WO2005096071A2 - Dual sight scope system and method - Google Patents

Dual sight scope system and method Download PDF

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Publication number
WO2005096071A2
WO2005096071A2 PCT/US2004/040272 US2004040272W WO2005096071A2 WO 2005096071 A2 WO2005096071 A2 WO 2005096071A2 US 2004040272 W US2004040272 W US 2004040272W WO 2005096071 A2 WO2005096071 A2 WO 2005096071A2
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WO
WIPO (PCT)
Prior art keywords
sight
recited
window
housing
optical element
Prior art date
Application number
PCT/US2004/040272
Other languages
French (fr)
Other versions
WO2005096071A3 (en
Inventor
Mark R. Holder
John D. Hunt
Philip B. Karcher
Original Assignee
Vitronics Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Vitronics Inc. filed Critical Vitronics Inc.
Priority to EP20040821641 priority Critical patent/EP1719014A2/en
Publication of WO2005096071A2 publication Critical patent/WO2005096071A2/en
Publication of WO2005096071A3 publication Critical patent/WO2005096071A3/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G11/00Details of sighting or aiming apparatus; Accessories
    • F41G11/001Means for mounting tubular or beam shaped sighting or aiming devices on firearms
    • F41G11/003Mountings with a dove tail element, e.g. "Picatinny rail systems"
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G1/00Sighting devices
    • F41G1/40Periscopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B23/00Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
    • G02B23/02Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices involving prisms or mirrors
    • G02B23/04Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices involving prisms or mirrors for the purpose of beam splitting or combining, e.g. fitted with eyepieces for more than one observer

Definitions

  • This invention relates to issues associated with urban combat where acquisition and engagement of potential targets often requires close- in viewing and aiming in building interiors.
  • a weapon such as a rifle
  • a scope that enables a user to scan an objective area or target area and engage targets while viewing the target through the scope.
  • these scopes or gun sights required the user to look through the scope by placing the user's eye at or near the end of the scope and looking through the scope at the target. While doing so, the user exposed himself to direct adversary fire when he was using the scope to view, locate and engage a target.
  • Various types of optical systems have been used as sighting systems on weapons. Examples of such optical systems can be seen in U.S. Patent No. 5,694,202 Mladjan et al. and in U.S. Patent No. 4,749,271 by Nagler. Other U.S.
  • This invention positions an optical beam splitting element, which can be rotated around a centerline of a pointing axis of the weapon.
  • the beamsplitter is sealed in an optical housing containing other optical elements in which part or all of the elements can rotate with the beamsplitter.
  • the beamsplitter splits the incoming optical path, giving the viewer dual sighting capabilities and allowing him to aim from either the rear of the weapon or from an adjustable side position of the weapon.
  • the side aiming position can be adjusted by pivoting or rotating the beamsplitter assembly around a pointing axis of the device so that the user can aim at a variety of side, overhead or underneath positions.
  • the beamsplitter is positioned behind the targeting reticle and therefore, the aim point of impact is not compromised by small misalignments of the rotating beamsplitting element, in addition, when the dual sight is coupled or situated adjacent to a conventional gun sight, any unlimited eye relief inherent in the sight affords greater flexibility in accommodating the position of the gunner's eye relative to the rear and side viewing ports or positions.
  • the sight device when mounted on small caliber weapons, will allow a gunner to scan an objective or target area and engage targets around corners or over obstacles, quickly and accurately.
  • the intended result is that the user of the sight can see the target and its surroundings in a line or aim point such as a red dot or similar reticle, for firing at a target while concealed and protected from return fire.
  • the sight may be provided with a quick release mount that is compatible with standard gun mounting rails and can be interfaced with red dot, holographic and other types of sighting devices.
  • Another object is to provide a penta prism beamsplitter that enables viewing a target from multiple positions associated with a weapon.
  • Another object of the invention is to provide a sight that enables side and rear views of a target wherein the image of the target is not inverted.
  • Another object of the invention is to provide a sight that can be situated in a detached, but proximate relation to, a sco pe on a weapon.
  • Another object of the invention is to provide a sight system and method that enables a user to obtain a view of a target from a position other than the rear of the weapon.
  • Still another object of the invention is to provide an adjustable optical element whose position may be adjusted to enable a viewing axis or position to be adjusted such that a user can view the target, from positions other than the rear of the sight.
  • this invention comprises a sig ht comprising a connector for mounting the sight to a weapon, a housing coupled to the connector, the housing having a plurality of windows through which a target may be viewed, and an optical element situated in the housing for receiving a beam in one of the plurality of windows and for splitting the beam into a plurality of optical paths associated with the plurality of wi ndows, respectively.
  • this invention comprises a sight for use on a weapon having a scope, the sight comprising a housing comprising a first window, a second window generally opposed to the first window, and at least one third window, an optical element situated in the housing in operative relationship with the first, second and third windows, the optical element comprising at least one beamsplitter, and a connector for detachably coupling the housing in operative relationship with the scope, the first window being generally opposed to the second window for permitting a direct line of sight of a target through the optical element, and the optical element permitting at least one third window to cooperate with at least one of the first window or the second window to permit a side or right angle view of the target from a position displaced from the direct line of sight of the target.
  • this invention comprises sight for use on a weapon, the sight comprising an optical element comprising a beamsplitter for mounting on the weapon, the optical element permitting a first view of a target along a first axis and frame, a first viewing area and a second view of the target along a second axis and frame a second viewing area, the second axis being situated at an angle relative to the first axis and a connector for coupling the optical element to the weapon, the connector permitting the optical element to rotate to permit a position of the second view to be changed, while the sight pointing direction remaining substantially the same
  • this invention comprises weapon sight prism for use on a weapon comprising a body comprising a plurality of sides, a beamsplitter integrally formed in the body, a mirror surface formed on the body, the beamsplitter and the mirror surface cooperating to provide a plurality of viewing areas for viewing a non-inverted image of a target.
  • this invention comprises a sight for use on a weapon or sighting device having a scope, the sight comprising: a housing comprising a plurality of viewing areas, an optical element situated in the housing in operative relationship with the plurality of viewing areas, the optical element comprising at least one beamsplitter, and a connector for detachably coupling the housing to the weapon and in operative relationship with the scope, the plurality of viewing areas and the optical element permitting a view of the target from a rear position of the weapon and a side view of the target from a side position of the weapon.
  • this invention comprises a weapon comprising a firearm for firing bullets at a target, a sight comprising a connector for mounting the sight to the firearm, a housing coupled to the connector, the housing having a first window, a second window and a third window, and an optical element situated in the housing for receiving a beam in first window and for splitting the beam into a plurality of optical paths associated with the second window and the third window.
  • this invention comprises a shooting method for a user to sight a target providing a weapon comprising a dual sight having a plurality of windows through which the target may be viewed, providing at least one window on a side of the sight, permitting at least one window to be adjusted to enable the user to view the target through the at least one window while positioned behind a barrier.
  • this invention comprises a sigj ht comprising: a housing having a first window, a rear window and a side window, optics located in the housing, and a coupler for coupling the housing to a weapon and for permitting the position of the side wi ndow to be adjusted, the optics enabling a user to view an image of a targ et through the side window and the rear window.
  • this invention comprises a dual sight having a front end and a rear end, the dual sight comprising a housing having a first window associated with the front end, a second window associated with the rear end, and a third window; at least one optical element comprising a beamsplitter for splitting light between the second window and the third window so that a target can be viewed through each of them.
  • FIG. 1 is a fragmentary view of an embodiment of the invention, illustrating a viewer viewing a target from side of a weapon;
  • Fig. 2 is a fragmentary view similar to Fig. 1, illustrating a user viewing a target from another side of a weapon side that is opposite the side shown in Fig. 1;
  • FIG. 3 is a fragmentary sectional view of the embod ⁇ ment shown in Fig. 1 showing various details of the invention; [0028] Fig. 3A is an exploded view of the embodiment shown in Fig.
  • Fig. 4 is a view taken in the direction of arrow A in Fig. 3;
  • Fig. 5 is a view from the direction of arrow B in Fig. 3 and illustrating movement capabilities of an optical element in the direction of double arrow C in Fig. 5;
  • Fig. 6 is a diagrammatic view, without a housing, illustrating the axis, lines of sight or optical paths D and E;
  • FIG. 7 is a cross-section fragmentary view of another embodiment of the invention showing a pentaprisim and beamsplitter;
  • Fig. 8 is a view taken in the direction of arrow F in Fig. 7;
  • Fig. 9 is a view taken in the direction of arrow G in Fig. 7 and further illustrating the rotational movement of a housing having optical elements therein in the direction of double arrow H in Fig. 9;
  • Fig. 10 is a view illustrating the axis or lines or sight I and J provided by the optical element of the embodiment shown in Fig. 7;
  • Fig. 11 is a partially exploded sectional view showing various details of the sight, with sections of glass being separated for ease of illustration;
  • Fig. 12 is a view of a ring member shown in Fig. 11 ;
  • Fig. 13 is an exploded view of a connector and means and apparatus for rotatably coupling an optical housing to the connector;
  • Fig. 14 is a sectional view of the housing that receives the optical element
  • Fig. 15 is a view of a second embodiment showing the operative position of the sight used in association with another sight
  • Fig. 16 is a view illustrating a user viewing a target utilizing the embodiment shown in Fig. 7;
  • Fig. 17 is a view illustrating a user viewing a target from above the weapon
  • Fig. 18 is a view illustrating a user viewing a target from a rear of the weapon.
  • Fig. 19 is an exploded view of an embodiment shown in Fig. 7 illustrating various details of this embodiment.
