会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • INJECTION MANIFOLD HAVING A VALVE PIN GUIDING DEVICE
    • 具有阀门引导装置的注射歧管
    • WO2003053653A1
    • 2003-07-03
    • PCT/CA2002/001996
    • 2002-12-19
    • MOLD-MASTERS LIMITEDDEWAR, NeilBABIN, Denis
    • DEWAR, NeilBABIN, Denis
    • B29C45/27
    • B29C45/2806B29C2045/2733B29C2045/2889
    • A guide (70) for a manifold plug (40) of an injection molding apparatus comprises a guide body (70) projecting from an inner wall of the manifold plug (40) diametrically opposing an inlet (14) of a manifold plug channel (12) formed in the manifold plug.(40). The inlet (14) is aligned with a manifold channel of a manifold. The outlet (16) of the manifold plug channel (12) is aligned with a nozzle channel of a nozzle. The inlet (14) is at an angle to the outlet (16). A guide surface is provided on the guide body (70)for abutting a downstream portion of a valve pin (26) extending into the manifold plug channel. The guide (70) also facilitates flow of a melt stream of moldable material through the manifold plug channel (12).
    • 用于注射成型设备的歧管塞(40)的引导件(70)包括从歧管插塞(40)的内壁突出的引导体(70),其与歧管插塞通道(12)的入口(14)直径相对 )形成在歧管塞(40)中。 入口(14)与歧管的歧管通道对准。 歧管塞通道(12)的出口(16)与喷嘴的喷嘴通道对准。 入口(14)与出口(16)成一角度。 引导表面设置在引导体(70)上,用于抵靠延伸到歧管插塞通道中的阀销(26)的下游部分。 引导件(70)还促进可模制材料的熔体流的流动通过歧管插塞通道(12)。
    • 3. 发明申请
    • MULTI-POSITION VALVE PIN FOR AN INJECTION MOLDING APPARATUS
    • 注射成型装置的多位置阀针
    • WO2005021235A1
    • 2005-03-10
    • PCT/CA2004/001055
    • 2004-07-21
    • MOLD-MASTERS LIMITEDDEWAR, NeilBABIN, Denis
    • DEWAR, NeilBABIN, Denis
    • B29C45/28
    • B29C45/2806B29C45/30B29C45/57B29C2045/2872B29C2045/2882
    • An injection molding apparatus that includes a nozzle having a nozzle channel, a mold cavity in communication with the nozzle channel of the nozzle for receiving a melt stream of moldable material from the nozzle channel through a mold gate; and a valve pin that is axially movable through the nozzle channel of the nozzle between a first retracted position in which the valve pin closes the mold gate to block melt flow between the nozzle channel and the mold cavity, an extended position in which an end portion of the valve pin extends through the mold gate and into the mold cavity, and a third retracted position in which the end portion of the nozzle pin is withdrawn from the mold cavity into the nozzle and spaced apart from the mold gate thereby opening the mold gate. The end portion of the valve pin defines a melt flow path on an outer surface thereof that extends through the mold gate when the valve pin is in the extended position for transmitting the melt stream from the nozzle channel to the mold cavity when the valve pin is in the extended position.
    • 一种注射成型装置,包括具有喷嘴通道的喷嘴,与喷嘴的喷嘴通道连通的模腔,用于从喷嘴通道通过模具浇口接收可模制材料的熔体流; 以及阀销,其可在第一缩回位置和第二缩回位置之间轴向移动通过喷嘴的喷嘴通道,在该第一缩回位置中,阀销闭合模具浇口以阻止喷嘴通道和模具腔之间的熔体流动;延伸位置, 所述阀销延伸穿过所述模具门并进入所述模具腔,以及第三缩回位置,其中所述喷嘴销的端部从所述模腔缩回到所述喷嘴中并与所述模具门间隔开,从而打开所述模具门 。 阀销的端部在其外表面上限定了当阀销处于延伸位置时延伸穿过模具门的熔体流动路径,用于当熔断流体从喷嘴通道传递到模腔时,当阀销为 在延长的位置。
    • 4. 发明申请
    • INJECTION NOZZLE SYSTEM AND INJECTION MOLDING MACHINE INCORPORATING SAME
    • 注射喷嘴系统和注射成型机
    • WO2001078961A1
    • 2001-10-25
    • PCT/CA2001/000527
    • 2001-04-12
    • MOLD-MASTERS LIMITEDBABIN, DenisGUENTHER, HansHO, Nin
    • BABIN, DenisGUENTHER, HansHO, Nin
    • B29C45/27
    • B29C45/2806B29C45/278
    • A nozzle system is provided for an injection molding machine. The nozzle system includes a nozzle tip that is removably connected to a nozzle body with a sealing and mounting sleeve element. The nozzle body includes a first connector for releasably connecting with a second connector defined on the sleeve. The sleeve element further includes an alignment bearing for engaging a bearing surface defined on the nozzle body for precisely locating the nozzle tip within the nozzle body along on a predetermined axis. Further embodiments of the invention provide a valve pin disposed in the nozzle body and nozzle tip. The valve pin includes a bearing surface for engaging a guiding surface defined on the second melt channel for aligning the end of the valve pin with a mold gate. Further embodiments also provide an integrally connected nozzle tip and sleeve element.
