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. 发明授权
    • Self-bailing watersprite with positive buoyancy
    • 自救水质正面浮力
    • US5699750A
    • 1997-12-23
    • US707011
    • 1996-09-03
    • Charles R. Schneider
    • Charles R. Schneider
    • B63B5/24B63B13/00B63B17/06
    • B63B5/24B63B13/00B63B17/06
    • A watersprite has a modified inner hull liner and an automatic liquid bailing system to reduce chemical deterioration of the inner hull liner and eventually other components of the watersprite. The inner hull liner provides a dam for water and/or spilled fuel so that the liquid accumulates at least temporarily at a location above the waterline for the watersprite. The accumulated liquid is immediately drained through a self-bailing pipe to the outside environment. The inlet for the self draining pipe is located in the vicinity of the bottom of the dam, which defines a low spot for the inner hull liner. In addition, the bilge volume between the inner hull liner and the outer hull assembly is completely filled with closed-cell flotation foam. The closed-cell flotation foam in the bilge volume helps to prevent water and/or spilled fuel from chemically attacking the hull and/or hull stiffeners in case the inner hull liner develops a leak. The flotation foam also provides additional structural integrity between the inner hull liner and the outer hull assembly. In addition, the flotation foam provides a watersprite with positive buoyancy to eliminate the threat of partial flooding and/or sinking in case the outer hull develops a crack, or in case the watersprite fills with splash water or rainwater.
    • 水蛭石具有改进的内部船体衬里和自动液体保护系统,以减少内部船体衬管以及最终的水蛭的其他部件的化学变质。 内部船体衬垫为水和/或溢出的燃料提供了一个大坝,使得液体至少暂时在水线上方的水位积聚。 积聚的液体立即通过自助管道排出到外界。 自排水管的入口位于大坝底部附近,为内船体衬套定义了一个低点。 此外,内侧船体衬套和外部船体组件之间的舱底体积完全用闭孔浮选泡沫填充。 在舱底体积中的闭孔浮选泡沫有助于防止水和/或溢出的燃料在内壳体衬里发生泄漏的情况下化学侵蚀船体和/或船体加强件。 浮选泡沫还在内壳体衬套和外壳体组件之间提供了额外的结构完整性。 此外,浮选泡沫提供了具有正浮力的水体,以消除在外壳发生裂纹的情况下的部分淹没和/或下沉的威胁,或者在水蛭石充满溅水或雨水的情况下。
    • 6. 发明申请
    • SYSTEMS AND METHODS FOR TRAINING SECURITY OFFICERS
    • 培训安全官员的制度和方法
    • US20100047756A1
    • 2010-02-25
    • US12547308
    • 2009-08-25
    • Charles R. SchneiderJames P. Boylan, JR.
    • Charles R. SchneiderJames P. Boylan, JR.
    • G09B7/00
    • G09B7/02
    • Systems and methods for training security officers are disclosed. A telecommunications node situated at a guard location may be operable to facilitate the presentation of training questions to a guard situated at the guard location. A training module may be operable to determine one or more training questions to communicate to the telecommunications node based at least in part on a predetermined condition. The training module may further be operable to communicate the one or more training questions to the telecommunications node via a network and to receive a respective answer to each of the one or more training questions from the telecommunications node. The training module may further be operable to determine whether the received answers are correct.
    • 披露了安全人员培训的制度和方法。 位于保护位置的电信节点可以可操作以便于将训练问题呈现给位于保护位置的卫兵。 训练模块可以用于至少部分地基于预定条件来确定用于与电信节点通信的一个或多个训练问题。 训练模块还可以可操作以经由网络将一个或多个训练问题传送到电信节点,并且从电信节点接收对于一个或多个训练问题中的每一个的相应答案。 训练模块还可以用于确定所接收的答案是否正确。
    • 7. 发明授权
    • Supervised guard tour tracking systems and methods
    • 监督巡逻跟踪系统和方法
    • US07289023B2
    • 2007-10-30
    • US11218175
    • 2005-09-01
    • Charles R. SchneiderWesley C. Adams
    • Charles R. SchneiderWesley C. Adams
    • G08B29/00
    • G07C1/20G08B29/24
    • The present invention comprises systems and methods for addressing exceptions (i.e., alarms) associated with a guard tour according to a predefined hierarchy. The exception is generated automatically based on data associated with the guard tour, as typically collected by an ETTS. The present invention receives tour data, and based upon predefined customer preferences and current conditions, generates a procedure to be followed to optimally resolve the exception. An exemplary exception is one based on the time interval between checkpoints. If, for example, the time interval is outside of a predetermined range, then an exception may be generated.
    • 本发明包括用于根据预定义层次来解决与保护巡视相关联的异常(即,警报)的系统和方法。 根据通常由ETTS收集的与巡视相关联的数据自动生成异常。 本发明接收旅游数据,并且基于预定义的客户偏好和当前状况,生成要遵循的过程以最佳地解决异常。 一个示例性的例外是基于检查点之间的时间间隔。 例如,如果时间间隔超出预定范围,则可能产生异常。
    • 8. 发明授权
    • Ignition coil with non-filtering/non-segregating secondary winding
separators
    • 具有非过滤/非分离次级绕组分离器的点火线圈
    • US5861791A
    • 1999-01-19
    • US492784
    • 1995-06-21
    • Charles R. Schneider
    • Charles R. Schneider
    • H01F41/12H01F27/32H01F38/12H01F41/00H01F27/30H01F27/24
    • H01F27/323H01F38/12H01F41/005
    • An ignition coil for an internal combustion engine and a method of making the same in which layers of the secondary winding are separated by a non-filtering/non-segregating material embedded in an electrically insulated ignition coil housing. The preferred non-filtering secondary winding separator is a solid filament, non-absorbing/non-adsorbing mesh, such as a nylon mesh. Using the non-filtering/non-segregating secondary winding separator prevents filler damming when an ignition coil housing is manufactured using a vacuum encapsulation and curing process in which an encapsulation compound (e.g. a thermal setting epoxy) has solid additives (e.g. sand fillers). Non-absorbing/non-adsorbing separators are also advantageous because the separators do not alter the chemistry of the encapsulation compound.
    • 用于内燃机的点火线圈及其制造方法,其中次级绕组的层被嵌入在电绝缘点火线圈壳体中的非过滤/非分离材料分开。 优选的非过滤次级绕组分离器是固体丝,非吸收/非吸附网,例如尼龙网。 使用非过滤/非分离的次级绕组分离器防止当使用真空封装和固化工艺制造点火线圈壳体时填料阻塞,其中封装化合物(例如热固化环氧树脂)具有固体添加剂(例如砂填料)。 非吸收/非吸附分离器也是有利的,因为分离器不改变包封化合物的化学性质。