Abstract: An electronic indicator on a see-through optical scope indicates whether an optical system is canted. The indicator may include illuminable visual indicators positioned on opposite sides of a field of view through the optical scope. The indicator may be visual, haptic, or aural. The visual indicator may include one or more LEDs positioned on the periphery of the field of view, and may be optically coupled to an appropriate position on the face of the reticle using a suitable waveguide. The LEDs are coupled to a microprocessor which is, in turn, coupled to a solid-state electronic inclinometer that is incorporated into the internal structure of the optical system. The microprocessor is configured to selectively illuminate one or more of the visual indicators based on the output of the inclinometer, thereby indicating how the reticle is canted, if at all.

Abstract: A laser-based rangefinding instrument for, inter alia, golfing or hunting activities having an unique ergonomic design and an external multi-function switch for controlling display brightness, selectable display of differing distance units and a slope selection switch for enabling display of line of sight distance or angle of slope and “Compensated Golf Distance” angle corrected distance to a target.

Abstract: An electronic indicator on a see-through optical scope indicates whether an optical system is canted. The indicator may include illuminable visual indicators positioned on opposite sides of a field of view through the optical scope. The indicator may be visual, haptic, or aural. The visual indicator may include one or more LEDs positioned on the periphery of the field of view, and may be optically coupled to an appropriate position on the face of the reticle using a suitable waveguide. The LEDs are coupled to a microprocessor which is, in turn, coupled to a solid-state electronic inclinometer that is incorporated into the internal structure of the optical system. The microprocessor is configured to selectively illuminate one or more of the visual indicators based on the output of the inclinometer, thereby indicating how the reticle is canted, if at all.

Abstract: A weapon includes a firearm having a front sight and a rear sight. The front sight includes a front channel. The rear sight includes a rear channel. The front channel and the rear channel are aligned along a sight line. The front channel and the rear channel provide an unobstructed field of view toward a target along the sight line.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges at stationary and moving targets.

Abstract: A handle sight for a firearm includes a mounting base and a carrying handle. The mounting base has an elongated shape and defining a first end portion and an opposed second end portion, wherein the mounting base is adapted for detachably mounting on the firearm in a reversible orientation to locate the first end portion of the mounting base one of a forward direction and a rearward direction of the firearm. The carrying handle is upwardly extended from the first end portion of the mounting base at a top side thereof, wherein the carrying handle has a hollow structure to define a sight channel for parallelly align with a barrel axis of the firearm so as to enable an operator to aim at a front iron sight of the firearm through the sight channel.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges at stationary and moving targets.

Abstract: A method for shooting a projectile weapon involves determining the inclination of a line of sight from a vantage point to a target and a line-of-sight range to the target, then predicting a trajectory parameter at the line-of-sight range, for a preselected projectile. Using the trajectory parameter, an equivalent horizontal range may then be determined, wherein the equivalent horizontal range is the range at which the trajectory parameter would be expected to occur if the projectile were shot from the vantage point toward a theoretical target located in a horizontal plane intersecting the vantage point. The equivalent horizontal range may be utilized to compensate for ballistic drop when shooting the projectile weapon. The method may be embodied in a handheld laser rangefinder including a memory for storing ballistic data. Systems for automatic hold over adjustment in a weapon aiming device are also disclosed.

Abstract: A transmission-type OLED riflescope with a prism assembly having an ocular lens and an objective lens, wherein the prism assembly has a roof prism, a half pentaprism, an isosceles prism and a spectro-film, and the right end of a laser receiver abuts against the left end of the isosceles prism so that both of the laser receiver and the isosceles prism are located below the axis of the lens cone while the laser transmitter is located above the axis of the lens cone with the laser transmitted from the laser transmitter exiting after being refracted by the objective lens, while a transmission-type OLED display is arranged between the ocular lens and the prism assembly. Functions of the riflescope include observing, aiming, and laser ranging and transmission using the same objective lens. The viewer can also see the objects behind the lens.

Abstract: A method of controlling a target marking system includes emitting a beam with a beam source associated with a target marker. The method also includes sensing movement of the target marker, and modifying operation of the beam source based on the sensed movement. Such modification changes a characteristic of the emitted beam.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges.