    • 为注射成型机提供喷嘴系统。 喷嘴系统包括一个喷嘴头,该喷嘴头可拆卸地连接到具有密封和安装套筒元件的喷嘴体上。 喷嘴主体包括第一连接器,用于与限定在套筒上的第二连接器可释放地连接。 套筒元件还包括对准轴承,用于接合限定在喷嘴主体上的支承表面,用于沿着预定轴线精确地将喷嘴头定位在喷嘴体内。 本发明的另外的实施例提供一种设置在喷嘴体和喷嘴尖端中的阀销。 阀销包括用于接合限定在第二熔体通道上的引导表面的轴承表面,用于将阀销的端部与模具浇口对准。 另外的实施例还提供了一体地连接的喷嘴尖端和套筒元件。
    • 5. 发明申请
    • A VALVE PIN GUIDANCE AND ALIGNMENT SYSTEM FOR AN INJECTION MOLDING APPARATUS
    • 用于注射成型设备的阀门引导和对准系统
    • WO2004012923A2
    • 2004-02-12
    • PCT/CA2003/001154
    • 2003-07-30
    • MOLD-MASTERS LIMITEDFISCHER, JonathonBABIN, Denis
    • FISCHER, JonathonBABIN, Denis
    • B29C45/28
    • B29C45/2711B29C45/2701B29C45/278B29C45/2806
    • In a manifold, the valve pin has a sealing surface proximate its bottom end, which surface is engageable with a gate sealing surface to inhibit melt flow into the mold cavity. A first guidance and alignment structure is connected to the valve pin, and a second structure to the mould block upstream from the gate. Both structures include first and second guide surfaces of a diameter decreasing gradually in a downstream direction and first and second cylindrical alignment surfaces. The first guide surface is positioned immediately downstream from the first alignment surface, the second guide surface immediately upstream from the second alignment surface. The second guide surface is positioned to complete alignment of the valve pin with the gate prior to contact between the valve pin and gate. Further, it is positioned to engage the first alignment surface to maintain the valve pin in alignment with the gate during its movement towards the gate.
    • 在歧管中,阀销具有靠近其底端的密封表面,该表面可与门密封表面接合以阻止熔体流入模腔。 第一引导和对准结构连接到阀销,并且第二结构连接到模块上方的门。 两个结构都包括直径在下游方向逐渐减小的第一和第二引导表面以及第一和第二圆柱形对准表面。 第一引导表面位于紧邻第一对准表面的下游,第二引导表面紧邻第二对准表面的上游。 第二引导表面被定位成在阀销和门之间接触之前完成阀销与门的对准。 此外,其定位成接合第一对准表面,以在其向门的移动期间使阀销保持与门对准。
    • 7. 发明申请
    • GAP SEAL BETWEEN A NOZZLE AND A MOLD COMPONENT IN A HOT-RUNNER ASSEMBLY FOR AN INJECTION MOLDING APPARATUS
    • 用于注射成型设备的运行器组件中的喷嘴和模具部件之间的间隙密封
    • WO2003028973A1
    • 2003-04-10
    • PCT/CA2002/001483
    • 2002-10-03
    • MOLD-MASTERS LIMITEDBABIN, DenisOLARU, George
    • BABIN, DenisOLARU, George
    • B29C45/27
    • B29C45/278B29C2045/2761B29C2045/2766
    • A nozzle for an injection molding apparatus is provided. The nozzle includes a nozzle body, a heater and a first gap seal surface. The nozzle body defines a nozzle body melt passage, that is adapted to be downstream from and in fluid communication with a melt source, and upstream from and in fluid communication with a gate into a mold cavity in a mold component. The heater is thermally connected to the nozzle body for heating melt in the nozzle body melt passage. The first gap seal surface is positioned on a structure that is connected at least indirectly to the nozzle body. The first gap seal surface is adapted to be separated by a gap with respect to a second gap seal surface on the mold component. The gap is sized to inhibit the flow of melt between the first gap seal surface and the second gap seal surface.
