Quality Made in Germany
Production in Germany is Part of the identity of HEINE Optotechnik.
All HEINE instruments – otoscopes, laryngoscopes, binocular loupes, lights, sphygmomanometers, ophthalmoscopes, dermatoscopes and other instruments – are made entirely in Germany. This has always been the case and will always remain so.
However, due to changes in the traditional German supply chain, we now unfortunately need to acquire some of our raw materials and accessories from abroad. Nevertheless, we still obtain 90 per cent of our vendor parts from Germany.
Modern production ‘Made in Germany’.
Production at our own manufacturing sites in Germany has many benefits for HEINE product quality and for the satisfaction of our customers. We keep all critical production steps within our company and monitor the quality of our components during the production process. When all parts are of the highest quality, this is visible in the quality of the end product.
Thanks to the ‘one-piece flow’ approach of our HEINE production system, we can supply 90 per cent of all orders within five days. Customer-specific requirements can be implemented flexibly and quickly. Production in Germany also enables rapid development times for new and improved products.
Stainless steel CNC-milled with complex chrome plating.
Our high-quality fibre-optic Classic+ Laryngoscopes go through the entire production chain at our main production facilities in Herrsching. In the case of laryngoscope blades in particular, which are constantly exposed to high mechanical loads and intensive disinfection treatments, high-quality processing is essential if the medical product is intended to be used reliably for many years. Thanks to our production in our own plant in Herrsching and the acquisition of a small number of components from suppliers in Germany, we can ensure that we get exactly the HEINE quality we stand for.
HEINE has therefore continuously optimised laryngoscope blade production. We now carry out CNC milling on HEINE Macintosh blades from a single piece of stainless steel, for example. We then laser-weld this component to the cover for the fibre optics. Finally, the fibre-optic strand is inserted into the designated opening and the ends of the fibre bundles get a manual, silky-smooth cut for optimal light conduction. The blade is designed to withstand over 4,000 sterilisation cycles and still produce a constant light output of at least 1000 lux.
In the final production step, chrome plating in our own electroplating system ensures the extremely smooth, non-porous surface of HEINE laryngoscope blades, and thus ultimately optimal corrosion protection. Thanks to the special six-step procedure, the coating is easy to clean and is extremely durable. We offer a five-year manufacturer’s guarantee for our HEINE blades.
We prefer to rely on ourselves.
One of the major cornerstones of our success is the high level of vertical integration. From the initial idea to the finished product, almost all of the production steps are carried out in-house. Our own Research and Development department is not only the source of dynamic new products; it is also responsible for continual improvements to our current product range through the implementation of new and emerging technologies. It is always best to define your own tolerances rather than relying on supplier specifications. Therefore, we design and manufacture all of the injection moulds required for production in our own Tool & Die department. Our injection moulding division creates many types of parts: from single-use eartips to complex housings for the OMEGA 500 Binocular Indirect Ophthalmoscope.
Having our own Electroplating Facility requires large investments in equipment and labour. This allows us to take direct control of the process and the ultimate responsibility for producing our high standard of quality. And that is of great importance to us. Our Electroplating Facility handles over 10,000 individual parts every day.
The more important a production step is for the quality of a product, the more important it is to carry it out yourself. Therefore, every core production step during the manufacture of a HEINE product takes place in-house: from metal processing and bulb production through to printing and acid etching or laser marking of logos. Every month we produce, for example, over 26,000 lenses, mirrors and optical components in our own Optical Production Department.
Speed alone is not enough.
At HEINE’s new company headquarters in Gilching near Munich, all corporate divisions such as development, tool construction, optics and other production related divisions as well as the administration are now even better connected.
This high degree of vertical integration provides us with a high level of control over our own processes and therefore, our own quality.
It also enables us to bring products to market much faster, and allows us flexibility to respond to changes in products much quicker, be it something as complex as a change to an optical system, an injection-molded polycarbonate housing or simply a change in a production process.
Quality and precision go hand in hand.
Absolute precision is the basic requirement to ensure the creation of a high-quality product.
At HEINE this principle applies to the entire production chain. Our lenses, for example, are manufactured using the latest CNC-controlled, state-of the art machines. Many of the lenses are manufactured with an accuracy of +/- 0.0001 mm. This is 20 times less than the diameter of a human hair.
One inspection is good, 74 inspections are better.
It is the quality manufacturing process of a product that ensures that defined precision benchmarks are not just replicated once or twice, but thousands of times to guarantee that every product that reaches our customer´s hands meets our exacting standards. A close look at the manufacturing process of the BETA 200S Direct Ophthalmoscope reveals no less than 74 different in-process quality assurance checks. Some might call this excessive. We simply call it HEINE quality.
We only combine what is compatible.
70 years of developing and manufacturing diagnostic instruments has given us a great wealth of experience that directly translates into the quality of our products today.
One key issue that is critical to the design of a product, for example, is the compatibility of different materials. This is not only important for the different components used in the production of the instrument itself. It also includes an assessment of materials in the subsequent working environment of the product. Even the best designed instrument is of little use if its performance and operation is impaired by material incompatibility.