The process principle of the fully automatic packaging machine for infusion patches can be summarized as the following core steps:
1、 Material supply and pretreatment
1. Material preparation: Base materials such as adhesive paper and non-woven fabric are automatically supplied through conveyor belts or scroll systems, and after quality inspection, they enter the processing flow.
2. Material Forming: The packaging material undergoes stretching, cutting, or die-cutting pretreatment to form a size and shape that matches the infusion patch.
2、 Product transportation and positioning
1. Automated transportation: The semi-finished infusion patches are sent to the packaging station through a conveyor belt or robotic arm, and sensors detect the position in real time and adjust the speed.
2. Accurate positioning: Using visual systems or photoelectric sensors to ensure precise alignment between the product and packaging materials, reducing deviations.
3、 Packaging sealing and labeling
1. Sealing technology: using heat sealing or cold sealing devices to seal packaging materials horizontally and vertically, ensuring sterility and leakage prevention.
2. Label bonding: Adhesive labels are precisely attached to the surface of the packaging through a peeling mechanism, and the labeling device enhances the firmness of the bonding.
4、 Cutting and finished product output
1. Cutting process: The rotary cutter cuts the packaging bag according to the preset size, while completing the bottom seal of the next bag.
2. Finished product collection: The packaged infusion patches are transported by conveyor belt to the collection area and automatically stacked or boxed.
5、 Control System and Automation
1. Core control: PLC or computer system integrated control of various links, coordinating the timing and accuracy of actions such as driving, sealing, labeling, etc.
2. Parameter adjustment: Supports preset parameters such as speed, temperature, and pressure to meet the production needs of different specifications of products.
6、 Technical advantages
1. Efficient and continuous: The entire process is automated to achieve high-speed and continuous production, reducing manual intervention.
2. Accurate and reliable: Sensors and closed-loop control technology ensure consistency in packaging quality.
3. Flexible adaptation: Modular design facilitates the adjustment of process parameters and adapts to diverse product specifications.
