5 reasons every Raspberry Pi enthusiast should own a 3D printer


Single Board Computers (SBCs) like the Raspberry Pi and 3D printing technology go together like peanut butter and jelly, and the cost of entry into the world of 3D printers is lower than ever. You can buy a basic 3D printer for as much as a high-end Raspberry Pi, but if you haven’t yet made this particular connection, there are more than a few good reasons to take the 3D printer plunge.

Infinite variety is a click away

There are numerous commercially-made Raspberry Pi cases you can buy, and they aren’t that expensive most of the time. Injection-molded cases certainly look nice and professional, and if you just have one Raspberry Pi and are going to use it as a standard computer, there’s nothing wrong with throwing one of the official cases in your cart before checking out.

Likewise, if you want a transparent case so you can admire the circuit board and components without exposing your Pi to the elements, an acrylic case is the best way to do it, even if they are relatively pricey. If you’re going to have multiple Pis (it happens so fast) or if you have different specific projects you want to use your SBC for, a 3D printer is the way to go. There are thousands of custom cases for the whole Raspberry Pi family you can print, and, of course, if you have the time and skills, you can modify them or create your own from scratch.

Build hardware that simply doesn’t exist in stores

A customer base of one

shane-mason-raspberry-pi-5-90s-cable-tv-simulator-3 Credit: Shane Mason

While the Raspberry Pi was originally created to make learning to code cheaper and more accessible, it’s now also become inextricably linked to maker culture. There are people making all sorts of very cool gadgets using a Raspberry Pi as the core component behind it all.

For example, that little box you see above on that TV is the “90s Cable Simulator” created by Shane Mason. A faux cable box that recreates the experience of cable TV from the 90s, as the name literally describes.

Of course, it doesn’t stop there. Numerous projects require custom mounts and parts to make the final device work correctly. Whether you’re building a custom arcade machine or a robot, you’ll probably need bits and pieces that you can’t buy off the shelf to make it all work. 3D printers were made for this situation.

Of course, you can always just send your file off to a print farm and have someone else print them for you, but if you’re doing custom projects, this takes away one of the major advantages of 3D printing—rapid prototyping. The ability to rapidly print and iterate your designs will make any project run more smoothly, and it’s worth the price of entry.

ELEGOO Centauri 2 Combo.

Build Volume

256 × 256 × 256 mm

Connectivity

Wi-Fi

The ELEGOO Centauri Carbon 2 builds on the solid foundation of its predecessor and adds an affordable, effective multicolor system to the mix.


Make your Raspberry Pi setups look professional

Doesn’t look like it was made in a cave from scraps

A Raspberry Pi 4 music server. Credit: Nick Lewis/How-To Geek

3D printing certainly isn’t the only way to make things. You can use anything from wood to LEGO bricks to craft the accessories you need for your projects. However, if you want your Pi project to look professional or factory-made, 3D printing is the easiest path. Modern 3D printers can produce objects that don’t look miles away from the quality of injection-molded items, and if you’re willing to put in a little effort with the right finishing methods, you can get something that looks better than mass-produced plastic.

Add to this the latest multi-material technology, advanced printing techniques, and interesting filament options that include carbon fiber, wood, and metal-infused filament, and the sky really is the limit. Or, rather, your imagination and creativity are. This is especially true if you’re making a niche item that you want to sell.

For example, there are modifications for the original PlayStation that replace the CD-ROM drive with an SD card reader (as reported in Hackaday.) This modification uses a Raspberry Pi Pico and a 3D-printed mount that elegantly puts the SD card slot where the CD-ROM drive used to be. That’s just one example of how you can make a professional-looking product with your own in-house 3D printer.


Joining a community where Raspberry Pi and 3D printing go hand in hand

As I already intimated earlier, there’s a lot of overlap between the 3D-printing community and the Raspberry Pi community. So, chances are that if you’ve been engaging with the world of online Raspberry Pi enthusiasts, you’ve also been exposed to 3D printing culture. The Venn diagram that includes people who dabble in both might not be a perfect circle, but the overlap is certainly significant.

There have certainly been plenty of people in those communities showing off their projects that rely on some way in 3D printed parts. If you’re already getting access to a community that includes people who can help you make the most out of your Pis using 3D printing, why not go for it?



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Recent Reviews


As summer starts approaching fast, you have probably gotten your backyard all ready for people to come and hang out, or just for yourself to spend some time in the sun. However, even when everything is set up, you may realize your Wi-Fi signal strength isn’t the best out there.

In today’s digital era, this can be a major headache, especially if your home does not have a strong cellular signal either. Luckily, there is a way to extend your Wi-Fi to your backyard without buying an expensive mesh system.