Abstract: An illumination device includes a tube holder including two connectors for receiving either a light-emitting diode (LED) tube and or a fluorescent tube. One of the connectors includes a rotary member rotatably received in a through hole defined in a retainer, and three conductive elastic pieces positioned in the retainer around the through hole. One elastic piece is electrically connected to an LED tube drive circuit board and a fluorescent tube drive circuit board, and the other two conductive pieces are electrically connected to the LED and the fluorescent tube drive circuit boards, respectively. The rotary member can be rotated to first and second positions, wherein at the first position, the LED tube can be activated, and at the second position the fluorescent tube can be activated.

Abstract: A method for shooting a projectile weapon involves determining the inclination of a line of sight from a vantage point to a target and a line-of-sight range to the target, then predicting a trajectory parameter at the line-of-sight range, for a preselected projectile. Using the trajectory parameter, an equivalent horizontal range may then be determined, wherein the equivalent horizontal range is the range at which the trajectory parameter would be expected to occur if the projectile were shot from the vantage point toward a theoretical target located in a horizontal plane intersecting the vantage point. The equivalent horizontal range may be utilized to compensate for ballistic drop when shooting the projectile weapon. The method may be embodied in a handheld laser rangefinder including a memory for storing ballistic data. Systems for automatic hold over adjustment in a weapon aiming device are also disclosed.

Abstract: A combination red dot sight (reflex sight) and electronic range indicator displayed in a sighting element. The sighting element is housed in a body which includes lens elements and a light source for the red dot sight as well as an optical display for the range indicator. A processor for the red dot sight and the range indicator are housed in a frame. A user interface includes indicia for varying the intensity of the light source for the red dot sight as well as activate the range indicator. Alternately, the range indicator may be activated by a button positioned remotely, such as on the firearm or bow and may be wired to the range indicator circuit or communicate via wireless transmission. An emitting lens and a receiving lens are optically connected via a range finding circuit to the processor.

Abstract: A device has structure that can support the device on a weapon, and a range portion that specifies a range to a target. A sensor portion provides sensor information representing an orientation of the device, and an electronic control portion is responsive to sensor information from the sensor portion and a range from the range portion for calculating how to hit the target with each of first and second munitions that are different.

Abstract: A range finder includes housing, circuitry, a lens, a display, and a plurality of threaded apertures. The housing has a front end, a rear end, and a bottom portion extending between the front end and the rear end. The range finder circuitry is located within the housing. The lens is located at the front end of the housing. The display is located at the rear end of the housing. The plurality of threaded apertures are located in the bottom portion of the housing.

Abstract: A rifle scope includes an ocular (6), an objective (4), a reticle (10) and an aligning device (20) that is displaced axially from the reticle and includes one or more markings (22a, 22b) that are visible in use to a shooter. The aligning device (20) is constructed and arranged such that with correct eye alignment the markings (22a, 22b) appear to be aligned with the reticle (10), and with incorrect eye alignment the markings appear to be misaligned with the reticle.

Abstract: A range finder includes housing, circuitry, a lens, a display, and a plurality of threaded apertures. The housing has a front end, a rear end, and a bottom portion extending between the front end and the rear end. The range finder circuitry is located within the housing. The lens is located at the front end of the housing. The display is located at the rear end of the housing. The plurality of threaded apertures are located in the bottom portion of the housing.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges.

Abstract: A mount comprising a connecting portion attachable to a firearm, a first member connected to the connecting portion to be rotatable about a first axis. a second member connected to the first member to be rotatable about a second axis substantially perpendicular to the first axis, and an attachment system connected to the second member for receiving an accessory. Also, a mount attachable to a firearm and having a dampener system connected to base and body portions thereof, the dampener system acting to dampen a recoil force produced by the firearm. Further, a mount attachable to a firearm and allowing a first rotation varying an azimuth of an accessory and a second rotation varying an angle of elevation of the accessory, and control means adjusting the second rotation to obtain a desired value and automatically producing the first rotation to correct a lateral drift of the firearm.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges.

