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    • 5. 发明公开
    • KOMPONENTENZUFUHR- DÜSE MIT DRUCKENTLASTUNG
    • KOMPONENTENZUFUHR-DÜSEMIT DRUCKENTLASTUNG
    • EP2029338A1
    • 2009-03-04
    • EP07728896.7
    • 2007-05-08
    • KraussMaffei Technologies GmbH
    • SÖCHTIG, WolfgangBERCHTENBREITER, Ernst
    • B29B7/80B29C45/20
    • B29B7/801B29C45/231
    • The present invention relates to a component-feed nozzle for use with a reactive-mixing head of a reactive-injection apparatus encompassing a housing (12, 13) with a component-inlet (18) and with a nozzle-shaped component-outlet (15), and to a seal (16, 17) inserted in the housing (12, 13) by means of a drive (30) so as to be displaceable between at least two positions, where, in a first position, the seal (16) seals the component-outlet (15), and in a second position the component-outlet (15) is free and there is a flow connection between the component-inlet (18) and the component-outlet (15). In order to avoid surmounting a reactive force during a displacement, it is proposed that there is a seal-and-throttle unit (16, 17) which has at least one area of a first type (A1, A3) and one area of a second type (A2), which on application of the component pressure generate a force in an opposite direction, where the sizes of the areas (A1, A2, A3) have been selected in such a way that the opposed forces substantially offset one another.
    • 本发明涉及一种与反应注射装置的反应混合头一起使用的部件供给喷嘴,其包括具有部件入口(18)和喷嘴形部件出口(18)的壳体(12,13) 并且借助驱动器(30)插入到插入壳体(12,13)中的密封件(16,17)中,以便在至少两个位置之间移动,其中在第一位置中密封件 16)密封部件出口(15),并且在第二位置中部件出口(15)是自由的并且在部件入口(18)和部件出口(15)之间存在流动连接。 为了避免在位移过程中克服反作用力,提出了一种密封和节流单元(16,17),其具有至少一个第一类型区域(A1,A3)和一个区域 第二类型(A2),其在施加分压时在相反的方向上产生力,其中区域(A1,A2,A3)的尺寸被选择为使得相对的力基本上彼此抵消。
    • 10. 发明公开
    • TWO SCREW EXTRUDER WITH CONICAL NON/PARALLEL CONVERGING SCREWS
    • 双螺杆挤出机圆锥形,不平行,融合螺丝
    • EP1417083A2
    • 2004-05-12
    • EP02731996.1
    • 2002-05-31
    • WENGER MANUFACTURING, INC.
    • HAUCK, Bobbie, W.WENGER, Lavon, G.
    • B29C35/00
    • B29C47/402A23P30/20B29B7/801B29C47/0014B29C47/0801B29C47/38B29C47/60B29C47/6012B30B9/16B30B9/26
    • An improved twin screw extruder device (14) is provided which is capable of producing a wide variety of high quality extrudates having greatly varying final properties, without the need for extensive machine. The extruder (14) includes a barrel (16) together with a corotating twin screw assembly (22). The assembly (22) is made of a pair of srews (50,52) having central, tapered shafts (54,56) equipped with outwardly extending helical flighting (58,60); the srews (50,52) are non-parallel and are positioned so that the flighting (58,60) thereof is intercalated along the length of the srews (50,52). The flighting is of specialized configuration and tapers along the length of screws (50,52) preferably at an angle of taper different than that of the shafts (54,56); moreover, the width of the outer flighting surfaces (70,72) increases along the length of the shafts (54,56). This screw geometry defines a series of alternating upper and lower close-clearance high-pressure nip areas (78) defined by the flighting (58,60) which serves to propel an extrudable forwardly towards the outlet end (20) of the barrel (16). However, passageways (80) and kneading zones (82) are also defined between the screws (50,52), which assures full mixing, shearing and cooking of the material. The extruder device (14) is capable of producing high density sinking aquatic feeds as well as expanted, low density products merely by changing the rotational speed of the screws (50,52) together with appropriate temperature control. In another embodiment, fluid extraction extruder (138) is provide having a specialized extruder head (140) including an outer shell (144) and an inner, elongated, slotted sleeve (152).