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ECI-M001
ECI
Product Advantage
Key Advantages of the ECI-M001 Mold:
Enhanced Production Efficiency: The ECI-M001 mold allows for simultaneous processing of multiple clothing molds on a single machine, significantly reducing production time and boosting overall efficiency.
Space Optimization: By enabling multiple molds to be formed on the same machine, the ECI-M001 mold helps save valuable space on the production line, making it ideal for compact manufacturing environments.
High-Volume Production Capability: Designed for large-scale production, the mold supports an "eight-out-of-one-cavity" configuration, enabling the rapid completion of a large number of finished products in a short timeframe.
Durable and High-Performance Materials: The mold is constructed from premium materials such as 45# alloy steel, aluminum alloy, tool steel, or other high-quality metals, ensuring exceptional wear resistance, high-temperature tolerance, and excellent thermal conductivity.
Technical Parameters
| Model | ECI-M001 |
| Process type | Rotary die plastic cup thermoforming |
| Action object | plastic PP PET |
| Scope of application | Disposable plastic cup |
| Mold material | Upper and lower formwork/die body 45# steel, forged and tempered |
| Top and bottom edge Cr12MOV | |
| Stretch head nylon | |
| Top cup rod/stretch rod 45# steel, tempered | |
| Cup gall, cup cavity aluminum alloy | |
| Number of cavity | 8 |
Product Uses
Flip die thermoforming technology is widely utilized in the production of lunch boxes and tableware, offering versatile application scenarios across various industries. Specifically, the thermoforming process for flip-molded lunch boxes encompasses, but is not limited to, the following use cases:
Food Service Industry: The thermoforming of flip-molded lunch boxes is ideal for manufacturing lunch boxes used in restaurants, fast-food chains, and takeout services. This technology enables the production of lunch boxes in a variety of sizes and shapes, including square, round, and rectangular, catering to the diverse needs of different dining establishments.
Food Packaging Manufacturing: Flip-molded lunch box thermoforming is also well-suited for food processing companies and food packaging facilities. This method can be employed to create lunch boxes for packaging a wide range of food products, such as fast-food containers, takeout boxes, and pastry boxes.
Supermarkets and Retail: The thermoforming of flip-molded lunch boxes meets the demand for lunch boxes in supermarkets and retail outlets, producing containers that are not only compliant with health and safety standards but also aesthetically pleasing and functional.
Product Operate Guide
The thermoforming process for creating a turnover mold lunch box typically involves the following key steps:
Mold Design: Customize the turnover mold based on the specific requirements of the product.
Material Preparation: Gather the necessary raw materials for thermoforming, typically plastic sheets. Select the appropriate plastic material according to the lunch box specifications.
Heating and Softening: Place the plastic sheet into the thermoforming machine and heat it until it becomes pliable.
Molding: Attach the softened plastic sheet to one side of the mold. Then, flip the mold to ensure the plastic sheet or particles conform to the opposite side, shaping the lunch box.
Cooling and Solidifying: After flipping the mold, allow the plastic sheet or particles to cool and solidify, maintaining the lunch box shape.
Removing the Lunch Box: Once the lunch box has cooled and solidified, open the mold and remove the formed lunch box.
Post-Processing: Perform additional finishing processes such as deburring, trimming, and removing any excess material from the formed lunch box.
Product Advantage
Key Advantages of the ECI-M001 Mold:
Enhanced Production Efficiency: The ECI-M001 mold allows for simultaneous processing of multiple clothing molds on a single machine, significantly reducing production time and boosting overall efficiency.
Space Optimization: By enabling multiple molds to be formed on the same machine, the ECI-M001 mold helps save valuable space on the production line, making it ideal for compact manufacturing environments.
High-Volume Production Capability: Designed for large-scale production, the mold supports an "eight-out-of-one-cavity" configuration, enabling the rapid completion of a large number of finished products in a short timeframe.
Durable and High-Performance Materials: The mold is constructed from premium materials such as 45# alloy steel, aluminum alloy, tool steel, or other high-quality metals, ensuring exceptional wear resistance, high-temperature tolerance, and excellent thermal conductivity.
Technical Parameters
| Model | ECI-M001 |
| Process type | Rotary die plastic cup thermoforming |
| Action object | plastic PP PET |
| Scope of application | Disposable plastic cup |
| Mold material | Upper and lower formwork/die body 45# steel, forged and tempered |
| Top and bottom edge Cr12MOV | |
| Stretch head nylon | |
| Top cup rod/stretch rod 45# steel, tempered | |
| Cup gall, cup cavity aluminum alloy | |
| Number of cavity | 8 |
Product Uses
Flip die thermoforming technology is widely utilized in the production of lunch boxes and tableware, offering versatile application scenarios across various industries. Specifically, the thermoforming process for flip-molded lunch boxes encompasses, but is not limited to, the following use cases:
Food Service Industry: The thermoforming of flip-molded lunch boxes is ideal for manufacturing lunch boxes used in restaurants, fast-food chains, and takeout services. This technology enables the production of lunch boxes in a variety of sizes and shapes, including square, round, and rectangular, catering to the diverse needs of different dining establishments.
Food Packaging Manufacturing: Flip-molded lunch box thermoforming is also well-suited for food processing companies and food packaging facilities. This method can be employed to create lunch boxes for packaging a wide range of food products, such as fast-food containers, takeout boxes, and pastry boxes.
Supermarkets and Retail: The thermoforming of flip-molded lunch boxes meets the demand for lunch boxes in supermarkets and retail outlets, producing containers that are not only compliant with health and safety standards but also aesthetically pleasing and functional.
Product Operate Guide
The thermoforming process for creating a turnover mold lunch box typically involves the following key steps:
Mold Design: Customize the turnover mold based on the specific requirements of the product.
Material Preparation: Gather the necessary raw materials for thermoforming, typically plastic sheets. Select the appropriate plastic material according to the lunch box specifications.
Heating and Softening: Place the plastic sheet into the thermoforming machine and heat it until it becomes pliable.
Molding: Attach the softened plastic sheet to one side of the mold. Then, flip the mold to ensure the plastic sheet or particles conform to the opposite side, shaping the lunch box.
Cooling and Solidifying: After flipping the mold, allow the plastic sheet or particles to cool and solidify, maintaining the lunch box shape.
Removing the Lunch Box: Once the lunch box has cooled and solidified, open the mold and remove the formed lunch box.
Post-Processing: Perform additional finishing processes such as deburring, trimming, and removing any excess material from the formed lunch box.
