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A laser sighting device having a laser sight body with a barrel aperture formed through the laser sight body; two or more laser emitter apertures formed in the laser sight body; a laser light aperture extending from a bottom wall of each laser emitter aperture through the laser sight body; a laser e

A laser sighting device having a laser sight body with a barrel aperture formed through the laser sight body; two or more laser emitter apertures formed in the laser sight body; a laser light aperture extending from a bottom wall of each laser emitter aperture through the laser sight body; a laser emitter for each laser emitter aperture; wherein a laser emitter is fitted within each laser emitter aperture; a cap associated with each laser emitter aperture; wherein when the cap is a threadedly connected and sufficient torque is applied to the cap, the laser emitter produces a laser light beam that is projected through the laser light aperture.

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1. A laser sighting device, comprising: a laser sight body having a barrel aperture formed through said laser sight body, wherein said barrel aperture is parallel to a longitudinal axis of said laser sight body;two or more laser emitter apertures formed in said laser sight body, wherein each laser e

1. A laser sighting device, comprising: a laser sight body having a barrel aperture formed through said laser sight body, wherein said barrel aperture is parallel to a longitudinal axis of said laser sight body;two or more laser emitter apertures formed in said laser sight body, wherein each laser emitter aperture extends from a threaded portion to a shoulder to a bottom wall, and wherein each laser emitter aperture includes a spring biasing means positioned so as to contact said bottom wall;a laser light aperture extending from said bottom wall of each laser emitter aperture through said laser sight body, wherein each laser emitter aperture and each laser light aperture has a longitudinal axis that is parallel to said longitudinal axis of said laser sight body;two or more laser emitters, wherein each laser emitter includes a laser emitter rim and a laser emitter body, wherein each laser emitter is constructed such that an exterior surface of said laser emitter rim is electrically isolated from an exterior surface of said laser emitter body such that when said exterior surface of said laser emitter rim is electrically connected to said exterior surface of said laser emitter body, said laser emitter is activated and a laser light beam is projected from said laser emitter;wherein a laser emitter is fitted within each laser emitter aperture such that said exterior surface of said laser emitter body contacts a side wall of said laser emitter aperture, and wherein a forward surface of said laser emitter body contacts said spring biasing means at said bottom wall of said laser emitter aperture and said laser emitter is spring biased, via said spring biasing means, such that said laser emitter rim does not make contact with said shoulder of said laser emitter aperture;a cap associated with each laser emitter aperture, wherein each cap extends from a top portion to a threaded portion to an end surface, and wherein each cap is formed such that said threaded portion of said cap can be threaded into said threaded portion of said laser emitter aperture;wherein when a cap is a threadedly connected, via interaction of said threaded portion of said cap and said threaded portion of said laser emitter aperture, said end surface of said cap makes contact with a rear surface of said laser emitter, such that when sufficient tightening, rotational torque is applied to said cap said spring bias of said spring biasing means is overcome sufficient to allow said laser emitter be urged within said laser emitter aperture such that said exterior surface of said laser emitter rim makes contact with said shoulder of said laser emitter aperture, thereby completing an electrical path between said exterior surface of said laser emitter rim and said exterior surface of said laser emitter body such that said laser emitter produces a laser light beam that is projected through said laser light aperture. 2. The laser sighting device of claim 1, wherein said barrel aperture is formed through an approximate center of said laser sight body. 3. The laser sighting device of claim 1, wherein said laser sight body is formed of an electrically conductive material. 4. The laser sighting device of claim 1, wherein said laser sight body is formed of an electrically non-conductive material and each laser emitter aperture is at least partially surrounded by an electrically conductive sleeve portion. 5. The laser sighting device of claim 1, wherein said laser sight body is formed of a first material and each laser emitter aperture is at least partially surrounded by an electrically conductive sleeve portion. 6. The laser sighting device of claim 1, wherein said spring biasing means comprises one of an O-ring or a spring washer. 7. The laser sighting device of claim 1, wherein each laser light aperture is of a sufficient diameter to allow a laser light beam to be projected through said laser light aperture and out of said laser sight body. 8. The laser sighting device of claim 1, wherein each laser emitter is a rimfire-type laser bore sight. 