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    • 1. 发明公开
    • 발포 한계 가황도 특정용의 가황 금형 및 이것을 구비하는 시험장치
    • 一种硫化模具,用于特定的硫化度极限和一种装有该硫化模具的试验装置
    • KR1020170040759A
    • 2017-04-13
    • KR1020160127742
    • 2016-10-04
    • 가부시키가이샤 우에시마세이사쿠쇼
    • 도사키치카오이시이히로시
    • B29D30/06G01N25/20B29D30/00
    • B29C49/786B29C33/10B29C35/0288B29C49/80G01N33/445
    • 온도센서를변형이나손상으로부터지킴과함께, 시료고무의발포한계관찰영역과온도센서의투입배치영역과의간섭을확실히회피하도록하는것. 상부금형과하부금형을구비하고, 적어도, 하부금형에는, 미가황의시료고무를충전하여, 가열하여가압가황하고, 길이방향으로가황도가연속적으로변화하는, 발포한계관찰용의고무시험체를제작하는캐비티가마련되어있는가황금형으로서, 상기캐비티에는, 길이방향을따라서깊이가변화하는, 고무시험체를제작하기위한제 1 캐비티에더하여, 상기제 1 캐비티에연접연재되는형태로, 가황중의시료고무의승온곡선을계측하는장소로서온도센서가배치되는제 2 캐비티가증설되어있다. 제 2 캐비티의벽부에는, 외부로부터, 온도센서를제 2 캐비티내의적정온도측정부위에삽발가능하게배치하기위한온도센서삽입구가마련되어있다.
    • 从变形或损坏保持的温度传感器,一些接近可靠地避免干扰与泡沫样本限制了放置在橡胶的区域的温度传感器的观看区域。 上模包括下部模具,至少,一个下模,通过填充橡胶弥硫样品加热至硫化压力和纵向方向是在黄道以产生用于观察连续变化的,泡沫限橡胶试验片 有空腔作为金形,所述腔提供具有纵向方向,从而在除了第一空腔以产生一个橡胶试验样品以变化的深度,在形式为一系列级联与所述第一腔中,硫化在试样橡胶的温度上升 并且在第二空腔中设置温度传感器作为用于测量曲线的位置。 插入口设置有温度传感器,用于,在第二腔体的壁,以使外部,sapbal布置在第二腔中在适当的温度测定部位的温度传感器。
    • 2. 发明公开
    • 브로워 성형 장치
    • 用于形成鼓风机的方法和装置
    • KR1020130019334A
    • 2013-02-26
    • KR1020120014028
    • 2012-02-11
    • (주)인터몰드
    • 이상택
    • B29C49/42B29C33/02
    • B29C49/0047B29C49/62B29C49/64B29C49/786B29C2049/0063
    • PURPOSE: A blow molding method and apparatus are provided to circulate cooling air in the hollow portion of a plastic molded article molded inside a blow mold, thereby shortening cooling time, and sufficiently cooling the article in order to minimize the defection rate of products, and reduce heat consumption. CONSTITUTION: A blow molding method is as follows: Adhesive portions on two plastic plates heated and softened are pressurized and adhered. The tip of sleeve blow pin is inserted between the plastic plates stacked. A heated air is injected between the plastic plates through the duct of the blow pin in order to hot-mold the plastic plates inside a mold, and then a plastic molded article is hardened after cooling. A first blow pin(30) and a second blow pin(40) are installed at both sides of the hollow portion(75) of the plastic molded article. A first circulation flow path(35) and a second circulation flow path, which form the hollow portion(75) into a circulation path, are respectively installed at the outer peripheries of the first blow pin and the second blow pin. In a molding cycle, the heated and compressed air is supplied to the ducts(31,41) of the first blow pin and the second blow pin in order to mold the plastic molded article inside the mold. In a cooling cycle, the molding ports(39,49) of the ducts are closed, and at the same time a cooling path formed by connecting the first circulation flow path, the hollow portion, and the second flow path is opened, and then cooling air is circulated through the cooling path in order to cool and harden the plastic molded article.
