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
    • 6. 发明申请
    • WASTE SCOOP CONTAINMENT SYSTEM
    • 废物堆肥容器系统
    • US20150245590A1
    • 2015-09-03
    • US14714777
    • 2015-05-18
    • Lisa Elaine HOLLETTStephen Mark HOLLETT
    • Lisa Elaine HOLLETTStephen Mark HOLLETT
    • A01K1/01
    • A01K1/0114
    • A containment system to safely store a waste scoop includes: an outer receptacle including a bottom surface, at least one side wall, an opening and a first coupling element; an inner receptacle including a bottom surface and at least one side wall housed within the outer receptacle and including an opening, wherein the inner receptacle is removable from the outer receptacle via the opening of the outer receptacle; a scoop assembly including a scoop, a handle, and a lid, wherein the scoop is housed within the inner receptacle and is removable from the inner receptacle via the opening of the inner receptacle; a compartment including a second coupling element for connecting the compartment to the outer receptacle via the first and second coupling elements; and a third and fourth coupling element to secure a planar surface of the lid to cover the opening of the outer receptacle.
    • 一种用于安全地存储废物勺的容纳系统包括:包括底表面的外部容器,至少一个侧壁,开口和第一联接元件; 内部容器,其包括底部表面和容纳在外部容器内的至少一个侧壁,并且包括开口,其中所述内部容器经由所述外部容器的开口从所述外部容器移除; 包括勺子,手柄和盖子的勺子组件,其中所述勺子容纳在所述内部容器内并且可经由所述内部容器的开口从所述内部容器移除; 包括用于经由第一和第二联接元件将隔室连接到外部容器的第二联接元件的隔间; 以及第三和第四联接元件,以固定盖的平面表面以覆盖外容器的开口。
    • 7. 发明授权
    • Buffing apparatus
    • 抛光装置
    • US09078513B2
    • 2015-07-14
    • US14206876
    • 2014-03-12
    • Stephen Mark Higgins
    • Stephen Mark Higgins
    • B60S3/04A46B13/00B24D13/12B24D13/04B24D13/20
    • A46B13/02A46B13/00A46B2200/3046B24D13/045B24D13/12B24D13/20B60S3/048
    • A buffing apparatus has a shaft assembly connectable to a drill or other stationary motorized buffer/polisher. A stator is fixedly mounted on the shaft and a rotor is rotatably mounted on the shaft, and each of the stator and rotor includes a respective hub and two or more arms extending radially from the respective hub, and each of the two or more arms defines a hole. A pad having first and second holes is mounted on the shaft with an arm of the stator extending through a first hole of the pad and an arm of the rotor extending through a second hole of the pad. The pads are secured in place with a connector extending through the hole of an arm of the stator and through a hole of an arm of the rotor so that the pads are sandwiched between the shaft assembly and the connectors.
    • 抛光装置具有可与钻或其它固定的电动缓冲器/抛光机连接的轴组件。 定子固定地安装在轴上,并且转子可旋转地安装在轴上,并且每个定子和转子包括相应的轮毂和从相应轮毂径向延伸的两个或更多个臂,并且两个或更多个臂中的每一个限定 一个洞。 具有第一孔和第二孔的垫安装在轴上,定子的臂延伸穿过垫的第一孔,并且转子的臂延伸穿过垫的第二孔。 衬垫通过连接器延伸穿过定子的臂的孔并且通过转子的臂的孔固定在适当位置,使得衬垫夹在轴组件和连接器之间。
    • 8. 发明授权
    • Emissions control diagnostic method and system
    • 排放控制诊断方法和系统
    • US08813479B2
    • 2014-08-26
    • US13103505
    • 2011-05-09
    • Stephen Mark Geyer
    • Stephen Mark Geyer
    • F01N3/00
    • F01N3/0253F01N3/035F01N3/0885F01N9/002F01N9/007F01N11/002F01N2550/02F01N2570/04F01N2900/0421F01N2900/16F01N2900/1621Y02T10/47
    • Various methods for and embodiments of an aftertreatment system which includes a catalyst disposed upstream of a particulate filter are provided. In one example, the method includes, conducting soot regeneration of the particulate filter under a selected operating condition, and determining whether a soot regeneration frequency of the particulate filter is greater than a threshold frequency. The method further includes initiating a sulfur regeneration of the aftertreatment system based on the soot regeneration frequency of the particulate filter being greater than the threshold frequency, determining whether the soot regeneration frequency of the particulate filter is less than the threshold frequency after the sulfur regeneration, and conducting non-regeneration operation of the aftertreatment system based on the soot regeneration frequency of the particulate filter being less than the threshold frequency after the sulfur regeneration of the aftertreatment system.
    • 提供了包括设置在微粒过滤器上游的催化剂的后处理系统的各种方法和实施方案。 在一个实例中,该方法包括:在选择的操作条件下进行微粒过滤器的烟灰再生,以及确定微粒过滤器的烟灰再生频率是否大于阈值频率。 该方法还包括基于颗粒过滤器的烟灰再生频率大于阈值频率来启动后处理系统的硫再生,确定微粒过滤器的烟灰再生频率是否小于硫再生后的阈值频率, 并且在后处理系统的硫再生之后,基于微粒过滤器的烟灰再生频率小于阈值频率,进行后处理系统的非再生操作。