The backyard is a Wi-Fi dead zone

My backyard was a graveyard for any Wi-Fi signal

If you’re like me, you have really great Wi-Fi inside your house that is fast and reliable. No matter where you are, you seem to have a strong connection that lets you browse the web and watch content.

Phone with poor cellular service on the desk while listening to music by Avril Lavigne. Credit: Nathaniel Pangaro / How-To Geek

However, when you step outside and walk a few feet into your backyard, that Wi-Fi signal disappears. Even worse, you may also be in an area with poor cellular service.

When looking for ways to fix this, many suggestions point to a mesh router setup. However, these can be expensive and often come with only a limited number of units per box. Furthermore, adding more would incur additional costs.

Additionally, when considering mesh routers, I thought about how I would incorporate them into my backyard. While I could plug one into an outlet outside, I was concerned that exposure to severe weather could damage it, even if it were under an overhang or in a gazebo.

This led me to find another workaround: repurposing my old router as an access point to extend my Wi-Fi to the backyard. This allowed me to use something I already had collecting dust and give it a new purpose.

Quiz
8 Questions · Test Your Knowledge

Mesh WiFi networks: history, tech, future
Trivia challenge

From military roots to whole-home coverage — how well do you really know mesh WiFi?

HistoryTechnologyBrandsFuture TechFun Facts

The concept of mesh networking was originally developed for use in which field before it reached consumer homes?

Correct! Mesh networking grew out of military research, particularly DARPA-funded projects aimed at creating self-healing, decentralized communications that could survive partial network destruction. The idea was that if one node went down, traffic would reroute automatically — a very useful feature on a battlefield.

Not quite. Mesh networking has its roots in military and DARPA-funded research, designed to create resilient, self-healing communications networks for battlefield use. The decentralized nature meant no single point of failure — a concept that later translated beautifully to home WiFi coverage.

What is the primary technical difference between a traditional WiFi extender and a true mesh WiFi system?

Spot on! True mesh systems use a dedicated backhaul — often a separate radio band — exclusively for node-to-node communication. This keeps the bandwidth used by your devices separate from the bandwidth used to pass data between nodes, resulting in far less congestion and much better performance than a traditional extender.

Not quite. The key differentiator is that true mesh systems use a dedicated backhaul channel between nodes, keeping device traffic and inter-node traffic separate. Traditional extenders reuse the same band for both, effectively halving available bandwidth — which is why they often disappoint in practice.

Which company is widely credited with popularizing consumer mesh WiFi when it launched its first product in 2015?

Correct! Eero launched in 2015 as one of the first consumer-focused mesh WiFi systems and essentially kicked off the home mesh revolution. Its simple app-based setup and attractive hardware stood out in a market dominated by ugly router boxes covered in antennas. Amazon later acquired Eero in 2019.

Not quite — Eero gets the credit here. Founded in 2014 and launched to consumers in 2015, Eero was a pioneer in making mesh WiFi accessible and appealing to everyday users. Its clean design and smartphone-based setup felt revolutionary compared to traditional router management interfaces.

A mesh WiFi network behaves similarly to which surprisingly ancient human communication system?

Great analogy — and you got it! Mesh networking mimics the way gossip spreads: each node receives information and passes it along to the nearest neighbor, with multiple paths available if one route is blocked. Computer scientists actually call one mesh routing method ‘gossip protocol’ for exactly this reason.

Fun guess, but the best analogy is gossip spreading through a village. In mesh networking, data hops from node to node along the best available path — just like a rumor finding its way through a crowd. Computer scientists even formally named one routing approach ‘gossip protocol’ in honor of this similarity.

WiFi 6E and WiFi 7 mesh systems introduced support for which frequency band that older mesh hardware cannot use?

Correct! WiFi 6E opened up the 6 GHz band for consumer use, giving mesh systems a much less congested slice of spectrum to use — especially valuable as a clean, fast backhaul channel. WiFi 7 expands on this further with multi-link operation, letting devices use multiple bands simultaneously.

The answer is 6 GHz. WiFi 6E was a significant leap because it unlocked the 6 GHz band — a largely empty, high-capacity range of spectrum that dramatically reduces interference, especially in apartment buildings packed with competing networks. Mesh systems use it as a super-clean backhaul highway.

Before dedicated mesh systems existed, some creative users built their own mesh-like home networks using open-source firmware called what?

Well done! DD-WRT was the go-to open-source router firmware for enthusiasts who wanted to squeeze extra performance and features out of consumer routers — including running multiple routers in coordinated configurations that resembled mesh behavior. It’s still actively developed today and has a devoted following.

Not quite — the answer is DD-WRT. This legendary open-source firmware let tech-savvy users replace the factory software on routers from brands like Linksys and Netgear, unlocking advanced features including multi-router setups that approximated mesh networking years before polished consumer mesh products existed.

Which emerging concept would take mesh networking beyond the home and create a massive, self-organizing internet built from billions of everyday devices?

