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用于注塑自动化的创新型增材多材料夹持器解决方案 (ARBURGadditive GmbH + Co KG).pdf

上传人: 卢*** 编号:908432 2025-09-07 23页 3.41MB

1、 Copyright by ARBURG 05/2025Innovative Additive Multi-Material Gripper SolutionsAgenda Copyright by ARBURG 05/2025General IntroductionProcess and Machine technology for Multi Material processingPractical applications realizedSensitive part removalReplacement of grippersIntegration of functionalitySu

2、mmary -Outlook 23 Copyright by ARBURG 05/2025Process principles in detail4 Copyright by ARBURG 05/2025Component qualityActuator performs pulsed nozzle closureNozzle closurexyzPart carriermoves part Material preparation via plasticising screw as with injection moulding.Inline drying ispossibleColorin

3、g via masterbatch is possibleUse original material direct from the pellets Copyright by ARBURG 05/2025Precise material discharge40%90%5 Copyright by ARBURG 05/2025Source:Procter&GambleLeads to a optimized densityIrregular Cavities Homogenous structureSource:Procter&Gamble6 Copyright by ARBURG 05/202

4、5Leads to Better part qualitiesFractrued surface images=100%60 Mpa7 Copyright by ARBURG 05/2025Machine Technology for Multi-Material Parts8 Copyright by ARBURG 05/20259 Copyright by ARBURG 05/2025EXAMPLE 2-COMPONENT GRIPPERPA10+TPU(70 Shore AU)TPU expandable via compressed air10EXAMPLE 2-COMPONENT G

5、RIPPER Copyright by ARBURG 05/202511 Copyright by ARBURG 05/2025Case study automotiveComponentMotor housing of an electric window regulator.ProcedureThe components are removed from the 6-cavity mold and placed on a scale.After the weighing process,the components must be picked up again and placed on

6、 a conveyor belt.The cycle time is approx.35 sec.12 Copyright by ARBURG 05/2025Design of the gripperJoints(in green)made of soft material Desmopan 9385AHard component(in gray)PC/ABS Bayblend FR 3010Endurance run was completed after approx.800,000 cyclesCorresponds to machine running time of approx.7

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根据标记内容,全文主要内容概括如下: 1. **多材料夹爪解决方案**:介绍了一种创新的夹爪技术,能够处理多种材料,提高生产效率和产品质量。 2. **过程和机器技术**:详细说明了多材料加工的工艺和机器技术,包括材料准备、颜色添加和精确材料排放。 3. **应用案例**:展示了在汽车行业中的应用,如电动窗调节器的电机外壳。 4. **成本效益**:通过案例研究,展示了使用3D打印夹爪相比传统夹爪的成本节约,例如从13,000欧元降至3,400欧元。 5. **材料选择**:强调了材料选择的重要性,如PA6-CF15和ABS/TPU,以及它们在耐用性和重量减轻方面的优势。 6. **多材料打印**:指出多材料打印可以实现集成功能,简化夹爪构建,并节省制造时间。 7. **总结**:强调了多材料夹爪解决方案在提高生产效率、降低成本和减轻机器人负载方面的潜力。
"多材料夹爪,成本减半?" "打印夹爪,效率翻倍?" "夹爪革新,重量大减!"
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