Integrated safety apparatus and dynamic protection zone system

A technology for locking systems and shooting areas, applied to safety devices, offensive equipment, weapon accessories, etc., can solve the problems of casualties, lives, losses, etc.

Pending Publication Date: 2022-01-04
412 TECH INC
6 Cites 0 Cited by

AI-Extracted Technical Summary

Problems solved by technology

Unfortunately, in a given incident, shooters with powerful firearms are often able to fire quickly and with ...
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Method used

[0050] In another implementation, the transmitter/receiver 130a communicates directly with a communication transponder/receiver (eg, communication transponder/r...
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Abstract

Methods, systems, and apparatuses for activating an on-firearm locking system of a firearm in a firearm safety apparatus and a dynamic variable protection system. A determination may be made that a firearm with an on-firearm locking system is within a predetermined distance of a target affixed with a transmitter/receiver safety device. The firearm may be tracked while the firearm is within the predetermined distance of the target. A no-shoot arc for the firearm may be calculated for the firearm and a command may be sent to activate the on-firearm locking system of the firearm when the firearm is within a no-shoot zone surrounding the target to prevent the firearm from being fired into the no-shoot zone.

Application Domain

Safety arrangement

Technology Topic

Real-time computingElectrical and Electronics engineering +1

Image

  • Integrated safety apparatus and dynamic protection zone system
  • Integrated safety apparatus and dynamic protection zone system
  • Integrated safety apparatus and dynamic protection zone system

Examples

  • Experimental program(1)

