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    • 83. 发明授权
    • Pump nozzle of a type with an open injection nozzle
    • 具有开放式喷嘴的泵喷嘴
    • US06257507B1
    • 2001-07-10
    • US09582807
    • 2000-08-29
    • Josef MorellHarald SchmidtAnton Dolenc
    • Josef MorellHarald SchmidtAnton Dolenc
    • F02M5900
    • F02M61/10F02M57/021F02M57/024
    • A unit fuel injector of the type with an open injector comprises an injector body (1) with an axial space (4), which ends in an injector cap (3), an injection plunger (15) guided in the axial space and serving as a closing-off element, which injection plunger forms in the axial space a pressure space (23) from which the injection bores (60, 61) of an upper row (60) and a lower row (61) extend. To allow the injector cross section to be adapted to all operating states, the injection plunger (15) has an axial bore (30), in which a coaxial plunger needle (31) is guided in the longitudinal direction of the injector, the needle part (32) of which needle interacts with a seat (62) formed by the interior of the injector cap (3) and arranged beneath the upper row of injection bores (60), and above the plunger part (32) of the plunger needle (31) there is provided a compression spring (35) acting on it in a downward direction, and the plunger needle forms beneath its plunger part (32) in the axial bore (30) a control chamber (50), which can be fed by a control medium which raises the plunger needle (31) against the force of the compression spring (35) with respect to the injection plunger (15).
    • 具有打开喷射器的类型的单元燃料喷射器包括具有轴向空间(4)的喷射器主体(1),其在喷射器盖(3)中终止,注射柱塞(15)在轴向空间中被引导并且用作 关闭元件,其中所述注射柱塞在所述轴向空间中形成压力空间(23),上排(60)和下排(61)的喷射孔(60,61)从该空间延伸。 为了使注射器横截面适应于所有操作状态,注射柱塞(15)具有轴向孔(30),其中同轴柱塞针(31)在喷射器的纵向被引导,针部分 (32),其针与由喷射器盖(3)的内部形成的座(62)相互作用并且布置在上排注射孔(60)的下方,并且位于柱塞针的柱塞部分(32)的上方 如图31所示,设置有沿向下方向作用在其上的压缩弹簧(35),并且柱塞针在轴向孔(30)中的柱塞部分(32)下方形成控制室(50),该控制室可以由 控制介质克服压缩弹簧(35)相对于注射柱塞(15)的力而升高柱塞针(31)。
    • 86. 发明授权
    • Starch foam panel
    • 淀粉泡沫板
    • US5910350A
    • 1999-06-08
    • US793939
    • 1997-03-05
    • Juergen LoracksWinfried PommeranzHarald Schmidt
    • Juergen LoracksWinfried PommeranzHarald Schmidt
    • B32B3/18B29C44/06B29C44/32B29C44/50B29C47/02B29C67/20B29K1/00B29K105/04B29L9/00B32B5/18B32B9/02B32B9/06B32B37/15B32B37/20B65D65/46C08L101/16E04C2/10F16S1/00G09F7/00G09F9/00B32B5/26B32B31/08
    • B32B37/153B29C44/32B32B9/02E04C2/10G09F7/00Y10T428/233Y10T428/249987Y10T428/24999
    • A panel including a starch foam core which is composed of starch, which is one of resilient foam or hardened foam; and which has a form selected from the group consisting of a plurality of strands which are straight and in essentially parallel alignment with one another, and a plurality of strands which are bent and arranged in an undulating path; and at least one outer layer composed of sheet material and provided directly on a surface of the starch foam core in engaging contact therewith; wherein the panel is prepared in a continuous process. A method for preparing the panel includes preparing a starch foam in an extruder; forming the starch foam core by extruding the starch foam in a form selected from the group consisting of strands which are straight and in essentially parallel alignment with one another, and strands which are bent and arranged in an undulating path; immediately after forming the starch foam core, directly and continuously introducing the starch foam core into direct surface contact with the at least one outer layer; and compacting the starch foam core and simultaneously bonding the starch foam core directly to the at least one outer layer to form the panel.
    • PCT No.PCT / EP95 / 03488。 371日期1997年3月5日 102(e)1997年3月5日PCT PCT 1995年9月5日PCT公布。 公开号WO96 / 07539 日期:1996年3月14日,包括由弹性泡沫或硬化泡沫之一的淀粉组成的淀粉泡沫芯的面板; 并且具有选自直线且基本上彼此平行对准的多个股线的组合形式,以及弯曲并布置在起伏路径中的多个股线; 以及由片状材料构成的至少一个外层,并且直接设置在与其配合接触的淀粉泡沫芯的表面上; 其中所述面板以连续方法制备。 制备面板的方法包括在挤出机中制备淀粉泡沫; 通过将淀粉泡沫体以从直线和彼此基本平行对准的线组成的组中挤出而形成淀粉泡沫芯,以及弯曲并布置在起伏路径中的线束; 在形成淀粉泡沫芯之后,直接且连续地将淀粉泡沫芯引入与至少一个外层直接表面接触; 并且压实淀粉泡沫芯并同时将淀粉泡沫芯直接粘合到至少一个外层以形成面板。
    • 88. 发明授权
    • Hook nozzle for inside gated mold
    • 用于门内模具的钩嘴
    • US5378139A
    • 1995-01-03
    • US116965
    • 1993-09-07
    • Robert D. SchadHarald Schmidt
    • Robert D. SchadHarald Schmidt
    • B29C45/27B29C45/22
    • B29C45/2735
    • The present invention relates to an improved apparatus for forming injection molded plastic articles having an inner wall portion. The apparatus includes a mold cavity portion and a mold core portion defining a cavity space in the shape of the plastic article to be formed. The apparatus further includes at least two hot runner nozzles for injecting molten plastic material into the cavity space. The nozzles are preferably offset to outer portions of the mold core portion so as to provide an increased space in the mold core portion in which cooling conduits, inlets and the like can be placed to increase the cooling capability of the mold core portion. The offsetting of the nozzles also provides the mold core portion with increased strength. Each of the nozzles communicates with inner wall portion of the cavity space via a hook-shaped passageway and an inside gate. Additionally, each of the nozzles has a metal portion for maintaining plastic material in the hook-shaped passageway in molten condition.
