MACHINE INTRODUCTION
PE Liner Bag Mouth Aligning and Hemming Machine are specialized machinery used in the production of polypropylene (PP) woven sacks, also known as bags or sacks. These machines are used to fold and seal the edges of the bag mouth and inside liner, which are the openings at the top and bottom of the bag, respectively.
There are several types of heat seal hemming machines available on the market, each designed for different bag sizes and production capacities. Some machines are designed for manual operation, while others are fully automated and can be integrated into a production line.
Heat seal hemming machines use heat to melt and seal the edges of the bag mouth and inside liner. The heat is generated by an electric element or a gas flame, depending on the type of machine. The heat is applied to the edges of the material, melting the plastic and creating a strong and durable seal.
One advantage of heat seal hemming machines is their versatility. They can seal a wide range of materials, including laminated and coated fabrics. They are also relatively simple to operate and are suitable for small to medium-sized bags.
Inside liner hemming machines are used to fold and seal the edges of the inside liner, which is the opening at the bottom of the bag. These machines are typically designed for manual operation and are suitable for small to medium-sized bags.
The main advantage of using PE Liner Bag Mouth Aligning and Hemming Machine is the speed and efficiency of the sealing process. These machines can seal hundreds or even thousands of bags per hour, depending on the size and type of machine. They also produce high-quality seals that are strong and durable, ensuring that the bags remain secure and leak-proof during storage and transportation.
In conclusion, PE Liner Bag Mouth Aligning and Hemming Machine are essential tools in the production of PP woven sacks. These machines offer a fast and efficient way to seal the edges of the bag mouth and inside liner, ensuring that the bags are secure and leak-proof.