How you benefit from future-proof automation technology:
Increased process reliability: The proven and future-proof components enable reliable and, above all, reproducible processes.
Time saving: The standardised complete system simplifies the order and scheduling processes for the furnace manufacturer.
Seamless monitoring: The EDIP device platform facilitates the management and logging of process data.
Easy start-up: The preconfigured control solution is quick and easy to connect.
These days, the automotive industry, wind power stations or the engineering industry often require high-strength steels that are processed using press hardening to create safety-relevant structural components. In this context, manufacturers are increasingly calling for precise logging and traceability of gas quantities and furnace atmospheres. Together with schwartz GmbH, the world market leader in heat treatment systems for the press hardening of steel, aluminium and other non-ferrous metals, Bürkert therefore developed a plug-and-play complete solution for controlling the gas supply in roller hearth furnaces.
Automated mass flow control
Up to now, the standard operating procedure in the press-hardening process was to set the gas quantities manually depending on the quantity required with the help of a glass-cone flowmeter. Given the increasing requirements pertaining to the quality of heat-treated steels and the need to log gas quantities and furnace atmospheres, this method no longer conforms to current best practices. schwartz GmbH was looking for a new, future-proof solution. The system for controlling the gas supply needed to operate automatically, communicate via a suitable BUS interface with the higher-level control system, be sufficiently compact to fit in a control cabinet, have the necessary approvals, such as UL or CSA, and offer remote maintenance and diagnostic capabilities.
Compact control cabinet solution
The fluid control specialist Bürkert rose to the challenge and developed an automated system together with schwartz GmbH for controlling the gas supply of roller hearth furnaces. The system features a modular design and consists of one control cabinet per furnace zone. Each one contains two to three Type 8746 mass flow controllers.
The basic material for the press hardened sheet steel is a boron-alloyed tempering steel. In the austenitisation furnaces, both coated as well as uncoated steel sheets are heated above the austenitisation temperature to approximately 950 °C and held there for a defined period. The uncoated steel is treated in a furnace atmosphere with a shielding gas mixture comprising nitrogen and natural gas to prevent scaling and decarburisation of the surface.
The design of the maximum flows of the controllers for nitrogen, methane and air is determined by the dimensions of the furnace. The design with regard to the input pressures conforms to the gas supply conditions in the plant. From the higher-level process model, the furnace controller calculates the required gas quantity and passes this as a set-point value to the two corresponding mass flow controllers. The necessary nitrogen and methane quantities are dosed by the mass flow controllers and supplied in their mixing ratio at the respective introduction point.
Precise control of the gas supply
The operating principle of the mass flow controllers guarantees exact and precise control: The thermal inline sensor in the flow controller sits directly in the gas flow and achieves very rapid response times. It functions as a hot-film anemometer in the CTA operating mode (Constant Temperature Anemometer).
Suitable flow conditioning within the mass flow controller as well as calibration using high-quality flow standards ensure that the gas quantity flowing per unit of time can be derived from the primary signal with a high degree of precision. The integrated PI controller and a direct-acting proportional valve from Bürkert as an actuator guarantee a high response sensitivity.
Plug-and-play solution from a single source
Apart from the high accuracy of the pressure and temperature-independent control, the new solution for controlling the gas supply offers a number of other advantages in practice. The standardised complete system simplifies the order and scheduling processes for the furnace manufacturer. Furthermore, the preconfigured control solution is quick and easy to connect. One M12 connection per cabinet is sufficient for the voltage supply.
Integration in the higher-level control system is also simple. With this in mind, one of the cabinets is equipped with a central control unit that handles communication with all mass flow controllers integrated in the cabinets. With the EDIP device platform (Efficient Device Integration Platform), Bürkert has created a practical solution for this. If necessary, the user can program the logic without any additional intervention into the furnace control system and can adapt it to changing processes and operating conditions. The control cabinets are connected as an autonomous sub-system to the higher-level fieldbus. In the application described, the control unit communicates via Profinet with the furnace PLC, which manages and logs the process values. Other fieldbuses and Ethernet connections are also supported.
“This plug-and-play complete solution makes it possible to respond quickly and easily to the increased logging and traceability demands of the industry.”
- schwartz GmbH
Perfectly prepared for the future
Many other applications stand to gain from the exactly automated control of the gas supply. Within the “black box”, the design can be optimised and further developed at any time without the need to intervene in the actual furnace layout. Not least for this reason, the autonomous sub-system for controlling the gas supply at the roller hearth furnaces of schwartz GmbH has proven itself to be very effective in the meantime.
Mass Flow Controller (MFC)/ Mass Flow Meter (MFM) for Gases
Nominal flow ranges from 20 lN/min up to 2500 lN/min
High accuracy and repeatability
Communication via fieldbus based on CANopen
Optional: ATEX II Cat. 3G/D
Electromagnetic and motor-driven valve actuation available