Rifle scopes with a locking feature including a body having an internal movable optical adjustor adapted to shift an image generated by the riflescope, a knob connected to the body for rotation about a knob axis and operably connected to the optical adjustor to position the optical adjustor based on a rotational position of the knob, an indicator skirt rotatably engaged to the body and threadedly engaged to the knob, the indicator skirt being operable to move axially with respect to the knob such that the axial position of the indicator skirt is based on the rotational position of the knob, and the knob including a knob stop surface and the indicator skirt including a skirt stop surface, wherein the knob stop surface and the skirt stop surface are configured to positively contact each other to establish a limit of rotational travel of the knob.
An interface facility has a first facility element connected to an ocular, a device case configured to connect to a smart device, a second facility element connected to the device case, the first and second facility elements being configured to connect to each other in a connected condition and to detach from each other, the first facility element being registered with a first optical axis associated with the ocular, the second facility element being registered with a second optical axis associated with the camera, the first and second optical axes being registered with each other when the first and second facility elements are in the connected condition, such that the camera records images generated by the ocular. The first and second facility elements may comprise a bayonet mount.
An optic assembly may include: an environmentally isolated cavity defined by at least a front lens and a housing; a light source located inside the environmentally isolated cavity, the light source to project a reticle on the front lens; and a carrier assembly located inside the environmentally isolated cavity, wherein the light source is mounted on a carrier of the carrier assembly, and the carrier assembly includes: at least one boss fixably located with respect to a bottom interior surface of the environmentally isolated cavity; and a carrier lift slidingly movable along the at least one boss to raise or lower the light source relative to the front lens; wherein the carrier is slidably movable relative to the carrier lift to laterally adjust a position of the light source relative to the front lens. Other embodiments may be disclosed and/or claimed.
User-zeroable adjustment knobs for an aiming device include a rotating member that is rotated to change a setting of the aiming device, a dial selectively couplable to the rotating member via a clutch for co-rotation therewith, and a locking mechanism that prevents the dial and rotating member from rotating relative to the aiming device when the locking mechanism is locked. The clutch is disengagable without the use of tools to allow the dial to rotate relative to the rotating member for zeroing the aiming device. The locking mechanism may include a lock release that is accessible from outside of the dial and movable relative to the dial and the rotating member to release the locking mechanism. Methods of zeroing locking adjustment knobs are also disclosed.
A reflex sight for a firearm has a body, a mounting facility, a controller, an actuator, and an illumination facility operably connected to the controller and having a plurality of different operating states. The controller is responsive to sequential actuation of the actuator to cycle among the operating states. The controller is operable to change operation of the illumination facility after a selected duration based on a power consumption characteristic of the operating state.
A diopter adjustment device for an optical device such as a riflescope includes a first tubular member having overlapping left-handed and right-handed external threads, a second tubular member has internal threads mated with either the left-handed or right-handed external threads of the first tubular member, and a stop nut threaded onto the first tubular member via internal threads that are of opposite handedness as the internal threads of the second tubular member. A diopter lens is mounted in one of the first and second tubular members and movable therewith relative to the other of the first and second tubular members to adjust a diopter setting or focus of the optical device. Because the internal threads of the nut and the second tubular member have opposite handedness, the nut provides greater resistance to inward movement of the diopter lens than conventional locking diopter adjustments.
A rotatable adjustment device for a riflescope or other optical device includes a drive screw that is threadably coupled to a rotating spindle and constrained so that the drive screw translates along the axis of rotation of the spindle. The adjustment device further includes a stop screw that also translates along the axis in response to rotation of the spindle until the stop screw contacts an adjustment stop to limit further rotation of the spindle in the first rotational direction. Lost motion is reduced or avoided by a compliant gap between the drive screw and stop screw.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A locking adjustment device for adjusting a setting of an aimed optical device, such as a riflescope, locks at a home or baseline position to provide expedient feedback regarding an adjustment position of the adjustable setting. The device includes a knob mountable for rotation about a rotational axis when the adjustment device is installed on the aimed optical device, where the knob is rotatable about the rotational axis. The device further includes a catch that automatically locks the knob in the home or baseline position and prevents further rotation of the knob until the catch is released. A lock-release mechanism carried by the knob is manually actuatable to disengage the catch and allow the knob to be manually rotated away from the locked position.
