One company which I certainly never mentioned, nor even had a clue that they were using 3D printing in their production cycle is Hama, a German-based photo and electronics technology manufacturer, who has over 18,000 products to their name. While, we haven’t previously heard of the company using 3D printing in the manufacturing process, I probably would have guessed that a company as large as them, employing over 2500 people, would have some use for the technology. Typically when we think of large companies utilizing 3D printers to create products, we envision industrial level machines from the likes of 3D Systems or Stratasys. However, to our surprise, this isn’t the case for Hama, at least not entirely.
Using the X400 3D printer, Hama takes CAD drawings of new products, such as a mouse for a computer and 3D prints it in a matter of hours.
“Since we’ve been using the 3D printer, product development has been much more efficient,” Nils Krietenstein, head of product design at Hama explains. “Previously, we had to send the data to our production partners in the Far East and wait till the sample was sent back to us. This procedure made any necessary modifications very time consuming. Thanks to the 3D printer we can now complete and assess modifications and adaptions much faster.”
In this real-life example, the first prototypes of the mice are 3D printed on the X400, using white PLA plastic. Designers are then able to use the 3D prints to evaluate the ergonomics, design elements, and some functionality of the device, prior to having a mold made in order to create the end-use product. They typically use white PLA as it is the best color for assessing various designs, and the prototypes are printed using a 0.4mm nozzle with a 0.25mm layer height.
“Up to 60% of 3D printer usage is for developing the accessories whilst the remaining 40% is for the packaging prototypes,” says Krietenstein.
The prototyping of packaging may be just as important to Hama as the products themselves. In order to make sure that the presentation of a product packaging is to their liking, prototypes of so-called inner trays are also 3D printed on the X400. The trays hold products in position within the packaging. The 3D printed mold for the trays are polished and given a special coating in order to fully test their feasibility.
“We then deep draw the foil and thus produce a handful of packaging samples in order for the team to assess them on the simulated sales wall.” This is considerably cheaper and environmentally friendlier than the alternative of cutting a mold for this in aluminum. “This enables us to print up to ten molds, sometimes even more. Should something prove not to be such an optimum design, we can simply print a new deep-draw mold overnight.”
While the company isn’t using an industrial level 3D printer which could potentially cost upwards of $200,000, the quality provided by the German RepRap X400 is high enough and precise enough to do as they need.