plates are picked up by a pick & place device and are set down on the conveyor system of the film packaging machine. When packaging is complete, the bags are printed with part-specific data, which are provided by Bayer’s process data system. ment projects up and running quickly and standardise our equipment worldwide,” says Klaus Salewski, Processing Manager at the TTC, describing the successful teamwork thus: “ARBURG’s Project Department elaborated a detailed solution corresponding to our requirements and supplied the entire system. We organised the mould construction ourselves, as we have specialist expertise in this field.” The test plates are manufactured in three different thicknesses, a process requiring very high accuracy and surface quality. The demands placed on the machine and parts handling are correspondingly high, as during the production sequence, the platen surface must not be touched at any time. The test plates are produced on the ALLROUNDER 570 C with a clamping force of 2,000 kN by means of a flash sprue, whereby the modified ARBURG VARIO technique enables the plates to be mould- To enable the different test plates to be produced without changing the mould, the latter has three cavities with different thicknesses, of which only one is in use at a time. When changing to another cavity, the mould insert is moved on the nozzle side by a servo motor. After the injection moulding process, the MULTILIFT H robotic system picks up the finished part, swivels it from a vertical to a horizontal position, moves the underside above an ionising unit and transfers the test plate to a pneumatic linear axis with the sprue facing upwards. The test plate travels to the cutting station to separate the flash sprue, then back into position ready for transfer by the robotic system. At the same time, the upper side of the finished part is ionised and also blown off. The robotic system then picks up the finished part again and sets it down transversely on a workpiece carrier in the cool- today 38/2008 INFOBOX Locations: Approx. 30 production and research locations Employees: Around 14.900 Turnover: Approx. 10.2 billion euros in 2006 Products: High-quality materials such as polycarbonates and polyurethane, innovative system solutions such as finishes Machine fleet: Around 60 ALLROUNDERs worldwide Contact: Bayer MaterialScience AG, Thermoplastics Testing Center, address: R 33, Rheinuferstraße 7-9, 47829 Krefeld, Germany www.ttc.bayermaterialscience.de 7 Automated P articularly for parts suppliers in the automotive sector, the achievement of time (and consequently cost) advantages has played a decisive role for many years. For European producers and suppliers, this has become even more relevant in view of the global, and in particular Asian, competition. Companies who aim to produce high volume parts in-house must comprehensively automate the production process. An automated production concept of this kind has been comprehensively implemented by Kongsberg Automotive Germany in Dassel for the manufacture of gear lever knobs. ARBURG was the project partner who implemented the complete system on both the mechanical and technological side. As a globally operating company, Kongsberg Automotive Holding ASA develops, designs, produces and sells innovative products and technical components for industrial applications in all areas of automotive engineering. Kongsberg components are employed throughout the automotive sector as practical, cost-effective and reliable solutions. The company is based in Kongsberg in Norway. Its current annual turnover amounts to around 1 billion euros. 50 Kongsberg factories in Selection PROJECT automotive 20 countries around the globe produce system solutions for vehicle manufacturers worldwide. More than 11,000 employees ensure that customer orders are carried out exactly as requested. In co-operation with ARBURG, the subsidiary Kongsberg Automotive Germany, formerly Teleflex Automotive Germany GmbH in Dassel, has developed a production line for manufacturing gear lever knobs for the automotive sector. A preassembled, combined insert part consists of a die-cast insert in which a plastic insert is clipped. This insert part is pre-assembled on the production line and then encapsulated with thermoplastic polyurethane (TPU). The production cell is highly autonomous. The insert parts are provided in bulk then separated, assembled, aligned, inserted and encapsulated. Following encapsulation, the finished parts are removed, cooled and conveyed away. Integrated in the production cell is an ALLROUNDER 420 C 1300-800 machine featuring dual-pump technology that enables simultaneous movements. The mould has four cavities. Of particular interest is the complex handling of the parts, which is performed by a MULTILIFT V in an overhead design. The robotic system is arranged transversely to the machine axis; the load bearing ca- pacity is 15 kilograms. The complexity of automating the production process places particular demands both on the MULTILIFT V and the peripherals, especially with regard to precise provision and handling of the parts. During parts handling, it must above all be ensured that the visible surface of the finished parts is not touched. The process sequence is as follows: The insert parts are initially provided by means of two steep belt conveyors. In the bowl feeders, the insert parts are aligned, separated and fed in the correct position to the subsequent linear conveyors. The linear conveyors transport the insert parts to the transfer position. The gripper’s transfer module picks up the die-cast inserts from the linear conveyor and moves above the assembly device. The gripper is secured precisely above the plastic inserts located in the assembly device with the aid of a docking plate. A pneumatic cylinder pushes the plastic insert into the die-cast insert from below and clips the two parts together. The pre-assembled insert part is then set down on the transfer station. Four assembly processes are performed in each machine cycle. In order to achieve a paired alignment in relation to the mould cavity, two insert parts are rotated by 180 degrees on the transfer station using a swivel device. The gripper of the MULTILFT V takes the insert parts from the transfer station with the insert module. The parts, which are now positioned horizontally, are moved to the open mould via the gripper. The removal module picks up the four finished parts and transfers them to the parallel grippers. The gripper then moves to the insertion position, aligning itself by means of centring pins on the mould. The pneumatic lift plate pushes the insert parts horizontally into the mould from the ejector side. The gripper then retracts. The finished parts are set down on a spiked conveyor belt and cool down there today 37/2008 The encapsulated gear lever knobs file out of the production cell (photos, left). The foaming process was replaced with injection moulding thanks to the project system. for at least 30 minutes in order to prevent surface damage. The finished parts are collected in a crate, counted and then transferred to a heavy-load roller conveyor. Thanks to the customer-oriented development, process engineering consulting and implementation of the project system, Kongsberg Automotive Germany was able to replace the foamed gear lever knobs with injection moulded ones. The objective of automating the manual working steps was fully