Exactly right! The Internet of Things vision includes smart devices — thermostats, lights, sensors, appliances — forming spontaneous mesh networks with each other, passing data along without relying on a central router or ISP infrastructure. Standards like Thread and Matter are already pushing this concept into real homes today.

The answer is the IoT mesh. The Internet of Things roadmap envisions billions of smart devices forming organic, self-organizing mesh networks — communicating peer-to-peer without needing a traditional router as a middleman. Protocols like Thread (used in Matter-compatible smart home devices) are making this a reality right now.

What quirky real-world project demonstrated mesh networking by connecting an entire island community with a DIY WiFi mesh built mostly from recycled hardware?

Correct! Guifi.net, launched in rural Catalonia in the early 2000s, grew into one of the world’s largest community-owned mesh networks with tens of thousands of nodes. It was built by volunteers using cheap or recycled hardware to bring internet access to areas ignored by commercial ISPs — a remarkable grassroots achievement still operating today.

The answer is Guifi.net. This incredible volunteer-built mesh network in Catalonia, Spain, started in the early 2000s and eventually grew to over 35,000 active nodes, making it one of the largest community mesh networks on the planet. It proved that determined communities could build their own internet infrastructure without relying on big telecoms.

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Setting up your old router as an access point

Making a world difference in your Wi-Fi range

While it may seem intimidating to deal with your Wi-Fi settings since you do not want to press the wrong button and take your entire network offline, this process was surprisingly simple. All it took was finding a suitable place for the old router and connecting it to my existing network.

How to Share a Wired Ethernet Internet Connection With All Your Devices

The first thing I had to do was find a location for my old router that would provide good coverage to the backyard. Luckily, our living room is right next to the backyard, and it used to house the family computer.

As a result of that setup, an Ethernet port was already installed in the room for the computer. This gave me an easy way to connect the old router to the main router, which was located on the other side of the house.

Powerline networking adapter plugged into a wall outlet with an Ethernet cable connected. Credit: Olivier Le Moal/Shutterstock.com

If you do not have a pre-installed Ethernet port in your house, there are other ways to get a wired connection, including through your home’s electrical outlets. There are various adapters that can help with this, such as the TP-Link AV1000 Powerline Ethernet Adapter Kit.

Once you have one set up—if needed—you can connect your old router to the adapter, and it will then benefit from a wired connection.

TP-Link AV1000 Powerline Ethernet Adapter

Brand

TP-Link

Ports

1x Ethernet


For my setup, I had an old TP-Link router from before I upgraded to my current model, and getting it configured as an access point was not that difficult. All I had to do was connect it to my main router with an Ethernet cable, add it as a new device in the TP-Link Deco app, and switch its operating mode from router to access point.

The difference between router mode and access point mode is how the device handles your network. In router mode, the router connects directly to your internet line and distributes internet access to your devices. On the other hand, in access point mode, the additional router acts as a bridge between your primary router and your devices, extending your home’s wireless coverage.

Two different modes in the Deco app on an iPhone in front of a colorful background. Credit: Nathaniel Pangaro / How-To Geek

However, there is one caveat to doing this: the handoff between your main router and your access point won’t be quite as seamless as a dedicated mesh system. While you can use the exact same network name and password to let your devices automatically switch to the stronger signal, I chose a different route

With a mesh router setup, your devices can automatically switch between different nodes while remaining connected to the same Wi-Fi network. This handoff happens seamlessly in the background, so you do not have to do anything.

With an access point, you have the option to create a completely separate network name. I decided to do this, meaning I have to manually join it whenever I want to use the signal from my old router.

Connecting to an access point network on an iPhone in front of a colorful background. Credit: 

Nathaniel Pangaro / How-To Geek

At first, I was not the biggest fan of having multiple networks listed in my Wi-Fi settings and needing to manually switch between them. However, after thinking about it more, I warmed up to the idea.

Considering how infrequently I am outside compared with how often I am indoors, I realized I would spend most of my time connected to my primary network anyway.

Wi-Fi Bands

Wi-Fi 6

Ethernet Ports

6 (2 each)


Additionally, to make things easier, I gave the access point network a distinct name. This allows both me and any guests who visit to quickly identify which network provides coverage for the backyard.


Using my old router as an access point has made spending time in the backyard much more enjoyable. Before, I would sit outside with a weak signal from the house and wait for content to load at a snail’s pace.

Yet, after setting up the access point, it made a world of difference. I now have a stronger signal, faster loading times, and more reliable ways to stay connected no matter where I am on my property.

So if you’re like me and struggle with poor Wi-Fi coverage in your backyard, consider pulling your old router out of the closet and putting it to good use. It’s never too late to turn something you thought was junk into a practical solution that can save you a significant amount of money.



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