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    • 1. 发明申请
    • IMPACT SENSING DEVICE AND HELMET INCORPORATING THE SAME
    • 影响传感装置和同时具有的HELMET
    • WO2012071539A3
    • 2012-08-30
    • PCT/US2011062095
    • 2011-11-23
    • BATTLE SPORTS SCIENCE LLCEVANS JEFFREY MCIRCO CHRISTOPHER W
    • EVANS JEFFREY MCIRCO CHRISTOPHER W
    • G01P15/00A42B3/00A61B5/00A63B71/10G01P15/14
    • A42B3/046
    • An impact sensing device including a plurality of accelerometers orthogonally oriented with respect to each other and attachable at a body location, each capable of producing a signal indicative of an impact. An integrated circuit is configured to determine the magnitude and direction of the impact based on the signals and operative to activate an indicator when the magnitude exceeds a selected threshold based on the direction of the impact. A head injury coefficient is determined based on the magnitude and a duration of the impact, and the threshold level of acceleration is expressed in terms of a head injury coefficient value. The head injury coefficient value is determined by empirically correlating a head injury coefficient measured at the body location and a head injury coefficient measured at the center of mass of a human head resulting from an impact.
    • 一种冲击感测装置,其包括相对于彼此正交定向并可在身体位置附接的多个加速度计,每个能够产生指示冲击的信号。 集成电路被配置为基于信号来确定冲击的大小和方向,并且当幅度超过基于冲击方向的选定阈值时,可操作以激活指示器。 根据冲击的大小和持续时间确定头部损伤系数,加速度阈值用头部损伤系数值表示。 头部损伤系数值通过经验相关的身体位置测量的头部损伤系数和由冲击产生的人体头部质心测得的头部损伤系数来确定。
    • 3. 发明申请
    • MOUTH GUARD
    • 牙套
    • WO2012054623A2
    • 2012-04-26
    • PCT/US2011056911
    • 2011-10-19
    • BATTLE SPORTS SCIENCE LLCEVANS JEFFREY MCIRCO CHRISTOPHER W
    • EVANS JEFFREY MCIRCO CHRISTOPHER W
    • A61C5/14A63B71/08A63B71/10
    • A63B71/085A63B2071/088
    • A mouth guard comprising an arcuate body member positionable between the teeth of a user. The body member includes an incisor portion for confronting the incisors of the user and a pair of molar portions for confronting the molars of the user. Each said molar portion includes a hollow region. The hollow region may extend through its respective molar portion. Alternatively, the hollow region is contained within the body member and may also be air tight. The hollow region could also be a blind cavity. A resilient member, such as a spring or foam material, may be disposed within the hollow region. A bladder may be disposed in the hollow region, such as an air bladder or a bladder containing gel. A resilient member, such as a spring or foam material, may be disposed within the bladder. The bladder may be formed of a translucent or transparent material.
    • 一种口罩,包括可定位在使用者的牙齿之间的弓形本体构件。 身体构件包括用于面对使用者的门牙的切牙部分和用于面对使用者的臼齿的一对摩擦部分。 每个所述摩擦部分包括中空区域。 中空区域可以延伸穿过其相应的摩擦部分。 或者,中空区域容纳在主体构件内并且也可以是气密的。 中空区域也可以是盲腔。 诸如弹簧或泡沫材料的弹性构件可以设置在中空区域内。 气囊可以设置在中空区域中,例如空气囊或含有凝胶的膀胱。 诸如弹簧或泡沫材料的弹性构件可以设置在囊内。 膀胱可以由半透明或透明材料形成。
    • 4. 发明申请
    • IMPACT SENSING DEVICE AND HELMET INCORPORATING THE SAME
    • 影响感测装置和包含该装置的头盔
    • WO2012071539A2
    • 2012-05-31
    • PCT/US2011/062095
    • 2011-11-23
    • BATTLE SPORTS SCIENCE, LLCEVANS, Jeffrey, M.CIRCO, Christopher, W.
    • EVANS, Jeffrey, M.CIRCO, Christopher, W.
    • G01P15/00G01P15/14A42B3/00A61B5/00A63B71/10
    • A42B3/046
    • An impact sensing device including a plurality of accelerometers orthogonally oriented with respect to each other and attachable at a body location, each capable of producing a signal indicative of an impact. An integrated circuit is configured to determine the magnitude and direction of the impact based on the signals and operative to activate an indicator when the magnitude exceeds a selected threshold based on the direction of the impact. A head injury coefficient is determined based on the magnitude and a duration of the impact, and the threshold level of acceleration is expressed in terms of a head injury coefficient value. The head injury coefficient value is determined by empirically correlating a head injury coefficient measured at the body location and a head injury coefficient measured at the center of mass of a human head resulting from an impact.
    • 冲击感测装置包括相对于彼此正交定向且可附接在身体位置的多个加速度计,每个加速度计能够产生指示冲击的信号。 集成电路被配置为基于信号确定冲击的大小和方向,并且当集成电路的幅度超过基于冲击方向的选定阈值时启动指示器。 根据冲击的大小和持续时间来确定头部伤害系数,并且加速度的阈值水平以头部伤害系数值表示。 头部损伤系数值是通过将在身体部位测量的头部损伤系数与在人体头部的质量中心处测量的头部损伤系数由经验产生的实验相关来确定的。