achieved. This prevented production of this component being moved abroad. INFOBOX Location: Dassel, Germany Employees: approximately 300 Products: Gearshift systems, gear lever knobs with inserts using foaming and injection moulding processes Contact: Kongsberg Automotive Germany, Am Burgberg 7, 37586 Dassel, Germany, www.kongsbergautomotive.com 9 Selection PRODUCT Learning step-by-step S tep-by-step, intelligent robotic systems can “learn” the positions they are to move to in order to pick up and set down parts with the highest precision. A teachin function of this type is now also available for ARBURG’s MULTILIFT V SELECT robotic system via the SELOGICA ‘direct’ control system. The MULTILIFT V SELECT, which was introduced onto the market at the K 2007, is a newly configured servo-electric robotic system that is competitively priced thanks to a set of pre-defined features. A suitable MULTILIFT V SELECT is available for each machine size of the ALLROUNDER A and S (270 upwards). The introduction of this basic robotic system responded to customers’ wishes for a simple programming solution - ideally without the need for specialised programming knowledge. Consequently, the new teach-in function is now available on the MULTILIFT V SELECT. But how exactly does this enable the robotic system to become more “intelligent”, when in many cases the operator knows the movement sequence of the robotic system - for part removal, for example - but is unfamiliar with the programming options. In the so-called “Teach mode”, all the positions of the robotic system are moved 10 to manually in succession. The various positions are simply confirmed via the “Teach” button. All the necessary parameter entries are then performed automatically in the control system. Simultaneously, SELOGICA ‘direct’ independently generates the robotic sequence and integrates it into the machine cycle. The last-entered position can be cancelled via an “undo” function, in order to quickly reverse incorrect programming. The new teach-in function makes the programming of robotic systems easier thanks to its intuitive operating options. Installation technicians and machine operators can easily create robotic sequences and position them in the machine cycle. The robotic system is rendered highly flexible owing to this new, free form of programming. All the individual removal sequences can be implemented easily and reliably. The fine tuning of all the robotic system movements can be performed via the stored parameter screens in the sequence editor of the SELOGICA ‘direct’ today 37/2008 With the teach-in function, the MULTILIFT V SELECT robotic system easily finds its way. control system. In future, the teach-in function will also be available on all other MULTILIFT robotic systems. ARBURG GmbH + Co KG Postfach 11 09 · 72286 Lossburg Tel.: +49 (0) 74 46 33-0 Fax: +49 (0) 74 46 33 33 65 e-mail: [email protected] www.arburg.com Simply international! The touchpap REP S ITEC Industrietechnologie GmbH is at home in Chemnitz. Its key focus is the construction of innovative, custom-made machines. The company has a large division dedicated to assembly system solutions. ARBURG was SITEC’s system partner on as many as three complex assembly lines for the automated production of supplied parts for the automotive industry. The systems are now all working faultlessly at Siemens VDO Automotive in Limbach-Oberfrohna. SITEC’s customers all over Europe particularly appreciate the company’s specialist expertise. Conducting research and development in a production-based environment is a matter of priority at SITEC, and creates the foundations for innovative products and services. To ensure the high level of qualification of all employees, SITEC employs an integrated quality management system to DIN EN ISO 9001 and implements a teamwork strategy in bringing projects to fruition. At the same time, state-of-the-art technology, modularity and adaptability are the hallmarks both of the company organisation and the products. This guarantees short order processing times and ensures that full use is made of available resources. In the field of assembly system solutions, the SITEC experts plan and create complete assembly lines and hybrid systems, as well as highly productive as- 12 sembly robotic systems, in accordance with the customer’s requirement specification. The co-operative venture with ARBURG concerned the fully automated encapsulation of a component for injection nozzles with integrated piezo, which controls the release of fuel injection in modern passenger cars. It functions like this: charged with electricity, the piezo expands and activates the fuel injection process. The advantages of this type of control are short, precise switching times and distances and a low-wear component function, resulting in a longer service life. As the main contractor, SITEC was responsible for all three assembly lines, from their design to their technical implementation and organisation. Each assembly line consists of the production complexes preassembly with integrated laser processing, connector encapsulation and inspection including final assembly. In this project ARBURG worked in co-operation with FPT Amtzell on the connector en- today 36/2007 capsulation production complex, which incorporates fully automated handling, encapsulation and removal, as well as the forwarding of inserts to downstream processing stations. The vertical ALLROUNDER 1500 T 2000-350 machine with a clamping force of 2,000 kN and size 350 injection unit, which is integrated in the production complex, works with a rotary table that rotates forwards and backwards in two cycles. It is connected to the overall system by means of a Euromap interface, which indicates when the parts are free and the rotary table is in the filling position. The SELOGICA machine control system ensures a smooth encapsulation process, while a separate Kuka control provides problem-free automated sequences. In addition, three eight-cavity moulds were built for a total of three different types of engine. Inserts with connector head at 0°, upright in the mould, inserts with connector head at 12°, lying in the mould, and inserts with connector head at Selection PROJECT er for exciting ideas 30°, also lying in the mould, can be produced in this way. These parts can then be used to equip vehicles with pump-jet engines and common rail injection. The injection moulding sequence is executed as follows: inserts and finished parts are handled and conveyed by a robotic cell, which comprises a three-axis overhead-type unit and an additional three-axis gripper, and a further three-axis traversing robotic system. The robotic cell is designed to make inserts available or to place finished parts in the ready workpiece carriers in an orderly manner, and allows the three-dimensional handling of the items over a total of six axes. This is essential, because the single gripper has to be able to perform rotary, tilting and insertion movements for all three parts. And there is a reason for this: at the customer’s wishes, all three systems have been designed to be so flexible that all three moulds can be employed on any one of them. The cycle time of 48 seconds for encapsulation plus 1.5 seconds for rotating the ALLROUNDER tables makes this method possible, as the systems can therefore make parts available, remove or encapsulate them simultaneously. Because components such as moulds, insertion and