Expand the sheet metal functionality of Autodesk Inventor with tried-and-tested features that save time, reduce errors, and optimally connect design and fabrication. SPI SheetMetal Inventor is an add-in for sheet metal fabricators and sheet metal service providers who design with Autodesk Inventor. The functionality of SheetMetal Inventor can be further expanded with CAM interfaces (for TRUMPF, Bystronic, LVD, Schröder, and WiCAM) as well as with a highly accurate cost-calculation add-on.

Expand the sheet metal functionality of SOLIDWORKS with tried-and-tested features that save time, reduce errors, and optimally connect design and fabrication. SPI SheetMetalWorks is an add-in for sheet metal fabricators and sheet metal service providers who design with SOLIDWORKS. The functionality of SheetMetalWorks can be further expanded with CAM interfaces (for TRUMPF, Bystronic, LVD, Schröder, and WiCAM) as well as with a highly accurate cost-calculation add-on.

Your high-performance automation component for sheet metal unfolding. Automate your workflows: 1) Dimensioned drawings, 2) Output in GEO format, 3) Output in DXF format, 4) Output in XML format, 5) Cost calculation. SPI Unfold Engine fully automates the unfolding of sheet metal parts and assemblies. The software adapts to a wide range of machine environments and CAM systems, eliminating time-consuming manual processes. In addition, the Unfold Engine generates detailed three-view dimensioned drawings and provides automatic cost calculation.

- Long travel distances with high repeat accuracy - High speeds with longer travel distances thanks to the optional use of spindle supports - Various spindle pitches to choose from - Self-locking when using trapezoidal screw drives - High feed forces - High drive rigidity - No gearbox required in some cases

The SaveProL is one of our most commonly used industrial spiral vending machines. It is an excellent choice for storing and distributing C-parts and personal protective equipment used in production. We recommend the SavePro for companies that use a variety of these products and want to keep them within easy reach of their employees.

SPLINED SHAFTS AND OTHER SHAFT FORMS In mechanics, various shafts are known, such as the profile shaft. The spline shaft is a shaft that creates a positive connection to the hub. This is made using straight or parallel drivers. In the case of splined shafts, these drivers consist of involute flanks. The so-called involute toothing plays a major role in mechanical engineering. Spline shafts can transmit large and changing torques to the gearboxes of machine tools, for example. They are used as power take-off shafts in agricultural vehicles. Electric and hydraulic motors also cannot do without shafts, which enable the gearbox to function smoothly. Spline shaft profiles are produced by milling, grinding, cold drawing or shaping. Milling is done using a hob or form milling cutter. There are also various manufacturing processes for the spline hubs that belong to every spline shaft, such as wire erosion. Spline shafts are usually manufactured using special machines. A disc-shaped form milling cutter is used when milling spline shafts. This must be specifically tailored to the dimensions of the shaft. This means that not only standardized models but also individual designs can be created. We produce in accordance with the DIN/ISO standards listed below: DIN 5463 / ISO 14 DIN 5472 DIN 5480 DIN 5481 DIN 5482 DIN 9611 / ISO 500 Largest tooth length - milled up to 3000 mm - ground up to 750 mm

- Available from stock - From 5Nm to 400Nm - Smaller braking torques can also be implemented - Various voltages possible - With and without adjustment ring

hse control technology develops highly complex PLC programs for numerous partners in industry, which are used in different system types of plant control. Transparency and traceability of the software The number of possible systems for creating programs is as large as the number of programmers. In addition to cost-effectiveness, the only thing that counts for the companies using it is that the software is transparent for their employees and can be further processed. In order to guarantee these requirements, hse uses the individual specifications and the standards already in use by the customer for each project. The PLC programmers in our company know the requirements of numerous industrial partners and can adapt to the tasks of almost any new project.

This photo shows a gear, which is also called a spur gear. A gear is used in almost all mechanical drives to transmit forces. The required tooth size, also called module, tooth width (also called tooth flank) and the number of teeth depend on the space in the mechanical drive / gear and the force to be transmitted, which is also called torque. The material of the gear must be selected depending on the load. Steels that can be hardened are usually used. Depending on the hardening process, the steel inside the tooth is still soft and the surface of the teeth is hard (wear-resistant). A particularly popular material for gears to be hardened is 16MnCr5. Depending on the desired accuracy or tolerance (gear quality), the teeth of a gear can be milled and, if necessary, ground. Milling achieves tolerances in the hundredths of a millimeter range. Grinding achieves tolerances in the µ range (thousandths of a millimeter range). Whether a gear has achieved the desired geometry is checked by measuring machines (tooth flanks, tooth pitch, shape and position tolerances, dimensional tolerances). There is also the option of checking the gear for grinding burn. As every mechanical drive is different, we do not have any stock items. We only manufacture to order, in single or large series. We manufacture gears according to your requirements - be it by milling, grinding or shaping, as well as straight toothed or helical toothed in module 0.3 - 18.

STAFIL® dust extraction systems. Economical dust-free production. STAFIL systems are modular in design and can therefore be flexibly adapted to different types of dust. Whether for 2,000 or 30,000 m³/h extraction capacity. Efficient valve technology and fans ensure low operating costs and high separation efficiency. Even hazardous substances can be filtered out safely. STAFIL systems are compact and can be installed in production facilities to save space.

MBH has a large, separate production hall for the perfect processing of chrome-nickel steel and other non-ferrous metals. So that we can guarantee a strict black and white separation. Over there we produce everything in the purest, maximum quality- from strong to minimal material thicknesses. As a TÜV (Technical Supervisory Association) certified manufacturer of pressure vessels according to AD 2000, we develop and produce tailor-made solutions. Whether in the food, pharmaceutical or mineral oil industry – you can expect finely processed sheet metal assemblies, (pressure) containers and welded stainless steel constructions.

Mit feinsten Strahlmitteln aus Edelstahlguss veredeln wir hochwertige Materialien im Gestell- und Schüttgutverfahren. Das Anwendungsspektrum ist vielfältig: Wir bearbeiten Produkte für Zulieferer der Automobilbranche, den Maschinenbau, für die Möbel-, Elektro-, Sanitär- und Leuchten Industrie. Das Edelstahlstrahlen kommt auch in der Medizintechnik zum Einsatz. Dank unseres breit aufgestellten Maschinenparks sind wir in der Lage, auf unterschiedlichste produktspezifische Anforderungen zu reagieren. Edelstrahlstrahlen egalisiert auch Bearbeitungsspuren und Stegabzeichnungen auf Aluminiumbauteilen und es ergeben sich gleichmäßig satinierte Oberflächen. Ebenso dient das Verfahren als Vorbereitung zum anschließenden Eloxieren.