-
公开(公告)号:US06547551B2
公开(公告)日:2003-04-15
申请号:US09404997
申请日:1999-09-27
申请人: Yuzo Omi , Syouji Satou , Takatoshi Watanabe , Akira Rikiishi , Hajime Kudo , Yoshitaka Ohno , Toshio Kagitani , Sohei Masaki , Shoji Abe
发明人: Yuzo Omi , Syouji Satou , Takatoshi Watanabe , Akira Rikiishi , Hajime Kudo , Yoshitaka Ohno , Toshio Kagitani , Sohei Masaki , Shoji Abe
IPC分类号: B29C4726
CPC分类号: B29C47/28 , B29C47/0023 , B29C47/0026 , B29C47/061 , B29C47/065 , B29C47/067 , B29C47/26 , B29C47/266 , B29C47/56 , B29C47/86 , B29C47/862 , B29C47/864
摘要: In a conventional multilayer crosshead, only one pressure sensor is disposed in the inlet of the annular passage, preventing monitoring of membrane discontinuities; parison thickness is not constant; as the crosshead body is not cooled and parison temperature is high, a long time is required for cooling during blow molding, preventing the reduction of the molding cycle. A multilayer crosshead according to the present invention includes pressure sensors disposed in at least two positions of the annular passage so that the flow rate is controlled and monitored so as to eliminate the pressure difference between the pressure sensors, and parison temperature is lowered to a greater degree by a cooling jacket with a built-in heater disposed in the crosshead body so that a blow molding cycle is shortened.
摘要翻译: 在常规的多层十字头中,在环形通道的入口中仅设置一个压力传感器,防止膜间断的监测; 型坯厚度不变; 由于十字头体未被冷却并且型坯温度较高,所以在吹塑成型期间需要长时间的冷却,防止了成型周期的减少。 根据本发明的多层十字头包括设置在环形通道的至少两个位置的压力传感器,从而控制和监测流量,以消除压力传感器之间的压力差,并且型坯温度降低到更大 通过具有设置在十字头体内部的内置加热器的冷却套,从而缩短吹塑循环。
-
公开(公告)号:US06537056B1
公开(公告)日:2003-03-25
申请号:US09407864
申请日:1999-09-29
申请人: Yuzo Omi , Syouji Satou , Takatoshi Watanabe , Akira Rikiishi , Hajime Kudo , Yoshitaka Ohno , Toshio Kagitani , Sohei Masaki , Shoji Abe
发明人: Yuzo Omi , Syouji Satou , Takatoshi Watanabe , Akira Rikiishi , Hajime Kudo , Yoshitaka Ohno , Toshio Kagitani , Sohei Masaki , Shoji Abe
IPC分类号: B29C4960
CPC分类号: B29C49/60 , B29C49/04 , B29C49/66 , B29C2049/6027 , B29C2049/6072 , B29C2049/609 , B29C2049/6615
摘要: In a conventional needle blow nozzle and blow molding apparatus, because a needle portion is formed to have a linear tip, resistance against insertion of the nozzle into a parison is large and only a small-diameter needle blow nozzle can be inserted into the parison. For this reason, it has been difficult to increase an amount of air supplied to the interior of the parison and to shorten the molding cycle. With a needle blow nozzle, an air cooling method and apparatus, a blow molding method and apparatus, and a blow molded product according to the present invention, since a needle portion of the needle blow nozzle is formed into an umbrella-like shape, the tip of the needle portion provides a pointed needle center so that resistance against insertion of the nozzle into a parison is reduced and a large-diameter needle blow nozzle can be employed.
摘要翻译: 在传统的针吹嘴和吹塑设备中,由于针部形成为具有直线的尖端,因此能够将喷嘴插入型坯中的阻力大,并且只能将小直径的针吹嘴插入型坯中。 因此,难以增加供应到型坯内部的空气量并缩短成型周期。 根据本发明的针状喷嘴,空气冷却方法和设备,吹塑成型方法和设备以及吹塑产品,由于针状喷嘴的针部形成为伞形, 针部的尖端提供尖针中心,使得能够减小将喷嘴插入型坯中的阻力,并且可以使用大直径针吹嘴。
-