removal grippers or sliding table inserts are changed rapidly, the set-up times are also kept to a minimum. In general, the injection moulding sequence is as follows: first, the robotic cell removes the parts to be encapsulated from the supplied workpiece carrier and places them in an eight-piece sliding table in the correct position. This sliding table has two levels, which travel to and fro in alternation and from which the traversing robotic system either removes the ready parts or to which they are returned after the encapsulation process. While the machine is starting up, the fast robotic cell places dummy inserts from a separate drawer in the sliding table for encapsulation. The plastic encapsulation can be removed from these aluminium lathed parts, so that they can be reused. There are two additional separation and removal channels for the purpose of quality control: via separate conveyor belts, random samples for QA and “not OK” parts can be collected. The injection moulding solution described above was integrated by SITEC in a downstream automation solution, which also incorporates the supply of inserts and the finishing of the encapsulated components. The fully automated production sequence runs in three shifts. today 36/2007 The connector encapsulation production complex with rotary table ALLROUNDER and robotic cell (centre left). The finished part is placed in the workpiece carrier (centre right) either upright or lying down, depending on the product version (top left). Dummies are inserted during the start-up phase (top right). INFOBOX Founded: In 1991 as a planning and engineering office Employees: around 140 Products: Test stands, laser systems, machine and operating data acquisition, electrochemical metalworking, production of system components and assembly system solutions, diverse engineering services Contact: SITEC Industrietechnologie GmbH, Bornaer Str. 192, D-09114 Chemnitz, Germany, www.sitec-chemnitz.de 13 Integrating injection I n collaboration with Oechsler AG, the mould manufacturer and producer/developer of moulded parts from Ansbach, ARBURG is presenting a production cell at the K 2007, which produces LED light strips. The unit is produced on an automated multi-component ALLROUNDER using high-performance plastics, and is ready for immediate use. This demo part shows that functional injection moulding can achieve an exceptional performance, above all, by integrating several process steps in the injection mould. Besides Oechsler, initiator and conceiver of the original idea, who also took on responsibility for mould technology, Günther contributed its hot-runner technology, Kiki and Rohwedder worked on automation, Osram Opto Semiconductors provided the LEDs and Siemens supplied the conductive plastic. The lenses, which were moulded ready for the insertion of three LEDs, consist of transparent polyamide and the light strip 14 housing is made from ABS. The printed conductors are produced from conductive PA. All three plastics can be processed together without any problems on the three-component ALLROUNDER. In downstream work operations, the fabricated upper casings with inscribed lower casings and battery can be assembled and transported out of the plant as a finished article. The upper and lower casings together with the integrated battery make up the finished light strip. The injection units of the ALLROUNDER 370 S 600-70-30-30 three-component machine are arranged in an L-configuration. Here, one unit injects through the fixed platen, a second vertically into the parting line and the third from the rear of the machine. The MULTILIFT V robotic system takes the moulded parts vertically out of the mould. The three servo-electric today 36/2008 axes of the removal robotic system are also capable of executing complex set-down operations quickly and precisely. During the production cycle, first the housing is moulded, then the lenses are injected into the corresponding recesses. The MULTILIFT robotic system then inserts the resistor and the three LEDs. Next, the upper casing is completed by the addition of the third, conductive PA component, and removed from the mould. Sub-processes in the mould reflect the complexity of the task. The threecomponent injection moulding process involves not just the production of the housing and lenses: the highly conductive plastic is inserted in the mould using hot-runner technology, the electronic components are encapsulated and the contacts formed, and the LEDs and lenses Selection SPECIAL K 2007 functions in the moulding process are mounted in the casing. To achieve all this, the mould technology combines a full hot runner with a hot-runner/cold-runner three-platen system in a three-station rotary mould. Dr. Dietmar Drummer, Oechsler AG’s contact person with responsibility for this complex exhibition project, summarises the joint commitment of the involved companies as follows: “This system is intended to show what processes we are already able to combine in one injection moulding operation, in a way that makes sense in both machine and mould, in terms of production, insertion, function integration and assembly processes. At the “K”, we are demonstrating the integrated production of the upper, functional casing, but in principle the final production of the complete light strip through individual, downstream assembly processes would not pose any problems. A conventional 9-V block battery is employed. With the additional lower casing, the light strip can also be used as a torch. To this aim, the design of the assembly includes a button in the head. This also helps to show how the selection of plastics, the design of components/assemblies and modern processes can successfully combine to integrate functions in the most intelligent way.” Integrating complex functions in a single production cycle through the intelligent design of moulds and processes - this is one of the futuristic trends demonstrated to perfection in a standard production environment at ARBURG’s exhibition stand at the K. today 36/2008 Cast from the same mould: Complex functions can be integrated in a single injection moulding process. A three-station mould (right) produces the upper casing (top left) of a light strip complete with lenses and LEDs. INFOBOX Project idea: To produce a fully functional LED light strip in threecomponent technology Project partners: Oechsler (initiator, responsible for mould and injection moulding technology), ARBURG (machines and robotic systems), Günther (hot-runner systems), Kiki/Rohwedder (automation), Osram Opto Semiconductors (LEDs), Siemens (conductive plastic) Project goal: To demonstrate a combination of innovative technologies Contact: Oechsler AG, Dr. Dietmar Drummer, Matthias-Oechsler-Str. 9, 91522 Ansbach, Germany, www.oechsler.com 15 Injection mou A key focus of ARBURG’s stand at the “K” lay in demonstrating the great flexibility of ALLROUNDER injection moulding technology. Integrated in project systems with upstream and downstream processes, the ALLROUNDERs proved their aptitude for integration and high performance. In this they were assisted by their modular design, special equipment packages and the universal SELOGICA machine control. On an ALLROUNDER 920 S 5000-4600, for example, ARBURG is producing a complete plastic folding crate. For this purpose, the new, largest size 4600 injection unit, with a choice of screw diameters of 80, 90 and 100 millimetres and a maximum possible