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公开(公告)号:US10907935B2
公开(公告)日:2021-02-02
申请号:US16056937
申请日:2018-08-07
申请人: Cubic Corporation
摘要: A weapon training system for an indirect firing weapon. The weapon training system includes a firing box including at least one processor, and a firing mechanism communicatively coupled with the firing box. Activation of the firing mechanism causes a simulated firing of the indirect firing weapon. The weapon training system also includes a round sensor communicatively coupled with the firing box. The round sensor is operable to be attached to or integrated with a round compatible with the weapon. The round is operable to be inserted into a breech of the weapon. The weapon training system further includes a breech sensor communicatively coupled with the firing box. The breech sensor is configured to detect an insertion of the round into the breech of the weapon via detection of the round sensor.
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公开(公告)号:US10690446B2
公开(公告)日:2020-06-23
申请号:US16430112
申请日:2019-06-03
申请人: Cubic Corporation
发明人: Steffen Reymann , Gavin Smith
IPC分类号: F41G3/30 , G01R33/07 , G01S19/13 , F42B8/20 , F42B30/10 , F42B30/12 , F41A33/00 , F41G1/50 , F41G3/26 , G01S5/00 , G01S19/18 , G01S19/49
摘要: A weapon training system including a magnetic sensor system is described. The magnetic sensor system is insertable into or integrated with a round of an indirect firing weapon and includes at least one magnetic sensor and a microcontroller communicatively coupled to the at least one magnetic sensor. The microcontroller is configured to perform operations including receiving at least one proximity signal from the at least one magnetic sensor indicating a proximity of at least one magnet of at least one charge to the at least one magnetic sensor, determining, based on the at least one proximity signal, that the at least one charge is removably attached to the round, generating an output signal indicating that the at least one charge is removably attached to the round, and wirelessly transmitting the output signal to an electronic device.
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公开(公告)号:US6068483A
公开(公告)日:2000-05-30
申请号:US272995
申请日:1999-03-20
申请人: Fidel Nikita Minor
发明人: Fidel Nikita Minor
CPC分类号: F41G3/30
摘要: A simulated firearm sight alignment system designed to teach a person, without the actual use of a firearm, to accurately manually align the sights of any firearm having front and rear open firearm sights or front and rear peep firearm sights. The system uses a simulated firearm sight tool that operates in two modes: simulated peep firearm sight mode and simulated open firearm sight mode. The simulated peep firearm sight mode is acquired when the simulated firearm sight tool has the simulated front peep firearm sight attachment tenon attached to its barrel's front "T" shaped mortise and the simulated rear peep firearm attachment tenon attached to its rear "T" shaped mortise simultaneously. The simulated open firearm sight mode is acquired when the simulated front open firearm sight attachment tenon is attached to the barrel's front "T" shaped mortis and the simulated rear open firearm sight attachment tenon is attached to the barrel's rear "T" shaped mortise simultaneously. The simulated firearm sight tool is held in the hand by grasping the stock attachment, which is attached to the barrel by sliding the longitudinal "T" shaped post into the semi-longitudinal "T" shaped dock located on the bottom side of the barrel. Then, after inserting the mini-target into the mini-target holder and positioning the mini-target holder with inserted mini-target approximately five to ten feet and at eye level directly in front of the simulated firearm sight tool user, the simulated firearm sight tool is lifted to the open left or right eye wherein the simulated front and rear firearm sights are positioned to create simulated firearm sight alignment. While maintaining simulated firearm sight alignment, the clearly focused simulated front sight post is aimed at and positioned onto the proper point of impact on the mini-target, creating a simulated firearm sight picture.
摘要翻译: 一个模拟的枪支视线对准系统,用于教导一个人,无需实际使用火器,准确地手动对准具有前后开放式枪械瞄准具或前后枪支瞄准具的枪支瞄准具。 该系统采用模拟火器瞄准器,模拟枪支瞄准模式和模拟开火枪瞄准模式。 当模拟火器瞄准具具有模拟的前窥视枪附件榫附在其枪管的“T”形榫眼上时,模拟后视器枪附件榫附在其后方的“T”型榫眼上 同时。 模拟的开枪式瞄枪模式是将模拟的前开式枪支瞄准器附接在枪管前面的“T”形榫头上并且模拟的后开式枪械瞄准器附件榫头同时连接到枪管的“T”型榫眼上。 通过抓住通过将纵向“T”形的柱子滑入位于筒体底部的半纵向“T”形底座上的附件,将模拟的枪械瞄准器夹在手中。 然后,在将迷你目标物插入小目标支架之后,将插入的小目标的小目标支架定位在模拟枪械瞄准具用户的正前方的大约五到十英尺处,并且在目视水平处,将模拟的枪支瞄准器 工具被提升到左侧或右侧开放,其中模拟的前部和后部火器瞄准器被定位成产生模拟的枪械瞄准器对准。 在保持模拟枪支视线对准的同时,明确集中的模拟前视瞄准瞄准瞄准并定位在小目标上的适当的撞击点上,形成一个模拟的火器瞄准镜。
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4.发明授权公开(公告)号:US11442555B2
公开(公告)日:2022-09-13
申请号:US16940891
申请日:2020-07-28
申请人: Christopher Chambers
发明人: Christopher Chambers
摘要: The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.