Example Embodiment

[0046] The present specification generally describes a firearm safety device and a dynamically variable protection system, it may disable firearms discretely located within a distance closer to the target, for example, the target relative unprotected or vulnerable persons, the communication device cluster, vehicles, structures or recreational activities.
[0047] figure 1 Shows an example of firearm safety device and the protection system 100 dynamically variable. The system 100 includes a fixed transmitter / receiver device 130a of the target 101. Target 101 can be any specified target, such as schools, hospitals, government facilities, parade or convoy routes, vehicles, aircraft, vessels or recreational activities. In some cases, the target 101 may even be a cluster or communication devices.
[0048] In one implementation, the transmitter / receiver device 130a may include a geographic locator 101 provides target position. In another implementation, the geographic locator may be / receiver 130a transmits an independent geographic positioning device information to the transmitter.
[0049] The transmitter / receiver device 130a may be permanently or temporarily fixed to the target 101. The transmitter / receiver device 130a and geolocation other devices in communication with the target to help identify the approximate position 101, the locking system for a firearm and can be calculated using the gun 106 may be provided with active or shooter 105 and the target 101 relative orientation between. The transmitter / receiver device 130a may have a connection to the GPS satellites 102 120, may be connected to the mobile communication device 107 includes a connector 131 with a transmitter / receiver cell broadcast 130c utility tower 104 or 116. These connections may be wired or wireless, and may be direct or via a network.
[0050] In another implementation, the transmitter / receiver 130a communicate directly with a transponder / receiver on the micro card within firearms (e.g. image 3 Communication transponder / receiver 312) to communicate. The wireless communication may be used (e.g. via WiFi, RFD, NFC, or Bluetooth) to facilitate communication.
[0051] like figure 1 , The exemplary firearm safety device and the protection system 100 comprises a dynamic variable firearms distress and insurance system (FDSS) 103. Firearms distress and safety system 103 includes one or more memory components, memory components which keep firearms registration file locking system on each gun equipped with 106. Each registration file contains information on specific firearms and firearm registered owner, such as the best and variable ammunition bullets special issue of the owner of the owner's name, address of the owner, reports, type of firearms, firearm and cross-loading firearms and ammunition projectile muzzle velocity range, as well as other firearms owned by the owner of a specific reference. Registration files can be converted in to buy guns or firearms have created when the locking system on the gun, and can be updated when a firearm is transferred or sold to a new owner. Because of firearms distress and safety system 103 includes the information, firearms distress and safety system 103 can easily provide information to law enforcement officers, emergency personnel or other need to know something about the identity of potential or active shooter, location or other information. Belonging to the communication device needs to know things on firearm owner information (e.g., mobile communication device 107) may be connected to firearms distress and insurance system 103 and obtain information regarding a specific target 101 from the near distance within firearms. Firearms distress and safety system 103 may also contain information about the active shooter associated with one or more firearms. In one implementation, firearms distress and safety system is a dynamic system that will send information to the target at or near or even monitor the authorized security personnel away from the goal. Firearms and insurance distress wireless or wired communication systems transmit and receive information may be used.
[0052] Firearms distress and insurance system 103 may further comprise at least one variable programmable data unit, which generates a transmitter to the target 101 / receivers 130a and 106 to close the pre-firearms having a locking system on the gun at the target within a distance of 101 programming or manually input commands.
[0053] Firearms distress and insurance system 103 using the connection 140 to the transmitter / receiver device 130a communicate. Firearms distress and insurance system 103 comprises calculating at least one receiving / transmitting device 103b, which via a communication link 150 with a GPS satellite 102, via connection 114 with the mobile communication device 107 communicate via connection 104 communicate 132 with a cell broadcast utility towers, or. These connections may be wired or wireless, and may be direct or via a network.
[0054] Command variable programmable data unit may include the use of the date, time of day in diameter, and target duration 101 as the center of the shot is prohibited in one or more prohibited to specify the command of the shot. Prohibit a shot may be defined by two regions, i.e., to target a particular location or position of the center of the non-operation of the shot 112, as well as a ring around the arms of each particular location or position of a specific non-operation of the shot 112 variable prohibit penetration region 110.
[0055] Firearms distress and insurance system 103 generates commands may include a command to enable the locking means to lock the gun system on the locking device locking system on the gun to the gun 106 and the gun 106 is disabled.
