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公开(公告)号:US09296134B2
公开(公告)日:2016-03-29
申请号:US13700262
申请日:2011-01-25
Applicant: Felix Manduzio , Nathalie Lang , Daniel Navarro
Inventor: Felix Manduzio , Nathalie Lang , Daniel Navarro
CPC classification number: B29C44/14 , B29C44/12 , B33Y80/00 , B60N2/7017 , B60N2/80
Abstract: The invention relates to a method for producing a head restraint, in particular a motor vehicle head restraint, wherein the head restraint has a cover and a foam material, wherein the foam material fills out the cover at least in some areas, wherein the method comprises the following steps: producing a prototype mold, wherein the prototype mold comprises at least two parts, wherein when the parts of the prototype mold are assembled, the prototype mold has an inner surface that faces the interior of the prototype mold and an outer surface, producing the cover, assembling the parts of the prototype mold in such a way that the cover is arranged in the interior of the prototype mold, and introducing the foam material into the interior of the cover, wherein the foam material is at least partially liquid when said foam material is introduced into the interior of the cover.
Abstract translation: 本发明涉及一种用于制造头部保护装置,特别是机动车辆头部保护装置的方法,其中头枕具有盖和泡沫材料,其中泡沫材料至少在一些区域填充盖,其中该方法包括 以下步骤:制造原型模具,其中原型模具包括至少两个部分,其中当原型模具的部件组装时,原型模具具有面向原型模具内部的内表面和外表面, 制造盖子,以原型模具的内部布置方式组装原型模具的部件,并将泡沫材料引入盖的内部,其中泡沫材料至少部分是液体的,当 所述泡沫材料被引入盖的内部。
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公开(公告)号:US20140054453A1
公开(公告)日:2014-02-27
申请号:US14071271
申请日:2013-11-04
Applicant: Daniel Navarro
Inventor: Daniel Navarro
CPC classification number: A61N5/1075 , A61B6/022 , A61N5/1084 , A61N2005/1076 , G01T1/02 , G01T1/169 , G01T1/185 , G01T1/24
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a Cyberknife®. The analyzer employs a relative small tank of water into which a sensor is placed to maintain a constant SAD (source to axis distance). A first method maintains a fixed position of detector, and raises or lowers the small tank of water. A second method moves the detector up, down or rotationally synchronously in opposite directions with respect to the small tank of water to keep the SAD constant. These methods position the detector relative to the radiation source to simulate the location of a malady within a patient's body. An embodiment of the present invention enables measurements of substantially larger fields. This is accomplished by rotating a tank of water 90 degrees from a first position to a second position.
Abstract translation: 用于测量Cyberknife®产生的辐射分布和强度的辐射束分析仪。 分析仪使用相对较小的水箱,传感器放置在其中以保持恒定的SAD(源到轴距离)。 第一种方法保持检测器的固定位置,并提高或降低小水箱的水量。 第二种方法是将检测器相对于小水槽向上,向下或相反方向移动,以保持SAD恒定。 这些方法将检测器相对于辐射源定位,以模拟患者身体内的病态的位置。 本发明的实施例使得能够测量大得多的场。 这是通过将水箱从第一位置旋转到第二位置来实现的。
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公开(公告)号:US08093549B2
公开(公告)日:2012-01-10
申请号:US13018869
申请日:2011-02-01
Applicant: Daniel Navarro
Inventor: Daniel Navarro
IPC: G01T1/02
CPC classification number: G01T1/169 , A61N5/1075 , A61N5/1083 , A61N2005/1076
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a Cyberknife®. The analyzer employs a relative small tank of water into which a sensor is placed. The distance between the sensor and the radiation source is not varied. There are two methods to maintain the SAD (source to axis distance) constant. A first method maintains the position of detector fixed, utilizing a holder designed to retain the detector, and raises or lowers the small tank of water. A second method moves the detector up or down with a raising and lower mechanism in one direction and synchronically moves the small tank of water in the opposite direction with another raising and lowering mechanism. The second method also keeps the SAD constant. These methods position the detector relative to the radiation source to simulate the location of a malady within a patient's body.