shot weight of 2,583 g/PS, was employed for the first time. The five parts that make up the complete crate are produced in a common injection operation in five different cavities. The parts in question are the base, two short 16 and two long side pieces. The mould is equipped with a full hot runner and cascade control. The finished folding crate measures 40 x 30 x 15 centimetres and weighs one kilogram. The parts are removed from the mould by a MULTILIFT V robotic system in overhead design. All five parts are removed simultaneously and placed one after the other in the separate assembly station. For the connection of the side pieces, they are positioned with precision on the base and pressed together using caulking units. Assembly is parallel to the injection moulding process, so that no time is lost. The SELOGICA machine control system of the ALLROUNDERs not only controls the machines, but also the robotic system and complete assembly operation. In this way, the assembly station sequences can be integrated in the familiar graphic editor and programmed there as required. A new size 70 injection unit is also employed in the production of coil shells on an electric ALLROUNDER 370 A 600-70, which can be equipped with screws of 18, 22 and 25 millimetre diameter. Its range extends from miniature parts to moulded parts with a maximum shot weight of 40 g PS. today 36/2008 On this machine, high-quality production is additionally guaranteed by pressure and temperature measurement that is integrated in the mould, and which supplies the basic data for “quality control”. After the injection moulding process, the robotic system moves the coil shells individually to an optical inspection station, which uses a camera with light to check whether the moulded parts are complete and the thin gutters for the insertion of the solder pins are perfectly formed. In addition, the image processing system measures the functionrelevant dimensions of the coil shell. Selection SPECIAL K 2007 lding and more The reference characteristic or quality control function enhances the familiar injection process control with a new, userfriendly version. The aim is to record the holding pressure as close to the moulded part as possible, and to regulate it in order to minimise disturbing influences. Once the optimum setting for high-quality moulded parts has been found, this curve profile can be recorded for all relevant signals. The reference model can be stored in the machine control system. Extensive tests have shown that with reference characteristic control, precise process control is achieved in a user-friendly way, ensuring lasting high quality of moulded parts in the production sequence. Thus, with this method the injection moulding process can be stabilised quickly, conveniently and in a practice-oriented manner to produce a specified part quality. Speed coupled with precision are the key aspects of an in-mould labelling project presented by ARBURG at the K 2007. This process demonstrates the extremely cost-effective production of labelled yoghurt tubs in a six-cavity mould. All the necessary automation elements were designed based on an ALLROUNDER 570 A which, at 2,000 kN and with an 800 injection unit, is currently the largest electric injection moulding machine in the ARBURG machine range. First of all, six labels are picked up together by the handling device, placed on the fixed half of the mould by a precisionadjustable transfer hand, and exactly positioned. The tubs are simultaneously removed from the ejector side. This process has a complete cycle time of under four seconds. Time is saved during production not just by rapid peripheral routines and the short in-mould lamination cycle, however, but also through the fact that part removal and label insertion are executed simultaneously. With these three systems, ARBURG impressively demonstrates how moulded parts should be economically produced in the future: with fast, precise, complete systems, which incorporate several production steps and thereby enable even complex manufacturing operations to be controlled reliably and clearly. Money-saving project at the ARBURG stand: Folding crate (top left), injection moulded and assembled in an integrated process, highly precise coil shells (bottom and centre left) and yoghurt tubs in the IML system (top). today 36/2008 17 Thermoset I n a clutch system produced for ZF Sachs, a piston made from thermoset is used which is produced on a project system built around an ALLROUNDER 420 C 1000-250 with a MULTILIFT V robotic system at KE in the Black Forest town of Mönchweiler. In the production cell, the piston is not only injection moulded, but also completely finished and visually checked, rendering it immediately ready for installation. Owing to the fact that a magnetic sensor for precise positional detection is integrated in this particular clutch system, conventional steel piston could not be used. The Managing Director of Kunststoff- und Elektrotechnik GmbH (KE), Arnold Klausmann, explains: “Comprehensive tests have shown that the thermoset pistons have no disadvantages compared to those made from steel or aluminium. A direct comparison even revealed that thermoset had benefits: The thermoset piston achieved a higher degree of efficiency, the material is also lighter, reducing the overall weight of the assembly.” Thanks to the high-quality moulds made by KE in an in-house mould making shop, the thermoset piston produced is completely dimensionally stable and features a smooth, highly polished 18 surface due to its material properties. However, the thermoset piston does have to be finished, in order to remove burrs and irregularities resulting from overfeed. In order to nevertheless ensure economic volume production, the entire production process has been automated within a project system in cooperation with ARBURG. The high-grade surface finish, dimensional stability and durability of the piston require a high compression of the thermoset material. Targeted venting is ensured by means of a p re cis e l y - d e f in e d overfeed. This injection moulding technique requires a few additional finishing stations. Following part removal, the sprues are separated, a bevel is provided on the moulded parts and overfeed irregularities are simultaneously removed. Subsequently, the burrs on the internal thread are removed and the parts are finally cleaned. In order to prevent damage to the sensitive surface of the piston, the gripper of the robotic system can only hold the item in a precisely defined edge zone. The gripper must also be able to compensate for the today 35/2008 high torques generated during finishing by means of high holding forces. In addition to the ALLROUNDER and the MULTILIFT V with the relevant gripper configuration, ARBURG also integrated all the finishing stations into the production cell. In addition to the four-cavity mould, KE contributed to the overall setup by providing the camera-monitored inspection station and the magazining facility. The ALLROUNDER 420 C operates with dual-pump technology for regulated machine processes and features extended tie bars, a special thermoset cylinder, injection pressure increased to 2,500 bar, an air blast unit and additional equipment for compression injection moulding and venting, as well as the ARBURG unscrewing unit. The MULTILIFT V, in a transverse overhead design, can support a maximum load of 15 kilograms. The