What are the technical standards for the lumbar support airbag heat sealing machine
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Power and model selection: The lumbar support airbag heat sealing machine needs to select the appropriate power and model according to the production volume and product shape. For example, the 12kW disc-type high-frequency heat sealing machine is favored by many airbag manufacturers because of its customizable number of workstations, automatic grabbing of finished products, and high efficiency and high yield.
Welding quality:
Welding strength: The welding part must meet certain tensile test standards to ensure that there will be no cracking or leakage during use.
Welding accuracy: The welding part should be free of burrs and the welding edge should be flat to ensure the sealing and comfort of the airbag.
Airtightness: The welded airbag should have good airtightness to prevent leakage during use.
Safety protection:
Spark protection: The equipment should be equipped with a highly sensitive spark protection system to avoid sparks during welding and damage to the mold or product.
Overload protection: The equipment should have an overload protection function to prevent damage to the equipment or safety accidents caused by excessive current.
Electromagnetic wave radiation: The equipment should comply with national environmental protection standards and reduce the intensity of electromagnetic wave radiation to protect the health of operators.
Production efficiency:
Automation degree: The lumbar support airbag heat sealing machine should have a high degree of automation, such as automatic feeding, automatic welding, automatic material collection and other functions to improve production efficiency.
Production speed: The equipment should be able to achieve a high production speed while ensuring welding quality to meet the needs of large-scale mass production.
Equipment stability and durability:
Equipment stability: The lumbar support airbag heat sealing machine should have good stability to ensure that there will be no failure or performance degradation during long-term continuous operation.
Durability: The parts of the equipment should be made of wear-resistant and corrosion-resistant materials to extend the service life of the equipment.