Rifle scopes with a locking feature including a body having an internal movable optical adjustor adapted to shift an image generated by the riflescope, a knob connected to the body for rotation about a knob axis and operably connected to the optical adjustor to position the optical adjustor based on a rotational position of the knob, an indicator skirt rotatably engaged to the body and threadedly engaged to the knob, the indicator skirt being operable to move axially with respect to the knob such that the axial position of the indicator skirt is based on the rotational position of the knob, and the knob including a knob stop surface and the indicator skirt including a skirt stop surface, wherein the knob stop surface and the skirt stop surface are configured to positively contact each other to establish a limit of rotational travel of the knob.
Embodiments of the present disclosure relate to a user-zeroable adjustment knob for an optical aiming device. The adjustment knob includes a rotating member rotatable about an axis of rotation to change a setting of the optical aiming device, the rotating member including a rotating member clutch surface centered on the axis of rotation and a dial comprising a dial clutch surface, and wherein the dial is movable between an engaged position where the dial clutch surface is engaged with the rotating member clutch surface, and a disengaged position in which the dial clutch surface is disengaged from the rotating member clutch surface, allowing the dial to be rotated relative to the rotating member to set a zero position.
A reflex sight for a firearm has a body, a mounting facility, a controller, an actuator, and an illumination facility operably connected to the controller and having a plurality of different operating states. The controller is responsive to sequential actuation of the actuator to cycle among the operating states. The controller is operable to change operation of the illumination facility after a selected duration based on a power consumption characteristic of the operating state.
A locking adjustment device for adjusting a setting of an aimed optical device, such as a riflescope, locks at a home or baseline position to provide expedient feedback regarding an adjustment position of the adjustable setting. The device includes a knob mountable for rotation about a rotational axis when the adjustment device is installed on the aimed optical device, where the knob is rotatable about the rotational axis. The device further includes a catch that automatically locks the knob in the home or baseline position and prevents further rotation of the knob until the catch is released. A lock-release mechanism carried by the knob is manually actuable to disengage the catch and allow the knob to be manually rotated away from the locked position.
An interface facility has a first facility element connected to an ocular, a device case configured to connect to a smart device, a second facility element connected to the device case, the first and second facility elements being configured to connect to each other in a connected condition and to detach from each other, the first facility element being registered with a first optical axis associated with the ocular, the second facility element being registered with a second optical axis associated with the camera, the first and second optical axes being registered with each other when the first and second facility elements are in the connected condition, such that the camera records images generated by the ocular. The first and second facility elements may comprise a bayonet mount.
G03B 17/14 - Bodies with means for supporting objectives, supplementary lenses, filters, masks, or turrets interchangeably
G03B 17/48 - APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR - Details of cameras or camera bodies; Accessories therefor adapted for combination with other photographic or optical apparatus
Disclosed are techniques for determining an aiming adjustment amount, in terms of both vertical and horizontal aiming adjustments, to shoot a target at a target range by iteratively solving for the projectile trajectory (e.g., projectile drop or path and deflection) such that the iteratively calculated projectile trajectory is determined to pass through the target location within a predetermined threshold amount (e.g., at a projectile path calculation of about zero). Also disclosed are techniques for indicating whether a projectile has supersonic, transonic, or subsonic speed at a given range. Additionally, techniques are disclosed for iteratively determining an aiming adjustment amount that compensates for a moving target.
Rifle scopes with zero locks or stops have a body having an internal movable optical adjustor adapted to shift an image generated by the riflescope, a knob connected to the body for rotation about a knob axis and operably connected to the optical adjustor to position the optical adjustor based on a rotational position of the knob, an indicator skirt rotatably engaged to the body and threadedly engaged to the knob, the indicator skirt being operable to move axially with respect to the knob such that the axial position of the indicator skirt is based on the rotational position of the knob, and the knob including a knob stop surface and the indicator skirt including a skirt stop surface, wherein the knob stop surface and the skirt stop surface are configured to positively contact each other to establish a limit of rotational travel of the knob.
