CASE STUDY: Safety Service Tools

CASE STUDY: Safety Service Tools
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Kirschenhofer Maschinenbau GmbH, the special machine manufacturer, guarantees safe tool changes for truck catalytic converters with Turck’s BL ident I/O system and TBEN-S I/O modules. By Ralf Moder, Sales Specialist, Turck

Kirschenhofer Maschinen GmbH in Nersingen-Straß has made a name for itself as a special machine builder, and also for the development and manufacture of production plants for catalytic converters. The now completed manufacturing cell for truck catalytic converters can produce around 60 different types for customers. Kirschenhofer uses state-of-the-art automation technology to ensure that each catalytic converter meets the stringent quality standards and the traceability of each individual catalytic converter. Profinet I/O modules and the RFID system for the ultramodern production plant come from Turck.

Large engines produce a lot of exhaust gas. The exhaust gas cleaning systems of a truck are thus sized accordingly. Up to six catalytic converter systems clean the exhaust gases of a large truck engine. A catalytic converter for a car and for a truck consists of three main units: a monolithic ceramic block (mono), a fiber mat wrapped around the monoblock and an outer metal pipe. The ceramic block has a honeycomb structure. The honeycombs are coated with a catalytically active precious metal. Under the microscope, this so-called wash coat can be seen to be extremely rough. As a result, the coating has a surface area of up to 100 sq m per gram. The catalysis of carbon monoxide, which converts hydrocarbons and nitrous oxides into carbon dioxide, water, and nitrogen takes place on this surface.

The fiber mat ensures correct positioning inside the outer metal pipe and must have precisely the correct density so that the exhaust gas does not flow past the monoblock. The outer metal pipe provides the process connection to the engine and the downstream exhaust gas line of the vehicle. Major vehicle manufacturers mount these three basic elements and other components themselves, depending on the type of catalytic converter, in their vehicle plants. Monoblocks, fiber mats, and pipes are supplied.

Hard Stuffing Vs. Soft Stuffing

There are two different processes used for mounting catalytic converters: Hard stuffing and soft stuffing. With hard stuffing, a monoblock with a fiber mat is inserted under pressure into a pipe that is enlarged beforehand to the required dimension. With soft stuffing, the monoblock with a fiber mat is loosely inserted into an outer casing and then compressed (or shrunk) to the required dimension.

With both processes, the mounting of catalytic converters in an automated manufacturing cell is highly complex. As a result, many well-known vehicle manufacturers now turn to Kirschenhofer Maschinen GmbH in the Swabian town of Straß near Neu-Ulm. The special machine manufacturer specialises in these kinds of mounting machines and has acquired a considerable amount of know-how. With 25 employees, the company produces machines that are technological leaders in their sector.

Flexibility And Traceability

Up to 60 different types of catalytic converters can be produced in a mounting plant for this major truck manufacturer. These catalytic converters vary in size, with round, oval or polygon cross sections, and are also manufactured using the hard stuffing or soft stuffing process.

The plant has to offer a high degree of flexibility in order to handle all the variants without any refit times. The batch of pipes, fiber mats and mono blocks that were fitted in each catalytic converter must also still be traceable after ten years. This enables any costs or image damage to be kept to a minimum in the event of any recall action.

RFID Tool Identification

Production faults are prevented and detected by the machine during the manufacturing process. The monoblocks, for example, are checked for cracks and damage at the edges and any faulty parts are removed. With the hard stuffing process, the pipes have to be expanded to the required dimensions. Depending on the geometry of the subsequent catalytic converter, the different tools required are clamped into a machine and mostly changed after a production batch. This takes place several times a day, with batches of between 200 and 1,000 catalytic converters and a production rate of around one catalytic converter per minute. As the tools are stored in a central high-bay warehouse from where they are also used in other machines, the customer required an automated tool identification system.

“The customer has 20 different tools in use. The ID number of the particular tool is stored on the RFID tag. The machine uses the ID number to check whether the correct tool was inserted and only then enables the stretching of the pipe,” explained Thomas Schön, programmer at Kirschenhofer. With a force of between 30 to 60 tonnes exerted by the machine, the use of the wrong tool would cause enormous damage and major production failure.

The tool identification process was implemented with Turck’s RFID BL ident system. The tools are fitted with TW-R30-M-K2 tags for this, which are embedded in the metal. Turck’s compact TN-Q14 HF  read/write heads are fitted at the tool holders. “We chose Turck’s RFID readers due to their compact design,” said Craig Craill, head of the electrical department at Kirschenhofer. The Q14 is only 14 millimeters high and offers a maximum read/write distance of up to 72 millimeters. Although the range is shorter in the metal environment, it is still enough to protect the read/write head from colliding with the tool.

Optional Wear Detection

Another machine type from Kirschenhofer, of which more than 10 are already in use by a major German car manufacturer, also checks the pipe diameter after the stretching process and compares the value with the tolerance values stored on the tag. The benefit of this additional option is that the machine can detect during stretching any wear on the tool, any material faults, or operating errors. The maximum and minimum diameters of the pipe are also stored on the tag in the current plant for truck catalytic converters. If this function is required, it can thus be retrofitted easily.

Sensitive Robot Grippers

The empty and full pipes are transported between the two processing stations in the plant by means of robot grippers. The pneumatic gripper has to apply a different pressure depending on whether the pipe is empty or full. The robot arm with a pneumatic gripper must only use 2.5 bar to grip an empty pipe in order not to squash it. The robot brings the pipe to the insert station where it is filled with a monoblock with a fiber mat. It then weighs around 20 kg and has to be gripped at 6 bar, so that it does not fall out of the gripper.

Profinet I/O Module Maintenance-Friendly And Time Saving

The relevant analogue values are transferred to the pneumatic valve using Turck’s compact TBEN-S2-4AO Profinet I/O block. The IP67 module is fitted directly on the robot arm and passes on the values from the controller to the valve. A TBEN-S2-4AI module with analogue inputs returns the analogue values of the pneumatic valve to the controller.

“We previously cabled everything. There was a giant conduit with cables and a lot of wiring was required. Today we only have one Profinet cable and a power supply,” Craig Craill explained. “Today’s solution is also a lot more maintenance-friendly. If the customer has a problem, we look at it and can see what is going on precisely.”

Another robot gripper just has to transport the stuffed pipes and therefore also manages with I/O modules with digital inputs/outputs. For this, Kirschenhofer uses the universal TBEN-S1-8DXP, with eight channels that can be used as inputs or outputs.

“The problem with other I/O modules in this design is the fact that they do not have their own IP address but have to be accessed via an internal bus. I can also expand the Turck system as required without any major effort,” said Mr Craill, describing the differences between TBEN-S and alternative products.

Turck’s TBEN-S multiprotocol modules talk three industrial Ethernet protocols and can therefore not only be used in Profinet but also in EtherNet/IP and Modbus TCP. “We only use Profinet, although we are repeatedly being asked by US customers whether we can also use an Allen-Bradley controller,” said Mr Craill. “However, we nevertheless have our standard and can only work economically if we keep to it. We have to technically understand our system in every detail.”


Mr Craill is looking forward to the TBEN-S2-RFID modules recently launched. You can connect up to 32 addressable read/write heads in so-called bus mode in a linear topology. This reduces the wiring effort from the read/write heads to the RFID interface. Furthermore, fewer interfaces are required, which in turn saves costs and space.




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