[0056] Firearms distress and insurance system 103 may also track via cell phones and smart device communication, wireless communication, or geographic data. The system may send a text or voice message with instructions to the security and evacuation equipment holder. For example, the system can provide information no longer exists or shelter in place proactive threat to the device. Information about the case can be updated regularly to provide details of the current position and the active shooter situation is.
[0057] Firearms distress and safety system 103 can also be programmed to recognize a given density of a particular mobile phone or smart device users within the geographic area. The system can also track mobile phones and smart devices within a geographical area to the density of the pattern identified as the target, creating a shooting non-operating zone around the mobile phone and smart device users of the cluster. By allowing the person (user or device) becomes the target density, the system can focus on the development of the population (such as concerts or festivals or spectators crowd the traffic area outdoor concert) time goal.
[0058] Alternatively, pre-programmed or manually input commands may be generated by target 101 and the relay 106 to firearms, firearms distress and safety system 103 and the relay to the ban over the shot gun having a proximity distance in the locking system. These commands can be entered by a target located at or away from the target person. In some implementations, law enforcement officers can enter commands. In some implementations, the command can be pre-programmed at the destination or remote to set the time (for example, class time during the school year Monday to Friday) during the year to set the date of the day open on and off.
[0059] 112 non-operating variable is considered to be a shot shooting prohibited area, and the variable region 110 prohibits the penetration region is considered as pointing to the direction of the barrel in the shooting target 101 is prohibited when the arc firearms inoperable.
[0060] A firearm for a particular variable transmissive region 110 is prohibited by increasing a distance of a predetermined non-operation of the shot 112 to build. Operating system from the center of the non-shooting region 112 outwardly increases the distance that is based on the most powerful of firearms ammunition loading brand, firearms, the firing range of the maximum loading of ammunition, and represents the maximum amount of ammunition loading additional firing range fixed percentage calculation safety margin. Firearms distress and safety system 103 may include a database, which range from keeping each type of ammunition for each weapon brands and models of weapons. This information may be based on published manufacturer specifications referenced and cross-brand and model specific weapons, to determine the range and the range of additional safety margin the most powerful ammunition and projectiles that particular weapon.
[0061] Any particular bullet effective range (i.e. distance traveled) it can be expressed as early or initial velocity of projectile energy function. For example, if the system will be identified as firearms Colt 45 pistol, the database will indicate the most powerful of the firearm and ammunition is shooting distance of about 2,000 feet (ft) cartridges. If the 40% safety margin the maximum firing range of about ammunition loading, it is determined in the non-operation of the variable region other than 112 fire penetration radius prohibition region 110 is 2,000 feet, 2,000 feet by taking with the 40% calculated to determine the variable prohibited firearms transmissive region 110. in addition 800 feet.
[0062] In the non-operation area 112, in addition to the authorized weapons, no weapons work in any direction. Particular firearms, such as pistols Colt 45, does not prohibit the outer periphery of the transmissive region 110 from that particular firearm particular variable prohibits the start of the arc firing.
[0063] In some implementations, some of the weapons may be authorized to work in the non-operating area 112. However, if authorized by malicious shooter requisitioned weapons or weapons have been authorized to use rogue authorized user, the weapon system can be disabled. When firearms distress and safety system notified weapons have been expropriated, for example, when the attackers stole weapons from law enforcement agencies, the system may be previously authorized firearms regarded as unauthorized firearms. Then the firearm or in a non-operating section 112 prohibits the penetration region 110 will be established for prohibiting firing firearms arc inoperable.
[0064] like figure 1 , The mobile communication device 107 may receive device 130a and / or 103 communicate via connection 116 to the target 101 transmitter / via connection 114 firearms distress and safety systems. The mobile communication device 107, such as a vehicle, a smart phone or a laptop computer, can help establish the geolocation of the target 101 firearms having a locking system 106 of the gun within a close distance. Firearm safety device and a dynamically variable protection system 100 can use 102, 124 is connected to the cell via a broadcast utility tower 104, and via the communication connection between the mobile communication device 107,154, and 128 are connected by locking firearms from the GPS satellite system location information (ie, flux gate compass readings of a firearm) to establish and maintain close to the target of 101 firearms have a locking system on the gun geopositioning 106. The system 100 may in firearms distress and safety system 103 and / or position and track record of firearms, as well as law enforcement, emergency personnel and security personnel location, and delivered to mobile phones and smart devices in the target 101 and instruction information and mobile phone location intelligence apparatus, for archival or forensic purposes.
