I have printed a few versions of 3d printed feeder bowls for my factory job, but never the base, very cool to see the effort you put into the design, and video editing.
This is really cool to see you figure it out. Instead of a flat electro mag, could you benefit from a 2 piece solenoid? With the core mounted to the acting plate projecting through the windings on the base. Maybe it would desensitize the mag gap since you'd be acting on a cylindrical core instead of a flat surface. Then you could more easily tune it with the drive for whatever spring and load you have.
Yes, you are right. Original feeder systems use other magnets. However, these are extremely expensive. I wanted to implement it with a simple, inexpensive pot magnet.
I'm so interested in this. Could you please Talk about the angle of the springs and on what basis the angle of the springs is calculated? Is it a general angle, and how much is that?
I determined the angle empirically. The flatter the angle, the faster the movement. Hier kannst du es Downloaden:www.etsy.com/at/listing/1558942124/3d-printed-vibration-bowl-feeder-system?click_key=4ba30f28475c92f5fd5b23e079709fc0b6196eca%3A1558942124&click_sum=30068c97&ref=shop_home_feat_2&pro=1
Hi friend! Very nice job and research. It works really well for 3d printed construction. Tell me please, what angle of plate tilt did you find optimal, how much angles from vertical axis? Thanks in advance.
Hello! Really cool design and machine! Thanks for sharing! I am currently learning more about 3D printing myself. I was curious, if you don't mind answering; how long did it take to print the larger components and pieces of the body?
Hello, unfortunately I don't know that exactly anymore. I have a Voron 2.4 printer. This is a relatively fast printer. I print the perimeter with approx. 110mm/s. The infill is even faster. Around 130mm/s. The dish has printed about 7 hours I guess.
This would be an excellent base for something called a vibratory tumbler. Basically, it works by shaking rocks or metal parts with some polishing grit and water. The one’s that rely on solenoids instead of rotary motors are extremely expensive. But your design would make these tools much more accessible. All you would need to do is print a bundt cake shaped bowl for the rocks to sit in and put on a lid.
That's an excellent idea. Maybe I'll put it into practice. We used to have something like that in the company where I worked. It was a large horizontal drum in which we deburred the laser-cut parts. I am always open to new ideas. Thank you very much :-)
I actually found your video while researching how to make my own polisher. If you designed this into a rock polisher, I’d buy it. I’ve been trying to figure out how to make a very basic control board for the electromagnet using a 555 timer instead of an arduino. The biggest issues with the polishers you can buy at the store is that the bowls rust, crack, and leak. Also, the motors they use burn out quickly. I really just want to build something like what you have here but with using potentiometers to control amperage and frequency instead of trying to do any programming.
I wish this worked more like discord so i could share screenshots and other diagrams. I made a tinkercad version of the controller but i have no idea if it would work.
Great video! On the linear feeder what variables would afect the speed of the objects the most? And do you think PLA would resist for a long time before fadige strats to weaken the material?
The speed is determined by the installation angle of the springs. I am currently working on a project where I am also using PLA springs. These broke after about 2 days of continuous running. I am currently testing with PETG. I will then show my findings in a video.
I forgot to ask, is it possible to use a weaker magnet, for exemple 30kg of strenght? I want to build a 3D printed linear feeder for golf tees. Since they are light objects, the strenght of the springs can also be reduced, and therefore the strenght the magnet? Also, can you share the wiring diagram you used with both potentiometers? @@FraensEngineering
I am designing a small version of a vibrator feeder for separating parts. Did you try with a vibration motor? I am thinking a DC vibration motor hanging from the bottom instead of the electromagnet would make controls so much easier. with just a potentiometer the frequency can be controlled. I still have many questions un-solved. Is this abs?
Hi, industrial machines work with magnetic drives. The advantage is that there are no moving parts such as ball bearings. Magnetically driven vibratory conveyors are therefore very low-maintenance once they have been set up correctly. I know motor-driven vibratory conveyors from my old company. There we built meter-long conveyors for transporting stones, glass, etc.
@@FraensEngineering use it to feed chips into your mouth. great job btw. i studied automated assembly systems and did the calculations for feeders at college. always wondered if we can 3d print them. might do one myself using resin printing. would be fun to add some additional orientation features and have misaligned parts drop back into the bowl.