A reflex sight with environmental seal on pivoting element has an outer housing defining a chamber and having a forward end defining a forward opening having a seat surface and an opposed rear end, an inner frame received within the chamber and having a forward end registered with the housing forward end and an opposed rear end, the forward end of the inner frame defining a forward aperture sealably receiving a transmissive optical element, a seal element encompassing the forward end of the inner frame and closely received in the forward opening of the outer housing to sealably contact the seat surface and provide an environmental seal, and an aiming mechanism operably interconnected to the outer housing and the inner frame to adjustably position the rear end of the inner frame with respect to the housing. The seat surface may be a concave curved surface or a spherical surface portion.
Disclosed are techniques for determining an aiming adjustment amount, in terms of both vertical and horizontal aiming adjustments, to shoot a target at a target range by iteratively solving for the projectile trajectory (e.g., projectile drop or path and deflection) such that the iteratively calculated projectile trajectory is determined to pass through the target location within a predetermined threshold amount (e.g., at a projectile path calculation of about zero). Also disclosed are techniques for indicating whether a projectile has supersonic, transonic, or subsonic speed at a given range.
A reflex sight with multiple aiming marks has a body having a forward end extending in forward direction and an opposed rearward end extending in a rearward direction, a first optical element having a first concave surface facing in the rearward direction, the first concave surface having a first focal point, a second optical element having a second concave surface facing in the rearward direction, the second concave surface having a second focal point, a first emitter proximate the first focal point and spaced apart from the second focal point, a second emitter proximate the second focal point and spaced apart from the first focal point, and the first optical element being forward of the second optical element. The first and second emitters may both be rearward of the first and second optical elements. The second emitter may be spaced apart rearwardly from the first emitter.
F41G 1/30 - Reflecting sights specially adapted for smallarms or ordnance
G02B 23/10 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices involving prisms or mirrors reflecting into the field of view additional indications, e.g. from collimator
F41G 1/34 - Night sights, e.g. luminescent combined with light source, e.g. spot light
Methods and systems are provided for a high-angle sight mount for a projectile launcher. In one example, a system for a sight mount may include a base, a cartridge configured with a quick-release element and adapted for insertion into a cylindrical chamber coupled to the base, and a plurality of cams coupled to the cartridge and adapted to engage with a surface of the mounting platform of the sight mount to adjust an angle of a mounting platform relative to the base.
A system for aiming a projectile weapon includes a telescopic sight for use with a second sighting device, such as a reflex sight or other non-magnifying sight. The telescopic sight has an eye point spaced apart rearwardly from its eyepiece and positioned at a vertical plane containing a line of initial trajectory of the weapon to which the aiming system is mounted so that a line parallel to the line of initial trajectory does not intersect the eyepiece. The location of the eye point facilitates concurrent use of a second sighting device at a normal mounting height and viewable past the eyepiece, thereby allowing the viewer to change views between the telescopic sight and the second sighting device with little eye movement and essentially no head movement.
A battery compartment for a reflex sight is accessed via a pivoting lid that can be unlatched, opened, and closed by hand without tools and without removing the sight from its weapon. A button carried by the lid actuates a switch within the sight for changing a setting of the sight. Also disclosed is a reflex sight having mounting structures for accessories, such as an impact guard, a rain hood, or a rear iron sight for example. Positioning mechanisms for an LED or other aiming point display device of an aiming sight are also disclosed.
An aiming device having for use with small weapons, such as pistols. The device includes a body mountable to the pistol, the body having an elongate upper section and a rear section projecting downwardly from the elongate upper section. When the body is mounted, the upper section is adjacent the upper surface of the pistol slide and the rear section is positioned adjacent the rear end of the slide and predominantly below the upper surface of the slide. The aiming device includes a display device carried by the rear section of the body, the display device operable to generate an aiming mark that is displayed via an optical element in sufficiently close proximity to the upper surface of the slide such that the aiming mark appears co-witnessed with a front iron sight of the pistol to a shooter viewing the aiming mark through the optical element while aiming.