[0065] figure 2 It is a flowchart illustrating an example process for locking systems on the firearm gun firearm safety device and a dynamically variable protection system 200 to activate. For convenience, process 200 will be described as being located at one or more locations and performing system according to the present specification as appropriate one or more programmed computers. For example, a suitably programmed dynamically variable firearm safety device and protection system (e.g. figure 1 The firearm safety device and a dynamically variable protection system 100) may perform process 200.
[0066]Determining firearms having a locking system by means of the gun is fixed in a predetermined target distance transmitter / receiver safety device 202 to begin the activation process. When firearms object within a predetermined distance, the tracking system of firearms, including tracking the location of firearms, firearms of the type and owner of the firearm and 204. The system also determines whether the gun muzzle in the opposite orientation to the target 206, i.e. the target point. This determination may be automatic and continuous, using a computerized conventional fixed relative orientation calculation, rules imposed short nanosecond intervals were calculated and recalculated in these calculations muzzle guns, firearms, such as a flux gate compass in compass heading or azimuth determined. The system of firearms ammunition by determining the maximum range of the projectile and a predetermined safety margin to calculate the range for the diameter of the guard ring 208 target. The maximum range of the most powerful ammunition firearms records in a dynamic and changing prohibiting shooting outside the protected area of ​​the protection ring diameter equal to or greater than firearms distress and safety system. The safety margin can be predetermined range of firearms and insurance systems distress preprogrammed and stored. In some implementations, firearms distress and safety system programmers can determine the percentage safety margin specified for a particular weapon manufacturers the most powerful weapons and ammunition. Thus, the safety margin can be anywhere between 0% and ordnance range of 100%.
[0067] The system also calculates the dynamic and the preset arc shooting is prohibited radians safety margin on each side of the relative orientation of the gun muzzle change 210. The core arc is an active shooter in the center of the arc of a circle arc generated therefrom. The arc comprising an arc target 101 within the core. In some implementations, the system will degrees / minutes / seconds margin of safety (e.g., predetermined or dynamically determined percentage of the core arc) arc added to the core, the core to extend in an arc on each side of the arc. Safety margin may be between 0 and 360 arc degrees / minutes / seconds, i.e., over 360 degrees of arc, the active weapon will not operate in any orientation.
[0068] When the shot area disposed in the prohibition of firearms, such as prohibition of the guard ring and having a diameter calculated shot arc around the target determined, the system will send a command to the locking system on the gun to the gun to activate the locking means, thereby preventing the shot firearm to prohibit 212 fire.
[0069] image 3 Illustrate a locking system 300 of the microcircuit card / board for the gun. The locking system 300 includes a power supply 310 to the gun. Power source 310 may be a replaceable battery or a step-down transformer 314 and the optional rechargeable power source coupled to the other (if it does not have a charging device having a rechargeable power supply port 316 (e.g., USB port power) integrated step-down transformer ). The locking system 300 includes a central processing unit (CPU) 308. CPU 304, power supply 310 and data input port 318 receives information from the communication transponder / receiver 312, a flux gate compass. CPU data is then applied to a set of programmed rules within the CPU. A set of rules may indicate that the processor 302 or switching engagement Insurance enable / disable switch 330 when the drops below a predetermined percentage (e.g., 10% capacity) of the storage capacity of the power source 310 in case of power interruption. Another set of rules can tell the CPU sends it receives from other units and the monitoring information to the memory device 306 to maintain operation of the activity history. A further set of rules can allow a CPU to draw pre-programmed in the CPU or the information memory device 306, 103 or distress and insurance information downloaded to weapons systems by firearms, and then determines the information to another process by the CPU of the other rules. CPU can also be programmed to transmit information in real time, or flux gate 304 to memory components 306 and insurance system 103 firearms distress. When the communication transponder / receiver 312 receives the disable or enable the edge of the variable transmissive region 110 is prohibited and the signal within a prohibited weapon firing arcs, or when the movable arms in the variable region 110 is prohibited penetration addition prohibition or not a fire within the arc, CPU processor may engage a switch and safety switch is enabled. The locking system 300 also includes receiving a command to disable or enable the transponder communication device on the gun lock / receiver 312. Transponder / receiver may include an integrated antenna. In some implementations, the locking system on the gun distress and safety system 103 or target 101 receives the commands from the guns. The locking system further comprises a memory device on the gun 306. The system 300 further comprises a flux gate compass 304 for determining position information associated with firearms. CPU 302 sends a command to the switch processor to activate or deactivate the locking means on the gun. The system 300 further comprises a remote trigger safety switch on the switch processor 302 and a conventional firearm gun near the manual safety switch hardwired or wireless connection between 330 320.