production sequence is as follows: Initially, the gripper moves into the mould and removes the four moulded parts. During the demoulding process, a picker removes the sprue and drops it into a container. The mould halves are simultaneously blown out via several nozzles on the gripper. At the milling station, the parts are consecutively provided with a bevel. Selection PROJECT In the complex project system, a four-way gripper (photos on left) performs removal of the injected parts and their further transport to the various finishing stations (photo below). The finished pistons are used in a clutch system. replaces steel INFOBOX Simultaneously, the outer overfeed material is removed. The electric motor of the milling tool runs permanently, the chippings are removed via a connected industrial vacuum. The burrs on the internal thread of the finished parts are removed simultaneously. Here too, the finished parts are first centred via the mountings. Four pneumatically-moved grinding heads remove the burrs. The insides of the parts are cleaned on a pneumatic station. The lift plate of the gripper in turn positions the finished parts precisely onto the pins of this station. Once again, the industrial vacuum is connected in order to remove the chippings. In order to prepare for the 100% camera inspection at the last station of the system, the surface of the pistons is cleaned by means of rotating felt bands on a further station. The robotic system then transfers the finished parts to the inspection station. Good parts are picked up by the robotic system and ejected according to cavity via tubes. Detected reject parts are separated beforehand. During the development and construction of the production cells, the cooperation between KE and ARBURG was so satisfactory that a change of suppliers on the part of KE is virtually excluded. today 35/2008 Founded: 1978, member of the Siedle Group Employees: around 90 Products: Technical parts, system components and assemblies made from thermoplastics and thermosets for the electro-technical, automotive, semiconductor, consumer goods and medical technology sectors. Production cells: Currently, five systems for the production of thermoset pistons; 34 injection moulding machines, of which eight are for thermoset processing Contact: Kunststoff- und Elektro technik GmbH, Fichtenstraße 64, D-78087 Mönchweiler www.ke-technik.de 19 Project Selection PROJECT expertise T he specialists for furniture and chair casters are based near Stuttgart. More precisely, the company GROSS + FROELICH, which was founded in 1879 in Stuttgart has been located in Weil der Stadt since 1997. In family ownership for four generations, the company has produced a large variety of casters for generations of families. The decisive parameters with regard to casters include the necessary load-bearing capacity and the starting, rolling and swivelling resistances which must be overcome. These stringent quality requirements were also placed upon the ARBURG project department during the task of developing a simple and low-cost solution for inserting the wheel cores. The so-called “soft” casters from the caster specialists’ product range consist of a hard wheel core (PA6) and a polyurethane encapsulation. The wheel core is also produced by GROSS + FROELICH. A two-component machine was not possible for technical reasons relating to the mould. The casters also had to be produced in different colour and material combinations. The ARBURG project department’s goal was to reduce the mould open time and consequently the overall cycle time by means of an economical solution. A highly -autonomous production cell with part separation and positionally correct feed of the pre-moulded parts in accordance with the mould cavity spacing were required, followed by insertion and encapsulation. The production cell had to be capable of producing furniture casters with diameters of 50, 60. 65 and 70 millimetres. The robotic system and peripherals therefore had to be designed such as to enable fast and simple mould changes. The centrepiece of the cell is a ALLROUNDER 520 C 2000-800 with a 16-cavity mould and an integrated MULTILIFT H. The gripper is designed to accommodate the different caster diameters and features a total of 16 suction cups with clamping rings attached to a pneumatic lifting plate. The wheel cores are fed via a bin conveyor in a steep-belt design to ensure ergonomic feeding. The inserts are sepa- today 34/2008 rated and aligned in the bowl feeder and then fed to a chute. The wheel cores slide down to a transfer station by the force of gravity. Continuous feed is ensured by means of a sensor. The parts are aligned by their hubs, which enter into recesses in the receptacle of the transfer station. As soon as all recesses contain insert parts, the receptacle advances to the transfer position. A total of 16 (4x4) insert parts are aligned and received by the robotic system. The gripper is centred at the separation device and picks up four inserts via the suction cups. The gripper then moves to 21 Selection PROJEK T the open mould and, following a specified delay, the two mould halves are sprayed with release agent via nozzles mounted on the gripper. The spraying procedure is also programmed via the SELOGICA control system. The gripper lift plate then advances and places the inserts in the mould. When the mould opens at the end of the cycle, the finished parts are demoulded by the ejector and transported from the injection moulding machine via an integrated conveyor belt. Thanks to the project solution implemented, mould open time and consequently the overall cycle time is shortened significantly. To date, ARBURG has supplied two of these project systems to GROSS + FROELICH. Project engineer Andreas Armbruster likes to emphasise that “the robotic system was implemented only to the extent necessary in order to achieve an economically interesting concept. This particular challenge was solved very efficiently with the MULTILIFT H.” Armbruster also assessed the cooperation with GROSS + FROELICH as very pleasant and trouble-free. The long-standing caster manufacturer was also highly satisfied with the solution developed jointly with the ARBURG project department. In contrast to previous solutions, considerable savings are now being achieved. 22 today 34/2008 Manfred Wörner, Production Manager for Plastics Injection Moulding at GROSS + FROELICH, is “highly satisfied with the consulting competence and the smooth implementation of the project by ARBURG.” The MULTILIFT H integrated in the autonomous production cell guarantees a considerable and economically valuable reduction in the overall cycle time. The gripper picks up the separated wheel cores by means of 16 suction cups. INFOBOX Founded: 1879 Machine fleet: 27 injection moulding machines, incl. 21 ALLROUNDERs Products: Casters, glides Contact: GROSS + FROELICH GmbH & Co. KG 71263 Weil der Stadt, Germany www.gross-froelich.de Internationally original. Those looking for flexibility, quality, performance and durability, are in the right place with ARBURG. In addition to our high standards in production and vertical integration, there is another powerful argument: our entire product range is characterized by the attribute “Made in Germany”. Because all of our machines and components are produced exclusively at the parent factory in Lossburg, Germany. And this will not change. ARBURG GmbH + Co KG Postfach 11 09 · 72286 