  • a weapon 10 is held by a user and has a sight 12 that enables a user to view a target from a plurality of different positions, such as a right side position of the weapon 10 (Fig. 1) or a left side position of the weapon 10 (Fig. 2) or numerous other positions therebetween.
  • the sight 12 has a rear window or port, described later herein, located at an end 12a to enable the user to look through the sight 12 in a traditional rear-view position.
  • the sight 12 is mounted on the weapon 16 with a connector
  • the sight 12 may be used either with or without the scope 14.
  • the sight 12 has an axis that is generally coaxial with an axis of the scope 14.
  • the sight 12 comprises a housing 13 that houses an optical element or assembly 18 (Figs. 3 and 3A).
  • the optical element or assembly 18 comprises an elliptical plate beamsplitter 19 having a first side 19a, a second side 19b and a plurality of ports or windows 20, 22 and 24.
  • the beamsplitter 19 which has a 50/50 splitting ratio.
  • different split ratios may be used to optimize different wave length ranges depending upon the imaging requirements of the environment.
  • the plurality of ports or windows 20, 22 and 24 are received in areas 23, 25 and 27, respectively, in a housing wall 28.
  • a plurality of locking-ring seals 38, 40 and 42 are threadably received in mating threads 28a, 28b (Fig. 3) and 28c (Fig. 3A) in a housing wall 28 that defines the generally T-shaped housing 13, retain windows 20, 22 and 24 in housing
  • housing 13 and seal an interior area 26 (Fig. 3A) within a housing wall 28 of housing 13 from moisture, dust and dirt of the type typically encountered in a tactical environment.
  • the sight 12 may be incorporated directly into a riflescope, such as scope 14, as one complete unit or constructed separately and added or retrofitted to a weapon using, for example, a detachable mount (not shown), such as a standard machined Picantinny Rail 1913 Mount or similar mount.
  • a detachable mount such as a standard machined Picantinny Rail 1913 Mount or similar mount.
  • the windows 20-24 may be polished glass flats that have anti-scratch and anti-reflection coating on them to avoid unwanted light reflections, and they do not magnify the image. However, the windows 20-24 could be provided with magnification power if desired.
  • the optical element 18 is mounted in housing 13, and the beamsplitter side 19a is situated against surface 30a which orients the beamsplitter 19 at an approximate 45 degree angle relative to the objective optical path (labeled A1 in Fig. 3).
  • This arrangement causes incoming light to be split and directed to window 24, while some light passes through to window 20.
  • the tubular member 30 has a seat 30a (Fig 3A) for receiving ' and supporting window 22.
  • a locking ring 37 is threadably received in housing 13 and has an optical seat 37a is provided for receiving and supporting the window 20.
  • the housing wall 28 has a machined seat 28e for receiving window 24.
  • the housing 13 is rotatable in the direction of double arrow C and about the axis or center line A1 (Figs. 3 and 4), which allows the user to adjust the non-rear or side aiming position to accommodate viewing a target T (Fig. 6) from different positions or angles relative to axis A1 and around different objects, such as a wall.
  • the rotational adjustment of the sight 12 is accomplished using a connector or connector assembly 16 which will now be described.
  • the connector 16 comprises a circular wall member 21 that receives an integral plug 44 that has a threaded end 44a that is threaded into mating threads 28d at end 28a of housing 28.
  • a bearing 46 which may be a plastic ring, is placed over end 44a of the internal plug 44 and between a wall 44b of a flange 44c and a flange or wall 21a (Fig. 3) of circular wall member 21 whereupon plug 44 may be screwed into housing 28 as shown in Fig. 3.
  • a bearing 48 is received on a seat 44d of plug 44 and the assemblage is rotatably mounted in circular wall member 21 and held in place by a locking ring 50.
  • the bearings 46 and 48 allow the plug 44 to rotate inside the circular wall member 21 of the connector 16.
  • the plug 44 and housing 13 to pivot or rotate together about axis A1 (Fig. 3) while the circular wall member 21 of the connector 16 remains fixed.
  • the internal plug 44 may be fastened or locked to housing 13 using a set screw (not shown) after plug 44 is threadably received in housing wall 28.
  • the connector 16 may be detachably mounted to the weapon 10 using a machined mount, such as the Picatinny Rail 1913 mount or similar mount mentioned.
  • the connector 16 may be mounted on or adjacent to scope 14, which may have a similar type of mount and may share the same track or rail on the weapon 12.
  • the optical element 18 can be separate from scope 14 and provided as an add-on or retrofit unit that can be situated adjacent to and optically coupled to the scope 14, as shown.
  • the scope 14 is mounted toward the front of the weapon, as illustrated in Fig. 1, with the circular wall member 21 receiving and covering a portion of the end 14a of scope 14 to keep dust and dirt away from the interface between the sight 12 and scope 14.
  • the scope 14 and sight 12 may be separated so that there is a gap or distance between the front of the optical housing and the rear of the scope, as will be illustrated later herein relative to another embodiment.
  • Fig. 6 is a diagrammatic view with various parts and the housing 13 removed for ease of illustration.
  • two optical axes or pathways, pathways D and E are created by the 50/50 beamsplitter 19 to the objective environment 54 as shown.
  • the beamsplitter 19 splits an incoming light beam D1 into the pathways or axes D and E, thereby enabling viewing or the target T from either a non-rear position, such as a side position 56 (illustrated in Figs. 1 , 2, 4 and 6) or a rear view position 58 (illustrated in Figs. 5 and 6), which is similar to a traditional rear- view position.
  • the optical element 18, such as beamsplitter 19 and supporting optical elements 20 and 22 are generally positioned behind a targeting or aiming reticle (not shown) within the scope 14 so that an aim point of impact is not compromised due to small optical element misalignments.
  • the beamsplitter 19 split ratio is typically designed to be 50/50 so the light transmission is evenly divided between the two optical axes or paths D and E.
  • other split ratios can be accommodated by selecting a different type of beamsplitter 19 or by having, for example, an aluminized or similar coating deposition applied to the optical glass of the beamsplitter 19 during manufacturing.
  • the user may adjust the position of window 24 by pivoting or rotating it about axis A1, in the direction of double arrow C in Fig. 5 to enable the user to view the target from the non-rear position, such as the side positions shown in Figs. 1 or 2 or any position where the user is observing the target T through window 24 and from a direction that is, for example, generally radial to axis A1.
  • an electronic imaging device may be substituted for the eye in either position 56 (Figs. 4 - 6) and 58 (i.e., when viewed from the side or rear, respectively of the weapon 10).
  • a digital camera may be coupled or operatively associated with the windows 22 and 24 if desired.
  • the embodiment may incorporate or be used with night vision, infrared, windage and elevation options of the type previously known
  • optical path D generally lies in an axis or line that is a direct path or axis through the scope 14 and toward a target T.
  • optical path E is situated at a predetermined angle ⁇ relative to the path D and is generally transverse and not co-axial with the optical path D, allowing for multiple viewing positions with a single sight.
  • the predetermined angle is approximately 90 degrees, but it should be appreciated that beamsplitter 19 may be arranged or positioned within housing 13 so that the angle ⁇ is larger or smaller if desired.
  • a sight system 100 is shown comprising a housing 102 having a wall 103 having a plurality of threaded openings 105, 107 and 109 that receive locking rings 104,106 and 108, respectively, as best shown in Figs. 7, 11 and 19.
  • the locking rings 104, 106 and 108 define or are associated with windows W1 , W2 and W3, respectively.
  • the locking rings 104, 106 and 108 are threaded and have O-rings 104a, 106a and 108a that are received in channels 104b, 106b and 108b as illustrated in Figs. 7, 11 and 12. The purpose and function of the O-ring will be described later herein.
  • the housing wall 103 is made of high strength aluminum and is configured to define a generally polygonal or pentagonal-shaped receiving area 122 for receiving an optical assembly or element 110.
  • the optical assembly or element 110 comprises a penta prism beamsplitter 111 and an optional wedge cap 113 integrally formed therein in the illustration being described.
  • the optical assembly 110 is comprised of an optional wedge cap 113 and a penta prism beamsplitter 111 comprising a mirror surface 111a and beamsplitter surface 112.
  • the beamsplitter surface 112 can be created on a surface 111e of penta prism beamsplitter 111 (Fig.
  • the optical element 110 may be provided in separate components and assembled or situated in a similar arrangement as shown in Fig. 11.
  • the optical element 110 may be provided in a single integral construction, as illustrated in Fig. 11, or the optical sub-components of mirror 111a, beamsplitter 112 and wedge cap 113 can be design to be mounted into the housing 102 as separate optical components that are placed into area 122 (Fig. 17).
  • the beamsplitter 112 can be created on the wedge cap surface 113b (Fig. 10).
  • the mirror 111a can be a separate optical component that is secured in the housing. Separate optical window elements at surfaces 104, 105, 106 can also be used to seal the interior housing and optics in such an embodiment.
  • the complete optical element 110 functions as a non- inverting optical beamsplitter that simultaneously provides non-inverted images of a target T to windows 104 and 106, as will be described in more detail later herein.
  • the housing 102 is an aluminum housing using a kinematic optical mounting technique.
  • the optical element 110 is received in the area 122 (Fig. 14) and engages mounting pads or areas 120 and 121 that are machined into the housing 110.
  • each locking ring 104-106 has the O-rings 104a, 106a and 108a that engage surfaces 113a, 111c, and 111b, respectively.
  • the locking rings 104, 106 and 108 force penta prism beamsplitter 111 against mounting pads 121 to retain optical element 110 in a firm and secure position within the housing 102.
