An optical sight includes a lens assembly, a digital reticle display, a magnification adjuster, and a controller. The magnification adjuster is configured to be adjusted by a user. The controller is configured to display a reticle on the digital reticle display based on a real-time magnification, and is configured to determine the real-time magnification based on a position of the magnification adjuster. 26817449.1
An optical sight includes a housing, an optical element, and a photo detector. The housing has a main body, a pair of upwardly extending posts, and a cross member extending between the pair of upwardly extending post. The optical element is supported by the housing and positioned between the pair of upwardly extending posts and between the main body and the cross member. The photo detector is positioned in the housing and configured to detect ambient light at a target object. A first post of the pair of upwardly extending posts and the cross member are joined at a shoulder of the housing. The photo detector is formed in the shoulder of the housing.
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
H05B 47/11 - Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
F41G 1/30 - Reflecting sights specially adapted for smallarms or ordnance
G02B 7/00 - Mountings, adjusting means, or light-tight connections, for optical elements
G02B 27/32 - Fiducial marks or measuring scales within the optical system
An optical sight includes a housing, an optical element supported by the housing, a sensor positioned in the housing, a light source configured to selectively illuminate a reticle on the optical element, and a controller configured to control illumination of the reticle based on an output from the sensor. The sensor is configured to detect ambient light at a target object. The controller is configured to control the light source to constantly illuminate the reticle based on a first output from the sensor and illuminate the reticle in pulses based on a second output from the sensor. The first output is different from the second output.
An optical sight includes a housing, an optical element supported by the housing, a light source configured to provide a reticle on the optical element, and a light source adjuster configured to change a position of the reticle relative to the optical element. The light source is mounted on an adjustment plate. The light source adjuster includes an adjustment screw, an adjuster block configured to threadably receive the adjustment screw, and a biasing mechanism configured to apply a force to retain the adjuster block in an adjustment position. The adjuster block is directly engaged with the adjustment plate. Rotation of the adjustment screw moves the adjuster block, and movement of the adjuster block moves the adjustment plate.
An optical sight includes a lens assembly, a digital reticle display, a magnification adjuster, and a controller. The magnification adjuster is configured to be adjusted by a user. The controller is configured to display a reticle on the digital reticle display based on a real-time magnification, and is configured to determine the real-time magnification based on a position of the magnification adjuster.
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 15/10 - Optical objectives with means for varying the magnification by changing, adding, or subtracting a part of the objective, e.g. convertible objective by adding a part, e.g. close-up attachment
G02B 27/36 - Fiducial marks or measuring scales within the optical system adjustable
An optical sight includes a housing, an optical element, and a photo detector. The housing has a main body, a pair of upwardly extending posts, and a cross member extending between the pair of upwardly extending post. The optical element is supported by the housing and positioned between the pair of upwardly extending posts and between the main body and the cross member. The photo detector is positioned in the housing and configured to detect ambient light at a target object. A first post of the pair of upwardly extending posts and the cross member are joined at a shoulder of the housing. The photo detector is formed in the shoulder of the housing.
An optical sight includes a housing, an optical element supported by the housing, a light source configured to provide a reticle on the optical element, and a light source adjuster configured to change a position of the reticle relative to the optical element. The light source is mounted on an adjustment plate. The light source adjuster includes an adjustment screw, an adjuster block configured to threadably receive the adjustment screw, and a biasing mechanism configured to apply a force to retain the adjuster block in an adjustment position. The adjuster block is directly engaged with the adjustment plate. Rotation of the adjustment screw moves the adjuster block, and movement of the adjuster block moves the adjustment plate.
An optical sight includes a housing, an optical element supported by the housing, a sensor positioned in the housing, a light source configured to selectively illuminate a reticle on the optical element, and a controller configured to control illumination of the reticle based on an output from the sensor. The sensor is configured to detect ambient light at a target object. The controller is configured to control the light source to constantly illuminate the reticle based on a first output from the sensor and illuminate the reticle in pulses based on a second output from the sensor. The first output is different from the second output.
An optical sight configured to be mounted to a weapon includes a lens assembly, a display, and a controller. The display is configured to display a target animal through the lens assembly. The controller is configured to determine a range from the optical sight to the target animal and display the range on the display. The controller is configured to determine an animal type, a known animal dimension, and a display area for the target animal, where the display area for the target animal is a percentage of the display occupied by the target image. The controller is configured to determine the range from the known animal dimension and the display area for the animal.
An optic for a firearm includes a housing, an optics train, an adjustment ring, and a detector. The optics train is disposed within the housing and along a longitudinal axis of the housing. The adjustment ring is supported by the housing and configured to adjust a magnification of the optics train. The detector is engaged with the adjustment ring and configured to convert rotation of the adjustment ring into a digital magnification.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G02B 7/04 - Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
An optic for a firearm includes a housing, an optics train, an adjustment ring, and a detector. The optics train is disposed within the housing and along a longitudinal axis of the housing. The adjustment ring is supported by the housing and configured to adjust a magnification of the optics train. The detector is engaged with the adjustment ring and configured to convert rotation of the adjustment ring into a digital magnification.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G02B 7/09 - Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification adapted for automatic focusing or varying magnification
G02B 23/16 - Housings; Caps; Mountings; Supports, e.g. with counterweight
A video recorder battery pack for a firearm includes a housing, a power supply, and a port in the housing. The power supply is disposed within the housing. The port is configured to connect with a video source and is configured to simultaneously receive a video output from the video source and provide power to the video source.
