STUDENTS
Architect
Mechatronic Engineer
Mechanical Engineer
Architect
INSTRUCTOR 2021
Instructor support
INSTRUCTOR 2021
Instructor
Characterize your lasercutter's focus, power, speed, rate, kerf, and joint clearance
Characterize the design rules for your PCB production process
Test the design rules for your 3D printer(s)
Use the test equipment in your lab to observe the operation of a microcontroller circuit board
Test runout, alignment, speeds, feeds, and toolpaths for your machine
Compare the performance and development workflows for other architectures
Probe an input device's analog levels and digital signals
Measure the power consumption of an output device
Compare as many tool options as possible
Send a message between two projects
Review the safety data sheets for each of your molding and casting materials, then make and compare test casts with each of them
- Design a machine that includes mechanism+actuation+automation - Build the mechanical parts and operate it manually - Document the group project and your individual contribution
- Actuate and automate your machine - Document the group project and your individual contribution
first: at the concepts stage, I had a part suggesting the sand idea and drawing the sketches for the team also I and Ismail decided the way the mechanism of the machine. I'm the member of the team who is always interested in culture and usual work with it. I did the project management for the whole 2 weeks, how? well, first I did an assessment for the strong point for each team member and handle them a task in a thing where they are good at and each one had a partner from the team on his task, that way I made sure that everyone will do what he is good at and learn new thing. I used to do morning talk with everyone about what he is going to do today and then at the end of the day check what we did and update the schedule and ask others to be in touch about what we learned what we need to do next. For example, I choose who will the archimedes screw will be and gave Ammar the measurements and while he designed the head I did the assembly for motors and mechanical parts I had to do the finishing for the 3d printed parts and add the linear bearing for the electronics I worked with shrouq on it and found the needed data to learn about because our instructor in those two weeks wasn’t available in the lab. I did the assembly for the drives the shield and the connection between pieces. the I worked on the fennels and made sure that the sand work smoothly with it.
Remal is a CNC machine inspired by local sand art of Jordan and wadi rum to be specific. The Idea sparkled when We went to downtown with our instructor Vaneza and saw a local artist from a bedion tribe dong sand drawings and asked him to do us a custom sand art bottle for us then, since we aim to bridge the gap between digital fabrication practices and cultural crafts, as our Arab and human heritage contains a set of inventions, values, and techniques that can be the inspiration for a better sustainable future. We tried through this week to put in perspective an old innovation or practice each week using a mix of old and new techniques. If we spread knowledge, provide access to technology with no limits to everyone letting them develop solutions for their own problems using their accumulative heritage, We will have communities with sustainable cities and neighborhoods.
- Machine design - Manually test - Machine actuate & automation
In this part we will build Arduino CNC Sand Drawing Machine. The machine is inspired by In the beginning, we had a team discussion and assigned tasks to groups, and we worked in parallel on all machine parts (mechanical, electronics, design, 3D printing, and software). We had four subgroups: Zaid: project management Zaid, Ammar: Assembly the machine. Shoroq, Zaid: Electronics and software. Ammar: Mechanical design. Ammar, Zaid : 3D printing Ismail: cutting out the aluminum, roads, lead screws. When all assigned tasks were completed, we all worked as a group to assemble and test the machine, including axis movement, axis calibration, and hot wire calibration. Then we made cutting tests and captured one in the Hero Shoot video
We spread the tasks
We decided to work and edit on an already designed cnc machine and we fixed everything based on list of parts found in local market and also designed the head .Ammar started design the machine and 3D parts in Solidworks inspired by https://www.instructables.com/DIY-3D-Printed-Dremel-CNC/
I made some editing on the parts that we download it espacially in the holes diameter for the roads and screws it was 12mm but In jordan we have screws with 8mm. So I edit them for 8mm.
