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I have decided to start my InMoov project. I think I will call him Spock out of respect to Leonard Nimoy who passed away on the day that I started this project.
I am editing this post so as not to confuse people with the current configuration. I continue to update this post with the latest photos. If you are reading this for the first time, don't be confused. There have been a lot of changes to the InMoov over the past couple of years including starting over.
https://synthiam.com/Community/Questions/7398&page=21 Post 203 starts the rebuild of the InMoov.
I have decided to use an onboard computer. I chose the Latte Panda due to it having an onboard arduino Leonardo and also because it uses little power.
I used 2 EZ-B controllers connected via the camera port to Adafruit FTDI friend boards. This allows the Latte Panda to have a non-wifi dependent connection to the EZ-B's. I use a powered USB hub connected to the USB3 port on the Latte Panda to attach other items.
The Omron HVC-P is used to identify people, emotions, human bodies, hands, age and gender. It is attached to the Latte Panda via an FTDI friend which is then connected to the powered USB hub. It is mounted in the chest of the InMoov. I also use a 3 element microphone which is a MXL AC-404 microphone. It is disassembled and the board and microphone elements are mounted in the chest of the InMoov. This mic board is connected to the Latte Panda via a usb cable which is attached to the powered USB hub. There is a USB camera in the eye of the InMoov which is connected to the Latte Panda via the powered USB hub.
I chose to use the Flexy hand with the InMoov. The design is far more rugged than the original hand and works very well. There are 4 EZ-Robot Micro Servos in the palm of each hand which controls the main fingers. The thumb is controlled by an EZ-Robot HD servo. The wrist waves and uses an EZ-Robot HD servo to do this motion. I use the standard Rotational wrist.
I have castle BEC's for power in the following locations set to the following voltages. Forearm's - 6.2 V - Controls fingers, wrist and elbows Custom power distribution board (2) set to 6.2 V controlling head, neck and Shoulder servos. EZ-B's - set to 6.1 V - it is mounted in the controller mounting plate and connects to the EZ-B fused power boards from a power base. Latte Panda - Set to 5.1 V and is mounted to the EZ-B controller mounting plate. Waist - set to 6.2 V and is mounted in the lower right side of the back. This provides power to the lean and pivot waist motors..
There are some custom power and signal distribution boards. These are in the forearms, lower back and in the upper back. The upper back or main board connects to these distribution points via USB cables to provide signal to the other boards for servos. The main board also has servo connector pins that are for the neck, head and shoulders. This allows the power to be distributed between multiple BEC's and also allows the servo signal cables to be shorter and more protected via the USB cables.
For power I use a LiFePo4 battery that is rated at 30 amps. It has the balanced charging circuit built into the battery and also has a low voltage shutoff built into the battery. This protects the battery and allows the battery to be charged with standard car chargers.
I put switches on the back on the InMoov which are rated at 20 amps at 12 volts. These are rocker switches that allow the user to pretty much slap the switch to turn it off. There are two of these switches. The servos for the elbows and fingers are on one switch. The latte panda, neck, shoulders, EZ-B's, waist motors and some lighting is on the other switch.
I also added a fuse block. This allows 20 amp fuses to be put in line to help protect things. The switches above drive the fuses for each of of the motors listed in that section.
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OK great, thank you guys so much for all the info!
Im at 79.22% printed in 23 days. The first documentation on the rebuild is about the print time. "How long does it take to print an InMoov" is asked multiple times so I hope to be able to provide an answer for actual print time. Another common questions is "How much filament is needed to print an InMoov?" so I hope to also answer that question for my build. I am posting the Excel Spreadsheet that I am using to track the print information and will post an update after the printing has been completed. It has been converted to PDF so that I can upload it here and to allow people to zoom into certain sections for more information.
I can say that it looks like it takes about 58 days of print time to print one if you have one 3D printer. I have 2 so my timeline is cut in half. It looks like it will take a little over 8 kg of filament but I am not yet finished, and there are a couple of parts left that look like they will consume a lot of filament. I printed all parts with supports and with a raft. I am sure that I could have gotten by without using this extra filament on some parts but I figured that if I use one extra roll of filament in total, it would be worth it when I am only paying around $20 per KG of filament. I printed everything at 20 microns and it seems that almost all parts fit very well together. There are a few anomalies but for the most part, it is all fitting well.
My hope is to document the build as much as possible . It sometimes becomes difficult to do that unless I stay on top of the documentation as much as I stay on top of the build itself. I hope to be able to do both.
PrintStatusInmoov.pdf
Down one printer this morning. There is a clog in the hot end that I use. The other hot end isn't working for some reason. Down to one printer and continuing. I will see if I can get the other printer working this weekend. I am at 88.31% complete printing in 24 days. This will slow things down but at least I am still printing.
I have printed a lot on the one that is down right now. It has printed 2 Rafiki's and 1/2 of an InMoov but there are design flaws with these printers. I have parts on order already to make the printer like new again but they are shipping from China on a slow boat with minimal tracking information. Hopefully they will get here before long.
With 2 printers running almost constantly, it takes about 27 days to print an InMoov minus the head. I would say a couple more days to print the head pieces, so it would be about 30 days to print the entire robot with 2 printers, and about 10 KG of filament. This doesn't include the legs as they are not out yet.
PrintStatusInmoov.pdf
Hello, I add my statistics about printing. To compare print length and price.
InmoovDrupp.pdf
www.drupp.eu
Thanks Drupp. I like the neck on yours and will be doing the same with this build. I am doing something like Bob Houston for the hands. Some of the parts I printed pretty thick walls on due to my last build having issues in those areas over time.
Thanks for adding your print results for sure. It helps! Nice lookin InMoov!
Thanks for your compliment. I have problems with servo control. I can do basic movements, but I can not use "Camera Device - ARC". I'm not a programmer so I can not program it. I would be happy if someone wrote Plungins for this type of rotation. I think it would be good for more applications as well.
I will see what I can do on it and will post here.
Thanks if you find a moment of time, I like to test.