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Complete Machining of Parts for Vehicle Transmissions



In 1873, Johann Renk founded his company in Augsburg, Germany, which later became known as the Augsburg Gear Factory. In addition to its headquarters in Augsburg, the company also operates production plants in Germany, Switzerland, the United Kingdom, Canada and the USA.

Roughly 60% of all parts to be machined for vehicle transmissions are rotating parts, practically all of which can be produced on WFLs.

Driving, braking and steering: the transmission is the central mobility unit of these 77-ton monsters.

To boost efficiency even further, Renk has successfully deployed automation solutions from FRAI Robotic Solutions on two machines. (l-r) Wolfgang Neukäufer, Foreman, Complete Machining; Martin Wimmer, Head of Production, Vehicle Transmissions; Stefan Müller, Production Manager, Vehicle Transmissions.

Armored vehicles need huge levels of drive torque to get going. In order to deliver the necessary propulsive force, manufacturers rely on transmissions from Augsburg-based Renk GmbH, a specialist in fully automatic transmissions for heavy tracked military vehicles.

Unlike in a car, a tracked armored vehicle can be driven, steered and even braked through its transmission. On vehicles kitted out by Renk, this braking effect is delivered by two different braking systems-one for low speeds, one for high speeds-working together by means of a mechanical brake in the lower speed range and a built-in hydrodynamic eddy-current brake known as a retarder. Being responsible for changing gears, steering and braking, the transmission is essentially the central mobility unit of these vehicles and therefore plays a mission-critical role-and that is even before considering that these 77-ton monsters need to be extremely maneuverable at speeds of up 45 MPH on roads and open terrain.

Renk provides transmissions for tracked military vehicles weighing over 44 tons and supplies more than 40 armies around the world. Every transmission is designed for a specific type of vehicle and is specially adapted to suit the respective level of equipment and powertrain. In other words, Renk takes the respective basic transmission type and customizes it for its specific application in the vehicle. The vehicle is steered by controlling the output speed via the final drive, then on the sprocket wheel drum and then directly on the track itself. The driving direction can therefore only be influenced by changing the speeds of the individual tracks. Braking or accelerating is achieved by decreasing or increasing the track speeds at the same time. Different speeds at each of the tracks will steer the vehicle in one direction or another, or the vehicle will rotate around its own vertical axis if the tracks run in opposing directions. All this-as well as the enormous forces that are generated as a result-must be handled by the transmission in every ambient condition imaginable. What is less surprising is that achieving this is dependent on a wide range of complex parts manufactured to stringent quality requirements.

The parts needed for the transmission are divided into three categories: housing parts, small cubic parts (force-carrying parts, valve blocks, brake parts and fluid mechanics-related parts) and rotating parts with gear teeth for speed transmission. The latter are the typical parts installed in the powertrain of the transmission-and parts well suited for complete machining on machines from WFL Millturn. In fact, there is not a single part in this segment that is produced through turning alone, since complex milled geometries and a range of holes are often also required.

Rod and forged parts are predominantly made of high-strength steels from 1,200 to 1,300 N/sq. mm. "If it is round and has a gear cutting, the general rule is it goes on a WFL machine. Typically, these parts are produced in small batch sizes of one to 300 units, whereby the average batch size is around 50 pieces," said Head of Production Martin Wimmer. "But parts for prototype transmissions in batch sizes of one to five units are also not unusual. Due to the flexibility of the sophisticated WFL machines, a separate prototype production line with different manufacturing processes is not required: even the smallest of batch sizes can be produced economically using the existing machinery. Cost-intensive special clamping devices are thereby rendered unnecessary, as workpieces are clamped on the WFL Millturns by either standard jaws or a few special jaws with a 3-jaw chuck."

A critical factor in determining the productivity of a machine is its programming, which is carried out exclusively using the Siemens NX CAD-CAM programming system. "For the first four WFL machines we had different post-processors (PP) due to the different machine models. In the meantime, the PPs have been standardized so that every machine uses the same PP. The advantage here is that production can initially be planned independently of the machine. In other words, a program is created without having to know which machine it will ultimately be executed on. Only once the order is started will the Production Logistics team decide on which machine the respective parts will be produced," explained Wimmer.