An adjustment apparatus for adjusting a setting of a sighting device, such as a riflescope or telescope, includes an adjustment knob operatively coupled to an adjustment mechanism, where rotation of the adjustment knob about a rotational axis drives the adjustment mechanism to adjust the setting of the sighting device. The adjustment apparatus further includes a lock mechanism including a first lock element fixed relative to the sighting device and a second lock element selectively movable relative to the first lock element. When the lock elements engage one another, the adjustment knob is in a locked position and restrained from rotating about the rotational axis. The adjustment apparatus may further include a lock-release mechanism operable to disengage the lock elements and allow the adjustment knob to rotate about the rotational axis.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G05G 5/12 - Means for preventing, limiting or returning the movements of parts of a control mechanism, e.g. locking controlling member for holding members in an indefinite number of positions, e.g. by a toothed quadrant
F41G 1/40 - Periscopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
F41G 3/06 - Aiming or laying means with rangefinder
F41G 3/08 - Aiming or laying means with means for compensating for speed, direction, temperature, pressure, or humidity of the atmosphere
G05G 1/10 - Controlling members for hand-actuation by rotary movement, e.g. hand wheels - Details, e.g. of discs, knobs, wheels or handles
A sighting device, such as a riflescope, a reflex sight, or a spotting scope, having a display device including an addressable, emissive collection of micro display elements for generating a finely pixelated, high-resolution aiming mark. The sighting device includes a controller coupled to the display device to selectively power one or more of the display elements to generate the aiming mark. The micro display elements may be inorganic light-emitting diodes (LEDs) having a pixel size of 25 μm or less, and the display elements may be arranged at a pixel pitch of 30 μm or less.
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.
A locking adjustment device for adjusting a setting of an aimed optical device, such as a riflescope, locks at a home or baseline position to provide expedient feedback regarding an adjustment position of the adjustable setting. The device includes a knob mountable for rotation about a rotational axis when the adjustment device is installed on the aimed optical device, where the knob is rotatable about the rotational axis. The device further includes a catch that automatically locks the knob in the home or baseline position and prevents further rotation of the knob until the catch is released. A lock-release mechanism carried by the knob is manually actuatable to disengage the catch and allow the knob to be manually rotated away from the locked position.
A system for aiming a projectile weapon includes a telescopic sight for use with a second sighting device, such as a reflex sight or other non-magnifying sight. The telescopic sight has an eye point spaced apart rearwardly from its eyepiece and positioned at a vertical plane containing a line of initial trajectory of the weapon to which the aiming system is mounted so that a line parallel to the line of initial trajectory does not intersect the eyepiece. The location of the eye point facilitates concurrent use of a second sighting device at a normal mounting height and viewable past the eyepiece, thereby allowing the viewer to change views between the telescopic sight and the second sighting device with little eye movement and essentially no head movement.
A reticle of a projectile-weapon aiming system such as a riflescope includes first and second series of secondary aiming marks spaced apart below a primary aiming point, the first and second series providing holdover aiming points for regularly incrementing target distances for respective subsonic and supersonic .300 AAC Blackout ammunition, or other differing types of ammunition, without requiring adjustment of the optics or settings of the aiming system.
An illuminable reticle supporting multiple optical fibers includes an electroformed foil or wire reticle segment providing a primary aiming mark; a first optical fiber having a first end, the first optical fiber being adhered to and overlaying a lower portion of the segment to provide a first illuminable aiming point along the primary aiming mark when the first optical fiber emits light from its first end; and a second optical fiber having a second end, the second optical fiber being adhered to and overlaying a lower portion of the first optical fiber to provide a second illuminable aiming point parallel with and below the first illuminable aiming point when the second optical fiber emits light from its second end.
F41G 1/34 - Night sights, e.g. luminescent combined with light source, e.g. spot light
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
F21V 8/00 - Use of light guides, e.g. fibre optic devices, in lighting devices or systems
A battery compartment for a reflex sight is accessed via a pivoting lid that can be unlatched, opened, and closed by hand without tools and without removing the sight from its weapon. A button carried by the lid actuates a switch within the sight for changing a setting of the sight. Also disclosed is a reflex sight having mounting structures for accessories, such as an impact guard, a rain hood, or a rear iron sight for example. Positioning mechanisms for an LED or other aiming point display device of an aiming sight are also disclosed.
