The Lisong thin-walled packaging special injection molding machine is suitable for the production of food boxes, milk tea cups, small and medium-sized yogurt cups and other products. This device adopts high-precision servo technology to ensure precise and efficient injection actions, precise weight control, and a maximum energy consumption reduction of about 30% per unit. It is widely adaptable to various thin-walled packaging production scenarios, helping enterprises achieve energy-saving and efficient production.

Equipped with super strong locking force and large cavity design, optimized for large containers, ensuring that large thick walled products such as chemical drums and water buckets are fully formed without burrs or deformation. Equipped with high-strength screw barrel, strong plasticizing ability, optimized for PP, PE and other raw materials, ensuring the efficiency and stability of large-scale product production.

The innovative two board structure saves about 30% of the floor space compared to traditional three board machines, providing greater flexibility for factory layout. The large modulus design and ultra long mold opening stroke can accommodate large molds without dismantling the pull rod, making it particularly suitable for the production of large-sized products such as automotive parts and household appliances.

Adopting fully electric drive or high-performance servo system to eliminate the risk of hydraulic oil leakage from the root and ensure a pollution-free production environment. Equipped with a closed-loop high response control system, it can achieve extremely high injection repetition accuracy (up to ± 0.01mm) and stable plasticizing process, ensure that the size, weight and performance of each the first mock examination product are highly consistent, and eliminate batch differences

Specially designed for preforms, with leading ultra-high cavity design and industry-leading single-mode production, greatly reducing the production cost of individual preforms. Integrating high-efficiency energy-saving systems and hot runner control technology, energy consumption is significantly reduced compared to traditional models, meeting the stringent requirements of continuous large-scale production in the beverage industry.

For thin-walled products such as lunch boxes and milk tea cups, it is equipped with ultra high speed injection (≥ 1000mm/s) and fast oil pressure system, which can shorten the molding cycle to a few seconds, greatly improving production efficiency. The body has high rigidity, and the core components are wear-resistant treated, which can adapt to various raw materials from PP to PS and continuous high-intensity production for 7x24 hours, ensuring stable output and product consistency under large orders, and meeting the diversified needs of the fast-moving consumer goods industry.

Proficient in pen making technology, providing stable and efficient multi cavity solutions, ensuring high dimensional accuracy and strong interchangeability of pen holders, pen sleeves, and other parts. The dedicated screw is optimized for commonly used pen materials such as ABS and AS, with uniform plasticization, consistent surface glossiness, and no defects.

Equipped with a high-performance servo control system and closed-loop feedback, it ensures extremely high injection repeatability accuracy (up to ± 0.01mm). It adopts a fully electric or high-performance servo hydraulic system to eliminate hydraulic oil pollution from the root, with extremely low operating noise, providing a dust-free and quiet clean room production environment. It is an ideal choice for medical, optical, and high-end consumer electronics industries to pass relevant certifications.

With efficient multi cavity technology as the core and astonishing single-mode production, it is a powerful tool for mass production and low-cost production of standard parts such as nylon ties and fasteners. The equipment runs fast and has high stability. The core components have undergone special wear-resistant treatment, perfectly adapting to long-term high-strength processing of engineering plastics.