Faster, more accurate, and more cost-efficient machining is only one of the advantages of automating grinding processes. Factors such as a higher safety for the operators and their health also play a large role. STUDER is therefore one of the technology leaders in this field.
“There are still a lot of prejudices about automation in grinding,” says Daniel Schafroth, Systems Division Manager at STUDER. There are frequently concerns that people or jobs could become redundant. “However, for us at STUDER, the opposite holds true: Automation should enable the human operators to do their work more easily, efficiently, and safely,” he says. Additionally, the special requirement of grinding necessitates that automation is used very wisely and selectively not every solution used in the industry is suitable for this. But what are the important factors?
“For grinding, it is particularly important that processes are performed repeatedly in the same way, with high precision and reliability, for example clamping workpieces and aligning them correctly with micrometer accuracy,” explains Schafroth. Automatic solutions for multi-machine operation are also relevant, as these can greatly relieve the workload of the operators, who then only have to fill magazines and no longer need to laboriously load each machine. However, grinding fundamentally requires the operators to have a high level of competence, and automation should not be something that hinders them,” says Schafroth: “Automation only makes sense where the operator doesn’t have to have a decisive influence on the process.”
Small companies profit from easyLoad
If correctly used, automation can be a real game changer for grinding companies—regardless of whether it is a small business or a large company with several systems. “Where grinding machines are concerned, automation pays off for all sizes of companies,” emphasizes Schafroth. This may mean that a small workshop with only a few employees can fill the grinding machine in the morning and let it work autonomously for extended periods while the employees take care of other things, such as writing quotations. For example, the easyLoad loading system for external and universal cylindrical grinding machines (S31, S33, S22, and S41), which offers excellent value for money, including integration in the machine control, is explicitly also aimed at small companies.
easyLoad is suitable for use as a gantry loading system for shaft parts with a workpiece length of up to 300 mm (11.8“), a diameter of up to 30 mm (1.18“), and interfering contour diameters of max. 50 mm (1.97”). The adjustable synchronized conveyor allows autonomous processing of max. 50 workpieces. The standard gripper is designed for individual parts, the V-gripper for two parts, and the heavy-duty gripper for workpieces that weigh more than five kilograms (11 lbs.), and the changeover time is only around six seconds. This enables the machine to run autonomously for half an hour or longer with ease.
ecoLoad and uniLoad increase production
STUDER has also developed optimal automation solutions for larger-volume series production. “Small companies mainly benefit from the universal and flexible systems, whereas speed and precision are the important factors in the production of large quantities,” explains Schafroth. Here, good automation concepts can produce a large number of high-quality workpieces and make the most of every second. The ecoLoad for the STUDER S22 production platform is an automatic loading system for series production using high-speed grinding, production-oriented cylindrical grinding, as well as form and thread grinding.
ecoLoad can load workpieces with a diameter of up to 50 mm (1.97”) and a length of 250 mm (9.85”). This is either done using a carousel magazine or an insertion prism, which can also be used as the interface for standalone tool magazines. The programming is already integrated into the grinding machine control. This ensures short retooling times.
The uniLoad automatic loading system also makes it possible for operators of the STUDER S31 and S33 external cylindrical grinding machines to significantly increase productivity without any loss of quality.
The system docks to the machine from the left. With a prismatic conveyor and all racks at full capacity, it can perform automatic processing for around an hour. It is suitable for workpieces with a length of up to 350 mm (13.8”) and 100 mm (3.94”) diameter and thus covers a large range of the parts normally produced on these machines.
Automation when space is tight: smartLoad and roboLoad
Solutions for applications with limited space are another important trend in the automation of grinding. “In modern production halls, it is of particular importance to make efficient use of the space,” says Schafroth. This is another topic where STUDER is a trailblazer, for example with the smartLoad for the S11, a production cylindrical grinding machine for small workpieces which has a footprint of only 1.8 square meters (19.4 sq. ft). The smartLoad unit is also compact and can feed in workpieces from outside the machine, using either a conveyor or a swiveling unit, as well as clamp them and place them back after the machining. Thanks to the wide variety of configuration options, numerous applications are possible, for both small and large-volume series.
In the past, radius internal cylindrical grinding machines, which are used in the manufacturing of drawing dies, for example, have been particularly difficult to automate, due to the limited space available. One reason for this is the restricted enclosure geometry resulting from the high workhead. STUDER has now developed an optimal solution for this as well: roboLoad. This external loader for the S121, S131, and S141 is designed as a gripper arm with quick-change jaws and has a lot of space for workpieces on six trays (each 1080 x 320 mm (42,5 “ x 12.6”)). At 1.50 m (59”), the system is only half the width of the machine itself.
“With the robot arm outside the machine, we gain a lot more freedom, thanks to the rotation axis, and the roboLoad can get in for loading and unloading without having a direct path available,” says Schafroth. Until now, automation solutions for grinding were largely based on linear technology such as beams and slides. However, at the moment the roboLoad is not primarily intended for large series production, but more for automated production during night shifts or extended breaks. But Schafroth is sure that the trend toward using robotic arms in grinding will persist. “Neither our customers nor we want to relinquish this new freedom.”