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    • 2. 发明授权
    • Differential case and push-frame assembly
    • 差速器和推框组件
    • US4266628A
    • 1981-05-12
    • US69449
    • 1979-08-24
    • George A. FisherGary E. Mason
    • George A. FisherGary E. Mason
    • E02F3/65E02F3/80B60K1/00
    • E02F3/6454E02F3/65
    • A push frame assembly for a scraper bowl is provided with a tubular structural member extending between, and being rigidly fastened directly to, the side walls of the push frame. A push block and a spreader tube are, likewise, connected between the side walls to produce a relatively rigid frame assembly. In one form of the invention, the tubular structural member has a transverse sleeve therethrough through which an ejector cylinder passes, while in another form of the invention, the tubular structural member has provision for receiving a differential and has reinforced mounts on the one side thereof for connection of ejector cylinders thereto. A method of making a push frame assembly is provided wherein a pair of side walls are fastened directly to a tubular member with a spreader tube and a push block framework connected to the side walls to produce a stronger push frame assembly.
    • 用于刮碗的推框组件设置有管状结构构件,其在推框架的侧壁之间延伸并刚性地紧固到推框的侧壁上。 同样地,推块和吊具管连接在侧壁之间以产生相对刚性的框架组件。 在本发明的一种形式中,管状结构件具有穿过其中的顶部套筒,顶管通过该套筒,而在本发明的另一形式中,管状结构件具有用于容纳差速器并且在其一侧具有增强的安装件 用于将喷射器筒连接到其上。 提供了一种制造推框组件的方法,其中一对侧壁直接固定到管状构件上,该扩张器管和连接到侧壁的推块框架产生更强的推框组件。
    • 3. 发明授权
    • Scraper bowl lifting brackets
    • 刮板碗吊架
    • US4090314A
    • 1978-05-23
    • US815385
    • 1977-07-13
    • Gary E. Mason
    • Gary E. Mason
    • E02F3/64E02F3/80E02F9/24B66C1/10
    • E02F3/64E02F3/6454E02F3/652E02F3/80
    • A lifting and tie-down arrangement is provided for a push frame and scraper bowl assembly and includes a first bracket removably affixed to the outside and/or inside of the draft arm socket in the side walls of the scraper bowl. A second bracket is selectively affixed to the side legs of the push frame whereby lifting equipment connected to the first bracket on the outside of the bowl and to one second bracket on the push frame can be used to safely lift the assembly. Tie-down cables connected to one first bracket on the inside of the bowl and to the other second bracket on the push frame can be used to safely tie the assembly to a flatcar or the like.
    • 为推框架和刮板组件提供提升和捆扎装置,并且包括可拆卸地固定到刮板的侧壁中的牵引臂插座的外部和/或内部的第一支架。 第二支架选择性地固定到推框架的侧腿上,由此可以使用连接到碗的外部的第一支架和推框上的一个第二支架的提升设备来安全地提升组件。 连接到碗内侧的一个第一支架和推框上的另一个第二支架的连接电缆可用于将组件安全地连接到平车或类似物上。
    • 8. 发明授权
    • Differential case and push-frame assembly and a method of making same
    • 差速器和推框组件及其制作方法
    • US4183551A
    • 1980-01-15
    • US822843
    • 1977-08-08
    • George A. FisherGary E. Mason
    • George A. FisherGary E. Mason
    • E02F3/65E02F3/80B62D25/00
    • E02F3/6454E02F3/65
    • A push frame assembly for a scraper bowl is provided with a tubular structural member extending between, and being rigidly fastened directly to, the side walls of the push frame. A push block and a spreader tube are, likewise, connected between the side walls to produce a relatively rigid frame assembly. In one form of the invention, the tubular structural member has a transverse sleeve therethrough through which an ejector cylinder passes, while in another form of the invention, the tubular structural member has provision for receiving a differential and has reinforced mounts on the one side thereof for connection of ejector cylinders thereto. A method of making a push frame assembly is provided wherein a pair of side walls are fastened directly to a tubular member with a spreader tube and a push block framework connected to the side walls to produce a stronger push frame assembly.