9. The laser sighting device of claim 1, wherein each laser emitter aperture is formed such that a laser emitter can be fitted within each laser emitter aperture. 10. The laser sighting device of claim 1, wherein at least one O-ring receiving groove is formed within said barrel aperture and wherein an O-ring is positioned within said at least one O-ring receiving groove. 11. The laser sighting device of claim 1, wherein at least one threaded set screw apertures is formed in said laser sight body, wherein said at least one threaded set screw aperture extends radially from a center of said laser sight body. 12. The laser sighting device of claim 1, wherein each projected laser light beam is parallel to said longitudinal axis of said laser sight body. 13. The laser sighting device of claim 1, wherein said laser emitter apertures are positioned at equally spaced apart positions around said laser sight body. 14. The laser sighting device of claim 1, wherein a prismatic optical enhancement is positioned within said laser light aperture. 15. The laser sighting device of claim 1, wherein at least one of said laser emitters is a line or pattern generating laser emitter. 16. The laser sighting device of claim 1, wherein said laser sight body includes a plurality of Light Emitting Diodes. 17. The laser sighting device of claim 1, wherein said laser sight body includes at least one accessory attachment rail. 18. The laser sighting device of claim 1, wherein said laser sight body is formed as an integral component of a barrel. 19. A laser sighting device, comprising: two or more laser emitter pods formed as an integral component of a barrel, wherein said barrel is parallel to a longitudinal axis of each laser emitter pod;a laser emitter aperture formed in each laser emitter pod, wherein each laser emitter aperture extends from a threaded portion to a shoulder to a bottom wall, and wherein each laser emitter aperture includes a spring biasing means positioned so as to contact said bottom wall;a laser light aperture extending from said bottom wall of each laser emitter aperture through each laser emitter pod, wherein each laser emitter aperture and each laser light aperture has a longitudinal axis that is parallel to said longitudinal axis of each laser emitter pod;two or more laser emitters, wherein each laser emitter includes a laser emitter rim and a laser emitter body, wherein each laser emitter is constructed such that an exterior surface of said laser emitter rim is electrically isolated from an exterior surface of said laser emitter body such that when said exterior surface of said laser emitter rim is electrically connected to said exterior surface of said laser emitter body, said laser emitter is activated and a laser light beam is projected from said laser emitter;wherein a laser emitter is fitted within each laser emitter aperture such that said exterior surface of said laser emitter body contacts a side wall of said laser emitter aperture, and wherein a forward surface of said laser emitter body contacts said spring biasing means at said bottom wall of said laser emitter aperture and said laser emitter is spring biased, via said spring biasing means, such that said laser emitter rim does not make contact with said shoulder of said laser emitter aperture;a cap associated with each laser emitter aperture, wherein each cap extends from a top portion to a threaded portion to an end surface, and wherein each cap is formed such that said threaded portion of said cap can be threaded into said threaded portion of said laser emitter aperture;wherein when a cap is a threadedly connected, via interaction of said threaded portion of said cap and said threaded portion of said laser emitter aperture, said end surface of said cap makes contact with a rear surface of said laser emitter, such that when sufficient tightening, rotational torque is applied to said cap said spring bias of said spring biasing means is overcome sufficient to allow said laser emitter be urged within said laser emitter aperture such that said exterior surface of said laser emitter rim makes contact with said shoulder of said laser emitter aperture, thereby completing an electrical path between said exterior surface of said laser emitter rim and said exterior surface of said laser emitter body such that said laser emitter produces a laser light beam that is projected through said laser light aperture; andwherein each projected laser light beam is parallel to said longitudinal axis of each laser emitter pod. 20. A laser sighting device, comprising: a body having an aperture formed therethrough, wherein said aperture is parallel to a longitudinal axis of said body;two or more laser emitter apertures formed in said body;a laser light aperture extending from each laser emitter aperture through said body;a laser emitting circuit positioned within each laser emitter aperture, wherein each laser emitting circuit is electrically connected, via electrical connections, to a power supply and a switch such that when said switch is in an on position, power is supplied from said power supply to each of said laser emitting circuits to activate said laser emitting circuits and produce a laser light beam from each of said laser emitting circuits, and wherein said produced laser light beams are parallel to one another.