With additive manufacturing, it’s different: you only have to modify your 3D file, it won’t interrupt your manufacturing process at all. If you need to modify your project, then you will need to start from the beginning and re-do the whole process again. Indeed, with a mold, you won’t be able to change its design to make modifications to your final parts. 3D printing gives access to a design flexibility injection molding just can’t offer. Adapt your housings with all the functionalities you’ve envisioned for it. Creating snap fits, interlocking joints, threaded fasteners, and living hinges are all possible when 3D printing enclosures. The freedom offered by additive manufacturing has almost no limits. This way, you will be able to create plastic PCB enclosures perfecTly adapted to your projects. But that’s not all! 3D printing is also giving you the opportunity to be more innovative and improve your enclosures designs. Implementing additive manufacturing in your process is a solution to speed up your processes and gives the possibility to be more reactive and at the same time, more competitive. Just on this part, 3D printing has a lot to offer. Let’s take the example of the plastic electronics housings. Making the most of Just-In-Time manufacturing and getting the parts you need when you need them might also be a huge advantage for your business.Īdditive manufacturing has a lot of advantages to offer you in the electronics sector. While creating these electronic devices, you must meet changing market demands with unbeatable lead-times thanks to an optimized and scalable manufacturing process. How can the creation of electronic enclosures participate in the development of your electronics project and in the growth of your business? Never forget about the advantages of better scalability and adaptability for your electronics enclosures. Check out the videos and the links below.Creating electronic devices comes with its challenges. The Raspberry Pi version is under $80 (plus your own Pi). OpenSprinkler is available either fully assembled for around $150 or semi-assembled for DIYers for around $100. The hardware components include on-board 24V AC to 5V DC switching regulator, solenoid drivers, DS1307 RTC and battery, PCF8591T 8-bit A/D D/A converter (4 input and 1 output channels), fuse, rain sensor terminal, 120V/2A mini relay, and per-station transient voltage suppressor (bidirectional TVS). This is version 1.4 with OpenSprinkler injection molded enclosure. It allows RPi to directly access and control sprinkler valves. OpenSprinkler Pi (OSPi) is a sprinkler / irrigation extension board for Raspberry Pi (RPi). The makers recommend the Raspberry Pi based hardware for maximum flexibility if you like to tinker… Other hardware version are available too such as the one built on the BeagleBone Black.
OPENSPRINKLER 3D ENCLOSURE ANDROID
It can be operated and monitored across the Internet and the OpenSprinkler mobile app is available on the iOS App Store, Android Play Store and Windows Phone Store too. It is a web-based timer and controller built upon the Arduino platform that works with standard 24VAC sprinkler valves commonly found in household watering and irrigation systems. OpenSprinkler is the creation of Ray Wang and Chris Anderson (former editor-in-chief of Wired magazine and now the CEO of 3DRobotics).
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