the image above shown the y-axis part in the other side of the stepper motors
the image above shown the y-axis parts that holded the stepper motors
The image above shown the L-corners that used for hold the aluminium frame in the edges
We had an idea to design a sand head with an archimedes screw to move the sand without lagging, and in the upside-down parts we made a slider to hold the stepper motor to rotate the archimedes screw. Note: the head made by to parts so it can be It can be disassembled
The idea of the sketches was made by: Ziad Marji and the 3d design/Printing by Ammar Alkhatib
the funnels we made them with four sizes (3mm, 4mm, 5mm, 7mm)
the funnels we made them with four sizes (3mm, 4mm, 5mm, 7mm)
| Mechanical parts | Electronics parts/th> |
|---|---|
| aluminum 600mm x2 | Stepper motors (X4) |
| aluminum 300mm x6 | CNC shield (X1) |
| rods 310mm x2 | Stepper drivers (X5) |
| rods 530mm x2 | Arduino Uno (X1) |
| rods 140mm x2 | Power supply (X1) |
| lead screw 500mm x2 | DC connector (X1) |
| lead screw 280mm x1 | Jumpers (X14) |
| lead screw 120mm x1 | --- |
| LM8UU LINEAR BEARING | --- |
| 608zz bearing (X4) | --- |
| BT nut M5 (X36) | --- |
| M6 x 25mm screws (X4) | --- |
| M5 x 10mm screws (X34) | --- |
| M5 x 16mm screws (X10) | --- |
| M3 x 20mm screws (X8) | --- |
| M3 x 12mm screws (X32) | --- |
to design a machine that includes mechanism + actuation + automation build the mechanical parts and operate it manually actuate and automate your machine document the group project and your individual contribution
The spiral task:Research (downtown pic +)
Basic machine building reference (instructables)
Design a unique head design using Archimedes screw (Ammar)
Collect the whole parts
Program it
Test it
to minimize the scattered sand we wanted to let the machine draw with sand on the machine bed we will follow the basics of the cnc machine and “adjust” a new head to it so it flow the sand smoothly and use Archimedes screw to try to flow the sand properlys
REF: https://www.instructables.com/DIY-3D-Printed-Dremel-CNC/ 1. Collecting the parts from the gives excell sheet 2. 3D Printing(here my collogues adjust desgin al liitle bit and designed the diffrent head we wanted ) 3d printing settings :::::: 3. Tighten brass nuts to both 3D printed parts 4. choose the aluminum extrusion profiles and then cut it 5. attaching stepper motors to 3D printed parts with M3 screws 6. connect X axis with the Y-axis, s we didn’t finish yet we will move now to customize a special bed to hold the acrylic box inside it (I draw it using AutoCAD then we cut the whole parts) ### Design a unique head design using Archimedes screw here is my collogues design for it pic i 3d printed it ::::: ## Program it
Stepper motors (X4)
CNC shield (X1)
Stepper drivers (X4)
Arduino (X1)
Power supply (X1)
DC connector (X1)
Jumpers (X14)
Dremel 3000 (X1)
connection the cnc sheild to arduino put (pictures) testing the shield by putting the powersupply and GRBL
i will go to to downloading process with you:
check if you have arduino IDE downloaded on your pc if not you can downloaded as i did from here
first of all you download the zip-file from the github from this link : https://github.com/grbl/grbl
Second you will extract it and cop grbl folder from it and paste it on the arduino IDE “library” folder program FILES
Third step is you connect the shield with you computer and try to upload the grbl to it.
I opened the Arduino and checked the correct port it should be ended with
and opened the the grbl Upload from edit : Example and then press
verify>upload it click with correct sign. next step is
(https://www.youtube.com/watch?v=m998bYioHqs)
download CNCjs or gbrl controller
https://www.youtube.com/watch?v=uAshB6v0xNY
https://www.youtube.com/watch?v=6SpwxoGKico) to control the grbl shield we need a software that gives instructions to the motors and translate the g-code into the correct motor movement. there are several we choose CNCjs
now connect the arduino to powersupply and
We downloaded it from git hub as a zip-file https://github.com/cncjs/cncjs
*You choose the correct the right mine was COM 5 > then you press connect.
we test firstly manually tried it from the navigation buttons
we changed the (x,y) stepping as it showed in the tutorial, by coding inside the console
window $100 = 400 $101 = 400 $102 = 400 but ours showed a x-stepping wrong,but mine
we found that the x stepping got us wrong trial and error we changed the number
$100 = 55 this is for x travel
First we opened inkscape window and saved a star drawing we then opened an online gcode creator
Here is the one we used http://jscut.org/ we then press launch buttons this is the interface we open svg
-now change the units to meters
-choose the zero to center
-select the your svg picture
-press generate while choosing these settings
-save it
-open it in CNCjs using the upload G-code
-and press play button
- magic happens:
Zaid M. Marji
Ammar Alkhatib
Ismail Qashoue
Shoroq Jihad
March 2021
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Crown Prince Foundation