[0070] In a preferred embodiment, in addition to hard-wired or wireless connections 320 and insurance enable / disable all components other than the switch 330 are miniaturized and mounted on the circuit card / board, the circuit cards / boards can be installed as original equipment member integrated into the gun butt, butt or pistol grip cap in. image 3 A circuit board can be made small enough to fit into the receiving arms of the handle or grip. Alternatively, the circuit card / board as aftermarket / retro modified member to be included firearm butt, the butt of a pistol grip or the cap, for example, a pistol grip cover pistol grip or to firearms replace pistol grip.
[0071] Hard-wired or wireless connection between the processor and a remote trigger safety switch near the conventional switch gun manual safety switch can be mounted inside and close to traditional firearms gun manual safety switch, such that when the remote switch trigger safety engaged, prevent or pin bolt gun is activated to prevent the manual safety switch is released. If the gun safety switch in the "off (OFF)" and the position of the hammer in firearms, the trigger is active, then when the remote switch trigger safety engaged, the gun manual safety switch is slid to engage and "open (ON)" position, such that firearms inoperable.
[0072] To prevent firearms locking system failure, the system is pre-programmed into the system when locking a firearm can not unlock the lock mode has been tampered with or attempt to remove the system. In one implementation, if the power is cut off or drastically change the system to make weapons inoperable. In another implementation, if the power supply drops below a predetermined storage capacity, for example, if the locking system on the gun with 10% or less of full battery charge, so that the system can not operate firearms.
[0073] Figure 4A Shows a locking system on the gun on the gun embodiment the locking means, the locking means when the gun from which image 3 Insurance Enable / disable switch is enabled when receiving the activation command. In this version, you may be irregularly shaped (i.e., rectangular, triangular, or the eccentric disk) of a cam fixed to the motor shaft. The system may be rotated so that the locking cam pin safety mechanism. exist Figure 4A Communication on the communication device, the miniature motor 401 is connected to a wired or wireless communication device 402, the communication device 402 with a locking system (e.g., the locking system 300) of the CPU. Micromotor 401 is further connected to power supply 403, power supply 403 is connected to the CPU or an independent power supply. Irregularly shaped cam is fixed on the rotor shaft of the motor 404, such as triangular cam 405, the cam 406 of rectangular, circular or elliptical or eccentric cam 407. When the cam is rotated, system safety pin locking mechanism, thus not emitting firearms. When the received signal 401 micromotor guns enabled, and the motor 401 rotates the cam to unlock the firearm to enable the use of firearms.
[0074] Figure 4b Shows a second embodiment of the locking means of the locking system on Guns, when the locking means from its gun image 3 Insurance Enable / disable switch is enabled when receiving the activation command. In such a batch pin / ratchet / pawl version, disk flywheel or the like may be fixed to the motor shaft, and an eccentric pin or locking mechanism to move the piston against the arms of the pin (e.g., a cam) position. Intermittent pin / ratchet / pawl or crank may be in the form of a toothed cam 408, which is fixed to the micromotor 401 or by another toothed gear plate 409 engages the cam 408, the piston or pin 411 on the other gear plate 409 and offset mounting pawl / ratchet gear to prevent the gear 410 in place once it is inverted. This configuration allows the system to convert the circular motion of the miniature motor rotor is horizontal or vertical angular movement of the piston of the vertical or horizontal movement of the piston with the cam close to a similar manner to a common way to move the locking pin the locking pin. When the safety is released to the "off" position, the pawl / ratchet is released. When engaged, in one implementation, the trigger guard to prevent the locking pin is released, thereby disabling the trigger. In another implementation, the locking pin prevents the striker engage against explosives. In yet another implementation, the locking pin prevents the pin falling drop barrel block disengaged.
[0075] use Figure 4A or Figure 4b Of either version, a cam or a flywheel / discs are mounted on a miniature motor rotor to actuate the locking pin abuts against the striker or trigger safety mechanism to prevent it from moving against the explosive, or to prevent falling blocks thereby preventing the striker shaft is fixed to the distal end of the pin engages drop to the operating position.
[0076] In another implementation, a miniature motor comprising a housing engaging a threaded pin or bolt, the threaded pin or bolt elongation unscrewed and thus against the striker, the trigger stop pin or pin to prevent the pin disengaged.
[0077] Figure 4C It shows a possible position on gun insurance. 420 422 barrel weapons, including firing pin, safety pin to prevent the pin 423 and locking mechanism 424, for example, Figure 4A or Figure 4b One of the locking mechanism. In this implementation, when the locking mechanism 424 engaged (or disengaged), to prevent the striker pin 423 projecting into the path 422 to prevent (or enable) the striker.
[0078] Figure 4D Shows an alternative safety gun position. In this implementation, to ensure that the locking mechanism 424 engages stop pin 423 prevents the trigger finger shields 428 to disable / enable the trigger fingers 427.
[0079] Figure 4e Shows a further alternative insurance gun position. In this implementation, to ensure that the locking mechanism 424 engages stop pin 423 or hammer weight plate 426 to prevent (or permit) projection hammer or hammer striking plate explosives.
