Shanghai YoungYou Intelligence Co.,Ltd. |
Verified Suppliers
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Train students to use the fastest programming software to form a trajectory in 20 minutes
We focus on visual design and simulation software for industrial
robot programming,
After nearly 10 years of R&D innovation and version iteration
and upgrading, it has a number of core technologies:
Including self-developed 3D rendering engine, geometric topology,
feature-driven, adaptive solution algorithm
Multi-brand robot postposition, collision detection, code
simulation, etc.
Last year, our software added multilingual support such as English, traditional Chinese and Russian versions for engineers around the world
Product use process
1. Download the robot model of cloud resource library
2. Customize the robot;
3. Import the model. Scene construction;
4. Track generation;
5. Simulation verification;
6. Post code;
7. Robot operation;
8. The robot completes the work
During the use of the software, you can feed back the problems you encounter to us through the built-in function, and we will give you professional answers through whatsapp, email, etc.
Track generation and editing
There are nine types of track generation methods, hundreds of track
parameters and dozens of parameterized track modification methods.
Real-time calculation of reachable space
The software can not only calculate the reachable space of the
robot's flange position, but also the reachable space of the
robot's end effector, making your workstation design and trajectory
planning more realistic and efficient.
External tool programming
There are two common working modes of robots:
① Hand tools, parts fixed; ② Handheld parts and fixed tools;
The second is called external tool, which is more complex to
program. The software provides external tools, displacement tools,
continuous TCP, workpiece coordinate system, etc. to be used
together, so that the handheld parts are no longer complex.
collision detection
During the simulation, the collision detection function is enabled
to simulate and detect the collision between the robot and the
surrounding parts and facilities when it is moving, and prompt it
by highlighting the line and outputting the collision information.
Track optimization
It can reflect the singularity, axis limit, unreachable, collision
and other information in the track on the interface, and
automatically avoid collision by dragging the mouse to quickly
obtain the ideal track and improve work efficiency.
External shaft linkage
Through the interpolation function of external axis linkage, users
can optimize the external axis position to achieve smooth movement
along the entire tool path, without manually modifying the target
position control points between each robot.