초록 ▼

This invention refers to a compact monitoring system for firearms, including a detecting and tracking structure and a method for confirming ammunition has been discharged from said weapon, more specifically, to a weapon usage detecting and tracking device and a method that utilizes battery operated

This invention refers to a compact monitoring system for firearms, including a detecting and tracking structure and a method for confirming ammunition has been discharged from said weapon, more specifically, to a weapon usage detecting and tracking device and a method that utilizes battery operated microcontroller circuitry, and could be used in combination either with a load depletion process warning system which in turn comprises a method for signalizing the user of the depletion process using luminous indicators, and a time and date event recorder or in combination with both, sharing substantially the same structure. Provisions are made in the time recording structure to securely retrieve use information at a further date in a way that may include secure handshaking and a serial number.

대표청구항 ▼

What is claimed is: 1. On a weapon having a structure including components that engage in dynamic activity upon said weapon being operated and being of the type adapted to carry a load of ammunition, and following an automatic activity cycle of a duration typical to said weapon, discharge a round,

What is claimed is: 1. On a weapon having a structure including components that engage in dynamic activity upon said weapon being operated and being of the type adapted to carry a load of ammunition, and following an automatic activity cycle of a duration typical to said weapon, discharge a round, and successively reload a next round of ammunition from said load or remain in a hold open position when the discharged round was the last one from said load, a microprocessor based assembly, including a power source and provisions to store and run programs, and being enabled at least, to track weapon activity occurring within the typical duration of said weapon automatic cycles of operation, in combination with a piezoelectric detector, adequately adapted to said weapon as to generate electrical impulse sequences induced on said detector by dynamic events including structural shock, vibration, and abrupt changes in acceleration, substantially resulting from discharging a round and from chambering another, in which provisions are made such that, upon said piezoelectric detector detecting activity on said weapon, said microprocessor executes activities conducive to determine at least if said weapon was only discharged, or if it discharged and successively reloaded, by ascertaining if within the lapse of time substantially corresponding to the typical duration of an automatic cycle of operation on said weapon, and within the sequence of detected electrical impulses thusly generated, impulses reporting only a discharge, or impulses reporting a discharge, followed timely by others reporting the reloading of a new round were present, and in which, further provisions are made such that, said microprocessor based assembly executes thereon activities for tracking count of the discharge of ammunition on said weapon, including further provisions for tracking load discharge counts and for resetting a load discharge count to default for restarting tracking a new load count upon identifying the discharge of a round with no following reload. 2. The assembly of claim 1 in which said assembly is adapted to be responsive and to become enabled from a lower power wait state upon said weapon being operated, having further provisions to enable the automatic return of said assembly to said lower power wait state. 3. The assembly of claim 1 comprising control means provisions. 4. The assembly of claim 3, in which further provisions are made, as to allow modifying, selectively enabling, activating, recalling and altering presets, and still further resetting said assembly by utilizing a control means. 5. The assembly of claim 1 in combination with a switching device adapted to function as a movable weapon component status detector and a control means. 6. The assembly of claim 1 including more than one piezoelectric detector working cooperatively in an electrically unified structure as to generate an electrically higher combined event report. 7. The assembly of claim 1 in which a weapon operation event detecting means capable of detecting dynamic events occurring on said weapon characterized by abrupt inclination is used. 8. The assembly of claim 1 in combination with signal means provisions, including further provisions for activating said signal means. 9. The assembly of claim 8, in which said signal means is conformed by a visual display that displays a report following a pattern preset that is adapted to be indicative of the status of said load of ammunition, being said visual signal means disposed on said weapon in such manner that it provides to the user with a substantially visible reports related at least, to the status of said load of ammunition. 10. The assembly of claim 9, in which said signal means is built into a functional component of said weapon in such manner that it provides to the user with a substantially visible report in relation to the status of said load of ammunition while also performing as the component it replaced. 11. The assembly of claim 9 in which said visual report indicating pattern preset is customizable. 12. The assembly of claim 1 in which said assembly has non volatile data storage provisions. 13. The assembly of claim 1 in which said assembly has provisions for establishing and recording on said data storage provisions, a historical usage record including at least date and time information regarding said weapon discharge events. 14. The assembly of claim 12, in which provisions are made for embedding and retrieving of user traceable information. 15. The assembly of claim 12 in which said assembly has access provisions to retrieve previously recorded data. 16. The assembly of claim 12 in which said data storage provisions include security limiting means for accessing said stored data. 17. The assembly of claim 1, including removably adapted data access and control provisions. 18. The assembly of claim 1 including provisions to electrically modify said electrical impulse sequences generated by said piezoelectric detector. 19. The assembly of claim 18 having provisions enabling that said electrically modified electrical impulse sequences be subjected to cyclic routines intended to substantially eliminate the lower level electrical impulse portions contained within electrical impulse sequences generated by said piezoelectric detector. 