Electrical switching & drive systems & components


High precision, networked steering shaft assembly

3rd Quarter 2015 Electrical switching & drive systems & components

LCA Automation in Affoltern am Albis, Switzerland is a special purpose machine manufacturer with many years of experience in manufacturing equipment for the automotive industry. One of LCA’s core production areas is steering components, which it supplies to almost all of Europe’s vehicle manufacturers. Rainer Pölzl, who is responsible for project planning and control engineering, explains that LCA delivers turnkey assembly systems, from planning and development through to construction and commissioning. This includes mechanical construction, as well as electronics, control technology and software. “A good example is the current assembly line for the sliding connection of a steering column, which has to work efficiently while maintaining a high level of accuracy,” he says.

PC Control offers scalability and openness

LCA Automation has benefitted from Beckhoff’s PC-based control technology since 2000. “There were good reasons for choosing Beckhoff,” continues Pölzl. “These included the broad, scalable and open product range, the high performance of the industrial PC (IPC) technology and, above all, the company’s ability to innovate continuously. PC Control offered a highly flexible and integrated system of coordinated software and hardware, right down to the I/O level. The technology also offered significant advantages in terms of horizontal and vertical integration, as the openness of the system facilitated the integration of our machines into interlinked assembly lines at the customers, as well as communication with their MES and ERP systems.”

Due to the high complexity of the proprietary axis and process control system, the only way forward was a gradual migration towards a full PC Control solution. Pölzl explains that the openness of PC Control allowed LCA to run it initially in parallel with its own motion and process control, which it was then able to integrate via Profibus quite easily.

Complex assembly lines

The steering shaft assembly line uses PC Control throughout. The finely scalable, modular design of PC-based control and the resulting high degree of flexibility in the application allowed the company to implement the whole steering shaft assembly line in just eight months. The line features three manual feed stations, where the individual components are placed in the workpiece carriers of the automated transport system. The carriers then pass through the individual processing stations. At one of the stations, the tubular raw material is pressed and shaped. Before it is connected with other components it is greased and oiled. At each processing station, checks are carried out for dimensional accuracy and function. For example, the presence of all the required parts is verified, as is the compliance with specified forces in joining processes. This results in very reliable part quality assurance and reject identification.

A complex final examination takes place in a measuring station that represents the most important part of the LCA expertise. Pölzl explains, “On the one hand vehicle steering components must be backlash-free, but on the other the connections must not be too tight to prevent telescoping in the event of an accident.”

The current steering shaft assembly line uses four C6930 control cabinet IPCs with 2,53 GHz IntelR Core 2 Duo processors, each connected to a 38 cm CP7902 control panel. The complex process comprises more than 1000 I/Os, which are implemented locally via IP67-rated EtherCAT Box modules. Other components include 18 servo axes, which are composed of AX5000 servo drives and AM3000 servomotors and controlled via TwinCAT NCI. EtherCAT is used for high-performance networking, which blends perfectly into the PC Control system, “Thanks to the excellent system integration, TwinCAT enables optimum access to the data. As a result, subsequent extensions can be implemented much more easily than with third-party software,” Pölzl adds.

Opportunities for further innovation

For future projects he sees further innovation potential, thanks to PC-based control. “The main advantage for us is the use of C/C++ as a programming language because we have long-standing expertise with this and are able to implement complex function blocks. With C programming as an integral part of the process, it is possible to integrate these quickly and easily as encapsulated functions, for example for hydraulic axes that are synchronised with high precision,” he concludes.

For more information contact Kenneth McPherson, Beckhoff Automation, +27 (0)11 795 2898, [email protected], www.beckhoff.co.za



Credit(s)



Share this article:
Share via emailShare via LinkedInPrint this page

Further reading:

Next-generation oil-free motor systems with active magnetic bearings
Electrical switching & drive systems & components
WEG and SpinDrive are collaborating to integrate SpinDrive’s AMBs and built-in IoT condition monitoring into WEG’s market-leading electric motor offering, creating an oil-free, maintenance-free drive solution.

Read more...
From a technological revolution to a global standard.
Beckhoff Automation News & events
When Beckhoff elevated the industrial computer to the status of a central control system four decades ago, a paradigm shift occurred.

Read more...
Direct drive with integrated control
Vepac Electronics Electrical switching & drive systems & components
The PSD 40 direct drive is a mechatronic system with integrated control, bus interface and absolute measuring system, with no battery required.

Read more...
AI-powered on-premises analytics for industrial drives
Siemens South Africa Electrical switching & drive systems & components
Siemens is introducing a new on-premises analytics solution for industrial drive systems. The software enables users to evaluate drive data entirely within their own infrastructure and meet stringent data-sovereignty requirements.

Read more...
Hydrostatic machine base for ultra-precision grinding centre
Electrical switching & drive systems & components
Hyprostatik Schönfeld has developed a high-precision hydrostatic machine base for a new ultra-precision grinding centre for Optotech. The machine platform enables a previously unattainable combination of dimensional accuracy, dynamics and surface quality in the ultra-precision grinding of optical surfaces.

Read more...
Innovative drive system for smart logistics
Horne Technologies Electrical switching & drive systems & components
With its new DualGear, Faulhaber presents a high-performance drive system with high dynamics, robustness and precision in a compact, diameter-compliant design.

Read more...
Proportionate specification for hazardous locations
Electrical switching & drive systems & components
As automation spreads deeper into processing, handling and transport operations, motors are increasingly required to operate in spaces that sit on the edge of hazardous zones.

Read more...
Redefining compact motorsport driving simulators
Electrical switching & drive systems & components
Leading driver-in-the-loop simulator manufacturer, Ansible Motion has introduced the Delta T1 Sport, the first in a new class of motorsport simulators that offers high-fidelity dynamics, ultra-low latency and a fully immersive experience, all within a compact footprint and accessible price point.

Read more...
The shopping cart that knows the way
Horne Technologies Electrical switching & drive systems & components
How can visually impaired and blind people shop independently in a supermarket? VIRAS supplies the answer: an autonomous shopping cart developed at the Eastern Switzerland University of Applied Sciences.

Read more...
Loadcells for maximising conveyor belt performance
Electrical switching & drive systems & components
Loadtech’s ViewIT loadcell platform can transform the way operations monitor, manage and maximise conveyor belt performance.

Read more...









While every effort has been made to ensure the accuracy of the information contained herein, the publisher and its agents cannot be held responsible for any errors contained, or any loss incurred as a result. Articles published do not necessarily reflect the views of the publishers. The editor reserves the right to alter or cut copy. Articles submitted are deemed to have been cleared for publication. Advertisements and company contact details are published as provided by the advertiser. Technews Publishing (Pty) Ltd cannot be held responsible for the accuracy or veracity of supplied material.




© Technews Publishing (Pty) Ltd | All Rights Reserved