The entire production process is simulated in the CAD-CAM, where the consistency of the data from the design of the parts to the production on the machine plays an important role. In the CAM itself is a model of the machine, the chuck, clamping jaws, unfinished and finished parts as well as the tools, which allows the reality to be simulated accurately to ensure the programs tested work faultlessly in practice. "This approach works really well. Due to the comprehensive simulations, we have practically no collisions anymore," said Wimmer.

The gear teeth are a certain exception during the simulation. Gear teeth are cut on the WFL Millturns up to Module 4, whereby it is predominantly special WFL cycles that are used for gear hobbing, as these can be applied very quickly and easily by entering the gear cutting parameters.

The first WFL Millturn was delivered in 2010 and Renk has been working intensively with complete machining ever since. "We analyzed our entire range of parts, from the very small up to those with diameters of roughly 600 mm, with the goal of standardizing what was at the time a very inhomogeneous machine park," said Wimmer. "We wanted to have a machine concept that followed an identical structure for all parts of all sizes. WFL had the perfect offering for us with the M35 to the M50. In addition to turning, drilling and milling on a single machine, it was important to us that the gear cutting-especially of Module 3 in Quality 8-could be performed with a hobbing cutter clamped at one end. While many manufacturers could promise us this, it was only WFL that actually delivered. A positive impact in this respect is the extremely stable indexing of the B-axis with the large Hirth coupling in particular. The WFL-typical set-up of the turning-boring-milling unit, whereby the milling spindle is designed as a high-torque gear spindle, ensures exceptionally high machining performance in all speed ranges. The benefits of the extremely stable machine frame are not only measured in terms of productivity, but ultimately the constant adherence to the tightest geometrical tolerances and the optimum surface qualities that are achieved."

Wimmer continued: "The machines are fitted with an 80 bar high-pressure coolant unit that can also be switched to air. In addition to the standard Capto C6 tool system, each machine is equipped with an extra, particularly stable tool accommodation on the turning-boring-milling unit. Heavy boring bars or special tools are securely held in place by a hydraulic prismatic tool accommodation. Machines with a 3,000 mm center distance also feature a built-in pick-up magazine for the automatic use of long boring bars in addition to the standard magazine. We no longer want to have to use different machines or external suppliers for the occasional special tasks. Not only does this bring about a significant reduction in lead times, but the number of operations can be dramatically cut too. Individual operation sequences have been halved due to the complete machining. The combination machining has also allowed us to make savings in the runtime, with the capacity freed up through the more efficient use of our machine resources being used to perform additional work with the machine. For example, when the machining processes produce burrs, they are immediately deburred on the machine, improving productivity and safety while simultaneously minimizing the risk of injury. The user training from WFL has proven particularly helpful in this respect. As well as explaining how to program the machines, users were given a detailed insight into the conceptual planning of the entire machining sequence as well as selecting the right clamping device. In the meantime, we now have nine WFL Millturns of three different sizes and two different turning lengths operating on our vehicle transmission production lines."

To boost efficiency and the level of utilization even further, the M35 delivered in 2017 was kitted out with an automation solution from FRAI Robotic Solutions, which has led to the more efficient production of workpieces such as planetary gears. An M40 has since been automated too. "We have exactly what we wanted: machines tailored precisely to our requirements that are a perfect match for our applications and space situation. With the second system we want to integrate a further turning station so that our staff can concentrate on demanding tasks," said Wimmer.

Machine data acquisition is a topic of growing importance at Renk. To this end a system is already in use that displays the respective status of the machine via a dashboard. Because it is important that the same solution can be used in every plant, Renk has opted for a universal solution that is not dependent on any one machine builder-and like with CAD-CAM, there is a close collaboration with Siemens here as well. Renk is already in a strong position with regard to predictive maintenance and condition monitoring with its own solutions, Renk Monitoring, which is also tried and tested with Renk transmissions, has been adapted for machine tools and forms the basis for this important future topic.

Authored by WFL Millturn Technologies

For more information contact:

WFL Millturn Technologies

Autania Tec Center

48152 West Road

Wixom, MI 48393

248-347-9390

office@wfl-usa.com

www.wfl-usa.com

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