Can 3D printing be used for future soldering robots?

Many people may think that it is only a two-dimensional inkjet or laser printing three-dimensional products, many people for this extra dimension in the end means what the concept is relatively vague. To know the advanced productivity has always been an indispensable driving force for economic development, from the age of the steam engine to the age of electricity, the popularization of each new technology is to make the current rapid rise of the social economy, and 3D printing is also such a technology to enhance the efficiency of work from the production side. So the future of 3D printing can print out our automatic soldering robot? For this question, at present we can not answer, Mr. Shanghai Welding Electronic Equipment Co., Ltd. automatic soldering machine, but the future with the further maturation of the technology, it may be really can be realized, which is what we have long been looking forward to. 3D printing since so good, then what are his advantages? The following is a long-term concern about 3D printing, Mr. automatic soldering machine to introduce you one by one: Advantage 1, no need to assemble. 3D printing can make parts integrated molding. Traditional mass production is built on the basis of assembly lines. In modern factories, machines produce identical parts, which are then assembled by robots or workers (even across continents). The more parts a product consists of, the more time and cost it takes to assemble it. 3D printers can print a door and the matching hinges on it at the same time through layered manufacturing, eliminating the need for assembly. Omitting assembly shortens the supply chain, saving money on labor and transportation. The shorter the supply chain, the less pollution there is. Advantage #2: No added cost to manufacture complex objects. In the case of traditional manufacturing, the more complex the shape of the object, the more expensive it is to make. With 3D printers, the cost of making complex shapes does not increase. Making a gorgeous complex shaped object takes no more time, skill or cost than printing a simple square. Manufacturing complex items at no added cost will break the traditional pricing model and revolutionize the way we calculate manufacturing costs. In the future, the cost of a product will consist of simply material and volume as fixed costs, while costs such as molding and fine grinding may not exist in the future. Advantage 3: Unlimited design space. Traditional manufacturing techniques and artisans make products with limited shapes, and the ability to make shapes is limited by the tools used. For example, traditional wooden lathes can only make round objects, mills can only process parts assembled with milling cutters, and mold making machines can only make molded shapes. 3D printers can break through these limitations and open up a huge amount of design space, even making shapes that may only exist in nature today. Advantage 4: Zero-time delivery. 3D printers can print on demand. Just-in-time production reduces a business's physical inventory, and new business models will be possible as companies can use 3D printers to create special or customized products to meet customer needs based on customer orders. Zero-time-delivery production minimizes the cost of long-distance shipping if the items people need are produced on demand and close to home. Advantage 5: Accurate physical reproduction. Digital music files can be copied endlessly with no degradation in audio quality. In the future, 3D printing extends digital precision to the physical world. Scanning and 3D printing technologies will ***increase the resolution of morphological transformations between the physical and digital worlds together, and we can scan, edit, and replicate physical objects to create exact copies or optimize the originals. Advantage 6: Zero-skill manufacturing. Traditional craftsmen need to be apprenticed for several years to acquire the required skills. Mass production and computer-controlled manufacturing machines have reduced the skill requirements, however traditional manufacturing machines still require skilled professionals to make machine adjustments and calibrations.3D printers take a variety of instructions from a design file to make the same complex item, and 3D printers require fewer skills to operate than injection molding machines. Unskilled manufacturing opens up new business models and can provide new ways for people to produce in remote environments or extreme situations. Advantage #7: Unlimited combinations of materials. Combining different raw materials into a single product is difficult for today's manufacturing machines, which traditionally cannot easily fuse multiple raw materials together during the cutting or molding process. With the development of multi-material 3D printing technology, we have the ability to fuse different raw materials together. Previously unmixable raw materials will be blended to form new materials that come in a wide variety of shades and have unique properties or functions.