20. The assembly of claim 1 in which said detector is adapted with vibration dampening provisions. 21. The assembly of claim 1 including tracking error management provisions of potentially detected spurious or anachronic events. 22. The assembly of claim 1 including provisions for storing and utilizing electrical impulse threshold level identification means presets. 23. The assembly of claim 1 including provisions for storing and utilizing weapon cycle and dynamic event timing presets. 24. The assembly of claim 1 including provisions for storing and utilizing electrical impulse duration presets. 25. The assembly of claim 1 including provisions for storing and utilizing presets for applying cyclic gating of lower level portions of the electrical impulses detected within an electrical pulse sequence generated by an activity cycle of said weapon. 26. The assembly of claim 1 including provisions for storing and utilizing presets for applying a level of synchronized cyclic neutralization to the lower level portions of the electrical impulses detected within an electrical pulse sequence generated by an activity cycle of said weapon, 27. The assembly of claim 1 including provisions for storing, recalling and selectively enabling at least one preset related to at least one microprocessor electrical impulse identification related activity. 28. The assembly of claim 1 including provisions to store and recall presets typical to more than one weapon. 29. The assembly of claim 8 including further provisions for storing and selectively enable digitally managed energizing pattern presets for energizing said signal display. 30. The assembly of claim 9 in which said visual display is luminous in nature. 31. The assembly of claim 30 in which said visual display comprises at least one LED device. 32. The assembly of claim 31 utilizing multicolored LEDs enabled to display a plurality of colors. 33. The assembly of claim 31 in which said visual display comprises a plurality of multicolor LED devices providing visual feedback to the user by becoming and remaining illuminated in an apparent steady state, whilst being energized utilizing a power saving illuminating pattern. 34. The assembly of claim 1 including a power source switching means. 35. The device of claim 1 in which provisions are made for identifying said weapon is operating in automatic mode, by establishing that the frequency of the higher level electrical impulses detected, closely corresponds to said weapon automatic rate of fire. 36. The assembly of claim 1 in which provisions are made to automatically reset a tracked count to default when chambering a new round manually. 37. On a weapon, having a structure including components that engage in dynamic activity upon said weapon being operated, and being of the type adapted to carry a load of ammunition, and following an automatic activity cycle of a duration typical to said weapon, discharge a round and successively reload a next round of ammunition from said load or remain in a hold open position when the discharged round was the last one from said load, a microprocessor based assembly, including a power source and provisions to store and run programs, being enabled at least, to track weapon activity occurring within the typical duration of said weapon automatic cycles of operation, in combination with piezoelectric detecting means, adequately adapted to said weapon as to generate electrical impulse sequences, induced on said detector, by dynamic events including structural shock, vibration, and abrupt changes in acceleration, substantially resulting from discharging a round and from chambering another, in which provisions are made such that, upon said piezoelectric detecting means detects activity on said weapon, said microprocessor executes activities conducive to determine at least if said weapon was only discharged, or if it discharged and successively reloaded, by ascertaining if within the lapse of time substantially corresponding to the typical duration of an automatic cycle of operation on said weapon, and within the sequence of detected electrical impulses thusly generated, impulses reporting only a discharge, or impulses reporting a discharge, followed timely by others reporting the reloading of a new round were present, and in which, further provisions are made such that, said microprocessor based assembly executes thereon activities for tracking count of the discharge of ammunition on said weapon, including further provisions for tracking load discharge counts and for resetting a load discharge count to default for restarting tracking a new load count upon identifying the discharge of a round with no following reload. 38. On a weapon, having a structure including components that engage in dynamic activity upon said weapon being operated, and being of the type adapted to carry a load of ammunition, and following an automatic activity cycle of a duration typical to said weapon, discharge a round and successively reload a next round of ammunition from said load or remain in a hold open position when the discharged round was the last one from said load, a microprocessor based assembly including a power source and provisions to store and run programs, and being enabled at least, to track weapon activity occurring within the typical duration of said weapon automatic cycles of operation, in combination with detecting means, adequately adapted to said weapon as to send electrical impulses to said microprocessor based assembly in substantial synchronicity with said weapon discharging a round and when chambering another, and in which, further provisions are made such that, upon said detecting means sends electrical impulses to said microprocessor based assembly, said microprocessor thereon tracks said electrical impulses and executes further activities conducive to determine at least if said weapon was only discharged, or if it discharged and successively reloaded, by ascertaining if within the lapse of time substantially corresponding to the typical duration of an automatic cycle of operation on said weapon, and within the sequence of the received electrical impulses, impulses reporting only a discharge, or impulses reporting a discharge followed timely by others reporting the reloading of a new round were present, and in which, further provisions are made such that, said microprocessor based assembly executes thereon activities for tracking count of the discharge of ammunition on said weapon, including further provisions for tracking load discharge counts and for resetting a load discharge count to default for restarting tracking a new load count upon identifying the discharge of a round with no following reload.