A sight for a firearm includes a housing, a tritium light source, a light transmission rod, and a retainer. The housing is configured to be mounted to a firearm. The tritium light source is supported within the housing. The light transmission rod is disposed in a cavity of the housing and positioned adjacent the tritium light source. The light transmission rod is configured to collect and transmit both an ambient light and a light from the tritium light source. The retainer is removably engaged with the housing and fixes the light transmission rod within the cavity. Removal of the retainer provides access for replacement of the light transmission rod.
A retainer system is provided for tethering a cap to a body on an optic, where the cap and body define an inner cavity. The retainer system includes a lanyard and an inner attachment. The lanyard is fixed on a first end to a surface of the cap facing the inner cavity. The inner attachment is fixed on a first end to a second end of the lanyard and is fixed on a second end to an inside wall of the body facing the inner cavity. When the cap is closed on the body, the lanyard and inner attachment are contained completely within the inner cavity.
A powered mount for a firearm includes a housing for receiving a battery. The housing has a first surface engaging a firearm and a second surface engaging an external device. A positive contact sub-assembly contacts a positive terminal of the battery. A negative contact cooperates with the positive contact sub-assembly to sandwich the battery in the housing. A power output transfers electrical current from the battery to the external device.
A powered mount for a firearm includes a housing for receiving a battery. The housing has a first surface engaging a firearm and a second surface engaging an external device. A positive contact sub-assembly contacts a positive terminal of the battery. A negative contact cooperates with the positive contact sub-assembly to sandwich the battery in the housing. A power output transfers electrical current from the battery to the external device.
An optical sight includes a housing, a relay assembly, and a biasing element. The relay assembly has at least one optical element, a main tube, a track tube with at least one track, and a reticle assembly. The track tube is selectively rotatable relative to and about the main tube to adjust an axial position of the at least one optical element within the main tube along an axis that is substantially parallel to a longitudinal axis of the main tube. The reticle assembly further includes at least one optical element. The biasing element includes a mounting strap that is fixed to an inner surface of the housing and a spring having an engagement surface that contacts the relay assembly and exerts a force on the relay assembly. The engagement surface is on a radially inner side of the spring opposite a radially outer side facing the mounting strap.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
G02B 7/10 - Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification by relative axial movement of several lenses, e.g. of varifocal objective lens
G02B 15/163 - Optical objectives with means for varying the magnification by axial movement of one or more lenses or groups of lenses relative to the image plane for continuously varying the equivalent focal length of the objective with interdependent non-linearly related movements between one lens or lens group, and another lens or lens group having a first movable lens or lens group and a second movable lens or lens group, both in front of a fixed lens or lens group
An optical sight is provided and includes a housing having a first bearing surface integrally formed therewith and a relay assembly having at least one optical element, a main tube, and a track tube having at least one track. The track tube is selectively rotatable relative to and about the main tube to adjust an axial position of the at least one optical element within the main tube along an axis that is substantially parallel to a longitudinal axis of the main tube. The main tube includes a spherical surface that is in contact with the first bearing surface of the housing to define a pivot point of the main tube within the housing.
An optical sight is provided and includes a housing having a first bearing surface integrally formed therewith and a relay assembly having at least one optical element, a main tube, and a track tube having at least one track. The track tube is selectively rotatable relative to and about the main tube to adjust an axial position of the at least one optical element within the main tube along an axis that is substantially parallel to a longitudinal axis of the main tube. The main tube includes a spherical surface that is in contact with the first bearing surface of the housing to define a pivot point of the main tube within the housing.
An adjustment turret for an optical sight is provided and may include a housing and an adjustment member rotatably supported by the housing and operable to adjust a characteristic of the optical sight when moved relative to the housing. The adjustment turret may additionally include a cap extending from the housing and movable between an engaged state fixing the cap for rotation with the adjustment member and a disengaged state permitting relative rotation between the cap and the adjustment member. The cap may be moveable from the disengaged state to the engaged state in a direction away from the housing.
An optical sight is provided and may include a housing and a wedged, doublet objective lens supported by the housing. The wedged, doublet objective lens may include a first lens having a first amount of wedge and a second lens having a second amount of wedge different than the first amount of wedge.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
F41G 1/34 - Night sights, e.g. luminescent combined with light source, e.g. spot light
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
A reticle is provided and may include a vertical line and a horizontal line cooperating to form a center-aiming point. A first plurality of indicia may be located along the vertical line and may each include two normal sides that are formed normal to the vertical line and two parallel sides that are formed parallel to the vertical line. A second plurality of indicia may be located along the horizontal line and may each include two normal sides that are formed normal to the horizontal line and two parallel sides that are formed parallel to the horizontal line.
