A prototype is a preliminary model of something. Projects that offer physical products need to show backers documentation of a working prototype. This gallery features photos, videos, and other visual documentation that will give backers a sense of what’s been accomplished so far and what’s left to do. Though the development process can vary for each project, these are the stages we typically see:
Proof of Concept
Explorations that test ideas and functionality.
Demonstrates the functionality of the final product, but looks different.
Looks like the final product, but is not functional.
Appearance and function match the final product, but is made with different manufacturing methods.
Appearance, function, and manufacturing methods match the final product.
This is the ShopArm. It is a 3D printed robot arm that is made with 3D printing components and can be trained using a vision system, speech, or a standard graphical interface.
We are on Kickstarter to fund the manufacture of the first round of ShopArms, and pay for the continued growth of the software and design of the ShopArm.
At Slant we build robots every day. Industrial robots, home robots, STEM robots. We have worked with or developed all of these.
Early in 2016 we were working with a large industrial robot for a client. A behemoth that could kill you if you got too close at the wrong time. While working with this arm and others like it we realized that we could make an arm 10x cheaper and 100x easier to use.
Working on that premise, we started developing the ShopArm. A robot for basically anyone, who would like a little physical automation in their life.
We had three requirements when we started.
It had to cost less than $1000
Makers had to be able to build it in their garage
It could be used by anyone without experience
We achieved all of these.
We identified the components that could make it affordable. We determined the design that would make it reliable. And we found the functionalities that would make it easy and useful.
After several months of working on the project on the side we are ready to release the ShopArm into the world. So builders, small business owners, and overworked cookie decorators can start using it.
Packing small parcels
Re-Writing Personalized Notes
Grab the Toast when Done
Feed the Pet
Prep Drinks at a Party
It's just cool to have
Inspired by 3D printers
Have you noticed how you can get a 3D printer for $300? We decided to take a cue from 3D printers when we designed the ShopArm. Inspired by 3D printers, and how they have come to be made affordably, we utilized many of the methodologies and a few of the parts that are used in these machines.
We also decided to utilize 3D printing to manufacture the ShopArm. We have a farm of the printers on hand for just such production so it was a no-brainer. Every plastic component of the ShopArm is 3D printed. And we will be releasing the designs during this campaign.
3D printing also has the advantage of making the ShopArm very light, but still strong. The mechanical properties created by good design in 3D printing are great.
The ShopArm has one primary gripper. But we have built several others for various tasks.
Here are a few.
Pen clamp - holds a sharpie for drawing
Hook - self-explanatory
Suction Cup - pick and place smooth things
Liquid Dispenser - Pour all Night
PCB Board Holder - Help at the workbench
Of course there are many others that can and will be created. That's partly why we are releasing the designs to the arm. We can't create all the grippers that people will want, so we will let them build them.
Any end effector can be applied in less then a minute with just two screws.
The ShopArm has a repeatability of less than a millimeter (.5 mm to be precise, and getting better). But why does that matter? If you are feeding the fish or topping off drinks at a party your precision just needs to be less than a few inches. Well, in the future we are going to continue to add software to ShopArm, some of that software will allow ShopArm to perform 3D printing and laser engraving, which do need higher precision. It is also nice to take some pride in your work and do a dang good job.
The ShopArm software is quick to install and easy to use. It can be installed on Linux or Windows computers in a couple of minutes. From there all you have to do is plug a USB cable into the ShopArm and start using it.
The UI of the ShopArm lets you record a few individual waypoints and motions. But if you would like to create a highly custom trajectory, like handwriting, all you have to do is start writing. Click in the workspace of the arm and drag. It will record the drawing. You can't get much easier than that.
The only problem thus far has been that the arm is more precise than the user, showing all the imperfections in our writing as we draw with the mouse. We are working on smoothing out the recording as well as adding the capability to import images.
The UI is pretty easy to use. But it does require that you have a screen nearby. That's a bit unhandy. It is also ungainly to control the arm through a broad range of motions one point at a time. So we have started creating a vision tracking program. All you need is a tracking marker and a few basic gestures to train the arm. It doesn't get much easier than literally showing the arm what you want it to do.
The Speech module for the ShopArm only has a few simple commands. This was meant to be used by someone who wants a real third hand. Having the ShopArm to move your work to a better position or even hold a camera is incredibly useful. We are all building one for each of our workstations.
Playback and Looping
Robots are great at repetitive tasks. So, obviously, we built repetition in. Once you show the ShopArm what you want it to do, you can make it do it for infinity. Maybe you have a a few boxes that need filling, or a bunch of invitations that need stamps. The ShopArm could save you a lot of effort with just a couple minutes of training. Show it what to do and then leave it.
The ShopArm is controlled by an Arduino Mega. This keeps the arm simple and easy to modify. The main computer that we use is a Raspberry Pi. But our software can be downloaded onto any Windows or Linux computer.
You'll get a shout out on Twitter with a thanks for your support. You will also be listed on our website backer page.
$95 - LittleArm
LittleArm is actually a project that we created in mid-2016. It is a 3D printed Arduino controlled robot arm that you can train with our free desktop software.
$450 - ShopArm Mechanical
ShopArm with all the motors and mechanical components that you need to build the arm. It does not include any control electronics or the gripper. Assembly Required.
$525 - ShopArm Basic Kit
All the mechanical and electronic components that you need to start using the ShopArm. Includes the Arduino, control shield, power supply, and gripper. Just assembly and then plug into a computer
$600 - ShopArm Basic Assembled
Ironically it is the same as the Basic Kit except it is assembled.
$675 - ShopArm Pro Kit
All the electronics and mechanics with a Raspberry Pi and camera pre-installed with software that you can start using. A fully self-contained unit that you can train and design new software for. Assembly Required
$750 - ShopArm Pro Assembled
Camera, gripper, Arduino, arm, all ready to go and fully assembled. Plug in the Raspberry Pi add a monitor and mouse and then start using it.
Risks and challenges
We have built multiple products in the past. And we have done multiple Kickstarters. When we delivered the LittleArm we were a full month or more ahead of schedule deliverying the product. This project is not going to be any different.
We have one custom circuit board. It is all ready to go. But the there is a chance that our manufacturer makes a mistake and delays the orders a few weeks. That is is the worst case scenario.
The software foundation is done. We are going to clean it up a bit more and then release it.
The design of the arm is done. We are just going to add a few organizational loops into the design to better manage the wires on the arm but that is all. (They hang more that we would like.)
All other parts are ready to order. That is just a matter of saying "Go."
Concerning the 3D printed components. We have a lot of experience in 3D printing for larger scale production. That is, in fact, a part of the business. We know how to make the parts in bulk. The only thing we might have to do there is order a couple more printers.
We have done all of this before. The ShopArm has very few points of vulnerability which we can't immediately address. This is not our first rodeo. Our team is ready to get it all done