I'm thinking about getting a resin printer myself. According to my research, the parts are relatively brittle. I'm not sure if this could work. The forces that are introduced are not exactly small. Installing traps is the next step for this project. Basically, the feeder was built to sort screws. I'm going to look into that.
@@FraensEngineering The right resin will handle the forces no problem. I use resins that will outperform 95% of FDM materials (including high grade engineering filaments such as ULTEM). Yes, they can be brittle (especially if using cheap resins) and if they are left in strong UV for too long, but even a decent "ABS-like" resin will outperform PLA in terms of most mechanical properties. They get really brittle when printing thin structures. I have been using a technical resin on a project, and we are printing walls of 300 microns. Very brittle at that thickness, especially as it is translucent when thin, and allows UV to penetrate more. But when printed at a couple of centimeters, its no problem. If you want to spend $100 and upward per kilogram on more technical resins as I do, they will blow any filament out of the water, even for impact resistance. I have a lab oven for dual curing resins also, which i can also use for technical coatings which also enhance the durability of the resin (as well as protect from UV)
It sounds very professional what you are doing. So it depends very much on the resign you use. I thought I'd get a printer from Anycubic or something. Just to see how it works. I assume you have a slightly higher priced model. Such a device would fit well in my workshop since I have an exhaust there.
I think it will in the future. Making the bowls is extremely time-consuming. 3D printing is a very good option here. When metal 3D printing becomes cheaper, it will certainly be an alternative.
Could an Arduino Nano be used instead of an Uno? Is the code listed on your website complete or is it available to download somewhere? Thank you for sharing this - excellent work!
Hello, the code on my website is complete. I think it should also work with a nano. I would not think of anything now why not. If you test it, let me know.
Sorry, one more question. Do you think this polarity reversing benefit will work when using a neodymium magnet instead of a steel plate? I plan on using this with a linear feeder similar to the one you show at the beginning of your video. In my case I am very space limited and hope to get away with three P20/15 24v (250 ohm) electromagnets wired in parallel. Thanks.
This is pretty amazing but I'm struggling to understand the mechanics of how this actually works. How does vibrating make it go uphill?! I'll have to do some research into this process to figure things out... Regardless, great video and as an aside, seeing the seeds left over in the screws at 12:18 made me laugh. 🙂
Here's how I think it works: When the magnet sucks down, the springs pull back and turn the device slightly without contacting the stuff in the plate due to inertia, then when it releases the magnet, the springs push up and spin it slightly to return to the initial position, imparting the spin on the stuff in the plate. This occurs at whatever hertz the magnet is set to so it looks like a constant motion to the naked eye.
@@boomchacleKSP Yeah, that seems to be what I found in my research. The fact that the springs are angled is the key. And when making it from scratch, you've just gotta keep the angle correct for the side of the "tub" that the ramp is on. Because you could easily screw that up and everything would rotate backwards.
@@boomchacleKSP the impulse throws the part upwards and forwards, then the part slides back a little (friction is important) and then the next impulse from the sine wave throws the part again before it has the chance to slide back to its original position. so it's always moving forward. Like 1 step forward, half a step back, one step forward, half a step back...etc.
Hi, this is Shahab, who is interested in your projects. I'm designing a vibratory bowl feeder for my project. Since there is no professional person in this field based on my location,I was wwondering if I could have your advice about my designdesign you share with me Your professional experience as an experiencestas his field. I need your help thank you so much. And also is it possible to share my design with you to tack your professional view
I have printed a few versions of 3d printed feeder bowls for my factory job, but never the base, very cool to see the effort you put into the design, and video editing.
Boah, das ist genial. Danke fürs Zeigen !
Thank you for this genius design and your hard work to get it working!!
This is really cool to see you figure it out. Instead of a flat electro mag, could you benefit from a 2 piece solenoid? With the core mounted to the acting plate projecting through the windings on the base. Maybe it would desensitize the mag gap since you'd be acting on a cylindrical core instead of a flat surface. Then you could more easily tune it with the drive for whatever spring and load you have.
Yes, you are right. Original feeder systems use other magnets. However, these are extremely expensive. I wanted to implement it with a simple, inexpensive pot magnet.
Love the fact its a voron. Might have to fire up me tridex and my 2.4 and give it a shot. Great job.