A sighting system for a firearm is provided and may include a rear-sight assembly having a rear surface opposing a shooter, a pair of rear-aiming points, and a U-shaped opening disposed between the pair of rear-aiming points. The rear surface may be formed at an angle relative to a top surface of the firearm such that a bottom portion of the rear surface disposed proximate to the top surface of the firearm is farther away from a shooter than a top portion of the rear surface. The sighting system may also include a front-sight assembly including a housing having a front-aiming point, a brightly colored material surrounding the front-aiming point, and a top coat extending over the brightly colored material and the front-aiming point.
A sight assembly for a firearm is provided and may include a main body attached to the firearm and a pair of projections defining a first surface opposing a shooter and a second surface formed on an opposite side of the projections than the first surface. The first surface may be formed at an angle relative to a top surface of the firearm such that a bottom portion of the first surface disposed proximate to the top surface of the firearm is farther away from a shooter than a top portion of the first surface. The sight assembly may further include a U-shaped opening disposed between the pair of projections and in communication with a passage defined by the pair of projections, whereby the passage widens along a length of the pair of projections in a direction extending from the first surface to the second surface.
An optical sight is provided and may include a housing and a wedged, doublet objective lens supported by the housing. The wedged, doublet objective lens may include a first lens having a first amount of wedge and a second lens having a second amount of wedge different than the first amount of wedge.
F41G 1/30 - Reflecting sights specially adapted for smallarms or ordnance
F41G 1/34 - Night sights, e.g. luminescent combined with light source, e.g. spot light
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
09 - Scientific and electric apparatus and instruments
13 - Firearms; explosives
Goods & Services
Optical weapons sights; telescopic sights [riflescopes]; sighting devices (included in the class). Sights for weapons; sighting devices (included in the class).
A sight assembly for a shotgun is provided and may include a housing. A light-collecting fiber may be supported by the housing and may extend along a longitudinal axis of the housing. A lens may be supported by the housing and may receive light from the fiber to display an aiming point. The lens may be spaced apart and separated from a distal end of the fiber by a predetermined distance.
An adjustment turret for an optical sight includes a body, an adjustment shaft, a cap, and a locking pin. The body includes a cavity and an axial bore. The adjustment shaft threadably engages the axial bore for relative rotation therebetween. The cap is connected to the adjustment shaft for rotation with the adjustment shaft relative to the body and is axially movable relative to the body and the adjustment shaft between a first position and a second position. The locking pin is axially movable with the cap and is received in the cavity when the cap is in the first position to prevent relative rotation between the cap and the body and is removed from the cavity when the cap is in the second position to allow relative rotation between the cap and the body.
An optical sight is provided and may include a housing having a base, a first post extending from the base, and a second post extending from the base. The optical sight may additionally include an optical element supported by the housing between the first post and the second post, a reticle displayed on the optical element, and an illumination system generating the reticle. A first actuation member may be disposed on one of the first post and the second post and may selectively control an intensity of the reticle by controlling an output of the illumination system.
A sighting system for a firearm is provided and may include a rear-sight assembly having a rear surface opposing a shooter, a pair of rear-aiming points, and a U-shaped opening disposed between the pair of rear-aiming points. The rear surface may be formed at an angle relative to a top surface of the firearm such that a bottom portion of the rear surface disposed proximate to the top surface of the firearm is farther away from a shooter than a top portion of the rear surface. The sighting system may also include a front-sight assembly including a housing having a front-aiming point, a brightly colored material surrounding the front-aiming point, and a top coat extending over the brightly colored material and the front-aiming point.
A sighting system for a firearm is provided and may include a rear-sight assembly having a rear surface opposing a shooter, a pair of rear-aiming points, and a U-shaped opening disposed between the pair of rear-aiming points. The rear surface may be formed at an angle relative to a top surface of the firearm such that a bottom portion of the rear surface disposed proximate to the top surface of the firearm is farther away from a shooter than a top portion of the rear surface. The sighting system may also include a front-sight assembly including a housing having a front-aiming point, a brightly colored material surrounding the front-aiming point, and a top coat extending over the brightly colored material and the front-aiming point.
An optical sight is provided and may include an optics train having at least one prism with a first surface, a display associated with the first surface to selectively supply the first surface with an image, and a processor in communication with the display to provide the display with the image. An infrared camera may be in communication with the processor and may provide the processor with thermal-energy data for use by the processor in generating the image.
An optical sight is provided and may include an optics train having at least one prism with a first surface, a display associated with the first surface to selectively supply the first surface with an image, and a processor in communication with the display to provide the display with the image. An infrared camera may be in communication with the processor and may provide the processor with thermal-energy data for use by the processor in generating the image.
An optical sight is provided and may include an optics train having at least one prism with a first surface, a display associated with the first surface to selectively supply the first surface with an image, and a processor in communication with the display to provide the display with the image. An infrared camera may be in communication with the processor and may provide the processor with thermal-energy data for use by the processor in generating the image.
