5 Must-Have Features in a customized high quality claw machine

06 May.,2024

 

This is how we built the awesome claw machine.

Ideas and innovations are the new currency if you want to attract attention to your brand. Want your prospects to be attracted to your brand activation idea? Well, if you build something unique, they will come and interact with your brands. 

Are you interested in learning more about customized high quality claw machine? Contact us today to secure an expert consultation!

One of our clients desired to build a Claw Machine that will allow their prospects' to control it with their smartphone while collecting their details. Brilliant idea. The hard part? It's not something that's readymade or something that can be sourced. 

But at iboothme, we never say 'No, that's not possible.' Because we know that a new idea usually means starting from scratch, we don't claim to be top inventors or rocket scientists. But we're passionate enough to find the answers. So, we decided to build it ourselves. 

We follow a 4-step process at iboothme


1. We listen

Our clients love big ideas like the Claw Machine. And so do we. It's tempting to start building straight away. But first, we listen to the problems, the budget and the goals. It helps us find optimum solutions not only to design but also to boost interactions, engagement, and ROI.  

2. We design

Drawing up plans and designs is always exciting. But, the best part of creating a custom-made machine is that you completely control the outcome. Our designs are based on the objectives of our client. So, we must collaborate and keep them informed at every step of the design process. 

3. We iterate

Not everything will go to plan when building a new concept from scratch. It needs testing and lots of it. And then iterations. Lots of those too. Creating the iboothme Claw Machine may seem easy, but there were loads of hidden challenges that needed to be resolved and ironed out to create a perfect activation product. 

4. We innovate

The company is the world’s best tide house claw machine supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

The iboothme Claw Machine is not just a simple arcade build. It combines beautiful hardware and software design to attract your audience. It can be used for games, quizzes, photo opportunities and anything you can think of. It can also collect data the way you want it to – while customising your main marketing message. The good news? It's not something the competition will have. 


Want to create unique machines or software concepts from scratch? Our team at iboothme can collaborate with you to create the next big idea. 

Arduino Claw Machine - Instructables

Let me first say there are many ways to build this claw machine. I found that making a hybrid CNC/ 3D printer machine makes things simpler mechanically, as these parts are readily available, cheap, and more modular as they are marketed to build a variety of machines. You could definitely go the tradition claw machine route using DC motors for the gantry, which simplifies the power electronics (H bridge ICs) and code to drive them; however, the trade off is it complicates the drive mechanics. Most claw machines have worm gears that drive the gantry, giving the speed reduction and required torque. I prefer a 'bolt-on' approach rather than a custom fabricated mini version for the gantry. I found stepper motors are crazy easy to mount, have a good range in speed (on the low end of speed), and provide more torque than I need (think scalability), so this route was chosen.

COST TO BUILD:

I included a modified Bill of Materials for this machine. The BoM reflects the machine documented here. The total cost is $470. The crossed out items in the BoM reflect the reduced cost version. This removes all the Aluminum extrusion (in place of a wood frame) and some other non-necessities like the LCD and mechanical coin acceptor; reducing the cost to about $210.

I did not expect this machine to cost so much. On the bright side, with a quarter slot it can pay for itself over time and even become profitable. So let's call this build an 'investment'

WHERE TO BUY PARTS:

eBay. If you can wait for things to ship from China, you can't beat those ebay prices.

WHY DID YOU USE ____ PART?

I got the steppers from a USA eBay seller who sells refurb and rebuilt steppers (about $8 per stepper) and I must say the steppers are awesome. Each motor has a molex connector at the base making build/ disassemble simple. The Arduino Mega is a off-brand from DealExtreme (works just fine), and the Al extrusion came Misumi USA (cheaper than 80/20 brand). The cost is pretty high as I buy more than I need and prepare for mistakes (I killed a few ULN2803's and TIP120's already) . It might be better to build this from DC motors, but I went with Nema 17 steppers primarily for two reasons, Mounting them uses a standardized hole pattern, and building a controller for them might prove useful in later projects. This project is easier to replicate (think kit form) with standard parts- Nema Steppers fit this due to the 3D printer market, not to mention all the belts, pulleys and wheels are readily available 3D printer parts. I have saved a few $ by making my own claw, and brackets to form the XYZ gantry. I should stress designing and building the claw was a chore, but well worth it considering the alternatives I tried. I bought (then returned) a few claws as I was thoroughly disappointed in their quality. There are many parts out there for gantries (Inventables' Maker rail...etc) but building my own was cheaper and simpler as surprising as that sounds. I was loathing the task of replicating/ relying-on dimensioned parts from around the web in hopes that everything would "work", but soon gave up on that since just one error in any drawing propagates into frustration after you bought said parts and they just don't fit right. Things have been rather simple with the steppers as I have been sticking to 5mm bore. This 5mm seems to be the most common DIY 3D printer parts, which are everywhere on eBay for cheap.

TL:DR Cost=$470 using Al extrusion for frame, built from 3D printer parts and custom designs from scratch. Total cost is ~$210 if you build the frame from wood.

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