May 19, 2026

US12631419 - Combined surveillance camera and scope firearm apparatus

The embodiment of this invention is a combined zoom surveillance camera and zoom scope firearm interconnected on a bipole shaft apparatus, including: A top end ball-bearing which is partially encompassed by one end of a peg brace connected to a rotatable overhead pulley rim; A off-middle tripod of three circular level pivotal surveillance cameras; A off-middle ball-bearing which is partially encompassed by a bearing ring affixed with three hook shaped rods for attachably hanging the bipole shaft apparatus from a ceiling; and, a bottom end base of at least one to three scope firearms for targeting a threatening mass human shooter. The entire bipole shaft apparatus of said top end ball-bearing, off-middle three cameras, off-middle ball-bearing, and bottom end one to three firearms may be simultaneously tilt shifted and circularly rotated on a downward angle whenever a local or distal computer terminal operator activate the necessary electrical wire or wireless torque energy conveyed to the bipole shaft's top end ball-bearing's said connected peg brace and pulley rim band via an electric motor and generator box.

Assignee: Kirby D. FiFi K. Cynthia R. Devon D. Wilks Wilks Simpson Wilks
Inventors: Timothy B. Wilks
Filing date: 2023-04-17

firearmscopesurveillancecameraintegrated

Summary unavailable due to content policy. See the patent text for details.

Claim 1

1 . A vertical hollowed metal bipole axle shaft apparatus having each: a top end section, a mid axial axis section, and a bottom end section for interconnecting and combining a surveillance camera and a telescoped firearm, including functional parts of the camera and firearm into a single integrated unit: [a] Whereon, the said vertical bipole axle shaft’s top end section is an integrally fused axis hollowed solid metal mount ball tip—which mount ball tip is two-thirds partly encompassed within a hollowed pear-shaped metal peg mount bearing—which peg mount bearing has a broad opened mouth end where the said opened mouth end retentionably encircle the said two-third portion of said mount ball tip—and which peg mount bearing has a opposite narrow closed tip end where said closed tip end is affixed to an underside surface point of a metal ringed pulley rim—around which is a conveyable tractionable pulley band; [b] Whereon, the said vertical bipole axle shaft’s upper axial axis section is integrally fused with one end each of three equally spaced downward angled hollow metal tripod stem rods—each opposite end of said tripod stem rods has a paired pivot hinge peg—each hinge peg is attachably fixable to a paired hinge hole link on each covering of three surveillance cameras for tilt shifting; [c] Whereon, the said vertical bipole axle shaft’s lower axial axis section is an integrally fused hollowed axis solid metal base ball junction—where the said metal base ball is both one-third partly equatorially encircled and retentionably suspended by a solid metal tripod base ring bearing positioned between the said metal base ball’s opposite polar surface sections—and where the surface of the said metal tripod base ring bearing has three equally spaced circular slots—each slot in which are integrally affixed one each of three elongate hook shaped rods of which each elongate hook rod has both a curved segment end that is fused to one of said three slots in said metal tripod base ring bearing and a straight segment end that extends vertically upwards for foundational ceiling surface attachability; [d] Whereon, the said vertical bipole axle shaft’s bottom end section’s axis surface has at least two spaced crisscrossed separated paired bored holes—each paired hole is fused with two spaced crisscrossed separated paired pivot spring sets—each paired pivot spring’s opposite ends are inserted on each corresponding end of two spaced crisscrossed separated paired stabilizer pin sets, the opposite ends of which are fused in the interior bend of at least one up to three telescoped firearms for downward angle tilt shifting—each pin is fused at one of four opposite interior surfaces across a partly hollow spaced void in said bend which merge the cartridge chamber and barrel of said telescoped firearm—whereat said sets of affixed firearm pins function as a tilt tracking means; and, [e] Whereon, the axle shaft apparatus said functional parts of the said surveillance camera and telescoped firearm are interconnected to and controlled with wire and wireless energy from and to a module integrated computer data processing unit to generate and transmit the energy from and to both macro and micro local and remote distal sensory and motion reactive modular generator and motor circuit boxes—whereby, said camera and firearm’s mechanical apparatus parts can be functioned. [a] Whereon, the said vertical bipole axle shaft’s top end section is an integrally fused axis hollowed solid metal mount ball tip—which mount ball tip is two-thirds partly encompassed within a hollowed pear-shaped metal peg mount bearing—which peg mount bearing has a broad opened mouth end where the said opened mouth end retentionably encircle the said two-third portion of said mount ball tip—and which peg mount bearing has a opposite narrow closed tip end where said closed tip end is affixed to an underside surface point of a metal ringed pulley rim—around which is a conveyable tractionable pulley band; [b] Whereon, the said vertical bipole axle shaft’s upper axial axis section is integrally fused with one end each of three equally spaced downward angled hollow metal tripod stem rods—each opposite end of said tripod stem rods has a paired pivot hinge peg—each hinge peg is attachably fixable to a paired hinge hole link on each covering of three surveillance cameras for tilt shifting; [c] Whereon, the said vertical bipole axle shaft’s lower axial axis section is an integrally fused hollowed axis solid metal base ball junction—where the said metal base ball is both one-third partly equatorially encircled and retentionably suspended by a solid metal tripod base ring bearing positioned between the said metal base ball’s opposite polar surface sections—and where the surface of the said metal tripod base ring bearing has three equally spaced circular slots—each slot in which are integrally affixed one each of three elongate hook shaped rods of which each elongate hook rod has both a curved segment end that is fused to one of said three slots in said metal tripod base ring bearing and a straight segment end that extends vertically upwards for foundational ceiling surface attachability; [d] Whereon, the said vertical bipole axle shaft’s bottom end section’s axis surface has at least two spaced crisscrossed separated paired bored holes—each paired hole is fused with two spaced crisscrossed separated paired pivot spring sets—each paired pivot spring’s opposite ends are inserted on each corresponding end of two spaced crisscrossed separated paired stabilizer pin sets, the opposite ends of which are fused in the interior bend of at least one up to three telescoped firearms for downward angle tilt shifting—each pin is fused at one of four opposite interior surfaces across a partly hollow spaced void in said bend which merge the cartridge chamber and barrel of said telescoped firearm—whereat said sets of affixed firearm pins function as a tilt tracking means; and, [e] Whereon, the axle shaft apparatus said functional parts of the said surveillance camera and telescoped firearm are interconnected to and controlled with wire and wireless energy from and to a module integrated computer data processing unit to generate and transmit the energy from and to both macro and micro local and remote distal sensory and motion reactive modular generator and motor circuit boxes—whereby, said camera and firearm’s mechanical apparatus parts can be functioned.

Google Patents

https://patents.google.com/patent/US12631419

USPTO PDF

https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/12631419