[0080] Embodiments of the subject matter and the functional operations described in this specification may be, in computer software, or firmware tangibly embodied in a computer implemented in hardware (including the structures disclosed in this specification and their structural equivalents) in digital electronic circuitry , or a combination thereof of one or more of them. Embodiments of the subject matter described in this specification can be implemented as one or more computer programs, i.e., encoded on a tangible, non-transitory storage medium for performing the operations by the data processing apparatus or a control apparatus of a data processing computer program instructions one or more modules. The computer storage medium can be a machine-readable storage device, a machine-readable storage substrate, a random or serial access memory device, or a plurality thereof or a combination thereof. Alternatively or additionally, the program instructions may be encoded on an artificially generated propagated signal, for example, a machine-generated electrical, optical, or electromagnetic signal, which is generated suitable receiver means to encode information for transmission to the for data processing apparatus.
[0081] The term "data processing apparatus" refers to a data processing hardware and encompasses a variety of means, devices, and machines for processing data, for example, a programmable processor, a computer, or multiple processors or computers. The device may also be or further include special purpose logic circuitry, eg, an FPGA (field programmable gate array) or an ASIC (application specific integrated circuit). In addition to the hardware, the device may also optionally include a code that creates an execution environment for the computer program, e.g., code that constitutes processor firmware, a protocol stack, a database management system codes, an operating system or a combination thereof of one or more of .
[0082]A computer program (also may be referred to or described as a program, software, software applications, applications, modules, software modules, script, or code) can be in any form of programming language, including compiled or interpreted languages, or declarative or procedural language; and the computer program can be deployed in any form, including as a standalone program or as a module, component, subroutine, or other unit suitable for use in deploying a computing environment. But the program may not necessarily correspond to a file in the file system. Program can be stored in a portion of other programs or data stored (e.g., in the markup language document, one or more scripts stored) in the file, in a single file dedicated to the program-related, or in multiple coordinated files (e.g., store one or more modules, sub programs, or portions of code file). The computer program can be deployed to be executed on one computer and to be executed at a site located, or distributed across multiple sites and interconnected by a data communications network of multiple computers.
[0083] Processes and logic flows described in this specification may be one or more programmable computer to perform the programmable computer to perform one or more computer program by input data and generating output operation to perform functions. The processes and logic flows can also be, or be performed by special purpose logic circuitry (e.g., an FPGA or ASIC) and a combination of dedicated logic circuit one or more programmed computers.
[0084] A computer adapted to execute a computer program may be a general purpose or special purpose microprocessors, or both, or any other kind of central processing units based. Typically, the central processing unit will receive instructions and data from read only memory or random access memory or both. The basic elements of a computer are a central processing unit for executing instructions and one or more memory devices for storing instructions and data. A central processing unit and the memory can be supplemented or special purpose logic circuitry incorporated in special purpose logic circuitry. Generally, a computer will also include mass storage devices (e.g., magnetic disk, magneto-optical disk, or optical disk) for storing one or more data, or be operatively coupled to a mass storage device for storing data or more to the mass storage device to receive data or transmit data to the mass storage device, or from both. However, the computer must not have such devices. Moreover, a computer can be embedded in another device, such as a mobile phone, a personal digital assistant (PDA), a mobile audio or video player, a game console, a global positioning system (GPS) receiver, or a portable storage device, e.g., a Universal Serial bus (USB) flash drives, to name a few.
[0085] Suitable for storing computer program instructions and data include all forms of computer-readable medium of non-volatile memory, media and memory devices, including semiconductor memory devices such as EPROM, EEPROM and flash memory devices; magnetic disks, e.g., internal hard disks or removable In addition to disks; magneto-optical disks; and CD-ROM and DVD-ROM disks.
[0086] To provide interaction with a user, embodiments of the subject matter described in this specification may be a display device having information to a user (e.g., the CRT (cathode ray tube) or LCD (liquid crystal display) monitor) for a user can which is implemented on a computer to provide input to the computer keyboard and a pointing device (e.g. mouse or a trackball) a. Can also use other kinds of devices to provide for interaction with a user; e.g., provided to the user feedback may be any form of sensory feedback, e.g., visual feedback, auditory feedback, or tactile feedback; and may receive any form of input from the user, including acoustic, speech, or tactile input. In addition, computer by sending documents using the user and interact from the device receiving documents used by the user with a user; e.g., in response to a request received from the Web browser on the user equipment, and transmits the page to the Web browser device. Further, the computer can send a text message or other form of message to the personal devices (e.g. smart phones), run messaging applications, and receiving a response message to and from the user interaction with the user.
