Heating, cooling, temperature control. Individual in every respect.

Customised? Coordinated precisely to your needs? That’s exactly how we work. Always. There is, after all, hardly a production process in which material is not heated, cooled, dried or joined. We develop the right solution for every task, the possibilities are limitless: from the small heating plate measuring 30 mm to the massive press tool made of steel and weighing several metric tons. Are you thinking about temperature control or a press tool? Then talk to us.


Heating plates for woodworking and wood processing: Busse is your experienced partner for the production of economical and flexible heating plates.


Manufacturing processes for composites need heat. With heating plates from Busse, you always get the right solution.

Glass and photovoltaics

Heating plates for laminated glass production: Busse supports you in developing your optimum heating solution.

PU processing

Processing polyurethane requires heat. Busse can provide you with heating and cooling plates for optimal temperature control.


Cold and heat are crucial for vehicle construction. Renowned car manufacturers count on the reliable heating and cooling solutions from Busse.

Research & Development

Busse manufactures individual heating and cooling solutions for research and development in companies and scientific institutes.

Solid surface materials

Processing solid surface materials calls for precise temperatures – the versatile heating plates from Busse meet these requirements.

Custom solutions

Sophisticated, proven products and many years of experience – Busse Heizplattentechnik manufactures individual heating solutions for every application.


Composite - wheel rims made of carbon
Customized - heating, cooling, vacuum
Photovoltaics - Downward compatible control


The customer is a manufacturer of carbon rims and was not satisfied with the performance of the previously used silicone heating mat. An additional cooling process was to be implemented to the existing heating process. For this purpose, the system was converted from electric heating to operation with a water temperature control unit up to 140°C.


The plate contour required by the customer did not allow much room for cooling channels. For this reason, the use of a tube was dispensed with and the cooling system was milled directly into the aluminum plate.


The chosen design resulted in a very large duct cross-section. This cross-section allows high flow rates and a correspondingly high efficiency of the system.


For a machine project, our customer requires a small heating plate, only 300 mm in size, which is also equipped with a cooling function.

A UV lamp is used for the drying process. In order to counteract the heat input from the UV lamp, cooling is required at the process location. The product is to be fixed by means of vacuum holes in the heating surface.


The good heat conduction properties of aluminum are predestined for this application. The sandwich construction allows the combination of several heating planes, a cooling plane and a vacuum system. The specification for the project was a maximum weight of 3.6 kg.


The cooling was realized by a very thin aluminum plate with holes for cooling. To avoid imprints on the product, the vacuum holes in the heating surface have a diameter of only 5/10 mm. The vacuum system was created by a filigree network of milled holes. Three interchangeable heating planes make the product easy to maintain. The total overall height is only 36 mm.


This customer approached us with very specific requirements. A homogeneous heating distribution was required. The heating plates are used in a vacuum and serve to apply a protective film to the wafer before the grinding process. The appropriate control system was included in the scope of delivery.


Since the customer's product was a table-top unit, no conventional flat control cabinet was used for the control system. The housing was custom-built for the customer. The range of functions of the microprocessor controllers used was adapted to the customer's requirements.


The housing, made of two powder-coated laser-edged parts, is an excellent visual match for the customer's machine. The selected interfaces make the device compatible with previous products.