    • 提供了一种用于注射成型设备的喷嘴。 喷嘴包括喷嘴体,加热器和第一间隙密封表面。 喷嘴主体限定了喷嘴体熔体通道,其适于与熔体源下游并与熔体源流体连通,并且在浇口的上游和与浇口流体连通到模具部件中的模腔中。 加热器热连接到喷嘴体,用于加热喷嘴体熔体通道中的熔体。 第一间隙密封表面位于至少间接地连接到喷嘴体的结构上。 第一间隙密封表面适于相对于模具部件上的第二间隙密封表面被间隔开。 该间隙的大小可以抑制第一间隙密封表面和第二间隙密封表面之间的熔体流动。
    • 8. 发明申请
    • VALVE PIN GUIDING TIP FOR A NOZZLE
    • 用于喷嘴的阀门引导指示
    • WO2005042224A1
    • 2005-05-12
    • PCT/CA2004/001920
    • 2004-11-04
    • MOLD-MASTERS LIMITEDBABIN, Denis
    • BABIN, Denis
    • B29C45/03
    • B29C45/2806B29C45/278B29C2045/2766B29C2045/2787B29C2045/2798B29C2045/2889
    • An injection molding apparatus includes a manifold and a nozzle, which is received in an opening in a mold plate, including a nozzle channel for receiving the melt stream from the manifold channel, the nozzle channel being aligned with a first axis. A nozzle tip is received in a downstream end of the nozzle. The nozzle tip includes a melt channel for receiving the melt stream from the nozzle channel of the nozzle. A valve pin guiding portion is provided at a downstream end of the nozzle tip including an outwardly extending flange having a peripheral edge that abuts an inner wall of the opening to align the melt channel with a second axis through a mold gate. A valve pin is movable through the melt channel to selectively open the mold gate. Wherein the nozzle tip is flexible in order to compensate for the first axis and the second axis being out of alignment.
    • 注射成型设备包括歧管和喷嘴,其被容纳在模具板的开口中,包括用于从歧管通道接收熔体流的喷嘴通道,喷嘴通道与第一轴线对准。 喷嘴尖端被容纳在喷嘴的下游端。 喷嘴尖端包括用于从喷嘴的喷嘴通道接收熔体流的熔体通道。 阀销引导部分设置在喷嘴尖端的下游端,包括具有周向边缘的向外延伸的凸缘,该凸缘邻接开口的内壁,以将熔体通道与第二轴线对准通过模具门。 阀销可移动通过熔体通道以选择性地打开模具门。 其中喷嘴尖端是柔性的,以便补偿第一轴线和第二轴线不对准。
    • 9. 发明申请
    • AN INJECTION NOZZLE HAVING A HEATED HEAD PORTION
    • 具有加热头部的喷射喷嘴
    • WO2003066309A1
    • 2003-08-14
    • PCT/CA2003/000166
    • 2003-02-05
    • MOLD-MASTERS LIMITEDBABIN, DenisRENWICK, Craig
    • BABIN, DenisRENWICK, Craig
    • B29C45/27
    • B29C45/2737
    • An injection nozzle (14) for an injection molding apparatus is provided. The injection nozzle includes a head portion (24), a body portion (26) and a heater (40). The head and body portions (24, 26) are connected to each other and together define a nozzle melt channel (28). The head portion (24) has a head portion outer surface (24a). The head portion (24) is adapted to be in contact with a molding apparatus component that is at a lower temperature than the head portion (24). The body portion (26) has a body portion outer surface (26a). A groove (50) is defined in the head portion outer surface (24a) and the body portion outer surface (26a). The heater wire (42) is positioned in the groove (50). The heater (40) is adapted to heat melt in the nozzle melt channel (28).
    • 提供了一种用于注射成型设备的注射嘴(14)。 注射喷嘴包括头部(24),主体部分(26)和加热器(40)。 头部和主体部分(24,26)彼此连接并且一起限定喷嘴熔体通道(28)。 头部(24)具有头部外表面(24a)。 头部(24)适合于与头部(24)相比温度低的成型装置部件接触。 主体部分(26)具有主体部分外表面(26a)。 在头部外表面(24a)和主体部分外表面(26a)中限定有凹槽(50)。 加热线(42)位于槽(50)中。 加热器(40)适于在喷嘴熔体通道(28)中加热熔化。