We rarely stop to consider the various parts of the things we use on a daily basis. However, the modern conveniences we take for granted are supported by an extensive ecology of moving parts. Every object, from cars to coffee makers, is made up of multiple carefully crafted and engineered parts.

Coffee makers, a necessary component of our daily lives, have forty-five pieces. The foamer head, rocker switch, adapter, waste drawer for coffee grounds, and heating element are important parts. Laundry essentials like dryers have over 125 pieces, which include thermostats, motors, valves, nozzles, and springs. Cars are arguably the most complicated everyday object, with an astounding 30,000 pieces. Switches, alternators, hubs and bearings, brackets, and sensors are some of the notable parts. Industrial designers and engineers must devote hundreds of hours to the enormous effort of designing these components. Still, locating, picking, and getting the right elements is just as difficult as the actual design.

Products are made up of a combination of parts that manufacturers purchase and make, thus engineers must find suppliers of parts while designing a product. DIY (Do It Yourself) is a technique used by engineers in which they redraw components that are supplied. Although customization and preferred formats are possible, the process is time-consuming, prone to errors, and requires slow turnaround and revision times. Requesting data directly from the manufacturer is an additional technique that guarantees accuracy but has drawbacks such as a limited range of brands and formats and equally high turnaround and revision times.

As an alternative, engineers can obtain a wide range of products by downloading user-generated materials from portals such as GrabCAD. Nevertheless, this approach has limitations, including generic and unbranded parts, user-generated (and perhaps erroneous) material, and trouble locating and buying parts after downloading. Downloading design files straight from manufacturers is an additional choice that guarantees very precise and current data. The number of brands that can be compared using this method is limited, but it still allows for short turnaround times and a wide range of format support.

The most complete way is to download from a search engine component. This option offers a wide range of items and brands with extremely accurate data that has been verified by the manufacturer. With rapid turnaround and revision available in more than 100 formats, the content is updated and well-maintained. Forty-five percent of design engineers say they hunt for component specifications for more than an hour every day. This inefficiency makes a simplified solution necessary.

Think about having to locate a certain part, like a pipe adapter. With capabilities like configurable PDF datasheets, availability in more than 100 formats, access to trillions of manufacturer-certified items, and on-demand product configuration, 3Dfindit completely transforms this procedure. It is a component search engine for the engineering, electrical, electronic, and architectural sectors. With its strong search function and partnerships with 6,000 manufacturers, 3Dfindit can save up to 625 hours and $70,000 per engineer per year. Its large and current database, which guarantees engineers can locate standardized parts with ease and eliminates the usual difficulties of sourcing and accuracy verification, is the source of this efficiency.

In conclusion, even though we may not notice the minute details in the components of the items we use every day, a great deal of thought and care went into their creation. Tools such as 3Dfindit have the potential to increase productivity, reduce expenses and time, and greatly simplify the life of design engineers.

Source: 3Dfindit.com