  • the O-rings 104a, 106a and 108a engage and conform to the surfaces 113a, 11 c and 111b to provide a seal so moisture, dirt or unwanted debris will not enter housing 102.
  • an elastimeric compound or sheet 124 (Fig. 19), such as a neoprene rubber sheet, is situated on surface 111d and a lid 130 is secured to housing 102.
  • the compound or sheet 124 is used to provide a watertight seal of the lid 130.
  • the lid 130 is secured to the housing 102 with a plurality of screws 132 (only one of which is shown in Fig. 19 for ease of illustration).
  • optical element 110 provides paths J and I that are visible to the user at positions 116 and 118, respectively, and that generally correspond to positions associated with the windows W1 (Fig. 19) and W2 (Fig. 19) as shown.
  • the incoming light or optical path Y is received in window W3 (Fig. 19) and is split by beamsplitter 112 at the surface 111e of penta prism beamsplitter 111 (Fig. 10).
  • one component of the light along path Y passes through the prism 111, through beamsplitter 112 and along path or axis J to the user who is situated in proximity to area 116 and near the window W1 associated with locking ring 104 (Fig. 19).
  • This area 116 is generally associated with a rear 102a of the housing 102, as illustrated in Fig. 19.
  • the other component of split beam Y labeled as I in Fig. 10, is reflected first off of the beamsplitter 112 on surface 111 e of penta prism beamsplitter 111 and then off a mirrored surface 111 a of the penta prism beamsplitter 111.
  • the reflected light along path I passes through window W2 associated with the circular locking ring 106 (Fig. 19) and to the user at area 118, which generally corresponds to a side or angled position, such as the positions illustrated in Figs. 16, 17 and 18. In the angled or side positions, the user may be situated, for example, adjacent to, on a side, above or below the sight 100 so that the user's view is generally transverse or radial relative to the path Y.
  • the 113 are integrally formed in the penta prism beamsplitter 111 to provide a single, integral optical element 110.
  • the optical element 110 may be constructed or assembled from multiple separate, non-integral components, such as by using one or more of the individual beamsplitter 112, penta prism beamsplitter 111 , an individual penta prism (not shown) without a beamsplitter, the wedge 113, windows (not shown), and/or one or more separate mirrors (not shown) situated in the general configuration illustrated.
  • various surfaces of the components such as surfaces 111b and 111 c of penta prism beamsplitter 111 and surface 113a of wedge cap 113, may be optically coated with an anti- reflection or anti-scratch deposition or coating to enhance the performance or protection of the optical element 110.
  • the user is viewing the target T through either window W1 or W2 and that these are the surfaces 113a, 111b and 111 c of penta prism beamsplitter 111, respectively.
  • separate lens covers are not necessary, although they may be used if desired.
  • the penta prism beamsplitter 111 and beamsplitter 112 cooperate to receive light along path Y and provide the two optical pathways J and I.
  • Path I is generally transverse to paths Y and J and is situated at a predetermined angle ⁇ relative to paths Y and J as shown.
  • the predetermined angle ⁇ is on the order of about 90 degrees, but it should be understood that the optical element 110 incorporating penta prism beamsplitter 111 may be dimensioned and configured so that the relative angle ⁇ between the optical pathways or axes J and I, for example, is any desired angle.
  • the optical pathway J exits through the window W1 associated with locking ring 104 to the area 116 (Figs. 10 and 19) generally associated with the area 116 or a rear 102a (Figs. 17 and 19) of the sight 100.
  • the optical pathway I exits through window W2 defined by locking ring 106 and is generally associated with the area 118 (Figs. 10 and 19), which generally corresponds to a position where a user is situated other than at the rear of the device, such as the side or adjacent positions and above positions illustrated in Figs. 16-17. Viewing from a rear position of the sight 100 is illustrated in Fig. 18.
  • the optical element 110 enables target viewing from either the side position 118 (illustrated in Figs 16 and 17) or the rear position 116 (illustrated in Fig. 18).
  • the beamsplitter 112 split ratio in the embodiment being described is approximately 50/50 so that light is substantially evenly divided between the two optical paths I and J (Fig. 10). It should be understood, however, that other split ratios can be used.
  • coatings such as mirror and beamsplitter coatings, may be applied to the optical surfaces 111a and 113b, respectively, during manufacturing.
  • axis J is a generally a direct line of sight or view to the target T
  • the line of sight or axis I is a non-direct line of sight to the target T, as illustrated in Fig. 10.
  • the wedge cap 113 may be provided to support and protect the beamsplitter 112.
  • the wedge cap 113 also provides an air to glass surface 113a (Fig. 10) that is generally normal to the axes or line of sight J and Y illustrated in Fig. 10.
  • one or more component surfaces may comprise an anti-reflection coating or filter to reduce unwanted light reflections or light (such as UV light).
  • the sight 100 further includes a connector assembly or connector 134 that is coupled to the housing 102 and permits the housing 102, optical element 110, and windows W1 , W2 and W3 to rotate or pivot about an axis A2 (Fig. 19). This enables, for example, the position of window W2 to be changed relative to axis A2.
  • the connector assembly 134 comprises a circular portion 136 that is mounted on a conventional quick-release mount 138.
  • the quick-release mount 138 comprises a lever 140 (Fig. 8) that may be manually actuated to quickly and detachably release the connector 134 from a rail or track, such as the track 142 (Fig. 15), on which a scope 164 is mounted.
  • the housing 102 is rotatably mounted to the connector 134 in a manner that will now be described.
  • the connector 134 comprises an internal circular sleeve or plug 144 (Fig. 19).
  • a plastic bearing 146 (Figs. 13 and 19) is received on plug 144 and is situated between a wall 136a (Fig.
  • the threaded portion 144f of plug 144 projects through the opening 136b (Fig. 13) of circular portion 136. Note that the plug 144 is free to rotate between the bearings 146 and 148 within connector 134 and about the axis A2. The threaded portion 144f threadably receives the threads 109 of housing 102, thereby connecting the housing 102 to the rotatable plug 144 as shown. [0077] Because the plug 144 is not fixed and is free to rotate within circular portion 136 about the axis A2 (Figs. 13 and 19), the housing 102 is also free to rotate. An set screw, such as set screw 160 (Fig.
  • the plug 144 is coupled to and permits or enables the housing 102 to rotate about the axis A2, which generally corresponds to an axis or direct line of sight to the target T.
  • the position of the optical element 110 and the position of the window W2 associated with locking ring 106 is also capable of pivoting or rotating about the axis A2, which generally corresponds to the direct line of sight to the target T when viewed through the window W1 associated with locking ring 104.
  • the sight 100 may be detachably mounted to the track 142 (Fig. 15) using the quick-release disconnect mount 138.
  • the quick-release disconnect mount 138 may be any conventional mount, such as the Picatinny Rail 1913 mount or any equivalent thereof.
  • the sight 100 is not mounted directly to the scope 164 (Fig. 15), but rather, is situated a predetermined distance GD behind the scope as desired by the user to optimizing viewing geometry and satisfy mounting constraints.
  • the optical element 110 has zero optical power and an unlimited eye relief and does not magnify the target scene (Fig. 10). This is desirable when the sight 100 is mounted on the weapon and interfaced to a unity optical power scope, such as a 1X rifle scope, with a similar unlimited eye relief.
  • a unity optical power scope such as a 1X rifle scope
  • the embodiment is designed to work efficiently in combination with various unity magnification rifle scopes with red dot or holographic reticles. Representative examples of such rifle scopes are shown in U.S. Patent No. 4,346,995; 5,189,555; and 6,490,060, all of which are incorporated herein by reference and made a part hereof.
  • the system 100 can be used and interfaced with riflescopes or to a conventional rear peep sight (not shown) to provide a reticle (not shown) or it may be provided with its own reticle (not shown), such as a laser or red dot or holographic reticle.
  • a reticle not shown
  • its own reticle not shown
  • One advantage of the invention is that there is no need to adjust eye relief using additional lenses in the embodiment because unity optical devices allows for unlimited eye relief.
  • optical lenses or mirrors could be incorporated or used to correctly position the eye pupil to a fixed user eye point location in each optical path.
  • additional imaging objects incorporating a reticle, magnification, night vision, windage and elevation adjustment units and/or an electronic imaging device such as the digital camera referred to earlier herein relative to the first example, may be used to provide for precise imaging and aiming at the target T.
  • this embodiment is also designed to work efficiently in combination with unity magnification scopes having, for example, laser, red dot or holographic reticle.
  • electronic imaging devices such as a digital camera, may be substituted for the eye and associated with one or more of the windows 104-108 if desired.
  • the invention may be used or incorporate night vision and/or laser sighting system capabilities as well.
  • additional lenses and optics can be incorporated into the optical housing 102, the windows 104-108 to support magnified viewing of the target scene T and to properly adjust exit pupil and focal distances.
  • additional imaging objects such as a reticle, magnification, laser sighting, range finding, night vision, windage and elevation adjustment units and/or an electronic imaging device may be integrated directly into the invention to provide a multifunctional device with extended capability.
  • rotational adjustment of the optical element 110 is accomplished by a user simply adjusting the position of the housing 102 in the direction of double arrow H in Fig. 9.
  • the user can position the window W2 to the desired viewing position, such as the side position shown in Fig.
  • the plug 144 (Figs. 7 and 11) to which it is coupled rotates within the circular portion 136 of connector 134. While the bearings 146 and 148 permit this rotational movement, the locking ring 152 is tightened to a predetermined torque such that the housing 102 is retained in the position selected by the user.
  • a lock may also be provided to lock the housing 102 relative to the connector 134 after the user has adjusted it to the desired position.
  • the user views the target T through either the window W1 or window W2.