[0087] Embodiments of the subject matter described in this specification may includes a back end component (e.g., as a data server), or that includes a middleware component (e.g., an application server), or that includes a front (e.g., a graphical user interface, Web browsers, client computers or users can interact with the applications by implementing the subject matter described in this specification) or a combination of any computing system such back-end, middleware, or front-end components of one or more of accomplish. Components of the system can be interconnected by any form or digital data communication medium (e.g., a communication network). Examples of communication networks include a local area network (LAN) and a wide area network (WAN), such as the Internet.
[0088] The computing system can include clients and servers. Client and servers are typically away from each other and often interact through communication networks. The relationship of client and server is due to running on the respective computers and having a client to each other - a computer program generated server relationship. In some embodiments, a server transmits data (e.g., HTML page) to a client device user, e.g., for purposes of displaying data to and receiving user input from the user to interact with the user of the device. It can be received from the device (e.g., user interaction results) data generated at a user equipment at a server.
[0089] While this specification contains many specific implementation details, these should not be construed as limitations on the scope of any invention or of what may be claimed, but rather as descriptions of particular embodiments may be specific to a particular embodiment of the invention is characterized. Certain features described in this specification in the context of separate embodiments may also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment may also be provided separately or in any suitable subcombination be implemented in various embodiments. Further, although features may be described above as acting in certain combinations and even initially claimed as such, but in some cases, can be deleted from the one or more features from a claimed combination in combination, and the claimed claimed combination may be directed to a subcombination or variation of a subcombination.
[0090] Similarly, while operations are depicted in the drawings in a particular order, this should not be understood as requiring that results in a particular order shown, or sequential order of execution of operations, or perform all shown, to achieve the desired. In some cases, multitasking and parallel processing may be advantageous. Further, each of the above embodiments separation system modules and components should not be construed in all embodiments requiring such separation, and it should be understood that the described program components and systems can generally be integrated together in a single software product or packaged into multiple software products.
[0091] Having described specific embodiments of the subject matter. Other embodiments are within the scope of the appended claims. For example, the operation described in the claims can be performed in a different order and still achieve desirable results. As an example, the process described in the drawings does not necessarily require the desired result of the particular order or continuous order shown. In some cases, multitasking and parallel processing may be advantageous.
[0092] The claims (modified according to Article 19 of the Treaty)
[0093] A computer-implemented method for disabling discretely located within a certain distance close to firearms, the method being characterized in that:
[0094] Firearm having a locking system on the gun is secured within a predetermined distance of said target emitter / receiver safety device;
[0095] When the owner of the firearm tracking type when the firearm within said predetermined distance from said target, comprising tracking the position of the firearm and the firearm and the firearm;
[0096] Determining whether the muzzle of the firearm with the target having a relative orientation;
[0097] By determining the maximum range of the ammunition and firearms predetermined range safety margin to calculate the target diameter of the guard ring;
[0098] The use radians muzzle safety margin and a predetermined amount of the relative orientation of the firearm to firearm prohibition calculates the firing arc; and
[0099] When on the firearm when the guard as the diameter of the ring and the shooting arc prohibition determination prohibition zone around the target shooting, the firearm sending an activation command to the gun system is locked to prevent the said prohibiting firearms to shoot the firing zone.
[0100] 2. The computer-implemented method according to claim 1, wherein said prohibited area is defined by two shot region, i.e., the target around the center thereof inoperative firing the shot and inoperative as each variable specific weapons ring zone is prohibited penetration zone.
[0101] The computer-implemented method of any one of claims 1-2 claim, characterized in further comprising:
[0102] When the deactivation of firearms sending the firearms at the time of the shooting outside the prohibited area of ​​the gun lock command system.
[0103] 4. The computer-implemented method as claimed in any one of the claims 1-3, characterized in further comprising:
[0104] Tracking a communication device within a predetermined distance of the object; and
[0105] When the firearm is within the predetermined distance from the target, sending the security message with instructions to the communication device.
