Hongbao
Advantages and uses of assistive robots
Published Time:
2023-02-15 17:00
(1)High production efficiency: To improve production efficiency, it is necessary to control the production rhythm. Besides the fixed production processing time which cannot be improved, using automated material loading and unloading to replace manual operation can effectively control the rhythm, avoiding production disruptions caused by human factors, and greatly improving production efficiency.
(2)Flexible process adjustments: We can modify programs and grippers, flexibly adjust production processes, and adjust speeds. This eliminates employee training time and allows for flexible production deployment.
(3)Improved workpiece quality and appearance: In a robotic automated production line, feeding, clamping, and cutting are all completed by robots, reducing intermediate steps and significantly improving component quality, especially resulting in a more beautiful workpiece surface.
Uses of Assisted Robotic Arms
In industrial automated production, whether it is a single or combined machine tool and automated production line, it is used for workpiece handling by robotic arms. This primarily involves position recognition, direction control, and material presence control. Its function is to move workpieces or items on a conveyor belt.
The up, down, left, and right control and release of the robotic arm are achieved using a three-double solenoid valve pneumatic cylinder. When the solenoid valve is energized, we maintain the corresponding action, even if the coil is energized again, until the coil current reverses direction and the corresponding action changes. The equipment is equipped with up, down, left, right, pick-up, and release limit switches to control the final step. The conveyor belt has a light switch to monitor whether the workpiece is in place.
Handling robotic arms mimic human hand movements, automatically acquiring, processing, and operating according to given programs, trajectories, and requests. They are particularly useful in harsh environments such as high temperature, high pressure, dust, flammability, explosiveness, and radiation, as well as in heavy, monotonous, and repetitive operations unsuitable for human workers, therefore their use is becoming increasingly widespread. Robotic arms generally consist of three parts: an actuator, a drive system, a control system, and inspection equipment. Intelligent Robots Existing sensing and intelligent systems