公开(公告)号：KR100432864B1

公开(公告)日：2004-05-24

申请号：KR1020010046699

申请日：2001-08-02

Applicant: 김정민

Inventor： 김윤식

IPC: B29D23/00

Abstract: PURPOSE: A high impact super pipe fabricating method is provided to prevent a high impact super pipe from being eroded by allowing the high impact super pipe to have superior abrasion resistance and chemical resistance characteristics. CONSTITUTION: Synthetic resin, such as PE or PVC, is inputted into a predetermined melting device(200). Then, synthetic resin molten by the melting device is extruded through a predetermined extruder such that synthetic resin has a rectangular sectional area(300). Then, a synthetic resin forming process is carried out(400). After that, a lower portion of a resin plate is primarily cooled by cooling water(500). The lower portion of the resin plate is wound around a winding roller in a spiral pattern, thereby forming a primary pipe(600). Then, an upper portion of the resin plate is bonded, thereby forming a secondary pipe(700). After performing a secondary cooling process(800), the pipe is cut into predetermined sizes(900).

Abstract translation: 目的：提供一种高冲击超级管子制造方法，以通过使高冲击超级管子具有优异的耐磨性和耐化学性特性来防止高冲击性超级管子被侵蚀。 构成：合成树脂，如PE或PVC，被输入到预定的熔化装置（200）中。 然后，由熔融装置熔融的合成树脂通过预定的挤出机挤出，使得合成树脂具有矩形截面面积（300）。 然后，进行合成树脂成形工序（400）。 之后，树脂板的下部被冷却水（500）主要冷却。 树脂板的下部以螺旋状缠绕在卷绕辊上，从而形成主管（600）。 然后，将树脂板的上部结合，由此形成次级管（700）。 在执行二次冷却过程（800）之后，将管道切割成预定尺寸（900）。

公开(公告)号：KR1020030012594A

公开(公告)日：2003-02-12

申请号：KR1020010046699

申请日：2001-08-02

Applicant: 김정민

Inventor： 김윤식

IPC: B29D23/00

CPC classification number: B29C47/004 ,  B29C47/0004 ,  B29C47/0061 ,  B29C47/0064 ,  B29C47/0066 ,  B29C47/884 ,  B29C59/022 ,  B29C59/04 ,  B29D23/001 ,  C08L23/06 ,  C08L27/06

Abstract: PURPOSE: A high impact super pipe fabricating method is provided to prevent a high impact super pipe from being eroded by allowing the high impact super pipe to have superior abrasion resistance and chemical resistance characteristics. CONSTITUTION: Synthetic resin, such as PE or PVC, is inputted into a predetermined melting device(200). Then, synthetic resin molten by the melting device is extruded through a predetermined extruder such that synthetic resin has a rectangular sectional area(300). Then, a synthetic resin forming process is carried out(400). After that, a lower portion of a resin plate is primarily cooled by cooling water(500). The lower portion of the resin plate is wound around a winding roller in a spiral pattern, thereby forming a primary pipe(600). Then, an upper portion of the resin plate is bonded, thereby forming a secondary pipe(700). After performing a secondary cooling process(800), the pipe is cut into predetermined sizes(900).

Abstract translation: 目的：提供一种高冲击超级管制造方法，以通过允许高冲击超级管具有优异的耐磨性和耐化学性特性来防止高冲击超级管被侵蚀。 构成：将合成树脂（例如PE或PVC）输入到预定的熔化装置（200）中。 然后，将通过熔融装置熔融的合成树脂通过预定的挤出机挤出，使得合成树脂具有矩形截面面积（300）。 然后，进行合成树脂形成工序（400）。 之后，树脂板的下部主要由冷却水（500）冷却。 树脂板的下部以螺旋状卷绕在卷绕辊上，由此形成主管（600）。 然后，粘合树脂板的上部，从而形成二次管（700）。 在执行二次冷却过程（800）之后，将管切割成预定尺寸（900）。