Abstract translation: 用于测量Cyberknife®产生的辐射分布和强度的辐射束分析仪。 分析仪采用相对较小的水箱,放置传感器。 传感器和辐射源之间的距离不变。 保持SAD(源到轴距离)的方法有两种。 第一种方法是将检测器的位置保持固定,利用设计用于保持检测器的保持架,并提升或降低小水箱。 第二种方法是用一个升高和下降的机构在一个方向上上下移动检测器,同时使另一个升降机构沿相反方向移动小水箱。 第二种方法也保持SAD不变。 这些方法将检测器相对于辐射源定位,以模拟患者身体内的病态的位置。
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公开(公告)号:US20110121164A1
公开(公告)日:2011-05-26
申请号:US13018869
申请日:2011-02-01
Applicant: Daniel Navarro
Inventor: Daniel Navarro
CPC classification number: G01T1/169 , A61N5/1075 , A61N5/1083 , A61N2005/1076
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a Cyberknife®. The analyzer employs a relative small tank of water into which a sensor is placed. The distance between the sensor and the radiation source is not varied. There are two methods to maintain the SAD (source to axis distance) constant. A first method maintains the position of detector fixed, utilizing a holder designed to retain the detector, and raises or lowers the small tank of water. A second method moves the detector up or down with a raising and lower mechanism in one direction and synchronically moves the small tank of water in the opposite direction with another raising and lowering mechanism. The second method also keeps the SAD constant. These methods position the detector relative to the radiation source to simulate the location of a malady within a patient's body.
Abstract translation: 用于测量Cyberknife®产生的辐射分布和强度的辐射束分析仪。 分析仪采用相对较小的水箱,放置传感器。 传感器和辐射源之间的距离不变。 保持SAD(源到轴距离)的方法有两种。 第一种方法是将检测器的位置保持固定,利用设计用于保持检测器的保持架,并提升或降低小水箱。 第二种方法是用一个升高和下降的机构在一个方向上上下移动检测器,同时使另一个升降机构沿相反方向移动小水箱。 第二种方法也保持SAD不变。 这些方法将检测器相对于辐射源定位,以模拟患者身体内的病态的位置。
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公开(公告)号:US07902515B2
公开(公告)日:2011-03-08
申请号:US12630450
申请日:2009-12-03
Applicant: Daniel Navarro
Inventor: Daniel Navarro
IPC: G01T1/00
CPC classification number: G01T1/169 , A61N5/1075 , A61N5/1083 , A61N2005/1076
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a CyberKnife®. The analyzer employs a relative small tank of water into which a sensor is placed. The distance between the sensor and the radiation source is not varied. The tank of water is raised and lowered relative to the sensor to simulate the location of a malady within a patient's body. This movement of the tank permits the radiation from the CyberKnife® to be properly calibrated and adjusted for a proper treatment of a malady in a patient.
Abstract translation: 用于测量CyberKnife®产生的辐射分布和强度的辐射束分析仪。 分析仪采用相对较小的水箱,放置传感器。 传感器和辐射源之间的距离不变。 水罐相对于传感器升高和降低,以模拟患者身体内的病情位置。 坦克的这种运动允许CyberKnife®的辐射被适当地校准和调整,以适当地治疗患者的疾病。
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Patent Agency Ranking
公开(公告)号:US20080048125A1
公开(公告)日:2008-02-28
申请号:US11510275
申请日:2006-08-25
Applicant: Daniel Navarro
Inventor: Daniel Navarro
CPC classification number: G01T1/169 , A61N5/1075 , A61N2005/1076
Abstract: The instant invention relates a convertible radiation beam analyzer for measuring the distribution and intensity of radiation produced by a radiation source. More specifically, the instant invention is a convertible radiation scanning device that includes a single guideway module constructed and arranged for attachment to dynamic phantom tank in various orientations for traversing a radiation detection probe through a radiation beam along various axes to determine radiation intensity and distribution throughout the beam.
Abstract translation: 本发明涉及一种用于测量由辐射源产生的辐射的分布和强度的可转换辐射束分析仪。 更具体地,本发明是一种可转换辐射扫描装置,其包括单个导轨模块,其构造和布置成用于以各种取向附接到动态幻像箱,用于沿着各个轴穿过辐射束横穿辐射探测探针,以确定辐射强度和分布 梁。
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公开(公告)号:US09085254B2
公开(公告)日:2015-07-21
申请号:US13819802
申请日:2011-08-29
Applicant: Daniel Navarro , Robert Braun , Thomas Dillinger
Inventor: Daniel Navarro , Robert Braun , Thomas Dillinger
IPC: B60N2/48
CPC classification number: B60N2/4882 , B60N2/885 , Y10T29/49826
Abstract: A head restraint includes a base element on which two wing elements are mounted by at least one hinge so as to rotate about a vertical axis. The hinge has a pin and a recess which are frustoconical. The support structure of each wing element is in two parts.
Abstract translation: 头枕包括基座元件,两个翼元件通过至少一个铰链安装在其上,以围绕垂直轴线旋转。 铰链具有销和凹陷,其为截头圆锥体。 每个翼元件的支撑结构分为两部分。
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公开(公告)号:US20130221722A1
公开(公告)日:2013-08-29
申请号:US13819802
申请日:2011-08-29
Applicant: Daniel Navarro , Robert Braun , Thomas Dillinger
Inventor: Daniel Navarro , Robert Braun , Thomas Dillinger
IPC: B60N2/48
CPC classification number: B60N2/4882 , B60N2/885 , Y10T29/49826
Abstract: A head restraint includes a base element on which two wing elements are mounted by at least one hinge so as to rotate about a vertical axis. The hinge has a pin and a recess which are frustoconical. The support structure of each wing element is in two parts.