Lossburg Tel.: +49 (0) 74 46 33-0 Fax: +49 (0) 74 46 33 33 65 e-mail: [email protected] www.arburg.com You can rely on that! Selection CUSTOMER REPORT T he standards for plastic parts used in the automotive sector are extremely stringent. Those who wish to succeed in this market segment must comply with the highest quality standards. Kronacher Werkzeugbau KWB achieves this comprehensively: with system services from their own mould construction department and injection moulding production, with certification according to DIN EN ISO 9001:2000 and DIN EN ISO/TS 16949 and an all-inclusive quality inspection and documentation system. This has resulted in a cumulative increase in sales of 175 % between 2000 and 2005. KWB works in the higher clamping force range with ALLROUNDERS from ARBURG. The company was founded in Kronach, Bavaria. Today, following relocation from Bavaria to Neuhaus-Schierschnitz in Thuringia in 1995, moulds and plastic parts are manufactured over 3,600 square metres of floorspace. Managing Director Dietmar Korb sees the sustained upward trend above all as the result of synergy effects resulting from combining mould construction and injection moulding production under a single roof. “Together with the modernisation measures carried out in terms of increased automation of our production, I anticipate continuous moderate sales increases in line with the market in future. We will also take new technologies on board in order to ensure competitive production on an international level. The fact that this strategy even creates jobs has been clearly demonstrated through the development of KWB according to Steffen Thomas, Commercial and Human Resources Director. “Some 80 % of our products and components”, says Michael Scherbel, Department Manager for Plastics Production, “are destined for the automotive sector, mainly for interior applications. We mainly 24 produce as a subcontractor for OEMs (Original Equipment Manufacturers). However, our portfolio is also completed by other products, for instance for the electrical, household and toys sectors.” Production quality is assured by an in-house quality department. A broad range of materials is used for plastic parts production, including special plastics with particular visual and quality features as well as highly temperature-resistant plastics. KWB’s customers are based primarily in Ger- solutions for our specific requirements as well as a good and affordable service. The package is just right,” comments Michael Scherbel. With 16 ALLROUNDERS, complemented by several MULTILIFT H robot systems, ARBURG produces more than half Photos : K ronacher Zero faults many, France, Spain and Poland. One product line the company specialises in are fan blades, the materials for which have a glass fibre content of up to sixty per cent. Hard/soft combinations with modified polyamides in conjunction with SEBS and TPE materials are a further production focus as well as thumbwheels made from several plastics, which are installed in vehicle interiors and backlit. “It is evident from our main product focus,” says Michael Scherbel, “that our expertise is primarily concentrated on the production of highly-complex multi-component items with the highest requirements in terms of surface quality and durability.” The cooperation with ARBURG dates back to 1984, when the Kronach-based company built up its plastics production facility. “In addition to the excellent machine and peripheral technologies, with the comprehensive consulting by the field service and the expert support from headquarters, ARBURG has offered us perfect today 34/2008 of KWB’s injection moulding machines, which cover a clamping force range from 1,000 to 2,000 kN. All the machines run in three-shift operation, some shifts are even unmanned. Maintenance of the machines and equipment is performed jointly by the ARBURG customer service and Kronacher’s internal maintenance department. During the production of multi-component parts, KWB guarantees its customers “zero faults” as the ALLROUNDERs operate with camera monitoring. Both hard/ hard and hard/soft combinations are produced here. A good example for this type of machine-based 100 per-cent control is a housing produced as a hard/soft guaranteed Kronacher Werkzeugbau Klug GmbH & Co. KG combination, which is checked for quality at every shot. In terms of material combinations, some unusual solutions have been implemented. One example is a two-component connector for the electronics industry. The special feature here is that the PPS material is encapsulated with a conductive Luvocom in a single process step, allowing time-optimised and costeffective production. How do the decision-makers evaluate the ARBURG injection moulding technology? Michael Scherbel says, “All the ALLROUNDERs are equipped with the SELOGICA control system, a 3-axis servo motor handling system, which operates behind special guarding, and conveyor belts, all made by ARBURG. The entire production process can be managed in a highly integrated manner according to the SELOGICA control philosophy. Overall, we have found that the machines are able to maintain a high technical level over the complete running time, which is of course enormously important for our stringent quality standards. INFOBOX Modern production and quality control over an area of 3,600 square metres with 113 employees in Thuringia. today 34/2008 Founded: 1954 by Alfred Klug, Paul Riedel and Franz Schneider Employees: 113 Machine fleet: 29 machines with clamping forces from 250 to 2,000 kN, incl. 16 ALLROUNDERs Products: High-quality moulds for plastic injection moulding and dies for die casing, the production of single and multi-component injection moulded components made from high-quality and difficult-to-process plastics. Address: Kronacher Werkzeugbau Klug GmbH & Co. KG, Bahnhofstr. 32 a, D - 96524 Neuhaus-Schierschnitz, www.kc-wzb.de 25 Driving force: Custo H elvoet B.V. has been involved in the processing of rubber and plastics for over 60 years. The excellent reputation which the company enjoys as a manufacturer of highprecision technology components in the micro and small parts sector is attributable to factors which are also to be found in child‘s play: unlimited and never-ending experimentation with new possibilities and their limitations. P h oto : H e l vo e t The Dutch company, based in Hellevoetsluis and Eindhoven operates a further production location in Singapore and a joint venture in South Korea. Worldwide, Helvoet has 380 employees. Control systems for the automotive industry, dosing devices for beverages (coffee machines and beer) and cosmetics (hair spray and creams), Seals for household appliances as well as gas and water installations, and finally, connectors for electronic products are Helvoet‘s main product areas. In order to meet the highest production quality standards, the company is certified according to QS 9000 and ISO 9001. Certification according to TS 16949 is fully under way and will be realised at the latest by the end of 2006. Helvoet utilises a broad range of technologies to manufacture its parts and components. These include the semi and fully automatic assembly of parts made from several materials, the production of rubber and LSR parts, twocomponent injection moulding for the production of hard/soft combinations, the injection of a LSR component onto a plastic part using two-component technology, the encapsulation of