Focusing on the mid- to high-end market
With more than 30 years of engagement in the research and development (R&D) of the architecture of light, Macron Associate Co. (Macron) is currently specializing in light-emitting diodes (LED) lighting. The company has a turnkey supply chain covering everything from drivers, assemblies, mechanisms and electronic components to lighting product design. Macron’s long-time core business is focused on original equipment manufacturers (OEMs) and original design manufacturers (ODMs), with the main customer base in North America. Macron focuses on architectural lighting for the high-end retailer/shop, especially providing custom-tailored products and services to meet the requirements of lighting firms and designers. For LED products to appeal to professional lighting designers, elegant appearance and performance are equally important. To this end, the company not only pays great attention to high-heat dissipation performance and transparency, but also focuses on styling variations of the lighting products, aiming to inspire designer creativity, and create special spatial atmospheres with unique lighting effects. As Macron focuses on low-volume, highly varied designs, Macron’s R&D department employed 3D design tools early-on. However, in 2013, the company made yet another major switch, turning to Solid Edge® software to engrave and manufacture samples in combination with CAM Express software.
Transitioning to 3D software
Prior to the transition, Macron’s R&D designers were experienced with other 3D design tools, but they made the change due to long-term investment considerations. Hsiao Wei-chin, assistant , manager of the information department at Macron, explains, “What really attracts us is the independent core technology embedded in Solid Edge, which enables us to keep up with technology advancements and guarantee investment returns for users. Although an easy-to-use interface is appealing to users, it’s not easy to stay current if the software’s core technology is proprietary, which can lead to problems and thus cause us to fall behind in our work.” As 3D design tools represent an essential investment, Macron is determined to be proactive going forward.
Leveraging two types of modeling
Szu-Min, assistant manager of the R&D department at Macron, noted, “Unlike machinery, the design of lighting products does not involve too many parts, so 3D software is mainly used to make drawings, and not much analysis work is involved.” Therefore, the combination of sequence modeling and non-parametric modeling of Solid Edge can go a long way toward helping Macron meet its goals. In addition, Siemens PLM Software’s Solid Edge features synchronous technology. For instance, after designers choose the boundaries of a part, the system is used to check whether there is any geometric correlation between the boundaries of the part and other boundaries, and calculate the necessary geometric correlation that must be maintained. This is also known as non- parametric modeling as it doesn’t require a manual parametric setting. “Before introducing Solid Edge, our engineers had already been used to sequential modeling, so it surely is a good thing that they can do two kinds of modeling with this software,” says Chen. ”By providing both sequence modeling and non-parametric modeling, Solid Edge cuts down the time needed to modify moderately complex drawings by half or even more compared to our previous system.”
Cutting modification time in half
Chen observed that, after a complete transition to Solid Edge, engineers were using it in different ways. For instance, with an ODM business that involves modifying drawings coming from customers, non-parametric modeling is much handier; while for engineers tasked with designing the company’s own branded products, the advantage is not that obvious. For example, if the drawing provided by a customer didn’t include any draft angles, the engineers have to add draft angles when modifying the drawing. However, if the drawing was converted using STEP, it would be impossible to make any changes, leaving the engineers no choice but to redraft it. “But now with the synchronous technology of Solid Edge, engineers can easily add draft angles without giving any thought to whether or not there originally was any fillet in the drawing,” says Chen, who added that this is what makes Solid Edge superior to other software. It is this unique capability of Solid Edge that cuts down the time that engineers need to modify drawings. “Take a moderately complex drawing as an example,” says Chen. “It would take half a day using the old software, but now it only takes half of that time or even shorter.” Huang Chien-Wei, supervisor of process engineering at Macron, also noted the significant productivity improvement enabled using Solid Edge. “For example, when we are drawing a mold, we can use the software to remove materials by changing the Boolean value, or use the multibody function to figure out the mold size easily and more quickly, possibly finishing one drawing within three minutes,” says Huang. “This enables concurrent modifications to assemblies during synchronous design. The ability to update the sizes of 10 parts simultaneously can save a lot of time throughout the whole process.” Huang estimated that once engineers got used to the advance functions, productivity could be further improved.