Abstract: According an embodiment, a projectile weapon aiming system includes a computer-controllable reticle with crosshairs or other aiming marks having a color and/or illumination that can be selectively changed to provide feedback to a shooter to indicate when the projectile weapon aiming system (and hence the projectile weapon itself) is accurately aimed to compensate for a particular range, inclination, crosswind, and/or other ballistic conditions.

Abstract: A method for aiming a projectile weapon involves identifying a projectile group corresponding to a selected projectile and its nominal initial velocity from at least two different predetermined groups of projectiles, determining a range to a target, and automatically determining an aiming adjustment for aiming the projectile weapon based on the range to the target and a nominal ballistic characteristic of the projectile group. The nominal ballistic characteristic of the projectile group may be characteristic of a ballistic coefficient of the selected projectile and the nominal initial velocity of the selected projectile. Also disclosed are systems and methods for determining hold over aiming data and equivalent horizontal range data, for aiming projectile weapons at inclined targets.

Abstract: A switch assembly 16 which is selectively deployed upon a weapon and which normally causes electrical power to be communicated to a visible energy emission assembly 14 from a source of electrical power 90 and which requires positive actions to interrupt such communication.

Abstract: A system and method for use of an enhanced aiming system which includes a marker displayed at a first position in an aiming scope, a user input of a start position and an ending position to measure a desired impact zone, a calculator for determining a range to the target based on the known dimension of the impact zone and the magnification value of the aiming scope, and a display in the aiming scope for showing an aiming point dot or bar to compensate for projectile drop at the calculated range, and optionally for windage and optionally for moving target hold-over.

Abstract: A clamping device for coupling optical devices in coaxial, tandem alignment includes a front clamp assembly that has elastically deformable split collar halves tightenable onto a front optical device by a screw tightenable into bores disposed transversely through a pair of arms extending radially from the split collar halves. A rear optical device support protrudes rearward from the front clamp assembly, and has a releasable fastener such as a screw or dovetail joint for supporting a rear optical device in coaxial alignment with the front optical device. Preferably, the arm is mounted to the front clamp assembly by means of a pivotable joint which is latchable in a first, rearward position, and a second, forward position in which the rear optical device is positioned along the side of the front optical device, so that the front device may be used independently of the rear device.

Abstract: The present invention relates to target acquisition and related devices, and more particularly to telescopic gunsights and associated equipment used to achieve shooting accuracy at, for example, close ranges, medium ranges and extreme ranges.

Abstract: A cross bow assembly that combines the use of a peep sight as a rear sight and the quick range finder as a front sight to quickly ascertain the appropriate target and distance without the aid of other devices. The device alleviates the need to use a separate range finder to find distance because it is incorporated into the front sight giving instant, accurate distances when sighting, saving time and improving the hunter's ability to make precise accurate shots quickly.

Abstract: A sighting mechanism for a firearm, including two video cameras, a video screen, a digital sighting distance meter, a sensor for measuring environment, cartridge and/or weapon parameters, a biometric sensor, a memory module for biometric data and/or munitions data and a digital computer. The video cameras are arranged parallel to each other to capture the target sighting field. The computer has video inputs and an image processing unit enabling the video image data to be superimposed in real time in a pixel precise manner in relation to the target field on the screen. The computer includes a ballistic computer which enables the target image to reproduce on the screen. A graticule arranged on the screen can be positioned automatically and in real time according to the incoming data, such that the position of the graticule in the target field corresponds to a real projectile point of impact.

Abstract: Improved sighting system for a fire arm, characterised in that it comprises a single indicator light (6); a sighting device (7) providing an alignment opening (8) with a longitudinal reference plane (XoX?) which is parallel or mainly parallel to the axis (Y-Y?) of the barrel (4) and which is aligned with the indicator light (6); an inclinometer to measure the elevation angle (A) of the fire arm (1); a ballistic calculator (9) connected to the indicator light (6) and to the inclinometer, making it possible to calculate the desired angle of inclination of the fire arm (1) as a function of the distance of the target (18) and to control the indicator light (6) so as to signal at what moment the measured elevation angle (A) corresponds to the calculated elevation angle.

