- Improve production efficiency: The manipulator can quickly and accurately complete the action of taking and placing injection parts, and its working speed is usually much faster than that of manual, which can effectively reduce the production cycle time. For example, in some large-scale injection molding production, the manipulator can complete hundreds of operations per hour, greatly improving the output per unit time.

- Reduce labor costs: Reduce the reliance on a large number of workers, which can save labor costs in the long run. Hiring an ordinary injection worker may require thousands of yuan of salary costs per month, and although the robot has a large initial investment, the subsequent maintenance cost is relatively stable and low.

- Improve product quality stability: the manipulator's action accuracy is high, and the position, strength and other parameters of each operation can be accurately controlled, which can effectively reduce the difference in product quality caused by human factors. For example, the defective rate of the product can be reduced by several percentage points.

- Ensure safe production: In the injection molding production environment, the operation of the machine may be dangerous, and the robot can replace the manual work in the dangerous area to reduce the probability of industrial accidents.

- Achieve 24-hour continuous production: the manipulator does not need to rest like the manual, and can work without interruption to meet the needs of large-scale continuous production of enterprises.