現今自動化生產之發展趨勢不僅提供快速的產能,其產品性能亦要符合客戶需求與產品規範。為滿足此需求,於許多的自動化包裝機上,必需有許多要調整之變數,才能自動化生產出性能符合客戶需求與產品規範之產品。
本研究旨在探討連接器包裝機之塑膠料帶焊接特性,因包裝機之載帶與上蓋帶間的連結為塑膠熱封合機制,因此研究之進行,初期探討塑膠熱封合特性,後期進行產線上之實務測試研究。
塑膠熱封合特性探討,使塑膠自動熱封合時,能有效地調整變數,以找出最佳的熱封合狀況。首先發展一套塑膠熱封合特性測試系統,以評量熱封合變數,制定出一套有系統、有效地調整變數方式,並分析此塑膠熱封合之特性。
經實驗研究結果,加熱溫度、加熱時間與被封合件之間的壓力為最需調整之變數。最終對熱封合抗拉強度特性進行詳細測試分析,並討論其與加熱溫度、加熱時間以及被封合件之間的壓力等變數,對熱封合特性之影響,依此可在自動化生產製程中找出適當之變數,以生產性能符合客戶需求與產品規範之產品。
Automatic production system trends not only provide fast production capacity, but also its performance. And it has to meet customer needs and product specifications. To meet this demand, in many automatic packaging machines, there must be a lot of parameters
to be adjusted in order to fit demand.
This study aimed to investigate the parameters of plastic packaging. At first, the test system is developed to evaluate the
parameters of plastic packaging. And then the evaluated the parameters are analyzed. They will be used to develop a systematic
line for an automatic packing system for electronic industries.
Discussion plastic heat packaging properties, so automatically of heat packaging plastic, can effectively adjust the variables to find the optimum heat packaging condition. First, the development
of a plastic heat packaging characteristics of the test system to heat packaging variable parameters, to develop a systematic and effective way to adjust the variables, and analysis of the characteristics of this plastic heat packaging.
The research results of the experiment, the heating temperature, heating time and the pressure between two plastic elements are
measured. The heating temperature is the key parameter for the investigation. The higher temperature can get higher strength of between two plastic elements, but fluctuation of the strength of between two plastic elements is larger. Furthermore, the heating time and the pressure between two plastic elements can be detail measured analyzed. It can be provided to the reference data of effective way to design and improve many automatic packaging machines system in the futrue.