Abstract: A method for shooting a projectile weapon involves determining the inclination of a line of sight from a vantage point to a target and a line-of-sight range to the target, then predicting a trajectory parameter at the line-of-sight range, for a preselected projectile. Using the trajectory parameter, an equivalent horizontal range may then be determined, wherein the equivalent horizontal range is the range at which the trajectory parameter would be expected to occur if the projectile were shot from the vantage point toward a theoretical target located in a horizontal plane intersecting the vantage point. The equivalent horizontal range may be utilized to compensate for ballistic drop when shooting the projectile weapon. The method may be embodied in a handheld laser rangefinder including a memory for storing ballistic data. Systems for automatic hold over adjustment in a weapon aiming device are also disclosed.

Abstract: A handheld rangefinder device operable to determine ballistic hold over information is disclosed. The rangefinder device generally includes a range sensor operable to determine a first range to a target, a tilt sensor operable to determine an angle to the target relative to the device, and a computing element, coupled with the range sensor and the tilt sensor, operable to determine a hold over value based on the first range and the determined angle. Such a configuration facilitates accurate firearm and bow use by providing ranges and hold over values without requiring time-consuming and manual user calculations.

Abstract: A method for shooting a projectile weapon involves determining the inclination of a line of sight from a vantage point to a target and a line-of-sight range to the target, then predicting a trajectory parameter at the line-of-sight range, for a preselected projectile. Using the trajectory parameter, an equivalent horizontal range may then be determined, wherein the equivalent horizontal range is the range at which the trajectory parameter would be expected to occur if the projectile were shot from the vantage point toward a theoretical target located in a horizontal plane intersecting the vantage point. The equivalent horizontal range may be utilized to compensate for ballistic drop when shooting the projectile weapon. The method may be embodied in a handheld laser rangefinder including a memory for storing ballistic data. Systems for automatic hold over adjustment in a weapon aiming device are also disclosed.

Abstract: A gun sight includes a rangefinder that operates in a continuous-measuring mode as soon as the rangefinder is activated. Because the rangefinder is continuously determining the distance to the target when in the continuous-measuring mode, the user does not have to take any time to press any buttons in order to obtain a distance measurement to a sighted target while aiming at that target.

Abstract: A handheld rangefinder device operable to determine ballistic hold over information is disclosed. The rangefinder device generally includes a range sensor operable to determine a first range to a target, a tilt sensor operable to determine an angle to the target relative to the device, and a computing element, coupled with the range sensor and the tilt sensor, operable to determine a hold over value based on the first range and the determined angle. Such a configuration facilitates accurate firearm and bow use by providing ranges and hold over values without requiring time-consuming and manual user calculations.

Abstract: A firearm aiming and photographing compound apparatus. A digital sight is disposed on a firearm body and includes an image processing module and a receiver electrically connected thereto. A remote-control transmitter is connected to the firearm body, emitting a signal. The receiver receives the signal, actuating the image processing module.

Abstract: A sighting device for a firearm exhibits a display device, which is a component of a measuring device for the distance to the target and which displays this target in the field of vision of the marksman. Of the other components of the measuring device, at least one part is not arranged in or on the sighting device. The sighting device exhibits an interface, through which the components of the measuring device arranged in or on the sighting device may be connected to components of the measuring device arranged in or on the firearm in an assembly in accordance with the intended use of the sighting device on the firearm, in such a way that, as a result, collectively a measuring device in working order arises. To this end, the firearm also exhibits a corresponding interface as well, as one of the components of the measuring device.

Abstract: The invention includes a sighting system for use with a firearm that has a telescopic sight, a laser rangefinder for providing the distance to the target, device(s) for receiving various inputs, a computing system that calculates the point of aim of the firearm's projectile based upon the input(s) and the calculated distance to the target, and a display means that provides an image of the computed point of aim within the telescopic sight's field of view. A method and weapon that employs the sighting system is disclosed.

Abstract: A sighting assembly comprising a housing having a first portion and a second portion has mounted within the first portion thereof a laser rangefinder comprising a laser transceiver for transmitting a laser beam toward a target and for receiving a reflected laser beam from the target. The laser rangefinder is coupled to a display for indicating the distance to the target. Mounted within the second portion of the housing is a sight for viewing the target. The sighting assembly further includes at least one attachment on the housing for securing the assembly to a weapon.

