Aiming systems are provided for use with a particle projection device. Such aiming systems may have a housing mountable to the particle projection device for movement therewith, a window defining a field of view when in a first orientation and a second field of view when in a second orientation. A first reticle image is visible in the window when the housing and particle projection device are at the first orientation with the first reticle image representative of a projection path of the particles in the first field of view. A second reticle image is visible in the window when the housing and particle projection device are at the second orientation with the second reticle image being representative of a projection path of the particles in the second field of view.

Aiming systems are provided for use with a particle projection device. Such aiming systems may have a housing mountable to the particle projection device for movement therewith, a window defining a field of view when in a first orientation and a second field of view when in a second orientation. A first reticle image is visible in the window when the housing and particle projection device are at the first orientation with the first reticle image representative of a projection path of the particles in the first field of view. A second reticle image is visible in the window when the housing and particle projection device are at the second orientation with the second reticle image being representative of a projection path of the particles in the second field of view.

An LED light source capable of projecting a set graphic logo and red dot sight thereof, comprising a point light source (1) and a peripheral light source (2) around the point light source (1), the peripheral light source (2) being discontinuous line light source. The LED light source capable of projecting the set graphic logo does not need a raster being matched with transmission to obtain an LED with luminous set graphic logo, so that the power consumption is reduced, system design is simplified, product functions are increased, and simplification of structure, convenience of operation and reduction of cost for red dot sight are facilitated.

An LED light source capable of projecting a set graphic logo and red dot sight thereof, comprising a point light source (1) and a peripheral light source (2) around the point light source (1), the peripheral light source (2) being discontinuous line light source. The LED light source capable of projecting the set graphic logo does not need a raster being matched with transmission to obtain an LED with luminous set graphic logo, so that the power consumption is reduced, system design is simplified, product functions are increased, and simplification of structure, convenience of operation and reduction of cost for red dot sight are facilitated.

A modular display assembly for riflescopes and related methods are provided. In one example, a modular display assembly includes a housing, a control module, and a reflective element. The control module can be operably coupled to the housing and include a substrate and display. The display can be coupled to the substrate and configured to emit light onto the reflective element. At least a portion of the housing is configured to be removably inserted into the riflescope. The modular display assembly can include a user interface that receives user input. The user input can vary information displayed on the display and reflected from the reflective element. One or more alignment pins can engage the substrate and, when rotated, shift the position of the display relative to the reflective element.

The disclosure relates to viewing optics, and in particular, a reticle system for a viewing optic. A reticle system having a fiber optic reticle coupled to a transparent substrate reticle in either the first or second focal plane is disclosed. The reticle system disclosed herein is visible in bright daylight and also has the desired floating features in the field of view, including numbers and other markings.

A surveying device embodied as total positioning system or total station, wherein the surveying device comprises a laser distance measuring module configured to generate a distance measuring beam for a single point measurement to determine a distance to a measurement point targeted by the distance measuring beam. Furthermore, the surveying device comprises a range imaging module with a switchable target illuminator for providing different distance-dependent illumination states of an area illumination comprising a broad and a narrow illumination state.

A holographic sporting/combat optic may be mounted to weapon. The holographic sporting/combat optic includes a laser diode, a holographic recording element and one or more optical components arranged in a housing. In response to a light beam incident thereon, the holographic recording element projects a composite, multidimensional reticle image into the optical viewing window. Of note, the holographic recording element has two or more reticle elements recorded thereon which form the composite reticle image. Each of the two or more reticle elements is captured at a different distance from the weapon during different exposures of the holographic recording element.

A holographic sporting/combat optic may be mounted to weapon. The holographic sporting/combat optic includes a laser diode, a holographic recording element and one or more optical components arranged in a housing. In response to a light beam incident thereon, the holographic recording element projects a composite, multidimensional reticle image into the optical viewing window. Of note, the holographic recording element has two or more reticle elements recorded thereon which form the composite reticle image. Each of the two or more reticle elements is captured at a different distance from the weapon during different exposures of the holographic recording element.

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.