  • Light passes along path Y (Fig. 10), through the window W3, and the optical path Y (Fig. 10) is split into the axes or paths J and I at the surface 111e as described earlier.
  • the component J of the light passes through the window W1 and to the area 116 if, for example, the user is viewing the target T from the rear of the sight 100, as illustrated in Fig. 18.
  • As secondary reflection of the incoming light is reflected off surface 111e (Fig. 10) and off mirror surface 111a before passing through the window W2 and to the area 118 generally associated with a side or non-rear position of the weapon 10, as illustrated in Figs 16 and 17.
  • the sight 100 provides non- inverted images of the target T when viewed through the windows W1 and W2, respectively.
  • sling 165 (Figs. 16-18) may be provided and used to stabilize the weapon 10 and sight 100 during shooting.
  • the sling 165 facilitates minimizing the need for the user to support and stabilize the weapon 10 and helps to absorb the recoil energy during firing.
  • the position of housing 102 is adjustable and the position of the window W2 can be adjusted, pivoted or rotated about the center line or axis A2 (Fig. 19) or the pointing axis of the sight 100 so that the target T can be viewed through the window 106 at a plurality of non- rear positions, side positions, off-axis positions, above or below sight positions or any position in the direction of double arrow H (Fig. 9), while approximately maintaining angle ⁇ (Fig. 10).
  • the user maintains the ability to see the target T through the rear window W1 associated with locking ring 104 at any time.
  • the sight 100 is mounted on the weapon 10, the user can view target T down the target line, as shown in Fig.
  • a non-rear, side above or below weapon 10 position which are forward of the rear position, such as when the user is pointing the weapon at the target T while the user himself is positioned above or below a protective barrier, such as a wall of a building.

Abstract

A dual sighting optical sight is provided. The sight provides non­inverted images through a rear window and at least one side window so that a user may view a target from either a rear or a side, respectively, of the weapon to which the sight is mounted. The sight is adjustable to a plurality of different positions so that the user can use the sight and weapon from other than directly behind the sight weapon.

Description

DUAL SIGHT SCOPE SYSTEM AND METHOD
CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims the benefit of U.S. provisional application Ser. No. 60/543707 filed February 11 , 2004, which is incorporated herein by reference and made a part hereof.
FEDERALLY SPONSORED RESEARCH:
[0002] The U.S. Government has a paid-up license in this invention and the right in limited circumstances to require the patent owner to license others on reasonable terms as provided for by the terms of DAAB07-02-C- B302 awarded by the Department of Defense.
BACKGROUND OF THE INVENTION [0003] This invention relates to issues associated with urban combat where acquisition and engagement of potential targets often requires close- in viewing and aiming in building interiors.
[0004] In the past, a weapon, such as a rifle, may have a scope that enables a user to scan an objective area or target area and engage targets while viewing the target through the scope. Unfortunately, these scopes or gun sights required the user to look through the scope by placing the user's eye at or near the end of the scope and looking through the scope at the target. While doing so, the user exposed himself to direct adversary fire when he was using the scope to view, locate and engage a target. [0005] Various types of optical systems have been used as sighting systems on weapons. Examples of such optical systems can be seen in U.S. Patent No. 5,694,202 Mladjan et al. and in U.S. Patent No. 4,749,271 by Nagler. Other U.S. references of interest include U.S. Patent Nos. 4,346,995; 5,189,555; 6,490,060; and 6,643,969. [0006] What is needed is an improved sighting system which enables an alignment and aim the weapon for firing at the target while concealed and protected from such return fire by, for example, a wall of a building.
SUMMARY OF THE INVENTION
[0007] This invention positions an optical beam splitting element, which can be rotated around a centerline of a pointing axis of the weapon. The beamsplitter is sealed in an optical housing containing other optical elements in which part or all of the elements can rotate with the beamsplitter. The beamsplitter splits the incoming optical path, giving the viewer dual sighting capabilities and allowing him to aim from either the rear of the weapon or from an adjustable side position of the weapon. The side aiming position can be adjusted by pivoting or rotating the beamsplitter assembly around a pointing axis of the device so that the user can aim at a variety of side, overhead or underneath positions. In a rifle or gun scope application, the beamsplitter is positioned behind the targeting reticle and therefore, the aim point of impact is not compromised by small misalignments of the rotating beamsplitting element, in addition, when the dual sight is coupled or situated adjacent to a conventional gun sight, any unlimited eye relief inherent in the sight affords greater flexibility in accommodating the position of the gunner's eye relative to the rear and side viewing ports or positions.
[0008] The sight device, when mounted on small caliber weapons, will allow a gunner to scan an objective or target area and engage targets around corners or over obstacles, quickly and accurately. The intended result is that the user of the sight can see the target and its surroundings in a line or aim point such as a red dot or similar reticle, for firing at a target while concealed and protected from return fire. The sight may be provided with a quick release mount that is compatible with standard gun mounting rails and can be interfaced with red dot, holographic and other types of sighting devices.
[0009] It is an object of the invention to provide an improved sighting device that enables viewing a target from rear and side positions. [0010] Another object is to provide a penta prism beamsplitter that enables viewing a target from multiple positions associated with a weapon. [0011] Another object of the invention is to provide a sight that enables side and rear views of a target wherein the image of the target is not inverted.
[0012] Another object of the invention is to provide a sight that can be situated in a detached, but proximate relation to, a sco pe on a weapon. [0013] Another object of the invention is to provide a sight system and method that enables a user to obtain a view of a target from a position other than the rear of the weapon.
[0014] Still another object of the invention is to provide an adjustable optical element whose position may be adjusted to enable a viewing axis or position to be adjusted such that a user can view the target, from positions other than the rear of the sight.
[0015] In one aspect this invention comprises a sig ht comprising a connector for mounting the sight to a weapon, a housing coupled to the connector, the housing having a plurality of windows through which a target may be viewed, and an optical element situated in the housing for receiving a beam in one of the plurality of windows and for splitting the beam into a plurality of optical paths associated with the plurality of wi ndows, respectively.
[0016] In another aspect this invention comprises a sight for use on a weapon having a scope, the sight comprising a housing comprising a first window, a second window generally opposed to the first window, and at least one third window, an optical element situated in the housing in operative relationship with the first, second and third windows, the optical element comprising at least one beamsplitter, and a connector for detachably coupling the housing in operative relationship with the scope, the first window being generally opposed to the second window for permitting a direct line of sight of a target through the optical element, and the optical element permitting at least one third window to cooperate with at least one of the first window or the second window to permit a side or right angle view of the target from a position displaced from the direct line of sight of the target.
[0017] In still another aspect, this invention comprises sight for use on a weapon, the sight comprising an optical element comprising a beamsplitter for mounting on the weapon, the optical element permitting a first view of a target along a first axis and frame, a first viewing area and a second view of the target along a second axis and frame a second viewing area, the second axis being situated at an angle relative to the first axis and a connector for coupling the optical element to the weapon, the connector permitting the optical element to rotate to permit a position of the second view to be changed, while the sight pointing direction remaining substantially the same
[0018] In yet another aspect, this invention comprises weapon sight prism for use on a weapon comprising a body comprising a plurality of sides, a beamsplitter integrally formed in the body, a mirror surface formed on the body, the beamsplitter and the mirror surface cooperating to provide a plurality of viewing areas for viewing a non-inverted image of a target. [0019] In still another aspect, this invention comprises a sight for use on a weapon or sighting device having a scope, the sight comprising: a housing comprising a plurality of viewing areas, an optical element situated in the housing in operative relationship with the plurality of viewing areas, the optical element comprising at least one beamsplitter, and a connector for detachably coupling the housing to the weapon and in operative relationship with the scope, the plurality of viewing areas and the optical element permitting a view of the target from a rear position of the weapon and a side view of the target from a side position of the weapon. [0020] In yet another aspect, this invention comprises a weapon comprising a firearm for firing bullets at a target, a sight comprising a connector for mounting the sight to the firearm, a housing coupled to the connector, the housing having a first window, a second window and a third window, and an optical element situated in the housing for receiving a beam in first window and for splitting the beam into a plurality of optical paths associated with the second window and the third window. [0021] In still another aspect this invention comprises a shooting method for a user to sight a target providing a weapon comprising a dual sight having a plurality of windows through which the target may be viewed, providing at least one window on a side of the sight, permitting at least one window to be adjusted to enable the user to view the target through the at least one window while positioned behind a barrier. [0022] In yet another aspect, this invention comprises a sigj ht comprising: a housing having a first window, a rear window and a side window, optics located in the housing, and a coupler for coupling the housing to a weapon and for permitting the position of the side wi ndow to be adjusted, the optics enabling a user to view an image of a targ et through the side window and the rear window.
[0023] In still another aspect, this invention comprises a dual sight having a front end and a rear end, the dual sight comprising a housing having a first window associated with the front end, a second window associated with the rear end, and a third window; at least one optical element comprising a beamsplitter for splitting light between the second window and the third window so that a target can be viewed through each of them.
[0024] Other objects and advantages of the invention will be apparent from the following description and the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS [0025] Fig. 1 is a fragmentary view of an embodiment of the invention, illustrating a viewer viewing a target from side of a weapon; [0026] Fig. 2 is a fragmentary view similar to Fig. 1, illustrating a user viewing a target from another side of a weapon side that is opposite the side shown in Fig. 1;
[0027] Fig. 3 is a fragmentary sectional view of the embod ϊment shown in Fig. 1 showing various details of the invention; [0028] Fig. 3A is an exploded view of the embodiment shown in Fig.