    • 本发明涉及一种用于形成具有内壁部分的注模塑料制品的改进装置。 该装置包括模腔部分和模芯部分,其限定待形成的塑料制品形状的空腔。 该装置还包括至少两个热流道喷嘴,用于将熔融塑料材料注入空腔中。 喷嘴优选地偏置到模芯部分的外部部分,以便在模芯部分中提供增加的空间,其中可以放置冷却导管,入口等,以增加模芯部分的冷却能力。 喷嘴的偏移还为模芯部分提供了增加的强度。 每个喷嘴经由钩状通路和内门与腔空间的内壁部分连通。 此外,每个喷嘴具有用于在熔融状态下将塑料材料保持在钩形通道中的金属部分。
    • 89. 发明授权
    • Band heater clamp arrangement for an injection molding machine
    • 用于注塑机的带式加热器夹具装置
    • US5360333A
    • 1994-11-01
    • US954322
    • 1992-09-30
    • Harald Schmidt
    • Harald Schmidt
    • B22D17/20B29C45/00B29C45/17B29C45/20B29C45/26B29C45/73B29C45/74H05B3/42B29C45/23
    • H05B3/42B29C45/1782
    • The present invention relates to a bi-metallic clamping system for holding a heater firmly on the external surface of a hot runner nozzle body. The band heater-clamp arrangement of the present invention is formed by a cylindrical sheath which houses the heater coil. The sheath has an inner sleeve formed from a material having a relatively high thermal expansion and an outer sleeve formed from a material having a relatively low thermal expansion. The heater coil is positioned between the two sleeves. The desired clamping effect is produced by providing at least one axial slot in the inner sleeve. It has been found that during heating, the outer sleeve expands less than the inner sleeve due to the differences in the thermal expansion coefficients of the materials used to form the sleeves. This produces radial forces in the inner sleeve that are redirected into circumferential forces by the axial slot. These circumferential forces in turn cause the slot to close and thereby achieve the desired clamping effect. The band heater-clamp arrangement of the present invention has utility in injection molding machines having hot runner systems for providing liquified plastic material from a source to an injection gate.
    • 本发明涉及一种用于将加热器牢固地保持在热流道喷嘴体的外表面上的双金属夹紧系统。 本发明的带状加热夹具装置由容纳加热器线圈的圆柱形护套形成。 护套具有由具有相对较高的热膨胀的材料形成的内套筒和由具有相对低的热膨胀的材料形成的外套筒。 加热器线圈位于两个套筒之间。 通过在内套筒中设置至少一个轴向槽来产生所需的夹紧效果。 已经发现,在加热期间,由于用于形成套筒的材料的热膨胀系数的差异,外套筒比内套筒膨胀的小。 这在内套筒中产生径向力,其通过轴向槽被重定向成周向力。 这些周向力又导致狭缝闭合,从而实现期望的夹紧效果。 本发明的带式加热器夹紧装置在具有热流道系统的注射成型机中具有用途,用于从源向注入口提供液化塑料材料。
    • 90. 发明授权
    • Sealed edge gate
    • 密封边缘门
    • US5324191A
    • 1994-06-28
    • US954289
    • 1992-09-30
    • Harald Schmidt
    • Harald Schmidt
    • B29C45/00B29C45/20B29C45/26B29C45/27
    • B29C45/2735B29C2045/2761
    • The present invention relates to a hot runner sealed edge gated injection molding system. The system includes a mold cavity plate with at least one injection gate and a nozzle assembly having a tip end and at least one melt channel for transporting molten plastic material. The system further includes an annular seal ring which fits snugly over the tip end of the nozzle assembly. The seal ring has at least one melt channel and at least one orifice for transporting molten plastic material from the at least one melt channel in the nozzle assembly to the at least one injection gate in the mold cavity plate. In a preferred embodiment, the seal ring is formed from a material having a thermal coefficient of expansion lower than the thermal coefficient of expansion of the material forming the nozzle. As a result, the nozzle when heated will expand at a greater rate than the seal ring resulting in an effective sealing arrangement with the seal ring being pressed against the mold cavity plate and being gripped by the nozzle.
    • 本发明涉及一种热流道密封边缘浇口注塑系统。 该系统包括具有至少一个注射门的模腔板和具有尖端的喷嘴组件和用于输送熔融塑料材料的至少一个熔体通道。 该系统还包括环形密封环,其紧密地配合在喷嘴组件的尖端上。 密封环具有至少一个熔体通道和至少一个孔口,用于将熔融塑料材料从喷嘴组件中的至少一个熔体通道传送到模腔板中的至少一个注射浇口。 在优选实施例中,密封环由热膨胀系数低于形成喷嘴的材料的热膨胀系数的材料形成。 结果,加热时的喷嘴将以比密封环更大的速率膨胀,导致密封环被压靠在模腔板上并被喷嘴夹持的有效的密封布置。