When you are producing tools, it is likely that you are familiar with certain types of dyes, tools, and parts that need to be manufactured in particular designs. As an industrial designer, a toolmaker’s advice can be very influential – making the entire process so much easier. If you currently work at a machinist shop, there are many things that you can do such as operate grinding machines, milling machines and even lathes to make the different parts.
Precision toolmakers should also have a background in using computer aided design software, allowing them to complete each task with proficiency. An example of this would be creating a new component, and as a toolmaker, you will need to know how to make this die. If it is one that has not been used for quite a while, the toolmaker will be able to repair it for you. There are certain jobs that do require a high level of expertise which may involve finishing tasks, grinding, and cutting pieces by hand that will lead to the final product that needs to be produced.
TOOLMAKING
Tool making involves the use of certain types of tooling products. This may involve using form tools, milling cutters, lathe bits, and forming rules. High precision is often implemented when making these types of tools, and may require you to test different products, produce them, and even hold them as you are going through the production process. Toolmakers are very unique individuals that often need to have knowledge of how to modify and create standard and custom tools.
Tool making requires the professional to produce tools or parts on a daily basis. An example of this would be making items that may require specific tools, including a hammer, to get the part just right. If the hammer breaks, the toolmaker should be able to fix it. This also applies to dies for casting.
DIE MAKING
This is a very important genre in the world of toolmaking. Creating dies for different processes may involve plastic injection molding, and even molten casting, to create the parts that are needed – a toolmaker is a very hands-on individual. They can also cast different items, executing the production of these components perfectly and effortlessly every time. Let’s say they are using a hammer, they can make the cast, so the hammer is produced in a way that it can be utilized properly. High-volume manufacturing is also something that a toolmaker will be well aware of, especially when making die sets at certain tolerances which are machined at less than a thousand of an inch.
COMPLETE PROCESS
Tool making may not involve utilizing original design with the tools and machines that are used to produce a new design for a product. This may involve the use of blueprints, and constant testing, to construct the tools that a factory will eventually create and produce as a new product.
When producing factory equipment, and large machinery, every toolmaker needs to be fully aware of the entire assembly process. After it is assembled, a toolmaker will then be required to test it, just to make sure that the production process was working properly, and the output leads to the original design that is intended.
ESSENTIAL
Toolmakers are not that different from engineers – they are aware of the process of producing different designs, as well as how to create the components that will go from ideas into physical reality.