IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0868349
(2015-09-28)
|
등록번호 |
US-9618303
(2017-04-11)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
12 |
초록
▼
An electronic conditioning device delivers electric shocks correlated with sounds or driven by a signal associated with a sound sequence. The sound sequence can be a few seconds of a recorded human voice, a siren, a single tone, and so forth. A sound generator emits the sound sequence audibly. A pow
An electronic conditioning device delivers electric shocks correlated with sounds or driven by a signal associated with a sound sequence. The sound sequence can be a few seconds of a recorded human voice, a siren, a single tone, and so forth. A sound generator emits the sound sequence audibly. A power supply is electrically connected to the various components and provides energy to a shock inducer or electrodes embedded in the skin of a target. The device administers voltage spikes and sounds in a coordinated fashion. The conditioning encourages the target to associate certain sounds with the electric shock. Power may be supplied by a battery, a piezoelectric flexible film or movable magnet that converts kinetic motion into electric energy. Preferably, the device is applied to a target by loading the device into a shotgun shell and firing the loaded shell at the target from a rifle, pistol or shotgun.
대표청구항
▼
1. An electronic conditioning device comprising: sound sequence circuitry to generate a sound sequence, and wherein the sound sequence includes sounds, each sound having an intensity;a sound generator in electronic communication with the sound sequence circuitry, the sound generator configured to em
1. An electronic conditioning device comprising: sound sequence circuitry to generate a sound sequence, and wherein the sound sequence includes sounds, each sound having an intensity;a sound generator in electronic communication with the sound sequence circuitry, the sound generator configured to emit the sound sequence audibly;a power supply having exposed electrical leads and wherein the power supply is electrically coupled to the sound sequence circuitry and coupled to the sound generator;a shock inducer having electrodes, and wherein the shock inducer is electrically coupled to the power supply, wherein the shock inducer is configured to generate voltage spikes in coordination with and approximately at a same time as at least of the sounds of the sound sequence, and wherein each voltage spike is proportional to each respective sound intensity; andan impact detector that triggers operation of the device when the device impacts a target, wherein the impact detector is configured to start electric current flowing from the power supply upon impact. 2. The device of claim 1, and wherein the sounds of the sound sequence are recorded audible tones. 3. The device of claim 1, and wherein the sounds of the sound sequence are a recorded sequence of human expressions, and wherein an amplitude of each voltage spike is coordinated with each respective human expression. 4. The device of claim 1, and wherein the shock inducer includes a high-voltage capacitor in electronic communication with one or more other components and configured to modulate the voltage spikes to a relatively high voltage depending on the intensity of the respective sounds. 5. The device of claim 1, and wherein the power supply includes a magnet affixed to a movable portion of a reed proximate to a coil of metal, and wherein the reed is mechanically configured to vibrate in response to motion of the device thereby converting kinetic energy into electric energy for the device. 6. The device of claim 1, and wherein the power supply includes a piezoelectric film, and wherein the piezoelectric film is mechanically configured to flex in response to motion of the device thereby converting kinetic energy into electric energy for the device. 7. The device of claim 1, and wherein the power supply includes a form of stored chemical energy convertible into electric energy for the device. 8. The device of claim 1, and wherein the device further comprises: a nozzle at a leading end of the device;a dye repository proximate to the nozzle so that the dye is deployed onto a target through the nozzle when the device impacts the target. 9. The device of claim 8, and wherein the nozzle includes outer shaped contours so as to allow the dye to create a silhouette of substantially similar shape as that of the shaped contours of the nozzle when the dye is deployed. 10. The device of claim 1, and wherein the electronic conditioning device further includes an ammunition cartridge having a propellant for projecting the device when the ammunition cartridge is fired; wherein the sound sequence circuitry, the sound generator, the power supply, and the shock inducer are installed within a housing inside of the ammunition cartridge; and wherein the electrodes protrude through to the outside of the housing. 11. An electric discharge device comprising: a housing forming an aperture on a proximal end of the same;a control circuit;a shock generator;a sound generator;an electric power supply within the housing and electrically coupled to the control circuit, the shock generator, and the sound generator; wherein the shock generator includes at least one electrode; anda gun shell inside of which is loaded the housing, the control circuit, the shock generator, the sound generator, and the electric power supply, wherein the gun shell includes a propellant for projecting the housing at a target, wherein the control circuit is configured to operate the sound generator in coordination with the shock generator, and wherein the shock generator is configured to contemporaneously administer voltage spikes to the target substantially in proportion to an attribute of the respective sounds from the sound generator. 12. The electric discharge device of claim 11, wherein at least a portion of an outer surface of the housing is contoured to promote spiraling when the housing is projected from the gun shell. 13. The electric discharge device of claim 11; wherein the power supply includes a flexible element configured to bend and thereby convert kinetic energy into electric energy for use by the shock generator, the control circuit and the sound generator; and wherein the flexible element includes a piezoelectric film or a flexible reed to which is attached a magnet or coil of wire. 14. The electric discharge device of claim 11, wherein the sound generator includes a piezoelectric speaker, and wherein the sounds generated reach at least approximately 80 dB in amplitude. 15. The electric discharge device of claim 11, wherein an outer diameter of the housing is less than approximately 0.75 inches, and wherein the voltage spikes are modulated over a voltage of approximately 1,000 volts. 16. The electric discharge device of claim 11, and wherein the device further comprises: a dye packet having a quantity of dye inside thereof, wherein the dye packet is placed inside the housing proximate to a distal (impact) end of the housing, and wherein the distal end of the housing is formed into a nozzle through which is applied dye from the dye packet upon the housing impacting the target. 17. A method for conditioning a target with electric shock coordinated with audible signals, the method comprising: assembling to a housing to form a conditioning device, an electrode, a shock generator, a sound generator configured to generate audible signals, and a control circuit;applying the conditioning device to the target by inserting the electrode into the skin of the target; andactivating the conditioning device by activating the control circuit to operate the shock generator substantially contemporaneously with the sound generator, and wherein the control circuit causes generation of voltage spikes substantially in proportion to an attribute of at least some of the audible signals. 18. The method of claim 17, and wherein the voltage spikes are modulated upward to an increased voltage substantially in proportion to an intensity of the respective audible signal. 19. The method of claim 17, and wherein the conditioning device is applied by firing the conditioning device from a ballistic shell propelled by gunpowder.
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