CODING WITHIN ARM’S REACH
ORA is the first six-axis professional grade cobot designed for education. Students will gain future-ready skills as they master process engineering and automation supported by standards-aligned lesson content.
CODING WITHIN ARM’S REACH
ORA is the first six-axis professional grade cobot designed for education. Students will gain future-ready skills as they master process engineering and automation supported by standards-aligned lesson content.
CODING WITHIN ARM’S REACH
ORA is the first six-axis professional grade cobot designed for education. Students will gain future-ready skills as they master process engineering and automation supported by standards-aligned lesson content.
GET TO KNOW ORA
Designed for Education
Quick & Simple Setup
Quick & Simple Setup
Enjoy a quick and simple out of the box setup for this professional grade cobot. With flexible mounting options and simplified wiring, new users can mount, connect, and create their first program in no time!
Beginner-Friendly Programming
Structured Concurrency
Structured Concurrency
GET TO KNOW ORA
Designed for Education
Quick & Simple Setup
Beginner-Friendly Programming
Structured Concurrency
A COBOT
FOR STUDENTS
All experience levels welcome! ORA is the only cobot designed for students, that’s supported by a comprehensive library of lessons from introductory and beyond. Its simple setup and implementation process enables schools, universities and training institutions to equip students with future-ready skillsets.
Explore Standards-Aligned Lessons
Discover principles of atmospheric pressure by investigating how robotic vacuum grippers utilize pressure differential and fluid dynamics to grasp and move objects.
Explore mechanical engineering principles by investigating how pneumatics convert energy into motion.
Explore Standards-Aligned Lessons
Begin with the ORA Coordinate System and grid mat to accurately and efficiently move the robotic arm to pre-programmed locations before graduating to more advanced linear and joint movements.
Discover principles of atmospheric pressure by investigating how robotic vacuum grippers utilize pressure differential and fluid dynamics to grasp and move objects.
Explore mechanical engineering principles by investigating how pneumatics convert energy into motion.
ORA + Evo
Funding ORA
ESSER & Government Funding
Learn about the American Rescue Plan’s ESSER Fund as well as state and federal funding sources.
Corporate & Local Funding
Discover the corporations and local businesses that offer funding opportunities to support K-12 STEAM educational programs.
Crowdfunding
Crowdfunding platforms such as DonorsChoose, Kickstarter, and GoFundMe have become popular tools for raising funds for K-12 classrooms.
SPECIFICATIONS
- Degrees of freedom
- Payload
- Total Weight
- Maximum reach
- Maximum tool speed
- Repeatability
- Motor Type
- Control Box
- Power In
- Software
- 6
- 600 g
- 7.2 kg
- 440 mm
- 500 mm/s
- +/– 0.5mm
- DC Brushless
- Built–in
- 100–120 V ~ 8A
- Ozobot Blockly
- Degrees of freedom: 6
- Payload: 600 g
- Total Weight: 7.2 kg
- Maximum reach: 440 mm
- Maximum tool speed: 500 mm/s
- Repeatability: +/– 0.5mm
- Motor Type: DC Brushless
- Control Box: Built-in
- Power In: 100-120 V ~ 8A
- Software: Ozobot Blockly
- Maximum Joint Speed
- Joint 1
- Joint 2
- Joint 3
- Joint 4
- Joint 5
- Joint 6
- 180 deg/s
- +/– 360 deg
- +/– 150 deg
- +/– 360 deg
- +/– 360 deg
- +/– 124 deg
- +/– 360 deg
- Maximum Joint Speed: 180 deg/s
- Joint 1: +/– 360 deg
- Joint 2: +/– 150 deg
- Joint 3: +/– 360 deg
- Joint 4: +/– 360 deg
- Joint 5: +/– 124 deg
- Joint 6: +/– 360 deg
SPECIFICATIONS
General
- Degrees of freedom: 6
- Payload: 600 g
- Total Weight: 7.2 kg
- Maximum reach: 440 mm
- Maximum tool speed: 500 mm/s
- Repeatability: +/– 0.5mm
- Motor Type: DC Brushless
- Control Box: Built-in
- Power In: 100-120 V ~ 8A
- Software: Ozobot Blockly
Joints
- Maximum Joint Speed: 180 deg/s
- Joint 1: +/– 360 deg
- Joint 2: +/– 150 deg
- Joint 3: +/– 360 deg
- Joint 4: +/– 360 deg
- Joint 5: +/– 124 deg
- Joint 6: +/– 360 deg
What’s in the Box?
ORA
- ORA Robot
- 24V Power Supply & Cable
- Mounting Plate
- Quadrant Mat
- Emergency Power Button
- Ethernet Data Cable
- End Tool Adapter Cable
- C-Clamps (2)
- Assembly Components and Tools
Accessories
End Tool: Gripper
End Tool: Vacuum Gripper with Vacuum Cups
Evo Robots (2)
Wood Cylinders (9)
ORA FAQs
Requirements
Internet access > 1Mbps/ORA and a computer
Allow outgoing communication on ports 15671/tcp, 80/udp, 443/udp and STUN server enabled
Wired (ethernet) connection for ORA with DHCP. Wall plug or hotspot with integrated ethernet port
ORA and all computers on the same network or on separate networks where UDP (DLTS, SCTP) traffic is routed through
Chrome or Chromium-based browser (Google Chrome, Microsoft Edge, etc.)
Password and Authentication
Not at this point.
Connecting ORA to the internet
No. ORA does not have an internal Wifi card. It must be connected via ethernet cable to an ethernet wall port or hotspot.
No. You can access ORA from a separate network as long as both networks have UDP (DLTS, SCTP) traffic routed through them.
Allow outgoing communications on the following ports: 15671/tcp, 5671/tcp, 80/udp, 443/udp
Google Chrome, Microsoft Edge or any Chromium based browser.