A sight mount system for preserving adjustment settings of a removable aiming sight so as to avoid disturbing the point of aim of the aiming sight when the aiming sight is removed and subsequently reinstalled on a projectile weapon. The system includes an aiming sight foot supporting the aiming sight and a sight mount shoe for receiving the aiming sight foot. The sight mount shoe includes a non-adjustable datum surface, and pitch and yaw adjustment mechanisms that cooperate with the datum surface to establish the pitch and yaw of the aiming sight when the aiming sight foot is secured in the sight mount shoe. A foot retainer urges the aiming sight foot into contact with the datum surface and the pitch and yaw adjustment mechanisms, the foot retainer being manually operable to enable removal and reinstallation of the aiming sight foot without disturbing the pitch and yaw adjustment mechanisms.
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.
A reticle of a projectile-weapon aiming system such as a riflescope includes first and second series of secondary aiming marks spaced apart below a primary aiming point, the first and second series providing holdover aiming points for regularly incrementing target distances for respective subsonic and supersonic .300 AAC Blackout ammunition, or other differing types of ammunition, without requiring adjustment of the optics or settings of the aiming system.
An adjustment device having a rotatable knob for changing an adjustable setting of an aiming device, such as a riflescope. The knob includes a removable indicator ring slidable onto the knob and bearing a scale to provide visual feedback to a shooter regarding an adjustment position of the adjustable setting. The knob further carries a releasable latch that may extend radially outward relative to the knob to retain the indicator ring on the knob when the latch is in the latched position. When the shooter desires to remove and replace the indicator ring, such as in response to a change in shooting conditions, the latch may be released to an unlatched position to allow the indicator ring to be moved off of the knob. The shooter may thereafter insert a replacement indicator ring on the knob.
A combination optical aiming device comprises a non-magnifying sight that includes an optic and a magnifying sight that includes an eyepiece and an objective. To reduce the vertical distance between viewing positions for the sights, the optic and the eye lens are truncated in order to position the optic predominately outside of a projection of a perimeter of the eye lens, the projection being parallel to the optical axis of the objective.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A system for aiming a projectile weapon includes a telescopic sight for use with a second sighting device, such as a reflex sight or other non-magnifying sight. The telescopic sight has an eye point spaced apart rearwardly from its eyepiece and positioned at a vertical plane containing a line of initial trajectory of the weapon to which the aiming system is mounted so that a line parallel to the line of initial trajectory does not intersect the eyepiece. The location of the eye point facilitates concurrent use of a second sighting device at a normal mounting height and viewable past the eyepiece, thereby allowing the viewer to change views between the telescopic sight and the second sighting device with little eye movement and essentially no head movement.
A compact adjustment knob for an optical, mechanical, or electronic device includes a spindle supported on the device for rotation about an axis to control a setting of the device, and a releasable automatically locking lock mechanism supported on the spindle for rotation therewith. The lock mechanism includes at least one manually depressible button accessible on an outer surface of the adjustment knob and connected to an actuator shaft that extends inwardly through a drive hole in an outer side wall of the spindle so that a force manually applied to the button is transmitted by the actuator shaft to drive the lock mechanism and rotate the spindle. The lock mechanism may include a lock sleeve that is biased to a normally locked position and driven along the axis by the actuator shaft when the button is depressed.
A locking turret knob includes an adjustment member, a first member, and a second member. The adjustment member is adjustably positionable about an axis of rotation. The first member is disposed in proximity to the adjustment member and has at least one engagement member. The second member is disposed in proximity to the adjustment member and has at least one engagement surface. The adjustment member is adjustably positionable about the axis of rotation when each engagement member does not engage an engagement surface. The adjustment member is locked in a selected position about the axis of rotation when at least one engagement member engages an engagement surface. The adjustment member can be coupled to an adjuster of an optical enhancement device, such as a telescopic sight, a telescope or a microscope.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G05G 5/12 - Means for preventing, limiting or returning the movements of parts of a control mechanism, e.g. locking controlling member for holding members in an indefinite number of positions, e.g. by a toothed quadrant
F41G 1/40 - Periscopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
F41G 3/06 - Aiming or laying means with rangefinder
F41G 3/08 - Aiming or laying means with means for compensating for speed, direction, temperature, pressure, or humidity of the atmosphere
G05G 1/10 - Controlling members for hand-actuation by rotary movement, e.g. hand wheels - Details, e.g. of discs, knobs, wheels or handles
An adjustment device having a rotatable knob for changing an adjustable setting of an aiming device, such as a riflescope. The knob includes a removable indicator ring slidable onto the knob and bearing a scale to provide visual feedback to a shooter regarding an adjustment position of the adjustable setting. The knob further carries a releasable latch that may extend radially outward relative to the knob to retain the indicator ring on the knob when the latch is in the latched position. When the shooter desires to remove and replace the indicator ring, such as in response to a change in shooting conditions, the latch may be released to an unlatched position to allow the indicator ring to be moved off of the knob. The shooter may thereafter insert a replacement indicator ring on the knob.