1;
[0029] Fig. 4 is a view taken in the direction of arrow A in Fig. 3; [0030] Fig. 5 is a view from the direction of arrow B in Fig. 3 and illustrating movement capabilities of an optical element in the direction of double arrow C in Fig. 5;
[0031] Fig. 6 is a diagrammatic view, without a housing, illustrating the axis, lines of sight or optical paths D and E;
[0032] Fig. 7 is a cross-section fragmentary view of another embodiment of the invention showing a pentaprisim and beamsplitter;
[0033] Fig. 8 is a view taken in the direction of arrow F in Fig. 7;
[0034] Fig. 9 is a view taken in the direction of arrow G in Fig. 7 and further illustrating the rotational movement of a housing having optical elements therein in the direction of double arrow H in Fig. 9;
[0035] Fig. 10 is a view illustrating the axis or lines or sight I and J provided by the optical element of the embodiment shown in Fig. 7;
[0036] Fig. 11 is a partially exploded sectional view showing various details of the sight, with sections of glass being separated for ease of illustration;
[0037] Fig. 12 is a view of a ring member shown in Fig. 11 ;
[0038] Fig. 13 is an exploded view of a connector and means and apparatus for rotatably coupling an optical housing to the connector;
[0039] Fig. 14 is a sectional view of the housing that receives the optical element;
[0040] Fig. 15 is a view of a second embodiment showing the operative position of the sight used in association with another sight;
[0041] Fig. 16 is a view illustrating a user viewing a target utilizing the embodiment shown in Fig. 7;
[0042] Fig. 17 is a view illustrating a user viewing a target from above the weapon;
[0043] Fig. 18 is a view illustrating a user viewing a target from a rear of the weapon; and
[0044] Fig. 19 is an exploded view of an embodiment shown in Fig. 7 illustrating various details of this embodiment.
DETAILED DESCRIPTION OF THE INVENTION [0045] Referring now to Figs. 1-6, a first embodiment of the invention is shown. In this embodiment, a weapon 10 is held by a user and has a sight 12 that enables a user to view a target from a plurality of different positions, such as a right side position of the weapon 10 (Fig. 1) or a left side position of the weapon 10 (Fig. 2) or numerous other positions therebetween. The sight 12 has a rear window or port, described later herein, located at an end 12a to enable the user to look through the sight 12 in a traditional rear-view position.
[0046] The sight 12 is mounted on the weapon 16 with a connector
16 (Figs. 1 - 3A) adjacent scope 14. It should be understood that the sight
12 may be used either with or without the scope 14. In the embodiment being illustrated, the sight 12 has an axis that is generally coaxial with an axis of the scope 14. The sight 12 comprises a housing 13 that houses an optical element or assembly 18 (Figs. 3 and 3A). In this embodiment, the optical element or assembly 18 comprises an elliptical plate beamsplitter 19 having a first side 19a, a second side 19b and a plurality of ports or windows 20, 22 and 24. The beamsplitter 19 which has a 50/50 splitting ratio. Of course, it should be understood that different split ratios may be used to optimize different wave length ranges depending upon the imaging requirements of the environment.
[0047] The plurality of ports or windows 20, 22 and 24 are received in areas 23, 25 and 27, respectively, in a housing wall 28. A plurality of locking-ring seals 38, 40 and 42 are threadably received in mating threads 28a, 28b (Fig. 3) and 28c (Fig. 3A) in a housing wall 28 that defines the generally T-shaped housing 13, retain windows 20, 22 and 24 in housing
13 and seal an interior area 26 (Fig. 3A) within a housing wall 28 of housing 13 from moisture, dust and dirt of the type typically encountered in a tactical environment.
[0048] The sight 12 (Fig. 3) may be incorporated directly into a riflescope, such as scope 14, as one complete unit or constructed separately and added or retrofitted to a weapon using, for example, a detachable mount (not shown), such as a standard machined Picantinny Rail 1913 Mount or similar mount. [0049] In the embodiment being described, the windows 20-24 may be polished glass flats that have anti-scratch and anti-reflection coating on them to avoid unwanted light reflections, and they do not magnify the image. However, the windows 20-24 could be provided with magnification power if desired. The optical element 18 is mounted in housing 13, and the beamsplitter side 19a is situated against surface 30a which orients the beamsplitter 19 at an approximate 45 degree angle relative to the objective optical path (labeled A1 in Fig. 3). This arrangement causes incoming light to be split and directed to window 24, while some light passes through to window 20. The tubular member 30 has a seat 30a (Fig 3A) for receiving ' and supporting window 22. A locking ring 37 is threadably received in housing 13 and has an optical seat 37a is provided for receiving and supporting the window 20. The housing wall 28 has a machined seat 28e for receiving window 24. As mentioned earlier, notice that the windows 20, 22 and 24 are secured to housing wall 28 within housing 13 using the threaded locking rings 38, 40 and 42, which are threadably mounted in the internal mating threads 28a, 28b and 28c respectively, in housing wall 28. [0050] As best illustrated in Fig. 5, the housing 13 is rotatable in the direction of double arrow C and about the axis or center line A1 (Figs. 3 and 4), which allows the user to adjust the non-rear or side aiming position to accommodate viewing a target T (Fig. 6) from different positions or angles relative to axis A1 and around different objects, such as a wall. The rotational adjustment of the sight 12 is accomplished using a connector or connector assembly 16 which will now be described. [0051] As best shown in Figs. 3 and 3A, the connector 16 comprises a circular wall member 21 that receives an integral plug 44 that has a threaded end 44a that is threaded into mating threads 28d at end 28a of housing 28. A bearing 46, which may be a plastic ring, is placed over end 44a of the internal plug 44 and between a wall 44b of a flange 44c and a flange or wall 21a (Fig. 3) of circular wall member 21 whereupon plug 44 may be screwed into housing 28 as shown in Fig. 3. A bearing 48 is received on a seat 44d of plug 44 and the assemblage is rotatably mounted in circular wall member 21 and held in place by a locking ring 50. The bearings 46 and 48 allow the plug 44 to rotate inside the circular wall member 21 of the connector 16. The plug 44 and housing 13 to pivot or rotate together about axis A1 (Fig. 3) while the circular wall member 21 of the connector 16 remains fixed. Although not shown, note that the internal plug 44 may be fastened or locked to housing 13 using a set screw (not shown) after plug 44 is threadably received in housing wall 28. [0052] As mentioned earlier, the connector 16 may be detachably mounted to the weapon 10 using a machined mount, such as the Picatinny Rail 1913 mount or similar mount mentioned. Alternatively, the connector 16 may be mounted on or adjacent to scope 14, which may have a similar type of mount and may share the same track or rail on the weapon 12. Thus, the optical element 18 can be separate from scope 14 and provided as an add-on or retrofit unit that can be situated adjacent to and optically coupled to the scope 14, as shown. Alternatively, it could be incorporated into the scope 14 as one complete unit or constructed separately in the housing 13,
[0053] The scope 14 is mounted toward the front of the weapon, as illustrated in Fig. 1, with the circular wall member 21 receiving and covering a portion of the end 14a of scope 14 to keep dust and dirt away from the interface between the sight 12 and scope 14. The scope 14 and sight 12 may be separated so that there is a gap or distance between the front of the optical housing and the rear of the scope, as will be illustrated later herein relative to another embodiment.
[0054] Fig. 6 is a diagrammatic view with various parts and the housing 13 removed for ease of illustration. Note that two optical axes or pathways, pathways D and E, are created by the 50/50 beamsplitter 19 to the objective environment 54 as shown. Note that the beamsplitter 19 splits an incoming light beam D1 into the pathways or axes D and E, thereby enabling viewing or the target T from either a non-rear position, such as a side position 56 (illustrated in Figs. 1 , 2, 4 and 6) or a rear view position 58 (illustrated in Figs. 5 and 6), which is similar to a traditional rear- view position. Note that the optical element 18, such as beamsplitter 19 and supporting optical elements 20 and 22, are generally positioned behind a targeting or aiming reticle (not shown) within the scope 14 so that an aim point of impact is not compromised due to small optical element misalignments.
[0055] As mentioned earlier, the beamsplitter 19 split ratio is typically designed to be 50/50 so the light transmission is evenly divided between the two optical axes or paths D and E. However, other split ratios can be accommodated by selecting a different type of beamsplitter 19 or by having, for example, an aluminized or similar coating deposition applied to the optical glass of the beamsplitter 19 during manufacturing. [0056] During use, the user may adjust the position of window 24 by pivoting or rotating it about axis A1, in the direction of double arrow C in Fig. 5 to enable the user to view the target from the non-rear position, such as the side positions shown in Figs. 1 or 2 or any position where the user is observing the target T through window 24 and from a direction that is, for example, generally radial to axis A1.
[0057] It should be understood that an electronic imaging device may be substituted for the eye in either position 56 (Figs. 4 - 6) and 58 (i.e., when viewed from the side or rear, respectively of the weapon 10). For example, a digital camera may be coupled or operatively associated with the windows 22 and 24 if desired. Also, the embodiment may incorporate or be used with night vision, infrared, windage and elevation options of the type previously known
[0058] Note that the optical path D generally lies in an axis or line that is a direct path or axis through the scope 14 and toward a target T. In contrast, optical path E is situated at a predetermined angle θ relative to the path D and is generally transverse and not co-axial with the optical path D, allowing for multiple viewing positions with a single sight. In the illustration being shown, the predetermined angle is approximately 90 degrees, but it should be appreciated that beamsplitter 19 may be arranged or positioned within housing 13 so that the angle θ is larger or smaller if desired.
