公开(公告)号：US20060283431A1

公开(公告)日：2006-12-21

申请号：US11343836

申请日：2006-01-31

申请人： David Lee ,  Karsten Isaacson

发明人： David Lee ,  Karsten Isaacson

IPC分类号： F41F1/00

CPC分类号： F41B11/55 ,  F41A9/30 ,  F41A9/31 ,  F41B11/62 ,  F42B6/10 ,  F42B12/40 ,  F42B12/46 ,  F42B39/082 ,  F42B39/087

摘要： A non-lethal projectile belt and feeding apparatus for improving prior art components of a non-lethal projectile launch system including the non-lethal projectiles and the non-lethal projectile feeding apparatus that are, when used in conjunction, mechanically deterministic, jam-free, gravitationally independent, cost efficient, while achieving a higher accuracy, a longer effective range, a feed rate not limited by gravity and maintaining a high capacity. These non-lethal projectiles are made of non-spherical and elongated outer shells 20 with tailfins 22 and index holes 21. The projectiles are either filled with an application-specific liquid or a powdered substance 29. In a paintball application, the shell is usually made of gelatin, filled with a water-based dye. The shell 20, index holes 21 and tailfins 22 are held together by a tape 27 with perforations 26 that define the boundaries between successions of the non-lethal projectile units. When the shell 20 is made of gelatin, the tape 27 may be made of the extra material that would otherwise be cut away during the manufacturing process of conventional unconnected non-lethal projectiles. In the desired embodiment, some material is retained for the tape 27 that holds the non-lethal projectiles together.

摘要翻译： 一种用于改进非致死性射弹发射系统的现有技术部件的非致命射弹带和馈送装置，包括非致死射弹和非致命射弹馈送装置，当联合使用时，机械地确定性，无干扰 ，重力独立，成本效益高，同时实现更高的精度，更长的有效范围，不受重力限制的进料速率和保持高容量。 这些非致命弹丸由具有尾料22和分度孔21的非球形和细长的外壳20制成。抛射体填充有特定应用液体或粉末物质29.在彩弹球应用中，外壳通常 由明胶制成，充满水性染料。 壳体20，分度孔21和尾料22通过具有限定非致死射弹单元的相继之间边界的穿孔26的带27保持在一起。 当壳体20由明胶制成时，胶带27可以由在传统的未连接的非致命射弹的制造过程中被切除的额外材料制成。 在所需的实施例中，为将非致死射弹保持在一起的带27保留一些材料。

公开(公告)号：US20130321197A1

公开(公告)日：2013-12-05

申请号：US13486727

申请日：2012-06-01

申请人： Eric C. Klingler ,  Karsten Isaacson

发明人： Eric C. Klingler ,  Karsten Isaacson

IPC分类号： G01S7/40

CPC分类号： G01S13/953 ,  G01D5/24452 ,  G01D18/00 ,  G01S7/4026 ,  Y02A90/18

摘要： A method of calibrating antenna-position detection associated with a radar system, the radar system including a first gimbal and a first angle sensor configured to detect an angular position of the first gimbal, includes mounting a second angle sensor to the first gimbal configured to detect an angular position of the first gimbal. The first gimbal is rotated through each angular position of a set of the angular positions. A first set of data is generated with the first angle sensor that characterizes a detected angular position of the first gimbal. A second set of data is generated with the second angle sensor that characterizes a detected angular position of the first gimbal. A third data set is determined comprising differences, between the first and second data sets, in detected angular position at each first-gimbal angular position. The third data set is stored in a memory device.

摘要翻译： 一种校准与雷达系统相关联的天线位置检测的方法，所述雷达系统包括被配置为检测第一万向架的角位置的第一万向架和第一角度传感器，包括将第二角度传感器安装到所述第一万向架中，所述第一万向架被配置为检测 第一个万向节的角位置。 第一个万向节通过一组角度位置的每个角位置旋转。 利用第一角度传感器产生第一组数据，其表征检测到的第一万向架的角位置。 利用第二角度传感器产生第二组数据，其表征检测到的第一万向节的角位置。 确定第三数据集，其包括在第一和第二数据组之间在每个第一万向节角度位置处的检测到的角位置中的差异。 第三数据集存储在存储装置中。

公开(公告)号：US08816901B2

公开(公告)日：2014-08-26

申请号：US13486727

申请日：2012-06-01

申请人： Eric C. Klinger ,  Karsten Isaacson

发明人： Eric C. Klinger ,  Karsten Isaacson

IPC分类号： G01S13/00 ,  G01S7/40

CPC分类号： G01S13/953 ,  G01D5/24452 ,  G01D18/00 ,  G01S7/4026 ,  Y02A90/18

摘要： A method of calibrating antenna-position detection associated with a radar system, the radar system including a first gimbal and a first angle sensor configured to detect an angular position of the first gimbal, includes mounting a second angle sensor to the first gimbal configured to detect an angular position of the first gimbal. The first gimbal is rotated through each angular position of a set of the angular positions. A first set of data is generated with the first angle sensor that characterizes a detected angular position of the first gimbal. A second set of data is generated with the second angle sensor that characterizes a detected angular position of the first gimbal. A third data set is determined comprising differences, between the first and second data sets, in detected angular position at each first-gimbal angular position. The third data set is stored in a memory device.

摘要翻译： 一种校准与雷达系统相关联的天线位置检测的方法，所述雷达系统包括被配置为检测第一万向架的角位置的第一万向架和第一角度传感器，包括将第二角度传感器安装到所述第一万向架，其被配置为检测 第一个万向节的角位置。 第一个万向节通过一组角度位置的每个角位置旋转。 利用第一角度传感器产生第一组数据，其表征检测到的第一万向架的角位置。 利用第二角度传感器产生第二组数据，其表征检测到的第一万向节的角位置。 确定第三数据集，其包括在第一和第二数据组之间在每个第一万向节角度位置处的检测到的角位置中的差异。 第三数据集存储在存储装置中。