A range finder adapted for finding the object distance of a subject having a specific height includes a shell unit, an objective lens assembly, a magnifying unit having multiple selectable magnification ratios, and a range finding unit. The range finding unit includes a scale, a pointer, and a mark. The object distance of the subject is known by comparing the scale and the pointer in an imaging plane when an end of an image of the specific height of the subject formed on the imaging plane is aligned with the mark.
A rotatable adjustment knob has a knob body mountable to an optical or electronic device for rotation about an axis extending outwardly from the device. The knob body has an opening into a battery compartment sized to receive a battery. A lid is pivotably attached to the knob body for movement between a closed position in which the lid covers the opening, and an open position in which the lid is pivoted away from the opening to provide access to the battery compartment. The lid remains attached to the knob body while in both the open and closed positions for rotation with the knob body about the axis. A resilient seal confronts the knob body and the lid while the lid is in the closed position to thereby seal the opening and the battery compartment. A latch releasably retains the lid in the closed position.
B65D 43/16 - Non-removable lids or covers hinged for upward or downward movement
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
E05C 19/00 - Other devices specially designed for securing wings
E06B 3/34 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement
A reticle system for a variable optical power sighting device includes front and rear reticles proximate respective front and rear focal planes of the device. Range-compensating features are provided, such as a scale and a pair of bracketing marks formed in the rear reticle which cooperate with an indicator mark formed in the front reticle. The indicator mark is radially offset from the optical axis it appears to move in the field of view along the scale in response to adjustment of the optical power to thereby indicate a measurement corresponding to a size of a distant target subtended in the field of view by the bracketing marks. A two-part electronic reticle system is also disclosed utilizing similar principles of operation. The rear reticle and scale may be electroformed to reduce cost and improve light transmission relative to a glass reticle.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A locking adjustment device for changing an adjustable setting of a device such as a riflescope locks in a baseline position to provide expedient feedback regarding an adjustment position of the adjustable setting. The device includes a guideway extending around an axis and a knob mountable over the guideway for rotation about the axis. The guideway includes a notch and a curved slide surface sized to slidably receive a guide tab carried by the knob. The guide tab is biased so as to urge at least a portion of the guide tab into the notch when the knob is rotated to a locked position, thereby preventing inadvertent rotation of the knob from the locked position. A button carried by the knob is depressible to urge the guide tab out of the notch and thereby allow the knob to be manually rotated away from the locked position.
An optical sighting device includes an electronic controller that is responsive to changes in an optical magnification of the sighting device to resize at least a portion of a reticle produced by an electronic display or other means proximate a focal plane of the sighting device. In some embodiments, the reticle is located proximate a rear focal plane of the sighting device and may be scaled by the electronic controller in concert with changes in optical magnification to simulate a front focal plane reticle. A functional pattern of the reticle may also be automatically changed at different magnification settings to provide different types of reticles, such as CQB and sniper reticles, in a single optical device.
G02B 23/02 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices involving prisms or mirrors
G02B 23/10 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices involving prisms or mirrors reflecting into the field of view additional indications, e.g. from collimator
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G02B 27/36 - Fiducial marks or measuring scales within the optical system adjustable
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.