[0059] The optical element assembly 18, including beamsplitter 19 and windows 20, 22 and 24, do not magnify the image of target T in the embodiment being described. It should be understood, however, that the optical element 18 may be provided with magnification capabilities if desired by providing one or more magnifying lenses separate from or integrated into the windows 20, 22, 24 and/or beamsplitter 18. [0060] Referring now to Figs. 7 through 19, another embodiment of the invention is shown. In this embodiment, a sight system 100 is shown comprising a housing 102 having a wall 103 having a plurality of threaded openings 105, 107 and 109 that receive locking rings 104,106 and 108, respectively, as best shown in Figs. 7, 11 and 19. The locking rings 104, 106 and 108 define or are associated with windows W1 , W2 and W3, respectively. The locking rings 104, 106 and 108 are threaded and have O-rings 104a, 106a and 108a that are received in channels 104b, 106b and 108b as illustrated in Figs. 7, 11 and 12. The purpose and function of the O-ring will be described later herein.
[0061] The housing wall 103 is made of high strength aluminum and is configured to define a generally polygonal or pentagonal-shaped receiving area 122 for receiving an optical assembly or element 110. The optical assembly or element 110 comprises a penta prism beamsplitter 111 and an optional wedge cap 113 integrally formed therein in the illustration being described. In the embodiment being described, the optical assembly 110 is comprised of an optional wedge cap 113 and a penta prism beamsplitter 111 comprising a mirror surface 111a and beamsplitter surface 112. The beamsplitter surface 112 can be created on a surface 111e of penta prism beamsplitter 111 (Fig. 10) or on a wedge cap surface 113b, depending on the construction technique used to make the optical assembly 110. However, for purposes of discussion herein, it is assumed that the beamsplitter 112 is created or provided on surface 111e (Fig. 10). In the final optical assembly, components 111 and 113 are typically bonded together using optical cement.
[0062] It should be understood, however, that the optical assembly
110 may be provided in separate components and assembled or situated in a similar arrangement as shown in Fig. 11. Thus, the optical element 110 may be provided in a single integral construction, as illustrated in Fig. 11, or the optical sub-components of mirror 111a, beamsplitter 112 and wedge cap 113 can be design to be mounted into the housing 102 as separate optical components that are placed into area 122 (Fig. 17). In such an alternate embodiment the beamsplitter 112 can be created on the wedge cap surface 113b (Fig. 10). The mirror 111a can be a separate optical component that is secured in the housing. Separate optical window elements at surfaces 104, 105, 106 can also be used to seal the interior housing and optics in such an embodiment. [0063] The complete optical element 110 functions as a non- inverting optical beamsplitter that simultaneously provides non-inverted images of a target T to windows 104 and 106, as will be described in more detail later herein.
[0064] The housing 102 is an aluminum housing using a kinematic optical mounting technique. The optical element 110 is received in the area 122 (Fig. 14) and engages mounting pads or areas 120 and 121 that are machined into the housing 110. As shown in Fig. 7, 11 and 12, note that each locking ring 104-106 has the O-rings 104a, 106a and 108a that engage surfaces 113a, 111c, and 111b, respectively. The locking rings 104, 106 and 108 force penta prism beamsplitter 111 against mounting pads 121 to retain optical element 110 in a firm and secure position within the housing 102. The O-rings 104a, 106a and 108a engage and conform to the surfaces 113a, 11 c and 111b to provide a seal so moisture, dirt or unwanted debris will not enter housing 102.
[0065] After the optical element 110 is secured within the housing
102, an elastimeric compound or sheet 124 (Fig. 19), such as a neoprene rubber sheet, is situated on surface 111d and a lid 130 is secured to housing 102. The compound or sheet 124 is used to provide a watertight seal of the lid 130. The lid 130 is secured to the housing 102 with a plurality of screws 132 (only one of which is shown in Fig. 19 for ease of illustration).
[0066] As illustrated in Figs. 10 and 19, optical element 110 provides paths J and I that are visible to the user at positions 116 and 118, respectively, and that generally correspond to positions associated with the windows W1 (Fig. 19) and W2 (Fig. 19) as shown. Note that the incoming light or optical path Y is received in window W3 (Fig. 19) and is split by beamsplitter 112 at the surface 111e of penta prism beamsplitter 111 (Fig. 10). Thus, one component of the light along path Y passes through the prism 111, through beamsplitter 112 and along path or axis J to the user who is situated in proximity to area 116 and near the window W1 associated with locking ring 104 (Fig. 19). This area 116 is generally associated with a rear 102a of the housing 102, as illustrated in Fig. 19. [0O67] The other component of split beam Y, labeled as I in Fig. 10, is reflected first off of the beamsplitter 112 on surface 111 e of penta prism beamsplitter 111 and then off a mirrored surface 111 a of the penta prism beamsplitter 111. The reflected light along path I passes through window W2 associated with the circular locking ring 106 (Fig. 19) and to the user at area 118, which generally corresponds to a side or angled position, such as the positions illustrated in Figs. 16, 17 and 18. In the angled or side positions, the user may be situated, for example, adjacent to, on a side, above or below the sight 100 so that the user's view is generally transverse or radial relative to the path Y.
[0068] As mentioned earlier, the beamsplitter 112 and wedge cap
113 are integrally formed in the penta prism beamsplitter 111 to provide a single, integral optical element 110. It should be understood, however, that the optical element 110 may be constructed or assembled from multiple separate, non-integral components, such as by using one or more of the individual beamsplitter 112, penta prism beamsplitter 111 , an individual penta prism (not shown) without a beamsplitter, the wedge 113, windows (not shown), and/or one or more separate mirrors (not shown) situated in the general configuration illustrated.
[0069] Although not shown, various surfaces of the components, such as surfaces 111b and 111 c of penta prism beamsplitter 111 and surface 113a of wedge cap 113, may be optically coated with an anti- reflection or anti-scratch deposition or coating to enhance the performance or protection of the optical element 110. Notice that the user is viewing the target T through either window W1 or W2 and that these are the surfaces 113a, 111b and 111 c of penta prism beamsplitter 111, respectively. Thus, separate lens covers are not necessary, although they may be used if desired.
[0070] Referring now to Fig. 10, note that the penta prism beamsplitter 111 and beamsplitter 112 cooperate to receive light along path Y and provide the two optical pathways J and I. Path I is generally transverse to paths Y and J and is situated at a predetermined angle Φ relative to paths Y and J as shown. In the embodiment shown, the predetermined angle Φ is on the order of about 90 degrees, but it should be understood that the optical element 110 incorporating penta prism beamsplitter 111 may be dimensioned and configured so that the relative angle Φ between the optical pathways or axes J and I, for example, is any desired angle. Note that the optical pathway J exits through the window W1 associated with locking ring 104 to the area 116 (Figs. 10 and 19) generally associated with the area 116 or a rear 102a (Figs. 17 and 19) of the sight 100. The optical pathway I exits through window W2 defined by locking ring 106 and is generally associated with the area 118 (Figs. 10 and 19), which generally corresponds to a position where a user is situated other than at the rear of the device, such as the side or adjacent positions and above positions illustrated in Figs. 16-17. Viewing from a rear position of the sight 100 is illustrated in Fig. 18.
[0071] As with the embodiment described earlier herein, the optical element 110 enables target viewing from either the side position 118 (illustrated in Figs 16 and 17) or the rear position 116 (illustrated in Fig. 18). The beamsplitter 112 split ratio in the embodiment being described is approximately 50/50 so that light is substantially evenly divided between the two optical paths I and J (Fig. 10). It should be understood, however, that other split ratios can be used. Also, coatings, such as mirror and beamsplitter coatings, may be applied to the optical surfaces 111a and 113b, respectively, during manufacturing. Note that axis J is a generally a direct line of sight or view to the target T, whereas the line of sight or axis I is a non-direct line of sight to the target T, as illustrated in Fig. 10. [0072] In the example being described, the wedge cap 113 (Fig. 10) may be provided to support and protect the beamsplitter 112. The wedge cap 113 (Fig. 10) also provides an air to glass surface 113a (Fig. 10) that is generally normal to the axes or line of sight J and Y illustrated in Fig. 10. As mentioned earlier, one or more component surfaces, such as the surfaces 111a, 111b, 111c, 111e of prism 111 , and/or surfaces 113b,113a of wedge 113, may comprise an anti-reflection coating or filter to reduce unwanted light reflections or light (such as UV light). [0073] As best illustrated in Figs 7, 11, 13 and 19, the sight 100 further includes a connector assembly or connector 134 that is coupled to the housing 102 and permits the housing 102, optical element 110, and windows W1 , W2 and W3 to rotate or pivot about an axis A2 (Fig. 19). This enables, for example, the position of window W2 to be changed relative to axis A2.
[0074] The connector assembly 134 comprises a circular portion 136 that is mounted on a conventional quick-release mount 138. In the embodiment being described, the quick-release mount 138 comprises a lever 140 (Fig. 8) that may be manually actuated to quickly and detachably release the connector 134 from a rail or track, such as the track 142 (Fig. 15), on which a scope 164 is mounted. The housing 102 is rotatably mounted to the connector 134 in a manner that will now be described. [0075] The connector 134 comprises an internal circular sleeve or plug 144 (Fig. 19). A plastic bearing 146 (Figs. 13 and 19) is received on plug 144 and is situated between a wall 136a (Fig. 13) of circular portion 136 and a flange wall 144b of a flange 144c of plug 144. Another bearing 148 is situated on a seat 144e and engages surface 144d of flange 144c. A washer 150 is situated between the bearing 148 and a locking ring 152 as shown. The locking ring 152 is threadably received in the threaded aperture 136b of circular portion 136 to rotatably retain the plug 144 and the various components, such as the plug 144, bearings 144, 148 and washer 150 within the connector 134.
