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    • 1. 发明授权
    • Kinematic countermeasure
    • 运动对策
    • US08418619B1
    • 2013-04-16
    • US13080771
    • 2011-04-06
    • Alan Phillips
    • Alan Phillips
    • F42B4/26F42B12/36
    • F42B4/26F41J2/02F42B5/15F42B12/42F42B12/48
    • The present invention provides an improved kinematic countermeasure flare and method of constructing the same wherein the housing has integrated internal features. The flare nose weight is set at the end of a die core prior to molding for integration with the housing. Longitudinal grooves and other recesses in the die core allow for the formation of internal longitudinal ribs which propellant can bond to and a retaining bead for retaining the nose weight in the housing which are integrated with the housing. Propellant is cast into the formed housing. A propellant shaping mandrel is then inserted into the formed housing thereby forcing the propellant into the internal cavity created by the integrally molded longitudinal ribs, the shaping mandrel and the wall of the flare housing such that the propellant is bonded to the interior housing wall and the longitudinal ribs. This improved housing and method of construction eliminates the need to apply a non-flammable coating to propellant surfaces after its addition to the flare housing which a an imprecise and time consuming process.
    • 本发明提供了一种改进的运动对策火炬及其构造方法,其中壳体具有集成的内部特征。 在模制之前,将火炬鼻重量设置在模芯的末端以与壳体一体化。 模芯中的纵向凹槽和其它凹槽允许形成推进剂可以结合的内部纵向肋,以及用于将鼻子重量保持在与壳体一体化的壳体中的保持珠。 推进剂被投入成形的房屋。 然后将推进剂成形心轴插入成形的壳体中,从而迫使推进剂进入由整体模制的纵向肋,成形心轴和火炬室的壁产生的内部空腔中,使得推进剂结合到内部壳体壁,并且 纵肋。 这种改进的外壳和施工方法消除了在添加到火炬外壳之后将不可燃涂层施加到推进剂表面上的需要,这是不精确和耗时的过程。
    • 5. 发明申请
    • Adjustable Reciprocating Saw
    • 可调往复锯
    • US20080047150A1
    • 2008-02-28
    • US11928659
    • 2007-10-30
    • Alan PhillipsJohn SchnellJohn Beville
    • Alan PhillipsJohn SchnellJohn Beville
    • B23D49/00
    • B23D49/11B23D49/162B23D49/167B25F5/02
    • An adjustable reciprocating saw has the ability to adjust the orientation of the saw blade in relation to the rest of the tool. The saw blade can pivot about two transverse axes, one parallel with and one perpendicular to the reciprocating motion axis of the saw blade. The portions of the saw's housing which rotate relative to one another are attached with a rotating joint comprising a pin and groove design. Rotation locks selectively prevent rotation of the saw blade about each axis. The rotation locks can be released through simply depressing buttons on the saw. A rear internal bearing increases the durability and decreases the size of the saw. A keyless adjustable shoe is mounted to the saw.
    • 可调节的往复锯具有相对于工具的其余部分调整锯片的取向的能力。 锯片可围绕两个横向轴线枢转,一个与锯片的往复运动轴线平行并垂直于一个。 锯的壳体相对于彼此旋转的部分附接有包括销和凹槽设计的旋转接头。 旋转锁选择性地防止锯片围绕每个轴旋转。 可以通过锯上的简单按压按钮释放旋转锁。 后内轴承增加了耐用性,并减小了锯的尺寸。 一把无钥匙可调节的鞋子安装在锯上。
    • 8. 发明授权
    • Router elevating mechanism
    • 路由器升降机制
    • US07275900B1
    • 2007-10-02
    • US10900058
    • 2004-07-26
    • Alan PhillipsJohn W. Schnell
    • Alan PhillipsJohn W. Schnell
    • B23C1/20
    • B27C5/10Y10T408/18Y10T409/306552Y10T409/306608
    • The present invention is directed to an elevating mechanism, in particular to an elevating mechanism for routers, is configured for easy micro adjustment and coarse or macro adjustment. In an embodiment, a power tool includes a base configured to adjustably receive a motor housing for operating a working tool. A worm drive is pivotally coupled, in an eccentric configuration, to an eccentric lever. The eccentric lever is adjustably coupled to at least one of the housing or the base such that the eccentric lever is operable to cause the worm drive to be positioned into an engaged position with a rack assembly and a released position wherein the worm drive is remote from the rack assembly. The elevating mechanism is operable to permit rotational micro adjustment and macro manual adjustment wherein the worm drive is remote from the rack assembly for permitting coarse adjustment of the motor housing with respect to the base.
    • 本发明涉及一种升降机构,特别是用于路由器的升降机构,其构造为容易进行微调和粗调或微调。 在一个实施例中,电动工具包括被配置为可调节地接收用于操作工作工具的电动机壳体的基座。 蜗杆驱动器以偏心构造枢转地联接到偏心杆。 所述偏心杆可调节地联接到所述壳体或所述基座中的至少一个,使得所述偏心杆可操作以使得所述蜗杆驱动器定位成与齿条组件接合的位置和所述释放位置,其中所述蜗杆驱动器远离 机架组件。 升降机构可操作以允许旋转微调和宏观手动调节,其中蜗杆驱动器远离齿条组件,用于允许相对于基座的马达壳体的粗调。
    • 10. 发明申请
    • Jigsaw with a rotating handle
    • 具有旋转手柄的拼图
    • US20070050993A1
    • 2007-03-08
    • US11500564
    • 2006-08-08
    • Alan Phillips
    • Alan Phillips
    • B23D49/00
    • B23D51/01
    • The present invention is directed to a jigsaw including a rotating handle. In an exemplary embodiment in accordance with the present invention, the jigsaw includes a motor housing for containing a motor. The motor housing includes a first end and a second end. The first end of the motor housing is coupled to a saw blade assembly. Further, a handle assembly is rotationally coupled to the second end of the motor housing for rotation of the handle assembly to a plurality of positions. The plurality of positions include from a zero orientation to plus or minus 90° (ninety degrees) of the zero orientation. Additionally, a securing mechanism is operationally coupled to the handle assembly for securing the rotational position of the handle assembly up to plus or minus 90° (ninety degrees) of the zero orientation.
    • 本发明涉及一种包括旋转手柄的拼图。 在根据本发明的示例性实施例中,拼图包括用于容纳马达的马达壳体。 马达壳体包括第一端和第二端。 马达壳体的第一端连接到锯片组件。 此外,手柄组件旋转地联接到马达壳体的第二端,以将手柄组件旋转到多个位置。 多个位置包括从零取向到零取向的正或负90°(九十度)。 此外,固定机构可操作地联接到手柄组件,用于将手柄组件的旋转位置固定在零方向的正或负90°(九十度)。