When introducing UV printers to customers, many people focus on the "stability" of the machine—similar to how people judge the stability of a high-speed train by "placing a coin on it to observe vibration". We can demonstrate our machine's advantages in the same intuitive way: as you can see in the photos we took for a customer, when this machine is undergoing a printing test, even if a coin is stood upright on the machine body, the coin remains completely still without any shaking while the print head moves left and right. This kind of stability is one of the core competitive strengths of our machines.

In fact, when introducing machines to customers, there’s no need to overemphasize "homogeneous information" such as print head configurations or motherboard models—there is little difference in core configurations among most brands on the market. The real distinction lies in "invisible details" like frame stability and material quality. The key reason our machines maintain high printing precision is that their frames are sufficiently sturdy; and behind this sturdiness is our uncompromising material standards.

Even our most affordable model, the 9060S, adopts a high-strength steel frame structure: the supporting parts are thick and robust, paired with a dual-guide-rail design, and the crossbeam is even made entirely of steel. It’s important to note that many brands, in order to lower prices, simply splice frames with thin angle irons and cover them with sheet metal—while no difference is visible on the surface, there is a world of difference in printing precision and durability during actual use.

It’s worth remembering that the print head of a printer needs to move back and forth left and right for a long time, and it carries many components, making it relatively heavy. If the frame is not strong enough, long-term vibration will gradually reduce precision and even cause structural looseness. This is also the fundamental reason why many customers report that "cheap machines don’t last long and have poor printing results"—while it may seem like you’re saving money, you’re actually buying a "disposable device".

In contrast, our machines, even entry-level models, prioritize "durability": customers can use them frequently every day, unlike those low-cost models that "break down after a few uses or even fail to start". More importantly, we never cut corners on safety details—many low-cost models (such as some 6042A3 printers) don’t even have a leakage protection switch, posing an electric shock risk; however, our machines not only come with leakage protection switches but also adopt a "separate power control" design: the motherboard is powered by an independent power supply, and other components are powered by a separate power supply, fundamentally ensuring safety.

These differences are essentially "reflections of costs". Our costs are invested in many "invisible details":

• Platform and transmission components: A vacuum aluminum platform is paired with cylindrical clamps; the steel crossbeam is combined with dual guide rails; and the selection of transmission belts and cable chains (for internal wiring) undergoes strict screening.

• Wire quality: The wires inside the cable chains are not ordinary household wires, but "oil-resistant and fold-resistant wires"—this type of wire can withstand more than 500,000 folds without breaking, avoiding problems like "wire insulation peeling off and internal wire breakage" that occur in low-cost models. Some key wires even use shielded wires, whose cost is 6 to 8 times that of ordinary wires, effectively reducing signal interference.

• Precision components: Equipped with inductive switches, plastic gratings, and single-head encoders to ensure the accuracy of the machine’s operation; the entire bottom of the frame also uses a high-strength steel structure, laying a solid foundation for the overall stability of the machine.

Many customers wonder, "Why are your machines more expensive than others?" The answer lies in these details: once the sheet metal is covered, no one can tell the thickness of the crossbeam or the quality of the wires at a glance. However, during long-term use, whether "materials are sufficient" is directly reflected in printing precision, durability, and safety. We insist on investing in "invisible areas" to ensure that the machines customers receive "not only have printing precision but also last for a long time", truly meeting the needs of high-frequency production.