[0076] As illustrated in Figs. 11 and 13, the threaded portion 144f of plug 144 projects through the opening 136b (Fig. 13) of circular portion 136. Note that the plug 144 is free to rotate between the bearings 146 and 148 within connector 134 and about the axis A2. The threaded portion 144f threadably receives the threads 109 of housing 102, thereby connecting the housing 102 to the rotatable plug 144 as shown. [0077] Because the plug 144 is not fixed and is free to rotate within circular portion 136 about the axis A2 (Figs. 13 and 19), the housing 102 is also free to rotate. An set screw, such as set screw 160 (Fig. 11), is mounted through housing 102 and into the threaded aperture 162 in order to lock or fix the housing 102 relative to the rotatable plug 134. Thus, the plug 144 is coupled to and permits or enables the housing 102 to rotate about the axis A2, which generally corresponds to an axis or direct line of sight to the target T. This means that the position of the optical element 110 and the position of the window W2 associated with locking ring 106 is also capable of pivoting or rotating about the axis A2, which generally corresponds to the direct line of sight to the target T when viewed through the window W1 associated with locking ring 104. [0078] After the system 100 is assembled and the housing 102 is coupled to the connector 134, the sight 100 may be detachably mounted to the track 142 (Fig. 15) using the quick-release disconnect mount 138. The quick-release disconnect mount 138 may be any conventional mount, such as the Picatinny Rail 1913 mount or any equivalent thereof. In the embodiment being described, the sight 100 is not mounted directly to the scope 164 (Fig. 15), but rather, is situated a predetermined distance GD behind the scope as desired by the user to optimizing viewing geometry and satisfy mounting constraints.
[0079] In the embodiment being described, the optical element 110 has zero optical power and an unlimited eye relief and does not magnify the target scene (Fig. 10). This is desirable when the sight 100 is mounted on the weapon and interfaced to a unity optical power scope, such as a 1X rifle scope, with a similar unlimited eye relief. The embodiment is designed to work efficiently in combination with various unity magnification rifle scopes with red dot or holographic reticles. Representative examples of such rifle scopes are shown in U.S. Patent No. 4,346,995; 5,189,555; and 6,490,060, all of which are incorporated herein by reference and made a part hereof.
[0080] In the embodiment being described, the system 100 can be used and interfaced with riflescopes or to a conventional rear peep sight (not shown) to provide a reticle (not shown) or it may be provided with its own reticle (not shown), such as a laser or red dot or holographic reticle. One advantage of the invention is that there is no need to adjust eye relief using additional lenses in the embodiment because unity optical devices allows for unlimited eye relief. However, to support magnified viewing of target scene T from the rear and/or side ports or windows W1 and W2, respectively, optical lenses or mirrors could be incorporated or used to correctly position the eye pupil to a fixed user eye point location in each optical path.
[0081] Also, additional imaging objects incorporating a reticle, magnification, night vision, windage and elevation adjustment units and/or an electronic imaging device, such as the digital camera referred to earlier herein relative to the first example, may be used to provide for precise imaging and aiming at the target T. As with the embodiment being described earlier herein relative to Figs. 1-6 , this embodiment is also designed to work efficiently in combination with unity magnification scopes having, for example, laser, red dot or holographic reticle. Also, electronic imaging devices, such as a digital camera, may be substituted for the eye and associated with one or more of the windows 104-108 if desired. The invention may be used or incorporate night vision and/or laser sighting system capabilities as well. It should be understood, that additional lenses and optics can be incorporated into the optical housing 102, the windows 104-108 to support magnified viewing of the target scene T and to properly adjust exit pupil and focal distances. Also, additional imaging objects such as a reticle, magnification, laser sighting, range finding, night vision, windage and elevation adjustment units and/or an electronic imaging device may be integrated directly into the invention to provide a multifunctional device with extended capability. [0082] As illustrated in Figs. 8, 9 and 16-18, rotational adjustment of the optical element 110 is accomplished by a user simply adjusting the position of the housing 102 in the direction of double arrow H in Fig. 9. Thus, the user can position the window W2 to the desired viewing position, such as the side position shown in Fig. 16 or the above-sight position illustrated in Fig. 17. In this regard, as the user rotates the housing 102, the plug 144 (Figs. 7 and 11) to which it is coupled rotates within the circular portion 136 of connector 134. While the bearings 146 and 148 permit this rotational movement, the locking ring 152 is tightened to a predetermined torque such that the housing 102 is retained in the position selected by the user. Although not shown, a lock may also be provided to lock the housing 102 relative to the connector 134 after the user has adjusted it to the desired position.
[0083] During operation, the user views the target T through either the window W1 or window W2. Light passes along path Y (Fig. 10), through the window W3, and the optical path Y (Fig. 10) is split into the axes or paths J and I at the surface 111e as described earlier. The component J of the light passes through the window W1 and to the area 116 if, for example, the user is viewing the target T from the rear of the sight 100, as illustrated in Fig. 18. As secondary reflection of the incoming light is reflected off surface 111e (Fig. 10) and off mirror surface 111a before passing through the window W2 and to the area 118 generally associated with a side or non-rear position of the weapon 10, as illustrated in Figs 16 and 17. Note that the secondary reflection off of mirrored surface 111a eliminates the inversion that occurs when the incoming light is reflected off surface 111e (Fig. 10). Thus, the sight 100 provides non- inverted images of the target T when viewed through the windows W1 and W2, respectively.
[0084] As alluded to earlier herein, the locking rings 104, 106 and
108 have no additional lenses, optical features or windows. However, it should be understood that these openings or windows 104-108 may also contain other optics or lenses depending upon the specific imaging requirements of the sight 100 and the environment in which it is being used. Also, the sight may be detachably mounted to weapon 10 or provided in a storage pouch (not shown) for quick retrieval and mounting when desired. Also, in view of the various positions that may be achieved using the sight 100, a sling 165 (Figs. 16-18) may be provided and used to stabilize the weapon 10 and sight 100 during shooting. The sling 165 facilitates minimizing the need for the user to support and stabilize the weapon 10 and helps to absorb the recoil energy during firing. [0085] Advantageously, the position of housing 102 is adjustable and the position of the window W2 can be adjusted, pivoted or rotated about the center line or axis A2 (Fig. 19) or the pointing axis of the sight 100 so that the target T can be viewed through the window 106 at a plurality of non- rear positions, side positions, off-axis positions, above or below sight positions or any position in the direction of double arrow H (Fig. 9), while approximately maintaining angle Φ (Fig. 10). Note that the user maintains the ability to see the target T through the rear window W1 associated with locking ring 104 at any time. Thus, it should be appreciated that when the sight 100 is mounted on the weapon 10, the user can view target T down the target line, as shown in Fig. 18, or from a non-rear, side, above or below weapon 10 position which are forward of the rear position, such as when the user is pointing the weapon at the target T while the user himself is positioned above or below a protective barrier, such as a wall of a building.
[0086] While the invention has been described with reference to certain specific embodiments, this description is merely illustrative, and is not to be construed as limiting the scope of the invention. Various other modifications and changes may occur to those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims. [0087] What is claimed is:

Claims

1. A sight comprising: a connector for mounting the sight to a weapon, other sight, or pointing device; a housing coupled to said connector, said housing having a plurality of windows through which a target may be viewed; and an optical element situated in the housing for receiving a beam in one of the plurality of windows and for splitting the beam into a plurality of optical paths associated with the plurality of windows, respectively.
2. The sight as recited in claim 1 wherein said optical element comprises a beamsplitter.
3. The sight as recited in claim 1, wherein said optical element comprises a penta prism beamsplitter.
4. The sight as recited in claim 1 wherein said optical element comprises a beamsplitter and mirror.
5. The sight as recited in claim 1 wherein said optical element comprises a penta prism having a beamsplitter integrally formed therein.
6. The sight as recited in claim 2 wherein said beamsplitter comprises an elliptical beamsplitter.
7. The sight as recited in claim 1 wherein at least one of said plurality of windows permits a user to view said target along a first line of sight that is generally coaxial with an axis of said sight.
8. The sight as recited in claim 1 wherein at least one of said plurality of windows permits a user to view said target along a second line of sight that is not coaxial with an axis of said sight.
9. The sight as recited in claim 7 wherein at least one of said plurality of windows permits a user to view said target along a second line of sight having at least a portion that is not coaxial with an axis of said sight.
10. The sight as recited in claim 1 wherein at least one of said plurality of windows permits a user to view said target along a second line of sight having at least a portion that is oriented at a predetermined angle relative to a first line of sight.
11. The sight as recited in claim 10 wherein said predetermined angle is approximately 90 degrees.
12. The sight as recited in claim 1 wherein at least one of said plurality of optical paths defines a first line of sight that is generally linear.
13. The sight as recited in claim 1 wherein said at least one of said plurality of optical paths defines a second line that is not linear.
14. The sight as recited in claim 12 wherein at least one of said plurality of optical paths defines a second line of sight that is generally non-linear.
15. The sight as recited in claim 1 wherein at least one of said plurality of windows is situated at an end of said sight to permit direct observation of said target and another of said plurality of windows is situated on a side of said housing to permit observation of said target from a position displaced from a direct line of sight.
16. The sight as recited in claim 1 wherein plurality of windows comprises: a first window situated on an end of said housing and a second window situated on a side of said housing to permit a direct view and a side angle view, respectively, of said target.
17. The sight as recited in claim 1 wherein at least one of said plurality of windows enables a side angle iew of said target, said at least one of said plurality of windows being adjustable to permit said side angle view from a plurality of different positions.
