The quality of the hall air was already at an acceptable level, but as a rule, it always tended to be very close to the maximum legal provisions. This was clearly not good enough for Aebi Schmidt Nederland B.V. with regard to the health of its employees. It is true that, in an international comparison, the Netherlands already has one of the lowest workplace exposure limits for production plants. However, the company – located in Holten in the eastern part of the country – wanted to improve the air quality in order to push the concentration of hazardous substances even further below the prescribed limit of 1 mg/m³, particularly in the welding shop.
“One focus at Aebi Schmidt was clearly on improving working conditions”, emphasises Facility Manager Steven Koenderink. “Air quality was one of the central issues here.” For example, the company wanted to completely ban hazardous substances with lung-damaging, toxic or even carcinogenic effects – precisely those that arise in large quantities, especially in the MIG/MAG welding process used to manufacture the steel-heavy add-on parts – from production. Increasing demand in recent years had generated more welding work. The company’s development into the world’s leading supplier of systems for cleaning and clearing traffic areas as well as maintaining green spaces also brought with it higher protective welding equipment requirements. Aebi Schmidt wanted to continue this history with a healthy and satisfied workforce. After all, arguments concerning employee health are playing an increasingly important role in the competition for the brightest minds. Clean hall air as part of the employer image: In the search for a supplier of extraction technology, KEMPER GmbH from neighbouring Germany came out on top in the end. “Mainly because of the positive test experiences and the comprehensive advice we received in the course of our decision-making process”, Koenderink looks back.
Mobile high-vacuum extraction units for flexible production
The requirements were clearly defined: The cleanest possible hall air in line with the needs of production. For example, the intake systems for the hazardous substances generated during welding should effectively extract them while maintaining flexibility in production. A fixed budget defined the framework for the investment in protective welding equipment. KEMPER adhered to these specifications from the outset and put together a customised protective welding equipment concept for Aebi Schmidt. To allow for possible adjustments to the welding shop layout, the manufacturer decided on mobile extraction units. The German company recommended welding fume extraction by means of high-vacuum systems with connected extraction torches. This was due to the following benefits: Firstly, the immediate capture of welding fumes directly at the point of origin and, secondly, the forced tracking of the extraction elements during welding.
As these systems continue to evolve, they are becoming more popular – but to this day their reputation for being difficult to use persists. Despite the initial scepticism, Aebi Schmidt agreed to a comprehensive test. The realisation occurred after just a few days: The VacuFil 250 system used had extracted so much welding fumes that the manufacturer was convinced of its quality within a short time. Aebi Schmidt ordered several units at once (see also: Extraction torch information).
13 VacuFil-250 units for 26 workplaces
After the order was placed, KEMPER quickly delivered a total of 13 VacuFil 250 high-vacuum systems to the Dutch company. Because they can each be coupled with two extraction torches, Aebi Schmidt employees are able to weld safely at 26 workplaces at the same time. The systems are matched to each other in terms of extraction capacity so that the welding fumes are optimally captured without destroying the protective gas envelope. Unlike other extraction systems such as extraction arms, the welders automatically carry the extraction system integrated in the torch. The system reliably extracts the hazardous substances at the point of origin via an extraction nozzle in the torch. This means Aebi Schmidt achieves high production capacity as well as clean hall air for its employees. Even at high welding intensity, the VacuFil-250 units extract high levels of smoke and dust in continuous operation with a maximum output of 250 m³/h – without any loss of quality, even when two employees are welding at the same time.
Thanks to the particularly high filter quality provided by the special KemTex® ePTFE filter cartridges with surface filtration, the systems permanently filter out more than 99.9 percent of the captured welding smoke particles. Even particles smaller than 0.1 µm have no chance of escaping back into the hall air after extraction. Another highlight during the welding process: Automatic filter cleaning. This means that the welders do not have to interrupt their work; instead, as the filter becomes saturated, the hazardous substances enter a special disposable container equipped in the systems. The containers are changed contamination-free. To further save space in production, Aebi Schmidt suspended some systems at relevant positions in the production area. In principle, however, the company retains its flexibility to relocate them at any time and use them on the ground as mobile units.
Additional general ventilation system for the welding robots
When it comes to the protective welding equipment concept, Aebi Schmidt, in cooperation with KEMPER, thought as far as a new general ventilation system that captures welding fumes during automated welding processes to also provide protection for the employees. KEMPER installed a push/pull general ventilation system in the welding robot gantry. This captures the rising welding smoke at a height of around four metres above the equipment. On one side, special extraction openings capture the hazardous substances. A customised ducting system according to the production conditions at Aebi Schmidt transports them to the central WeldFil filter system installed outside the hall.
After separating the particles that are hazardous to health, the system returns the purified air to the outlets. Because the outlets are positioned a few metres away opposite the extraction openings, a constant horizontal air flow is created, which drives any welding fumes that have risen in the direction of the extraction openings. In addition, displacement outlets on the floor support the natural buoyancy of the welding fumes. Recirculation of the cleaned and already heated air also makes this principle energy efficient. A two-way distributor also allows some of the air to be discharged to the outside – and, at the same time, fresh air from outside is also reintroduced.
Thanks to the comprehensive protective welding equipment measures, the air in the hall has consistently improved according to Aebi Schmidt: “The air pollution control technology at the workplaces and in the robot gantry clearly exceeds our expectations”, says Koenderink. “Our welders are very happy with the improved air quality. We are always amazed at how many harmful hazardous substances the systems actually capture when we change the dust collection containers.” As a result, he says, the welder’s awareness of his own health during welding has increased immensely. And after an initial changeover to the new systems, even the handling of the extraction torches – that had a reputation of being cumbersome – is now very easy for the welders.
Information: Extraction torches
The closer to the point of origin the better: This is the unanimous advice of protective welding equipment experts for effective welding fume extraction. This is because if they are extracted directly at the point of origin, they cannot enter the welder’s breathing zone and then escape further into the hall. Accordingly, extraction torches are superior to other systems because the collection elements are closest to the point of origin. But there’s a catch! The extraction capacity must be individually designed for each torch so as not to interfere with the welding process. This depends on various torch parameters. With this in mind and in order to create more transparency for these parameters that are highly relevant for torch extraction, the German Welding Society (DVS) has recently launched an appeal: Accordingly, torch manufacturers are to make their data freely available on a platform created specifically for this purpose. As far as this necessary data is concerned, KEMPER has already done preliminary work in recent years. On its own measuring stand, the manufacturer has measured more than 100 torch types from different manufacturers, thus establishing a unique database. It is an integral part of the VacuFil i high-vacuum product series from KEMPER. At the push of a button, these units provide the correct extraction capacity for the torch in use and automatically adjust this capacity continuously during operation.