The driving and driving forces (stamping force, clamping force, drop weight of data, extrusion force, etc.) of the injection mould processing movement are provided by the power transmission mechanism of the forming machine tool and equipment.
Mechanical and electrical drive: such as punch, friction press, roll forging machinery, etc., are powered and rotated by motors to drive the transmission mechanism, and through slider and die movement, local stop convergence movement, in order to drive the directional movement of the die, and the transmission of driving force on the die, so that the die to stop forming processing of data.
Electro-hydraulic drive: that is to say, the injection-moulding motor drives the hydraulic pump or water pump to produce hydraulic pressure and water pressure, and through the hydraulic delivery and control system of the liquid, produces a certain rated pressure to drive the hydraulic cylinder or piston connected by the moving parts of the die (such as the moving die), and the differential die is relative to the fixed model to stop the movement of directional translation, and then the data is stopped to further tighten, so as to make the capital available. Material is pneumatic forming of injection moulds after stopping forming processing; mainly used for suction and blow moulding processing, that is, when the moulds are in a fixed state, the plastic sheets are directly sucked onto the surface of the moulds by the negative pressure generated by the air pump to form parts, while blow moulding is a gas which produces a certain pressure through the air pump to blow hot-melt plastic parts or hot-melt glass parts. The blank cavity is expanded and deformed, and attached to the surface of the die cavity to form a part.
Laminated Injection Mold
In addition, extrusion process is commonly used to drive injection mold processing, such as aluminium alloy profiles, plastic profiles, sheets or films. The die is fixed on the machine head, and the data are extruded through the die, and the relative movement of the die is made into various parts. For example, plastic profiles rely on the spiral movement of the screw of the continuous extrusion machine to extrude the plastic into the mould and pass through the surface of the mould, and then cool the shaped material. The extruded profile is pulled forward by the traction mechanism to stop the continuous forming process.
Reasons for the Brittleness of the Product as a Whole when Mold Consumption Injection Molding Parts1.注塑机射出和保压压力缺乏； 2.背压太小、原料不够扎实；3.背压太大,剪切、磨擦热量增加； 4.射速太慢,未充沛结晶；5.模温太高,原料过火、合成、蜕变； 6.模温太低,未充沛结晶；7.射出、保压时间缺乏； 8.注塑机停机时间太长了和注塑周期太长；9.储料时间太长； 10.二级回料在新料里添加比例太多；11.原料强度、韧性不够，粘度不够； 12.添加剂不合理,或添加太多；13.原料未充沛烘干； 14.产品内部构造有些中央太厚，有些中央太薄，不平均,进料中央思索不合理。
1.注塑机射出和保压压力缺乏； 2.背压太小、原料不够扎实；3.背压太大,剪切、磨擦热量增加； 4.射速太慢,未充沛结晶；5.模温太高,原料过火、合成、蜕变； 6.模温太低,未充沛结晶；7.射出、保压时间缺乏； 8.注塑机停机时间太长了和注塑周期太长；9.储料时间太 Long; 10. The proportion of secondary recycling in new materials is too much; 11. The strength and toughness of raw materials are not enough, and the viscosity is not enough; 12. The additives are unreasonable or too much; 13. The raw materials are not fully dried; 14. The inner structure of products is too thick, some are too thin and uneven, and the central thinking of feeding is unreasonable.
15.beplay全站app安卓进料不平均,冷料井不够； 16.产品壁厚太薄17.注塑机温度时高时低，不稳定； 18.注塑机料管没清算好；19.顶出不合理,塑体应力增加，产生决裂；20.塑料件beplay全站app安卓冷却回路没排好。
15. Inequality of die feeding and inadequate cooling well; 16. Product wall thickness is too thin 17. Injection molding machine temperature is high and low, unstable; 18. Injection molding machine material pipe is not liquidated; 19. unreasonable ejection, plastic body stress increases, resulting in cracks; 20. Plastic parts die cooling circuit is not arranged properly.