Utilizing the benefits of induction heating, many industrial applications become available for the technological heating of metal components. These include preheating in certain bonding methods, heat treatments that modify the structure of raw materials in machine parts and other heating processes in different technologies.
This machine is suitable for the heating of aluminum truck rims.
The coil developed for this very purpose ensures the uniform heating of the rim and is therefore very efficient.
The machine communicates with the manufacturing unit via an Ethernet connection.
This induction heater, using a protective gas atmosphere, was developed for the softening of small steel components using heat. Parts are fed fractionally into the heating unit followed by cooling in a closed compartment. Mechanical parts and the induction heating process are controlled by a PLC unit.
High productivity and efficiency make this machine a prime choice for mass production.
This machine was developed to heat metal parts to be glued onto auto glass during bonding.
The purpose of heating is to accelerate the bonding of the glue used on the part.
The machine is capable of heating two parts at the same time.
The intensity and time of the heating process can be set or even regulated when remote control is used.
The coils (heating heads) of the machine can be easily integrated into automated production lines.
The machine is suitable for heating the coils in direct current electric motors for the purpose of bonding.
The heating head heats the segments made of wire coated with thermosetting glue during coiling, producing the bond between the threads. Using this method highly stable and refractory coil segments can be produced in a productive and reliable process, to replace bonding technologies relying on alcohol.
The handheld energy
The equipment can be universally utilized for soldering, brazing, heat treating, straightening, pre-heating for welding and numerous other special heating tasks. It can replace open flame heating in a fast, precise, economic way. The outstandingly small size and weight of the machine allows it to be used for continuous handheld operation. This is especially useful for tight, hard or reach spots, both in handheld operation mode, or by mounting it to a light robotic arm. The advanced, intelligent controller system makes it capable to manage complex heating procedures, whilst holding the process firmly under control.
The heating head
The power supply unit
This machine is suitable for coating steel components with a layer containing hard metals.
The powder containing hard metal is dispersed onto a surface that was heated to melting temperature which melts the powder and then spreads it evenly under the alternating electromagnetic current.
The induction technology used ensures the formation of an even, homogeneous coat. Induction heating enables the user to heat only those parts of the surface that need to be treated, so the method is highly efficient.
When heating underneath the surface of the work piece is to be avoided, induction heating is the only viable method available. A few practical examples: tool edges (earth-boring tools, rock drills, burrs, plough edges, etc.), power tool cables, auto parts subject to wear (camshafts, plain shaft bearings, etc.) and the manufacture and refurbishing of surfaces.