A Swedish recipe that really hits the spot
The fact that spot welding is becoming ever faster and more reliable is illustrated by a customer-specific solution installed at Volvo in Sweden. The ingredients of this special Swedish recipe are electric drive technology and vision systems from Festo, linked to the automation platform CPX. This means more reliability in the production of the sheet-metal components for Volvo car bodies, and more safety for the plant operators.
Hidden in a picturesque landscape between lakes and surrounded by forests is the south Swedish town of Olofström – approximately two hours from the international air traffic hub of Copenhagen. Here, away from the industrial centres of Stockholm, Gothenburg and Malmö, lies the most important bodywork plant of the Volvo group. Today, five trains with 280 containers full of car body parts leave Olofström every day, heading for the Volvo assembly plants in Gothenburg and Ghent, Belgium, where they are assembled to form complete bodies. This amounts to 50 million components annually.
Competency in spot welding
“Most of what you can see of a Volvo comes from Olofström,” explains Leif Winberg, the plant engineer in charge of resistance welding in the Volvo Olofström factory. This includes load-bearing components like the A, B and C columns, the bumper reinforcement, the front side members, the side impact beams, the cross beams and the roof arch and roof rail, together with doors and frames. All these components are produced in different versions for the various Volvo models, ranging from the compact V40 through to the S60 saloons and the large SUV with the name XC90.
A key element in bodywork production is resistance welding, since correctly welded sheet metal components play a crucial role in the passive safety of a vehicle. Within the welding process, there is great potential for increased productivity in the milling of electrodes. The electrodes of welding guns become blunter as they are used to make spot welds and must therefore be milled after approximately 150 spot welds so that they once again enable accurate spot welding. “Electrode milling operates on the same principle as the sharpening of a blunt pencil,” explains welding expert Winberg.
Joint development
“In recent years we have found solutions which have enabled us to cut the cycle times for electrode milling by well over half,” continues Winberg. “There is also a gain in safety, since plant operators no longer have to enter the robot cells after milling in order to adjust the electrodes to the correct position for the spot welds,” adds Leif Lindahl, former Business Development Manager Automotive with Festo Sweden.
For static welding guns, Festo developed a customised pivot arm exactly as per the specifications of Volvo and ABB which brings the electrode milling device, the so called tip dresser, to the electrodes after 150 spot welds have been completed. The pivot arm is precisely positioned by Festo electric cylinders DNCE. Thanks to freely programmable positions, these electric cylinders are flexible in terms of motion and accelerate gently. The complete ready-to-install electrical package supplied by Festo includes stepper motor EMMS and motor controller CMMS. The motor controllers are safely integrated in a control cabinet with the automation platform CPX. The CPX communicates with the motor controllers and with the master control system for the robot installation via Profinet.
Electrode milling controlled by vision system
Mobile tip dressers are not necessary for the welding guns on the ABB articulated robots. These robots can feed their electrodes themselves to the electrode milling device after 150 spot welds. This freedom of movement of the welding guns opens completely new horizons. In a first step, the articulated robot brings the welding gun to the tip dresser. This then mills the electrodes. In the next step, the robot swings its electrodes in front of the lens of the Festo vision system SBO…-Q.
“The system produces an image which supplies the robot system with all the data necessary in order to position the electrodes correctly to weld the next sheet metal components,” says Winberg. “The vision system is also easy to integrate and simple to commission via parameterisation.” The system includes not only the sensor system for the acquisition of image data but also a complete electronic evaluation unit and the interfaces (Ethernet/CAN) required for communication with higher-level controllers (PLCs). The vision system itself is accommodated in a housing which is no bigger than a one-litre carton of milk.
Cycle times reduced to a quarter
In a fraction of a second, the image from the vision system provides data on the alignment of the contact surface, the length and angle of the electrode and the starting point on the sheet metal. The vision system sends this data to the robot controller, which sets the robot for the next spot welds. “This has allowed us to reduce the cycle times for electrode milling from 35 seconds to just nine seconds,” says Winberg enthusiastically about the new system. “This means that we can almost achieve the same cycle time as a machining rotary indexing table, which is six seconds.” Considering that there are 300 welding robots installed in Olofström, this marks a further milestone in the hunt for shorter cycle times and thus higher productivity.
费斯托 (Festo)是一家全球性的独立的家族企业,总部位于德国埃斯林根。自成立以来,Festo在工业自动化技术和技术教育方面制定标准,从而为环境、经济和社会的可持续发展做出贡献。公司为超过35个行业的30万家工厂和过程自动化客户提供气动和电驱动自动化技术解决方案,其中生命科学和实验室自动化业务受到越来越多的关注。Festo产品和服务遍布176个国家。2023年,费斯托在全球61个国家的250多个分支机构拥有约20600名员工,实现销售额36.5亿欧元。每年约7%的销售额用于研发。在这家学习型企业,1.5%的销售额用于基础和进一步培训。Festo 教学培训 (Didactic SE) 是全球领先的技术教育和培训供应商,为全球客户提供工业环境中全面的数字化和常规学习解决方案。