    • 目的:提供一种吹塑成型方法和装置,用于在吹塑模具内模塑的塑料模塑制品的中空部分中循环冷却空气,从而缩短冷却时间,并充分冷却制品以使产品的脱落率最小化,以及 减少热量消耗。 构成:吹塑法如下:加热和软化的两个塑料板上的粘合部分被加压和粘附。 套筒吹针的尖端插入堆叠的塑料板之间。 加热的空气通过吹塑管的管道在塑料板之间注入,以便将模具内的塑料板热塑,然后在冷却后使塑料模制品硬化。 第一吹塑销(30)和第二吹塑销(40)安装在塑料模制品的中空部分(75)的两侧。 在第一吹送销和第二吹塑销的外周分别安装有形成循环路径的中空部75的第一循环流路35和第二循环流路。 在成型周期中,加热和压缩的空气被供应到第一吹塑销和第二吹塑销的管道(31,41),以便将塑料模塑制品模制在模具内部。 在冷却循环中,管道的成型口(39,49)关闭,同时打开通过连接第一循环流路,中空部分和第二流路形成的冷却路径,然后 冷却空气通过冷却路径循环,以便冷却和硬化塑料模塑制品。
    • 3. 发明公开
    • 투명성과 가스 차단성이 우수한 다층용기용 프리폼의제조방법
    • 具有优异透明性和气体阻隔性的多层瓶子的制造方法
    • KR1020090021521A
    • 2009-03-04
    • KR1020070086095
    • 2007-08-27
    • 주식회사 효성
    • 남경우김정곤김태훈
    • B29C49/22
    • B29C49/221B29B13/06B29C49/16B29C49/78B29C49/786B29C2949/78537B29C2949/78747B29L2031/712C08G65/2657C08L67/00C08L77/00
    • A manufacturing method for a pre-form for a multi-layered bottle having excellent transparency and gas barrier property are provided to reduce the contents of barrier resin by using nano polyamide composite, and use the existing injection/blow processing equipment. A manufacturing method for a pre-form for a multi-layered bottle having excellent transparency and gas barrier property comprises a step of drying nanocomposite at the moisture regain of 50~400ppm; and a step of forming a multi-layered pre-form by melting resin at a polyester barrel under the temperature of 290~295°C and a nano-complex injection barrel under the temperature of 270~285°C, and injecting polyester and nanocomposite simultaneously. A nanocomposite manufacturing method comprises a step of drying amorphous semi polyamide homopolymer and copolymer or mixture of the amorphous semi polyamide homopolymer and copolymer at the moisture regain of 50~400ppm for 4~5 hours; a step of mixing polyamide and layered silicate of 0.5~10wt.% for more than one hour; and a step of manufacturing nanocomposite including layered silicate using an extruder.
    • 提供了具有优异的透明性和阻气性的多层瓶预成型体的制造方法,以通过使用纳米聚酰胺复合物来降低阻隔性树脂的含量,并且使用现有的注射/吹塑加工设备。 用于具有优异的透明性和阻气性的多层瓶预成型体的制造方法包括在50〜400ppm的回潮率下干燥纳米复合物的步骤; 以及在290〜295℃的温度下在聚酯桶中熔融树脂和在270〜285℃的温度下形成纳米复合注射筒的多层预成型步骤,并注射聚酯和纳米复合材料 同时。 纳米复合材料的制造方法包括以50〜400ppm的回潮率将无定形半聚酰胺均聚物和无定形半聚酰胺均聚物与共聚物的共聚物或混合物干燥4〜5小时的工序; 将聚酰胺和0.5〜10重量%的层状硅酸盐混合1小时以上的步骤; 以及使用挤出机制造包括层状硅酸盐的纳米复合材料的步骤。
    • 6. 发明公开
    • 폴리에틸렌 나프탈레이트의 성형 방법
    • 形成聚乙烯亚麻酸酯的方法
    • KR1020020048103A
    • 2002-06-22
    • KR1020000077390
    • 2000-12-16
    • 주식회사 효성
    • 김헌수황덕재
    • B29C49/02
    • B29C49/06B29B11/08B29C45/78B29C49/08B29C49/786B29C2945/76605B29C2945/76665B29C2945/76682B29K2067/003B29L2022/00
    • PURPOSE: A method for forming polyethylene naphtalate is provided to easily fabricate a polyethylene naphtalate vessel by properly setting an injection condition and a blow molding condition. CONSTITUTION: An RPM of an injection screw corresponding to a high melting viscosity is determined so as to easily melt resin. A preform is formed by injecting polyethylene naphtalate into an injection mold. Then, the preform is ejected from the injection mold and conveyed into a blow mold, thereby forming a hollow molding article. The temperature of a front portion of an injection cylinder is about 350°C. The RPM of the injection screw is faster than the RPM of the injection screw required for injecting polyethylene naphtalate about 1.7 to 2.5 times. The surface temperature of the preform when the blow molding is carried out is about 120 to 165°C.
    • 目的:提供一种形成聚萘二甲酸乙二醇酯的方法,通过适当地设定注射条件和吹塑条件,容易地制备聚萘二甲酸酯容器。 构成:确定对应于高熔融粘度的注射螺杆的RPM,以便容易地熔化树脂。 通过将聚萘二甲酸乙二醇酯注射到注射模具中形成预制件。 然后,将预成型件从注射模具中排出并输送到吹塑模具中,从而形成中空成型制品。 注射缸的前部的温度约350℃。 注射螺杆的RPM比注射聚萘二甲酸乙酯约1.7至2.5倍所需的注射螺杆的RPM快。 当进行吹塑成型时,预成型体的表面温度为约120至165℃。