Abstract translation: 头枕包括基座元件,两个翼元件通过至少一个铰链安装在其上,以围绕垂直轴线旋转。 铰链具有销和凹陷,其为截头圆锥形。 每个翼元件的支撑结构分为两部分。
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公开(公告)号:US20110278444A1
公开(公告)日:2011-11-17
申请号:US13188610
申请日:2011-07-22
Applicant: Daniel Navarro
Inventor: Daniel Navarro
CPC classification number: A61N5/1075 , A61B6/022 , A61N5/1084 , A61N2005/1076 , G01T1/02 , G01T1/169 , G01T1/185 , G01T1/24
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a Cyberknife®. The analyzer employs a relative small tank of water into which a sensor is placed to maintain a constant SAD (source to axis distance). A first method maintains a fixed position of detector, and raises or lowers the small tank of water. A second method moves the detector up, down or rotationally synchronously in opposite directions with respect to the small tank of water to keep the SAD constant. These methods position the detector relative to the radiation source to simulate the location of a malady within a patient's body. An embodiment of the present invention enables measurements of substantially larger fields. This is accomplished by rotating a tank of water 90 degrees from a first position to a second position
Abstract translation: 用于测量Cyberknife®产生的辐射分布和强度的辐射束分析仪。 分析仪使用相对较小的水箱,传感器放置在其中以保持恒定的SAD(源到轴距离)。 第一种方法保持检测器的固定位置,并提高或降低小水箱的水量。 第二种方法是将检测器相对于小水槽向上,向下或相反方向移动,以保持SAD恒定。 这些方法将检测器相对于辐射源定位,以模拟患者身体内的病态的位置。 本发明的实施例使得能够测量大得多的场。 这是通过将水箱从第一位置旋转到第二位置来实现的
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公开(公告)号:US20100176284A1
公开(公告)日:2010-07-15
申请号:US12630450
申请日:2009-12-03
Applicant: Daniel Navarro
Inventor: Daniel Navarro
CPC classification number: G01T1/169 , A61N5/1075 , A61N5/1083 , A61N2005/1076
Abstract: A radiation beam analyzer for measuring the distribution and intensity of radiation produced by a CyberKnife®. The analyzer employs a relative small tank of water into which a sensor is placed. The distance between the sensor and the radiation source is not varied. The tank of water is raised and lowered relative to the sensor to simulate the location of a malady within a patient's body. This movement of the tank permits the radiation from the CyberKnife® to be properly calibrated and adjusted for a proper treatment of a malady in a patient. In a second embodiment a radiation beam analyzer measures the distribution and intensity of radiation produced by a radiation source. The analyzer employs a relative small tank of water into which a sensor or detector is placed. The distance between the sensor and the radiation source is not varied. There are two methods to maintain the SAD (source to axis distance) constant. A first method maintains the position of detector fixed, utilizing a holder designed to retain the detector, and raises or lowers the small tank of water. A second method moves the detector up or down with a raising and lower mechanism in one direction and synchronically moves the small tank of water in the opposite direction with another raising and lowering mechanism. The second method also keeps the SAD constant. These methods position the detector relative to the radiation source to simulate the location of a malady within a patient's body. This movement of the tank permits the radiation from the radiation beam source to be properly isocentrically measured.
Abstract translation: 用于测量CyberKnife®产生的辐射分布和强度的辐射束分析仪。 分析仪采用相对较小的水箱,放置传感器。 传感器和辐射源之间的距离不变。 水罐相对于传感器升高和降低,以模拟患者身体内的病情位置。 坦克的这种运动允许CyberKnife®的辐射被适当地校准和调整,以适当地治疗患者的疾病。 在第二实施例中,辐射束分析仪测量由辐射源产生的辐射的分布和强度。 分析仪采用相对较小的水箱,放置传感器或探测器。 传感器和辐射源之间的距离不变。 保持SAD(源到轴距离)的方法有两种。 第一种方法是将检测器的位置保持固定,利用设计用于保持检测器的保持架,并提升或降低小水箱。 第二种方法是用一个升高和下降的机构在一个方向上上下移动检测器,同时使另一个升降机构沿相反方向移动小水箱。 第二种方法也保持SAD不变。 这些方法将检测器相对于辐射源定位,以模拟患者身体内的病态的位置。 罐的这种运动允许来自辐射束源的辐射被适当地等中测量。
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