[0106] 5. The computer-implemented method as claimed in any one of the claims 1-4, characterized in that the target is a cluster communication device identified in a particular geographic area.
[0107] 6. The computer-implemented method claimed in determining implemented according to claim 2, wherein said specific variable prohibit penetration region firearms based on characteristics of the particular firearm by a predetermined distance added to the non-operation of the shot .
[0108] 7. The computer-implemented method as claimed in claim 6, wherein the predetermined distance is to be added based on the maximum loading the firearm ammunition brand, of the firearm, the maximum firing range of loading munitions , and represents an additional safety margin is a fixed percentage of the maximum loading of ammunition firing range is calculated.
[0109] 8. The computer-implemented according to any of claims 1-7, further characterized in that, before the system is locked on command transmitting the activation of the firearm gun,
[0110] Determine whether the firearm is authorized to prohibit work in the area surrounding the shooting target; and
[0111] The locking system command is sent on activation of the firearm is not authorized to determine the firearms at the time of the shooting area of ​​the gun ban work.
[0112] A disabling system for discretely firearms located within a distance close to the target, wherein:
[0113] Firearms having a locking system on the gun, the locking system is arranged in response to the active command and the locking means to enable the gun to the gun;
[0114] The target has a transmitter / receiver device;
[0115] A processor configured to:
[0116] Obtaining a position of the object;
[0117] Obtaining a position of the firearm;
[0118] Determine whether the firearm is prohibited shooting at the target area; and
[0119] When determining the firearms at the time of the shooting prohibited area, the goal of sending an activation command to the firearms to enable locking device on the gun.
[0120]10. The system of claim 9, wherein the processor is further configured to:
[0121] When it is determined that the gun is not in the disabled shooting zone of the target, the deactivation command is sent to the gun to disable the locking device on the gun.
[0122] The system according to any one of claims 9 or 10, characterized in that the processor is also configured to:
[0123] Track communication devices within the predetermined distance of the target;
[0124] When the gun is within the predetermined distance of the target, a message with a security instruction is transmitted to the communication device.
[0125] 12. The system of any of claims 9-11, wherein the target is a cluster of a communication device identified in a particular geographic area.
[0126] The system according to any one of claims 9-12, wherein the prohibited shooting region is defined by two zones, i.e., the target is located in the center of the non-operating shooting area and serving as a surrounding. Variable penetration zones of each particular weapon of the ring of the non-operating shooting area.
[0127] 14. The system of claim 13, wherein the variable prohibited penetration zone of a particular gun is determined by adding a predetermined distance to the non-operating shooting zone by characteristics based on the particular gun.
[0128] 15. The system of claim 14, wherein the predetermined distance to be added is based on the brand of the gun, the maximum ammunition loading of the gun, the shot distance of the maximum ammunition loading, and the representation A fixed safety margin for the additional percentage of the maximum shot distance of the ammunition loading.
[0129] 16. The system of claim 9, wherein the gun is characterized in:
[0130] power supply;
[0131] Central Processing Unit (CPU);
[0132] The data input port configured to communicate with the CPU;
[0133] A memory storage component configured to communicate with the CPU;
[0134] A communication module configured to communicate with the CPU;
[0135] A magnetic communication door composite component configured to communicate with the CPU;
[0136] Configured to transmit / receive components with the CPU communication;
[0137] Switch processing components and hard-wire or wireless connections between remote trigger cutouts in the traditional gun.
[0138] 17. The system of claim 16, wherein the gun is characterized in that when the communication module receives a command to activate the remote trigger assembly,
[0139] The communication module sends the command to the CPU;
[0140] The CPU transmits the command to the switching process to activate the remote trigger cutout assembly.
[0141] The system according to any one of claims 16-17, wherein the gun is characterized in that when the communication module receives a command to deactivate the remote trigger assembly,
[0142] The communication module sends the command to the CPU;
[0143] The CPU transmits the command to the switching process to deactivate the remote trigger cutout assembly.
[0144] The system according to any one of claims 16-18, wherein the gun is characterized in that the switch processing component and the remote trigger safety switch assembly are in addition to the hard wiring or wireless connection. All components outside of the outside are mounted on a board that can be integrated into the gun of the gun device, a bullet hat or a pistol grip.
[0145] The system of any of claims 16-19, wherein the firearms are characterized in that the remote trigger cutout is a safety pin implementation with an irregular shape cam.
[0146] The system of any of claims 16-19, wherein the gun is characterized in that the remote trigger cutout is a batch / ratchet / pawl including a disc, the disc It is possible to secure the motor shaft and move the eccentric pin or piston to the locked position.

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Description & Claims & Application Information

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