inserts, as well as rubber extrusion. This great variety of technologies has enabled Helvoet to successfully establish itself Selection CUSTOMER REPORT mer orientation as a systems supplier for its customers. These customers involve the company at a very early product development stage. Owing to the extensive expertise which Helvoet has achieved, particularly in the production and combination of rubber and plastic parts, the specialists are consulted from the outset in the planning stage of new components. Their further involvement ranges from the design and construction of moulds through parts production to on-schedule delivery. In addition to Europe, Helvoet‘s major selling markets are Asia and North America. Co-operation with ARBURG extends back to 1997. Today, it is not only standard machines, but also complete production cells with the corresponding peripherals such as MULTILIFT robotic systems which are delivered to the Netherlands and Singapore. One of the most recent examples is an integrated production system for manufacturing a cap adapter for the beverage industry. The cap parts are not only produced on an ALLROUNDER 630 S 2500-675/150, but are also removed by means of a MULTILIFT H module with a servo-electric main axis and palletised in special plastic trays for further processing. The highly autonomous system ensures precise part set-down. ALLROUNDERs with a mould indexing unit and removal robot without a B axis and adapted picker system were fully integrated by ARBURG and are operated centrally via the SELOGICA machine control system. The palletising station operates with a dedicated overhead three-axis NC handling system and separate PLC control for the palletising functions. It is connected to the injection moulding machine via an interface. High packing density and precise positioning of the parts is necessary for subsequent processing. Throughout the entire parts handling process, the soft components must not be touched. A read/write unit in the palletising system allows precise recording of the production times for each pallet by means of a microchip in order to ensure reliable troubleshooting. The entire system‘s autonomy is approx. eight hours or 10,000 parts. It is not least the excellent performance of this system in practice which has ensured the continued co-operation between ARBURG and Helvoet. Further ALLROUNDERs as well as automation solutions and LSR machines are planned or currently being delivered to both the company‘s European and Asian locations. As with many other customers, when asked about the most important aspect of co-operation with ARBURG, the answer is: ARBURG offers optimum quality and service at a reasonable price. today 26/2004 The two-component moulded parts are removed from the mould and palletised in plastic trays by the robotic system. INFOBOX Founded: 1939 Employees: 300 at the Hellevoetsluis headquarters, 380 worldwide Machine fleet: 90 injection moulding machines, 57 of which are ALLROUNDERs Specialised areas: Systems supplier for high-precision technical micro and small parts for use in the automotive industry, consumer electronics, veterinary technology, in heating systems as well as dosing devices for the beverage and cosmetics sectors Contact: Helvoet B.V. Sportlaan 13, P.O. Box 2, NL3220 AA Hellevoetsluis, Netherlands, www.helvoet.com 27 A At MP Plast in the Danish town of Ribe (below), the world‘s first ALLROUNDER 820 S 4000-3200/3200 pro- t MP Plast in the Danish town of Ribe everything quite literally revolves around wheels. The company, which has been working with ARBURG only for a relatively short time, but therefore all the more intensively, especially in the area of multi-component injection moulding, manufactures wheels and rims of all types and sizes. duces complete plastic wheels (r.) as a two-component With its Ribe site, the company, which is listed as a publicly owned company, is located near the German border. This is also where MP Plast‘s largest international customer is based. 40 percent of the wheels manufactured by the company are exported, P h oto : M P P la s t 60 percent go to Danish customers. The products are used in the plant construction sector as well as in the toy sector or for moving heavy loads. Wheels and rims are either fitted with ball, roller or plain bearings and are supplied with or without wheel hub covers. Their product range is rounded off with the manufacture of technical parts, which the company produces as a sub-supplier for various different suppliers. machine fully automated for a wide-range of applications with MULTILIFT V robotic system (above). 28 today 25/2004 It is interesting that since 1999, when MP Plast entered multi-component processing, the emphasis of production has rapidly shifted in this direction. This, in turn, has required investment in a modern machine fleet which shows a high degree o f automation. The injection moulding machines in Ribe operate with clamping forces of between 400 and 4000 kN. All important machine data flows into one central computer where the actual status of the machines can be read at any time. Which material, what percentage of pigment, how much regranulated and how much raw material is used – all these questions can be answered in seconds by looking at the central computer. However, it is not only the machine fleet with an age range of eight to ten years that is comparatively modern; the peripherals are too. All machines are stocked via a central material supply and are automated to a large extent with handling equipment and automatic feed equipment such as for ball bearings. The main customers for the wheel production are based in Germany, England, Holland and Sweden. Selection CUSTOMER REPORT Round and round it goes at MP Plast! The co-operation with ARBURG only came about when MP Plast entered into the multi-component production of its wheels. Since 1999, the company has integrated a total of six ALLROUNDERs into production, of which three are “normal“ injection moulding machines and another three are two-component ALLROUNDERs. Another interesting detail: there has been a great willingness to invest in the company. This, coupled with its modern machine fleet, has meant that MP Plast was the first in the world to buy an ALLROUNDER 630 S 2500-1300/150 with three axis robot as well as the first to buy an 820 S 4000-3200/3200 with MULTILIFT V. This proves the high degree of confidence the company has and is willing to invest in ARBURG. ARBURG justifies this confidence by delivering high-quality injection moulding technology tailored to the requirements of the company on the one hand, and the comprehensive consultation work and services provided as well as fast spare parts service on the other hand. According to company founder and owner Max Petermann, very good impressions were also gained on the visits to ARBURG in Lossburg for approval of machines. “Teamed with the expertise of the service engineers at ARBURG in Denmark this was the optimum package for us.