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公开(公告)号:US20180364007A1
公开(公告)日:2018-12-20
申请号:US16056937
申请日:2018-08-07
申请人: Cubic Corporation
摘要: A weapon training system for an indirect firing weapon. The weapon training system includes a firing box including at least one processor, and a firing mechanism communicatively coupled with the firing box. Activation of the firing mechanism causes a simulated firing of the indirect firing weapon. The weapon training system also includes a round sensor communicatively coupled with the firing box. The round sensor is operable to be attached to or integrated with a round compatible with the weapon. The round is operable to be inserted into a breech of the weapon. The weapon training system further includes a breech sensor communicatively coupled with the firing box. The breech sensor is configured to detect an insertion of the round into the breech of the weapon via detection of the round sensor.
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公开(公告)号:US20180364006A1
公开(公告)日:2018-12-20
申请号:US15903558
申请日:2018-02-23
申请人: Cubic Corporation
发明人: Steffen Reymann , Gavin Smith
CPC分类号: F41G3/30 , F41A33/00 , F41G1/50 , F41G3/26 , F42B8/20 , F42B30/10 , F42B30/12 , G01R33/072 , G01S5/0027 , G01S19/13 , G01S19/18 , G01S19/49
摘要: A weapon training system including a magnetic sensor system is described. The magnetic sensor system is insertable into or integrated with a round of an indirect firing weapon and includes at least one magnetic sensor and a microcontroller communicatively coupled to the at least one magnetic sensor. The microcontroller is configured to perform operations including receiving at least one proximity signal from the at least one magnetic sensor indicating a proximity of at least one magnet of at least one charge to the at least one magnetic sensor, determining, based on the at least one proximity signal, that the at least one charge is removably attached to the round, generating an output signal indicating that the at least one charge is removably attached to the round, and wirelessly transmitting the output signal to an electronic device.
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公开(公告)号:US20240011742A1
公开(公告)日:2024-01-11
申请号:US18212164
申请日:2023-06-20
申请人: Kendyl A. Roman , John Livacich
发明人: Kendyl A. Roman , John Livacich
CPC分类号: F41G3/30 , F41G3/08 , F41G3/2611 , F41G3/065
摘要: A turret display device is used for rapidly zeroing a riflescope. The turrets on an improved riflescope provide a turret position signal. A display of the turret display device comprises turret display cross hairs displayed relative to a target icon. When the turret display device receives a turret position signal, turret display cross hairs move to show the relative movement as indicated by the received turret position signal. When a distance is processed by the turret display device, the turret display cross hairs move to show an aiming point relative to a target icon based on the current zero of the riflescope. A computing element captures a first image and later captures a second image and compares the two images to determine a change. In some embodiments the change is used to automatically zero the riflescope. In some embodiments the change and the range is used to automatically determine an aiming point. The change is used to automatically determine wind In some embodiments the turret display device is integrated into a hand held rangefinder, smart phone, or riflescope. A riflescope having turrets which each provide a turret position signal.
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公开(公告)号:US10725559B2
公开(公告)日:2020-07-28
申请号:US15962751
申请日:2018-04-25
摘要: The present invention provides devices, methods and systems for use with interactive equipment in a simulated or augmented environment, or in real world operations. The inventive devices, methods and systems allow for interactive operation equipment in a virtual or augmented reality environment while eliminating virtual drift of the operational equipment. The present invention further eliminates the need to reset a simulated environment to accommodate swapping out equipment, allowing a seamless simulation to provide an optimal virtual training environment. Finally, the present invention provides for a highly accurate operational equipment to be used in a virtual or augmented environment allowing for optimal training, while minimizing down time.
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公开(公告)号:US20190285384A1
公开(公告)日:2019-09-19
申请号:US16430112
申请日:2019-06-03
申请人: Cubic Corporation
发明人: Steffen Reymann , Gavin Smith
IPC分类号: F41G3/30 , F42B8/20 , G01R33/07 , G01S19/13 , F41G3/26 , F41A33/00 , G01S19/18 , F42B30/12 , F42B30/10 , G01S5/00 , G01S19/49
摘要: A weapon training system including a magnetic sensor system is described. The magnetic sensor system is insertable into or integrated with a round of an indirect firing weapon and includes at least one magnetic sensor and a microcontroller communicatively coupled to the at least one magnetic sensor. The microcontroller is configured to perform operations including receiving at least one proximity signal from the at least one magnetic sensor indicating a proximity of at least one magnet of at least one charge to the at least one magnetic sensor, determining, based on the at least one proximity signal, that the at least one charge is removably attached to the round, generating an output signal indicating that the at least one charge is removably attached to the round, and wirelessly transmitting the output signal to an electronic device.
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公开(公告)号:US4698489A
公开(公告)日:1987-10-06
申请号:US798535
申请日:1985-11-15
申请人: Charles W. R. Hickin , Gene Tye
发明人: Charles W. R. Hickin , Gene Tye
摘要: A boresight correction system is disclosed that determines the existing error between an aircraft gunsight and its gun systems while prescribed aircraft maneuvers are performed and which automatically corrects the gunsight system to compensate for this error. The system includes a sensor for detecting bullet positions, hardware that determines the bullet positions relative to the gun boresight, a digital processor to determine the above mentioned error, and to correct the gunsight system according to this error, and a non-volatile memory in the digital processor to store a corrected boresight position.
摘要翻译: 公开了一种视轴校正系统,其确定在执行规定的飞行器操纵时飞机瞄准镜与其枪系统之间的现有误差,并且自动校正瞄准系统以补偿该误差。 该系统包括用于检测子弹位置的传感器,确定相对于枪视线的子弹位置的硬件,用于确定上述错误的数字处理器,以及根据该错误来校正瞄准系统;以及非易失性存储器 数字处理器存储校正的视轴位置。
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