公开(公告)号：US20060082026A1

公开(公告)日：2006-04-20

申请号：US10521631

申请日：2002-07-19

Applicant: Zhanbin Che

Inventor： Zhanbin Che

IPC: A01J21/02

CPC classification number: B01J2/20 ,  B30B11/201 ,  B30B11/228 ,  C10L5/44 ,  C12P7/08 ,  Y02E50/10 ,  Y02E50/30

Abstract: A molding method for moldable bio-substance materials comprises crushing the bio-substance materials into an incompact state, and then extruding and molding the same. There is at least a wedged extruding cavity is formed between the extruding head and the extruding surface of the molding die. The movement between the extruding head and the extruding surface of molding die is a differential speed movement, and the particles of the materials are extruded between these two surfaces and are grinded, twisted up, stretched, flaked, and then extruded to the small end of the wedged extruding cavity, and further into the molding cavity of molding die to be molded therein. The molding method and equipment of this invention can give the molded product certain strength and water-fastness without using any chemical binders. It is convenient for storing the product and keeping the product in a functional state, and thus it minimizes the cost for fabrication, transportation and storage.

Abstract translation: 用于可模制生物物质材料的成型方法包括将生物物质材料破碎成不完全状态，然后挤出和成型。 在挤压头和成形模具的挤压表面之间形成有至少一个楔入的挤压腔。 挤出头与成型模具的挤出表面之间的移动是差速运动，并且材料的颗粒在这两个表面之间被挤出，并被研磨，扭曲，拉伸，剥落，然后挤出到小型 楔形挤出腔，并进一步进入待模制的成型模具的模腔中。 本发明的成型方法和设备可以在不使用任何化学粘合剂的情况下给予成型产品一定的强度和耐水性。 方便储存产品并保持产品处于功能状态，从而最大限度地减少制造，运输和储存成本。

公开(公告)号：US20050266112A1

公开(公告)日：2005-12-01

申请号：US11140484

申请日：2005-05-27

Applicant: Zhanbin Che

Inventor： Zhanbin Che

IPC: A23P1/10 ,  A23P1/12 ,  B30B11/20 ,  B30B11/22 ,  B29C47/00

CPC classification number: B30B11/221 ,  A23P30/10 ,  A23P30/20 ,  B30B11/201 ,  B30B11/228

Abstract: The present invention is an extrusion molding cavity and a molding machine for loose fabricable biomaterial. The molding cavity comprises molding section and an expanding section in sequence from the inlet side to outlet side of it. A guiding contracted section is located at the inlet side of the cavity and at side of the molding section. The inlet area of the guiding contracted section is larger than the molding section's. The molding unit comprises at least a shaping mold comprising the extrusion mold cavity, an extrusion head driven by power, and an extrusion surface between said extrusion head and shaping mold, wherein the large end of the wedge-shaped extrusion cavity provides a material inlet, and whereby a grainy material is intruded into the shallow end of said guided contracting segment from the large end of the wedge-shaped extrusion mold cavity, compressed, and enters the molding segment.

Abstract translation: 本发明是一种用于可松散制造的生物材料的挤出成型腔和成型机。 成型腔包括从其入口侧到出口侧的成型部和膨胀部。 引导收缩部分位于模腔的入口侧和模制部分的一侧。 导向部分的入口面积大于成型部分的入口面积。 模制单元包括至少一个成型模具，其包括挤出模腔，由动力驱动的挤出头，以及挤压头和成形模之间的挤出表面，其中楔形挤出腔的大端提供材料入口， 并且由此将颗粒状材料从楔形挤出模腔的大端侵入到所述引导的收缩段的浅端中，并被压缩，并进入模制段。