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The new MEIII injection moulding machine series and its developers

Image: Beckhoff Automation

CNC & Machine Controls Increasing flexibility & part quality in injection moulding processes

Jul 21, 2017

An application story on Beckhoff ’s PC-based control technology used by Mitsubishi Heavy Industries Plastic Technology (MHIPT) for its latest MEII machine series offering everything required for connected production facilities

Japanese company Mitsubishi Heavy Industries Plastic Technology (MHIPT) specialises in plastics injection moulding machines. Plastics injection moulding machines are primarily used in the automotive industry, but are also used in household appliance manufacturing and in the PC industry. The company chose PC-based control technology from Beckhoff for its latest MEIII machine series, regarding the openness of the control architecture as forward-looking, offering everything required for connected production facilities. In addition to an improvement in repeatability and greater production flexibility, MHIPT considers the simple integration of condition monitoring and implementation of predictive maintenance to be a major step forward.

Injection moulding machines essentially combine an injection unit with a clamping unit. The injection unit heats up and plasticises the raw material before injecting it through a high-pressure nozzle into the tool. The clamping unit opens and closes the tool (mound) and keeps the two halves of the mound closed during the injection process. The force exerted by the clamping unit is an indicator of the size and the mechanical power of the machine. The MHIPT machine portfolio encompasses machines with clamping forces that range from 350 to 4000 tonnes.

Open automation platform brings competitive advantages

The MEIII, which is the latest injection moulding machine generation from MHIPT, features medium-sized machines with a clamping force that ranges from 550 to 850 tonnes. Where most injection moulding machines are equipped with hydraulic drives, drive control in the MEIII is achieved with servomotors. “This leads to higher production quality and reduced power consumption,” says Takashi Mizuno, Director & Chief Executive— Engineering Department, MHIPT. “With regard to the automation
technology, MHIPT has changed its previous development strategy for the
MEIII machine series.

We now rely on PC-based controllers throughout the series. Previously, we developed our controllers entirely by ourselves; the use of PC control systems allows us to concentrate our development capacities entirely on the software side. We aim to integrate all of our expertise as a company that specialises in injection moulding machines into the software for the injection moulding process, distinguishing ourselves from the competition.”

Like the preceding MEII series, the MEIII series comes equipped with DD (direct drive) motors developed in-house by MHIPT. These motors do not need reduction gears, as they generate a high force with a low number of revolutions; this gives the advantage of a dynamic injection drive and facilitates easy maintenance as pulleys, belts and other consumables are not required. The MEIII series is characterised by a design that replaces a mechanical connection system between the two DD motors with highly-precise software synchronisation. “The speed, reliability
and precision of the servo-electric controller directly determines the quality of the product,” emphasises Mizuno.

Open control technology

Takashi Takii, Head—Design, MHIPT & Engineering Department and project leader in the development of the MEIII, explains, “The big advantage of the control architecture openness is that we, and our customers, are no longer dependent on vendor-specific standards or specifications. PC-based control provides an extremely efficient control system based on open standards, while at the same time being flexible and universal, offering us the necessary reliability and quality.”

High efficiency in machine development

Given the flexibility and expandability of the PC Control platform, MHIPT is able to offer its customers around 200 optional specifications for the use of different tools or moulds to achieve the geometries of the plastic part to be produced. “That’s about three times as many options as a conventional controller. Specifications formerly available only at extra cost can now be offered to our customers with standard pricing and delivery times. In addition, the use of open standards gives us the flexibility to comply with the sensors and servomotors specified by our customers. Through the use of EtherCAT and TwinCAT, as a universal communication system and universal software platform respectively, a uniform data flow can be achieved that considerably increases the repeatability of the machine operation,” explains Takii.

“All in all, machine engineering is much more efficient through the use of the PC platform,” says Takii. “Modular design of the control cabinets is simplified through the use of decentralised I/O stations that communicate over EtherCAT, resulting in advantages not only with regard to the flexibility, for example the implementation of modifications at short notice, but also shortening the time required for the manufacturing, disassembly, transport and installation of machines. The high scalability of the PC control platform ultimately makes it possible to control several injection moulding machines of very different sizes and in different areas of application using one central PC-based controller.”

The MHIPT machine software must manage more than 30,000 data points in order to achieve the diversity and flexibility of the plastics injection moulding applications. MHIPT uses an Oracle database to manage software design configurations. “The required close connection of the database could not be achieved using the tools of conventional control system vendors,” explains Takii. He further adds, “The seamless connection of TwinCAT with Oracle database represents a gigantic step forward for us to implement automatic or semi-automatic software configuration.In addition, the online debugger, software oscilloscope and other development tools offer valuable functionality.”

New business models

Takii also sees potential business benefits in the PC-based control architecture. “Large-size injection moulding machines are typical examples of small-quantity and large-variety production, almost equivalent to special machine manufacturing. Our ideal scenario is to meet every single one of the customer’s requirements. Where conventional control technology often imposed restrictions on us, the controller used for the MEIII enables efficient and flexible software development. Diverse options for injection moulding processes can be automatically generated from the software without the need for programming. I can say that the software design has reached the point where we can enjoy high customer satisfaction. The magic triangle of quality, cost and time has made a quantum leap,” stresses Takii.

Ready for Industry 4.0

Takii also sees benefits in the open control architecture with respect to the current trends in the manufacturing industries. “The open and flexibly-controlled flow of data with EtherCAT and TwinCAT is not just limited to the individual injection moulding machine, but also enables modularisation and uniformity of data flow throughout the entire factory. In this way, we can offer highly responsive support for the technologies targeted by Industry 4.0 in Germany and the Industrial Internet of Things (IIoT) in the USA. I think it will be essential to use Big Data to extend the mean time between failures (MTBF) and shorten the mean time to repair (MTTR). We must put ourselves in the position of being able to collect, save and analyse large quantities of data in order to determine how our machines change over time, how they are used and how we can standardise and compare the data collected in different production environments,” Takii concludes, outlining future strategy.

The article is reproduced with courtesy to Beckhoff Automation

Image Gallery

  • The injection unit of the MEIII. Synchronous control of two DD motors results in a highly precise injection process.

    The injection unit of the MEIII. Synchronous control of two DD motors results in a highly precise injection process.

    Image: Beckhoff Automation

  • The MEIII controller is a Beckhoff CP6216 Panel PC.

    The MEIII controller is a Beckhoff CP6216 Panel PC.

    Image: Beckhoff Automation

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