By far the best 3D printer ;-)
This design is next level
😮omg 🔥🙌❤ Beautiful !! (To the frontpage Elliot!! ☠️🛠 )
Awesome Video! Appreciate the time and effort
I'm so interested in this. Could you please Talk about the angle of the springs and on what basis the angle of the springs is calculated? Is it a general angle, and how much is that?
I determined the angle empirically. The flatter the angle, the faster the movement.
Hier kannst du es Downloaden:www.etsy.com/at/listing/1558942124/3d-printed-vibration-bowl-feeder-system?click_key=4ba30f28475c92f5fd5b23e079709fc0b6196eca%3A1558942124&click_sum=30068c97&ref=shop_home_feat_2&pro=1
Dope video. Thanks for sharing.
really good video. made me understand how they work much better for my own project. thank you! danke!
Es freut mich das es dir geholfen hatt ;-)
Hi friend! Very nice job and research. It works really well for 3d printed construction. Tell me please, what angle of plate tilt did you find optimal, how much angles from vertical axis? Thanks in advance.
The angle is partly responsible for the conveying speed. I think between 45 and 60 degrees to the horizontal should be good.
Hello! Really cool design and machine! Thanks for sharing!
I am currently learning more about 3D printing myself. I was curious, if you don't mind answering; how long did it take to print the larger components and pieces of the body?
Hello, unfortunately I don't know that exactly anymore. I have a Voron 2.4 printer. This is a relatively fast printer. I print the perimeter with approx. 110mm/s. The infill is even faster. Around 130mm/s. The dish has printed about 7 hours I guess.
This would be an excellent base for something called a vibratory tumbler. Basically, it works by shaking rocks or metal parts with some polishing grit and water. The one’s that rely on solenoids instead of rotary motors are extremely expensive. But your design would make these tools much more accessible. All you would need to do is print a bundt cake shaped bowl for the rocks to sit in and put on a lid.
That's an excellent idea. Maybe I'll put it into practice. We used to have something like that in the company where I worked. It was a large horizontal drum in which we deburred the laser-cut parts. I am always open to new ideas. Thank you very much :-)
I actually found your video while researching how to make my own polisher. If you designed this into a rock polisher, I’d buy it. I’ve been trying to figure out how to make a very basic control board for the electromagnet using a 555 timer instead of an arduino. The biggest issues with the polishers you can buy at the store is that the bowls rust, crack, and leak. Also, the motors they use burn out quickly. I really just want to build something like what you have here but with using potentiometers to control amperage and frequency instead of trying to do any programming.
Can you send me a link so that I know exactly what you mean?
I wish this worked more like discord so i could share screenshots and other diagrams. I made a tinkercad version of the controller but i have no idea if it would work.
@@FraensEngineeringi just realized my post with the html links are being removed. Not sure how else to send them
Great video!
On the linear feeder what variables would afect the speed of the objects the most?
And do you think PLA would resist for a long time before fadige strats to weaken the material?
The speed is determined by the installation angle of the springs. I am currently working on a project where I am also using PLA springs. These broke after about 2 days of continuous running. I am currently testing with PETG. I will then show my findings in a video.
@@FraensEngineering Thank you for the information.
I'm looking forward to watch that video.
Continue doing a great work 👍
I forgot to ask, is it possible to use a weaker magnet, for exemple 30kg of strenght?
I want to build a 3D printed linear feeder for golf tees. Since they are light objects, the strenght of the springs can also be reduced, and therefore the strenght the magnet?
Also, can you share the wiring diagram you used with both potentiometers?
@@FraensEngineering
I am designing a small version of a vibrator feeder for separating parts. Did you try with a vibration motor? I am thinking a DC vibration motor hanging from the bottom instead of the electromagnet would make controls so much easier. with just a potentiometer the frequency can be controlled. I still have many questions un-solved. Is this abs?
Hi, industrial machines work with magnetic drives. The advantage is that there are no moving parts such as ball bearings. Magnetically driven vibratory conveyors are therefore very low-maintenance once they have been set up correctly.
I know motor-driven vibratory conveyors from my old company. There we built meter-long conveyors for transporting stones, glass, etc.
Perhaps in the future it can replace CNC and hand-made vibrant bowl feeders, we use many in our machines...
cool but what do you use it for?
I'm sure I can think of something ;-)
@@FraensEngineering use it to feed chips into your mouth. great job btw. i studied automated assembly systems and did the calculations for feeders at college. always wondered if we can 3d print them. might do one myself using resin printing. would be fun to add some additional orientation features and have misaligned parts drop back into the bowl.