“ At the end of the day, reliability of the machine technology is also necessary, as MP Plast is known in its market segment as a fast and highly reliable supplier of highquality pro-ducts. The machines all operate in three shifts seven days per week. Apart from PP copolymer, polyamide, polyurethane and TPE are used to produce the hard-soft combinations. The moulds are maintained and repaired in the in-house mould construction department. Max Petermann increasingly sees the future of his company in the multi-component sector. The production of injection moulded parts from two components already comprises the lion‘s share of its total production. In the medium term, further machines for manufacturing parts from three components might be added to the existing ones. Given this technical background, Petermann wants to work on the development of new products in a targeted manner to be always one step ahead of the competition. Here, ALLROUNDER technology will continue to play an important role, as MP Plast is very happy with its machines and peripherals. The simple and clear design, the stability and high functionality are all reasons for choosing ARBURG machines, says Petermann. The SELOGICA control operates in this manner as well: the numerous programming and monitoring functions are easy to use. The machine operators work quickly with this control and intuitively make the connections. This will make sure that the wheels from Denmark will continue to roll towards Europe and overseas in future. today 25/2004 P h oto : M P P la s t INFOBOX Founded: 1986 by Max Petermann Production area: 3,000 m² in Ribe Employees: 20 Machine fleet: 17, including three large two-component ALLROUNDERs alone, many machines not more than five years old, highly automated machine fleet with central computer, material supply, removals and supply to the warehouse. Products: Emphasis on multi-component injection moulded parts, especially wheels and rims Location: Ørstedsvej 7 b, DK-6760 Ribe, Denmark, www.mp-plast.dk 29 N o matter whether customer or supplier, PEHA is a proficient partner for the realisation of innovative ideas. “The innovative shaping of the future without losing sight of our past and our values”; this describes one of the basic principles of medium-sized family business which began 80 years ago with the production of Bakelite switches and sockets. PEHA has remained faithful, not only to the principles, but also to the products. Today, the product range encompasses high-quality household installation technology in the switch and socket sector. Furthermore, PEHA has meanwhile established itself as a leading supplier in the building systems technology sector, whose contacts are planners, craftsmen and electrical wholesalers. The company markets its products mainly in the European countries (including Teamw Photos: PEHA Eastern Europe) and is regarded as a proficient outfitter for hospitals and cruise ships etc. PEHA attributes its success to “the fact that we have always oriented ourselves to the expectations of our customers in our product development and that we have innovatively combined proven technology with modern developments for over eight decades.” As far as quality is concerned, the company which has been certified to DIN EN ISO 9001 since 1998, makes the highest demands of itself. In the personnel field, this is ensured on the one hand, by the training of its own apprentices and on the other hand, by internal technical training of employees to specialist status. An additional guarantee for the absolute quality of the PEHA products are the modern production systems. In this field, PEHA has successfully co-operated with ARBURG for about 20 years and always applies the latest technology. Selection CUSTOMER REPORT Thus, not only has PEHA acquired the prototype of the ALLROUNDER 420 C with INTEGRALPICKER but, in 2001, was also the first customer to use four ALLROUNDERs with MULTILIFT H and palletising station. “The decisive factor for the joint implementation of this project was the great trust in ARBURG‘s specialist expertise”, according to Gerd Jansen, operations manager at PEHA. The task for the ARBURG project department was to design a production cell with tray feeder, on which about 30 different products switches and sockets of various geometries can be manufactured with a high degree of automation. As parting line injection is partly used in the manufacture of the PEHA products, it was of advantage to use the horizontallyoperating MULTILIFT H as robotic system, with whose electric axis a whole tray row can be filled at once. For the next cycle, the tray is automatically indexed to the next position in the A further challenge in the set-down of moulded parts was ultimately that, depending upon the type of mould, the distance between cavities differs. The solution was a linear axis in the gripper, by which the cavity distance is adapted to the distance in the trays. The entire palletising unit is mounted on steel rollers and is thus moveable, which is not only an advantage when reconfiguring the machine, but also means that it can easily be used A high degree of automation is achieved with the palletising unit, via which the trays are fed (bottom right). The moulded parts are deposited in the trays in rows (bottom left). ork required palletising unit, via a servo axis. As the various trays must be indexed differently, they are differentiated via binary codes and are controlled via SELOGICA. With this palletising unit, it is possible to load up to four tray stacks with a maximum height of approximately 700 millimetres. The empty trays are separated from the stack, filled, re-stacked on top of one another and transported away. Within the scope of the overall project, new trays were also designed by PEHA and the ARBURG project department in co-operation with the manufacturer Söhner-Kunststofftechnik, so that it is now possible to cover the entire product range with only three different trays, including transportation and storage of the moulded parts. Gerd Jansen says, “positive side effects of the introduction of trays in plastic processing were the resulting additional rationalisation effects in the fields of assembly and storage.” in conjunction with different ALLROUNDERs. “The successful implementation of this project can be attributed to the excellent co-operation with ARBURG at all levels”, says Gerd Jansen. An additional reason for the proven co-operation between ARBURG and PEHA over several decades, is certainly the shared philosophy of the two companies for practise-oriented product development, in accordance with customer requirements. today 22/2003 INFOBOX Founded: 1922 Plants: Lüdenscheid (Head Office with Development and Production), Halver (new Logistics Centre with training room and plastics manufacture), Werne (Assembly), Neuenrade (Electronics Development with Production) Corporate group: PEHA Paul Hochköpper GmbH & Co. KG, Infratec-Datentechnik GmbH and BK-Elektronic GmbH Employees: 360 Products: high-quality household installation technology in the switch and socket sector, building systems technology sector (BST) Company headquarters: PEHA Paul Hochköpper GmbH & Co. KG, Gartenstraße 49, D-58511 Lüdenscheid, www.peha.de 31 International turnkey projects. Modular ALLROUNDER injection moulding technology and MULTILIFT robotic systems, combined with a highly-qualified project team make partner for complete turnkey projects. We provide support for complex production cells, often in conjunction with our sophisticated multi-component technology, from the conceptual plan- ning phase and the design of the system and the mould, through to approval and initial pilot ARBURG GmbH + Co KG Postfach 11 09 · 72286 Lossburg Tel.: +49 (0) 74 46 33-0 Fax: +49 (0) 74 46 33-33 65 e-mail: [email protected] production - and all this available worldwide. www.arburg.com ARBURG the perfect