    • 用于刮碗的推框组件设置有管状结构构件,其在推框架的侧壁之间延伸并刚性地紧固到推框的侧壁上。 同样地,推块和吊具管连接在侧壁之间以产生相对刚性的框架组件。 在本发明的一种形式中,管状结构件具有穿过其中的顶部套筒,顶管通过该套筒,而在本发明的另一形式中,管状结构件具有用于容纳差速器并且在其一侧具有增强的安装件 用于将喷射器筒连接到其上。 提供了一种制造推框组件的方法,其中一对侧壁直接固定到管状构件上,该扩张器管和连接到侧壁的推块框架产生更强的推框组件。
    • 9. 发明授权
    • Energy storage device and its methods of manufacture
    • 储能装置及其制造方法
    • US5711988A
    • 1998-01-27
    • US377121
    • 1995-01-23
    • K. C. TsaiGary E. MasonMark L. Goodwin
    • K. C. TsaiGary E. MasonMark L. Goodwin
    • B05D1/32B05D5/12H01G9/00H01G9/016H01G9/04H01G9/058H01G9/155H01M2/02H01M2/08H01M2/16H01M2/36H01M4/00H01M4/04H01M4/58H01M6/48H01M10/04
    • H01G9/155H01M10/0418H01M2/0212H01M2/08H01M2/1673H01M4/00H01M4/04H01M4/0402H01M4/0404H01M4/0409H01M4/0416H01M4/0419H01M4/0428H01M4/045H01M4/0471H01M4/58H01M6/48H01M2/36H01M4/0438Y02E60/13Y10T29/41Y10T29/417
    • A dry preunit (10), includes a plurality of cells (110, 112, 114) in a true bipolar configuration, which are stacked and bonded together, to impart to the device an integral and unitary construction. Each cell (114) includes two electrically conductive electrodes (111A, 111B) that are spaced apart by a predetermined distance. The cell (114) also includes two identical dielectric gaskets (121,123) that are interposed, in registration with each other, between the electrodes (111A, 111B), for separating and electrically insulating these electrodes. When the electrodes (111A, 111B), and the gaskets (121, 123) are bonded together, at least one fill gap (130) is formed for each cell. Each cell (114) also includes a porous and conductive coating layer (119, 120) that is formed on one surface of each electrode. The coating layer (119) includes a set of closely spaced-apart peripheral microprotrusions (125), and a set of distally spaced-apart central microprotrusions (127). These microprotrusions (125, 127) impart structural support to the cells, and provide additional insulation between the electrodes. An energy storage device (10A) such as a capacitor, is created with the addition of an electrolyte to the gap (130) of the dry preunit (10) and subsequent sealing of the fill ports.
    • 干燥预处理器(10)包括真实双极配置的多个单元(110,112,114),它们堆叠并结合在一起,以赋予器件整体和整体结构。 每个单元(114)包括间隔开预定距离的两个导电电极(111A,111B)。 电池(114)还包括在电极(111A,111B)之间插入彼此对准的两个相同的电介质垫圈(121,123),用于分离和电绝缘这些电极。 当电极(111A,111B)和垫圈(121,123)结合在一起时,为每个电池形成至少一个填充间隙(130)。 每个电池(114)还包括形成在每个电极的一个表面上的多孔和导电涂层(119,120)。 涂层(119)包括一组紧密间隔开的周边微突起(125)和一组远离间隔开的中心微突起(127)。 这些微突起(125,127)赋予细胞结构支撑,并在电极之间提供额外的绝缘。 通过向干燥预浸料(10)的间隙(130)添加电解液并随后密封填充口而产生诸如电容器的能量存储装置(10A)。