I'm thinking about getting a resin printer myself. According to my research, the parts are relatively brittle. I'm not sure if this could work. The forces that are introduced are not exactly small. Installing traps is the next step for this project. Basically, the feeder was built to sort screws. I'm going to look into that.
@@FraensEngineering The right resin will handle the forces no problem. I use resins that will outperform 95% of FDM materials (including high grade engineering filaments such as ULTEM).
Yes, they can be brittle (especially if using cheap resins) and if they are left in strong UV for too long, but even a decent "ABS-like" resin will outperform PLA in terms of most mechanical properties. They get really brittle when printing thin structures. I have been using a technical resin on a project, and we are printing walls of 300 microns. Very brittle at that thickness, especially as it is translucent when thin, and allows UV to penetrate more. But when printed at a couple of centimeters, its no problem.
If you want to spend $100 and upward per kilogram on more technical resins as I do, they will blow any filament out of the water, even for impact resistance.
I have a lab oven for dual curing resins also, which i can also use for technical coatings which also enhance the durability of the resin (as well as protect from UV)
It sounds very professional what you are doing. So it depends very much on the resign you use. I thought I'd get a printer from Anycubic or something. Just to see how it works. I assume you have a slightly higher priced model. Such a device would fit well in my workshop since I have an exhaust there.
Perhaps in the future it can replace CNC and hand-made vibrating bowl feeders we used many feeders in our machines...
I think it will in the future. Making the bowls is extremely time-consuming. 3D printing is a very good option here. When metal 3D printing becomes cheaper, it will certainly be an alternative.
How well would this scale up in size do you think?
The drive unit can be safely used for a larger bowl. The magnet has a decent performance.
amazing!!!
Can it count the parts for inventory purposes?
A separate sensor system with evaluation would be necessary for counting. The feeder only separates the parts.
It's beautiful
Could an Arduino Nano be used instead of an Uno? Is the code listed on your website complete or is it available to download somewhere? Thank you for sharing this - excellent work!
Hello, the code on my website is complete. I think it should also work with a nano. I would not think of anything now why not. If you test it, let me know.
Sorry, one more question. Do you think this polarity reversing benefit will work when using a neodymium magnet instead of a steel plate? I plan on using this with a linear feeder similar to the one you show at the beginning of your video. In my case I am very space limited and hope to get away with three P20/15 24v (250 ohm) electromagnets wired in parallel. Thanks.
Is this a DC electromagnet?
Yes
Very nice!
Good job bro
This is pretty amazing but I'm struggling to understand the mechanics of how this actually works. How does vibrating make it go uphill?! I'll have to do some research into this process to figure things out...
Regardless, great video and as an aside, seeing the seeds left over in the screws at 12:18 made me laugh. 🙂
The parts are thrown upwards by the arrangement of the springs. The springs have a flatter angle than the slideway.
Here's how I think it works: When the magnet sucks down, the springs pull back and turn the device slightly without contacting the stuff in the plate due to inertia, then when it releases the magnet, the springs push up and spin it slightly to return to the initial position, imparting the spin on the stuff in the plate. This occurs at whatever hertz the magnet is set to so it looks like a constant motion to the naked eye.
@@boomchacleKSP Yeah, that seems to be what I found in my research. The fact that the springs are angled is the key. And when making it from scratch, you've just gotta keep the angle correct for the side of the "tub" that the ramp is on. Because you could easily screw that up and everything would rotate backwards.
@@boomchacleKSP the impulse throws the part upwards and forwards, then the part slides back a little (friction is important) and then the next impulse from the sine wave throws the part again before it has the chance to slide back to its original position. so it's always moving forward. Like 1 step forward, half a step back, one step forward, half a step back...etc.
Which printer are you using?
Its a Voron 2.4
Hi, this is Shahab, who is interested in your projects. I'm designing a vibratory bowl feeder for my project. Since there is no professional person in this field based on my location,I was wwondering if I could have your advice about my designdesign you share with me Your professional experience as an experiencestas his field. I need your help thank you so much. And also is it possible to share my design with you to tack your professional view
Nice 😵
8:33
is this finish product still available?
Hello, unfortunately I cannot offer any physical products. I do not have the capacity to do so.
Good shit
Oh hey, a VORON