A portable system for facilitating inclined shooting of projectile weapons comprises a ranging system, an inclinometer and a processor. The ranging system measures a line-of sight range distance from a vantage point to a target that is elevated or depressed relative to the vantage point, and the inclinometer measures an inclination angle of a line of sight between the vantage point and the target. Based on information from the rangefinder and inclinometer, the processor determines a predicted altitude-compensated inclined shooting (ACIS) trajectory at the line-of sight range distance for a preselected projectile. The ACIS trajectory is based on a bullet path height correction between a bullet path height at a first altitude and a bullet path height at a second altitude, a range distance of the target from the vantage point, and selected meteorological atmospheric information.
A locking turret knob includes an adjustment member, a first member, and a second member. The adjustment member is adjustably positionable about an axis of rotation. The first member is disposed in proximity to the adjustment member and has at least one engagement member. The second member is disposed in proximity to the adjustment member and has at least one engagement surface. The adjustment member is adjustably positionable about the axis of rotation when each engagement member does not engage an engagement surface. The adjustment member is locked in a selected position about the axis of rotation when at least one engagement member engages an engagement surface. The adjustment member can be coupled to an adjuster of an optical enhancement device, such as a telescopic sight, a telescope or a microscope.
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.
Embodiments of the present concept are directed to a rangefinder that can be aligned to a fixed sight on a shooting device so that a range can be accurately taken that corresponds to a fixed sight that is used to align the shooting device to a target. Other embodiments of this concept provide methods of aligning the rangefinder to the fixed sight of the shooting device.
An optical sighting device having a compound zoom system preferably includes two or more lens erector assemblies that are each adjustable to modify the optical power of the optical sighting device. A prism erector assembly may also be included. An odd number of erector assemblies preferably creates a viewable image that has the same orientation as the real object being viewed through the optical sighting device.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A dial for adjusting an adjustable portion of a device includes an actuator that moves substantially transverse to an axis of rotation to unlock the dial for rotation. When the actuator is released, the dial automatically locks in place.
G05G 5/12 - Means for preventing, limiting or returning the movements of parts of a control mechanism, e.g. locking controlling member for holding members in an indefinite number of positions, e.g. by a toothed quadrant
G05G 1/10 - Controlling members for hand-actuation by rotary movement, e.g. hand wheels - Details, e.g. of discs, knobs, wheels or handles
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
Systems and methods are provided to selectively measure one or more conditions, such as temperature, wind speed, and angle of inclination, that may assist a golfer in making a play. If it is not permissible to present to the golfer additional information (e.g., an adjusted distance, temperature, wind speed, or a suggested club) that may assist a golfer in making a play, only a line-of-sight distance to a target on a golf course may be displayed. Modular rangefinders are also provided in which a dongle is coupled to a rangefinder to provide unique functionality. For example, a TGR™ dongle may provide golf specific functionality, such as calculating an adjusted distance that the golfer may use to play an inclined shot and a TBR® dongle may provide hunting specific functionality, such as calculating an equivalent horizontal distance that a hunter may use for precise shooting on an incline.
Various embodiments described herein comprise a scope for a firearm having a large range of zoom. The scope comprising a movable zoom selector for adjusting magnification of an image viewed through the scope. The scope further comprises an objective, an ocular, and an erector assembly positioned between the objective and ocular. The erector assembly comprises at least three optical elements movable relative to one another in response to operation of the zoom selector.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
77.
Rangefinders and aiming methods using projectile grouping
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.
A riflescope includes an objective lens component slidably supported on a guide track oriented perpendicular to an optic axis of the objective lens component for lateral, non-pivoting movement of the objective lens component in or along a plane perpendicular to the optic axis. Movement of the objective lens component shifts an image of a target in the field of view relative to an aiming mark displayed in the riflescope. In a preferred embodiment, a transparent optical window is fixedly mounted forwardly of the objective lens element and sealed to the riflescope housing.
Measuring the size of a distant object using a gauge sized according to a range to the object is provided. A user may select an initial target scale size and use an aiming mark to align a rangefinder with the object before determining the range. Indicia may be associated with the gauge, both of which could be displayed in a field of view of an optical sighting device, such as a rangefinder, riflescope, or spotting scope. In addition, the gauge or the indicia, or both may be alterable in response to the determined range. While looking through an eyepiece of the optical sighting device, the user may align the gauge with the object and estimate its size by visually comparing the gauge and object with reference to the indicia. The gauge may be geometrically shaped and may contain a series of spaced apart measuring marks having a logarithmic spacing.