Abstract: A device has structure that can support the device on a weapon, and a range portion that specifies a range to a target. A sensor portion provides sensor information representing an orientation of the device, and an electronic control portion is responsive to sensor information from the sensor portion and a range from the range portion for calculating how to hit the target with a munition. The device includes a sight that facilitates weapon orientation in preparation to fire the munition, the sight having an analog indicator that is disposed within its field of view and that is responsive to the electronic control portion for indicating how to orient the weapon so that the munition will hit the target.

Abstract: A range finder for hunting applications. In one embodiment, a method of using a range finder is disclosed. The method comprises coupling the range finder to a weapon having an associated scope. Positioning at least part of a display of the range finder in front of a select portion of the associated scope. Activating the range finder. Determining the distance to a target and displaying the distance to the target through optics of the scope.

Abstract: A range finder for hunting applications. In one embodiment, a method of using a range finder is disclosed. The method comprises coupling the range finder to a weapon having an associated scope. Positioning at least part of a display of the range finder in front of a select portion of the associated scope. Activating the range finder. Determining the distance to a target and displaying the distance to the target through optics of the scope.

Abstract: An elevation adjustable firearm front sight with user changeable sighting elements that includes a lower rotatable front sight insert member adapted to be secured to a firearm front sight base and an upper front sight insert member rotatably secured to the upper portion of the lower rotatable front sight insert member. The front sight insert member has a plurality of front sight elements that are selectable by the firearm user by rotating the upper front sight insert member that is rotatably secured to the upper portion of the lower rotatable front sight insert member. This sight has provisions for permitting the user to select the front sight element by rotating the front sight mounting member without changing the elevation setting of the front sight.

Abstract: A firearm rail adapter system for mounting accessories on a firearm. The system comprises a first mount, a second mount, and an adapter rail. The first mount is adapted to be mounted to the firearm and has rail attachment sections thereon. The second mount is adapted to be mounted to the firearm and has other rail attachment sections thereon. The adapter rail is adapted to be removably mounted to at least one of the rail attachment sections of the first mount, and to at least one of the other rail attachment sections of the second mount. The rail attachment sections and the other rail attachment sections are disposed respectively on the first mount and second mount so that when the first mount and second mount are mounted to the firearm, the first mount and second mount provide a number of different selectable mounting stations for mounting the adapter rail to the firearm.

Abstract: An accessory mounting rail for a firearm, which enables mounting of firearm accessories to the barrel of the firearm and reduces the potential for parallax error in mounted sights is disclosed herein. The accessory mounting rail is formed from a complementary pair of mounting bracket sides that are hinged together and have an aperture for receiving the barrel of the firearm. The accessory mounting rail is secured to the firearm through the use of a fastener to connect the complementary mounting bracket sides, which have provided upon them accessory rails.

Abstract: A range finder for hunting applications. In one embodiment, a method of using a range finder is disclosed. The method comprises coupling the range finder to a weapon having an associated scope. Positioning at least part of a display of the range finder in front of a select portion of the associated scope. Activating the range finder. Determining the distance to a target and displaying the distance to the target through optics of the scope.

Abstract: A range finder for hunting applications. In one embodiment, a range finder includes a cylindrical main housing, a range finder circuit, a display housing, a display and one or more brackets. The range finder circuit is contained in the main housing. The display housing is couple to a first side of the main housing. The display is received in the display housing and is in electrical communication with the range finding circuit. The one or brackets are selectively coupled to a second side of the main housing, wherein the second side of the main housing is opposite the first side of the main housing. In addition, the one or more brackets are adapted to couple the main housing to a portion of a hunting weapon.

Abstract: A range finder for hunting applications. In one embodiment, a range finder includes a cylindrical main housing, a range finder circuit, a display housing, a display and one or more brackets. The range finder circuit is contained in the main housing. The display housing is couple to a first side of the main housing. The display is received in the display housing and is in electrical communication with the range finding circuit. The one or brackets are selectively coupled to a second side of the main housing, wherein the second side of the main housing is opposite the first side of the main housing. In addition, the one or more brackets are adapted to couple the main housing to a portion of a hunting weapon.