Printing used to be a very complicated process. Complicated and limited. It started with wooden block printing that is about as basic as it gets. Eventually, over a thousand years after wood printing production originates from ancient China, the printing press changed everything, but it was still very limited by todays standards.
Fast-paced until a time when technology evolves in eye contact, and we have many more options when it comes to printing. But with products of all shapes and sizes that come with boundless contours and curves, finding the best solution can be difficult.
Fortunately, thats why popwriters appeared in the world after World War II. Pad printing is a unique process that makes it possible to quickly and efficiently transfer an image to an irregular surface. To do that, it uses an indirect offsite printing process that combines the printing plate (otherwise known as cliché) and a flexible silicone plate to transfer the ink from the etched printing plate to almost any surface. Then, the process was used to print effectively on the face of the watch, but it was still a relatively young process. However, the reinforcement with respect to the silicon pads and advanced equipment used for pillow printing meant that it could be used on almost everything. This hotspot printout becomes an extremely flexible printing method for companies around the world. Because of this, printing on bent surfaces such as device panels can be made very easily with a single machine. But how does it work?
First, from the home mode, a sealed ink cup is lowered over the etched plate - cover the image and fill it with ink. Then, remove the sealed ink cup from the etched plate. Due to the way in which the ink is formulated, it becomes sticky immediately after being exposed to air. The transfer plate then lowers on the pressure plate for a while, and as the cushion the compressed air pressure is used to transfer the ink from the etched artwork to the silicone plate and leaves a small amount of ink on the printing plate. Finally, the silicone plate moves forward and the ink cup fills the etched plate again to prepare for the next printing cycle. Meanwhile, the silicone plate compresses on the printing surface, which transfers the ink layer to the product. When the silicone plate lifts away from the substrate, it completes the printing cycle. Most projects include many printing cycles.
But why is the process better than a screen printing process? The main advantages of padded printing compared with other methods are a printing machine for the unique printing ability of printing platforms in irregular forms and virtually all materials - including glass-coated substrates, plastic, metal, ceramics, silicone, food and pharmaceuticals. On the other hand, printing methods such as screen printing are limited to printing only on flat surfaces or in rounded surfaces. At the same time, print printing companies as manufacturers offer all the features of a screen printer, but a flexibility and versatility that can not be found by any other method. In addition, paper paper machines provide higher print quality while allowing the printer to perform higher speed, reverse direction and fine adjustments on the road. With methods like modern screen printing, which are often used for this purpose, it simply would not be possible. This is happening for companies that produce practically all types of products, especially from a brand perspective.
Path printing has emerged as any method of printing on products of all shapes and sizes and has quickly replaced screen printing for printing for products, parts, and components. Aside from simple furnishings, it has also been used for printing buttons, knobs and many other device parts. Other products typically printed with printers include medical devices, hockey bags, toys, auto parts (such as response symbols and panels), computer keyboards, TVs, and serial numbers used for many different applications.