An eyepiece assembly for use in a rifle scope may include an eyepiece that is made of a material that is transparent to light. A holographic reticle may be positioned within the eyepiece. The eyepiece assembly may also include a chrome reticle. The chrome reticle may be positioned so that the chrome reticle is aligned with the holographic reticle. A cover portion may be attached to the eyepiece.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A locking turret knob includes an adjustment member, a first member, and a second member. The adjustment member is adjustably positionable about an axis of rotation. The first member is disposed in proximity to the adjustment member and has at least one engagement member. The second member is disposed in proximity to the adjustment member and has at least one engagement surface. The adjustment member is adjustably positionable about the axis of rotation when each engagement member does not engage an engagement surface. The adjustment member is locked in a selected position about the axis of rotation when at least one engagement member engages an engagement surface. The adjustment member can be coupled to an adjuster of an optical enhancement device, such as a telescopic sight, a telescope or a microscope.
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.
A method for aiming a projectile weapon may utilize an aiming device having a primary aiming mark adapted to be sighted-in at a first selected range and one or more secondary aiming marks spaced below the primary aiming mark, and includes identifying, from at least two different groups of projectiles, a projectile group corresponding to a selected projectile. An aiming adjustment for the projectile weapon is determined and effected based on the range to the target and the nominal ballistic characteristics of the identified projectile group corresponding to the selected projectile. Other methods of aiming include identifying one projectile group from two or more predetermined projectile groups based on a selected projectile. Each predetermined projectile group preferably includes two or more different projectiles, preferably of different calibers, and a projectile having ballistic characteristics that are approximately median for each such projectile group.
Adjustment mechanisms that may be employed for making operational adjustments to sighting mechanisms such as riflescopes, telescopes, binoculars, monoculars or other types of viewing devices. One configuration being directed to a pop-up cap that is retained and remains connected to the adjustment mechanism, the pop-up cap translating between a first position (typically the closed position) where rotation of the cap does not engage the adjustment mechanism to a second (typically the extended position) where rotation of the cap engages the adjustment mechanism.
A method and system to record a note regarding a target observed by an observer, determine a location of at least one of the observer or the target, and associate and store the note and the location. Optionally, the method and system further measure a distance between the observer and the target, measure a direction relating the observer and the target, and calculate, based on the location of the observer, the measured distance, and the measured direction a location of the target.
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.
Various embodiments described herein include a scope for a firearm having a large range of zoom. The scope comprising a movable zoom selector for adjusting magnification of an image viewed through the scope. The scope further includes an objective, an ocular, and an erector assembly positioned between the objective and ocular. The erector assembly includes at least three optical elements movable relative to one another in response to operation of the zoom selector.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
A lens cover includes a cap adapted to be pivotably supported on an optical device. A stop may be positioned to interfere with spring-driven movement of the cap and to brake the cap at an intermediate position between closed and open positions thereof, and to allow the cap to be manually moved to the fully open position. An optional detent structure is disclosed for releasably retaining the cap in its open position. A mounting ring assembly of the lens cover may include a first threaded ring member for attachment to the optical device and a second ring member rotatably coupled to the first ring member for positioning a hinge that pivotably attaches the cap to the second ring member. Magnets may be included to retain the cap in the closed position. The mounting ring assembly, the cap, or both may be formed of a metal such as aluminum.
A reticle of a projectile weapon aiming system such as a riflescope includes a primary aiming mark adapted to be sighted-in at a first selected range and further includes a plurality of secondary aiming marks spaced apart below the primary aiming mark. The secondary aiming marks are positioned to compensate for ballistic drop at preselected incremental ranges beyond the first selected range, for a selected group of ammunition having similar ballistic characteristics. Angles subtended by adjacent aiming marks of the reticle can be adjusted by changing the optical power of the riflescope, to thereby compensate for ballistic characteristics of different ammunition. In some embodiments, the reticle includes a set of windage aiming marks spaced apart along at least one secondary horizontal axis intersecting a selected one of the secondary aiming marks, to facilitate compensation for the effect of crosswinds on the trajectory of the projectile.