18. The sight as recited in claim 17 wherein at least a portion of said housing is rotatable about a direct sight axis in order to permit said at least one of said plurality of windows to rotate about said plurality of different positions.
19. The sight as recited in claim 1 wherein said optical element permits a non-inverted image of said target from each of said plurality of windows.
20. The sight as recited in claim 19 wherein said optical element comprises a beamsplitter and mirror
21. The sight as recited in claim 19 wherein said optical element comprises a beamsplitter and mirror and one or more optical windows.
22. The sight as recited in claim 19 wherein said optical element comprises a beamsplitter and mirror and wedge cap.
23. The sight as recited in claim 19 wherein said optical element comprises a beamsplitter, mirror, -wedge cap and one or more optical windows.
24. The sight as recited in claim 19 wherein said optical element comprises a beamsplitter wedge cap, mirror, and one or more optical windows.
25. The sight as recited in claim 20 wherein said optical element comprises a beamsplitter integral with said mirror to form a penta prism beamsplitter.
26. The sight as recited in claim 20 wherein said penta prism beamsplitter comprises a beamsplitter, mirror and wedge cap integrally formed therein.
27. The sight as recited in claim 20 wherein said connector couples said housing directly to said weapon in operative relationship with a scope on the weapon.
28. The sight as recited in claim 27 wherein said operative relationship is spaced from said scope.
29. The sight as recited in claim 1 wherein said connector received at least a portion of a scope on said weapon.
30. The sight as recited in claim 1 herein said connector comprises a circular portion and a plug retractable in said circular connector and received therein, said plug being coupled to said housing and permitting said housing to rotate relative to said circular portions.
31. The sight as recited in claim 1 wherein said connector comprises a quick release mount.
32. The sight as recited in claim 1 wherein said optical element comprises: a beamsplitter element; at least one reflective mirror that cooperates with said beamsplitter element to split incoming light.
33. The sight as recited in claim 1 wherein said optical element provides a non-inverted view of the target when observed through a plurality of said plurality of windows.
34. The sight as recited in claim 1 wherein said optical element provides a non-inverted view of the target when observed through a plurality of said plurality of windows coated with an anti-reflection deposition.
35. The sight as recited in claim 1 wherein said optical element comprises a penta prism beamsplitter having a plurality of surfaces coated with an anti-reflection deposition.
36. The sight as recited in claim 1 wherein said connector has a circular portion, said connector further comprising: a plug member received by said circular portion and coupled to said housing to permit such that said plug member and said housing may pivot relative to said circular portion.
37. The sight as recited in claim 36 wherein said plug member comprises an external threaded portion that is threadably received in an internal threaded area of said housing.
38. The sight as recited in claim 36 wherein said plug member is secured to said housing with a set screw to prevent said plug member from rotating relative to said housing.
39. The sight as recited in claim 1 wherein said housing comprises a plurality of mounting pads that engage said optical element when it is mounting in said housing.
40. The sight as recited in claim 1 wherein said sight comprises at least one polymer film situated adjacent to a surface of said optical element.
41. The sight as recited in claim 1 wherein said sight further comprises: an electronic imaging device coupled to at least one of said first widow, said second window or said at least one third window.
42. The sight as recited in claim 41 wherein said electronic imaging device is a digital camera.
43. The sight as recited in claim 1 wherein said optical element further comprises: an aim point reference.
44. The sight as recited in claim 43 wherein said aim point reference comprises at least one of a red dot, holographic, wire, or reticle.
45. The sight as recited in claim 1 wherein said optical element further comprises: at least one optical lense and mirror to provide a magnified view of the target.
46. The sight as recited in claim 1 wherein said sight further comprises a windage and elevation adjustment unit to adjust an aim point of the sight.
47. A sight for use on a weapon having a scope, said sight comprising: a housing comprising a first window, a second window generally opposed to the first window, and at least one third window; an optical element situated in the housing in operative relationship with the first, second and third windows, the optical element comprising at least one beamsplitter; and a connector for detachably coupling the housing in operative relationship with the scope, the first window being generally opposed to the second window for permitting a direct line of sight of a target through the optical element, and the optical element permitting the at least one third window to cooperate with at least one of the fi rst window or the second window to permit a side angle view of the target from a position displaced from the direct line of sight of the target.
48. The sight as recited in claim 47 wherein said housing is rotatable about an axis.
49. The sight as recited in claim 47 wherein said connector comprises a rotatable member coupled to said housing to permit a position of said beamsplitter to be adjusted about a predetermined axis to permit viewing from a plurality of different positions.
50. The sight as recited in claim 47 wherein said predetermined axis is generally parallel with said direct line of sight.
51. The sight as recited in claim 47 wherein said side angle view and said direct line of sight cooperate to define a predetermined angle.
52. The sight as recited in claim 51 wherein said predetermined angle is approximately 90 degrees.
53. The sight as recited in claim 47 wherein said connector comprises a quick release mount for detachably mounting said sight to said weapon.
54. The sight as recited in claim 53 wherein said connector is adjustably coupled to said housing and said quick release mount extends in a generally tangential direction from said housing.
55. The sight as recited in claim 47 wherein said connector couples said housing to said weapon such that a gap is created between an end of said sight and said scope.
56. The sight as recited in claim 47 wherein said connector couples said housing to said weapon so that at least a portion of said connector becomes situated over a portion of said scope.
57. The sight as recited in 47 wherein said optical element comprises a penta prism and said at least one beamsplitter.
58. The sight as recited in 57 wherein said optical element comprises a wedge adjacent said at least one beamsplitter.
59. The sight as recited in claim 47 wherein said optical element comprises a penta prism having said at least one beamsplitter integrally formed therein.
60. The sight as recited in claim 47 wherein said beamsplitter comprises an elliptical beamsplitter.
61. The sight as recited in claim 47 wherein at least one of said direct line of sight is generally coaxial with an axis of said sight.
62. The sight as recited in claim 47 wherein said side angle view is along an axis that is not coaxial with axis of said direct line of sight.
63. The sight as recited in claim 47 wherein side angle view defines a ri axis comprising at least a portion that is oriented at a predetermined ang le relative to an axis of said sight.
64. The sight as recited in claim 63 wherein said predetermined angle is approximately 90 degrees.
65. The sight as recited in claim 47 wherein said direct line of sight is generally linear and said side angle view comprises a portion that is not linear.
66. The sight as recited in claim 47 wherein the target, when observed along said direct line of sight view is substantially the same as when said target is observed along said side angle view.
67. The sight as recited in claim 47 wherein said second window is associated with an end of said housing and said at least one third window is situated on a side of said housing to permit a direct line-of-sight vie v and said side angle view, respectively, of said target.
68. The sight as recited in claim 67 wherein a position of said hous ing is adjustable to enable a position of said at least one third window to be adjustable to permit said side angle view from a plurality of different positions.
69. The sight as recited in claim 47 wherein said optical element does not magnify the image.
70. The sight as recited in claim 47 wherein said optical element provides a non-inverted image of said target when viewed through said first window, said second window and said third window.
71. The sight as recited in claim 70 wherein said optical element comprises a penta prism and a beamsplitter.
72. The sight as recited in claim 71 wherein said penta prism is integral with said beamsplitter.
73. The sight as recited in claim 47 wherein said first window, said second window, said third window and said optical element cooperate to simultaneously provide said direct line of sight view and said side angle view.
74. The sight as recited in claim 47 wherein said optical element comprises: a prism comprising; at least one beamsplitter deposition and one mirror deposition on prism to split and reflect incoming light and direct it to said second window and said at least one third window.
75. The sight as recited in claim 47 wherein said optical element provides a non-inverted view of the target when observed through a plurality of said first window, said second window or said at least one third window.
76. The sight as recited in claim 47 wherein said first window, second window and at least one third window comprises a locking member for mounting on the housing- and for engaging the optical element and for retaining it a generally secure position with said housing.
77. The sight as recited in claim 47 wherein said connector comprises a quick release mount for detachably mounting said sight to the weapon.
78. The sight as recited in claim 47 wherein said optical element comprises a penta prism beamsplitter having a plurality of surfaces coated with an anti-reflection deposition.
79. The sight as recited in claim 47 wherein said connector has a circular portion, said sight further comprising: a plug member received by said circular portion and coupled to said housing to permit such that said plug member and said housing may rotate relative to said connector.
80. The sight as recited in claim 79 wherein said plug member comprises an external threaded portion that is threadably received in an internal threaded area of said housing.
81. The sight as recited in claim 79 wherein said plug member is secured to said housing with a set screw to prevent said plug member from rotating relative to said housing.
82. The sight as recited in claim 47 wherein said housing comprises a plurality of mounting pads that engage said optical element when it is mounting in said housing.
83. The sight as recited in claim 82 wherein said sight comprises at least one polymer film situated adjacent said optical element.
84. The sight as recited in claim 47 wherein said sight further comprises: an electronic imaging device coupled to at least one of said first widow, said second window or said at least one third window.
85. The sight as recited in claim 84 wherein said electronic imaging device is a digital camera.
86. The sight as recited in claim 47 wherein said optical element further comprises: an aim point reference.
87. The sight as recited in claim 86 wherein said aim point reference comprises at least one of a red dot, holographic, wire, or reticle.
88. The sight as recited in claim 47 wherein said optical element further comprises: at least one optical lense to provide a magnified view of the target.
89. The sight as recited in claim 47 wherein said sight further comprises a windage and elevation adjusters to permit adjustment of an aim point of the sight.
90. A sight for use on a weapon, said sight comprising: an optical element comprising a beamsplitter for mounting on the weapon; said optical element permitting a first view of a target along a first axis and frame a first viewing area and a second view of said target along a second axis and frame a second viewing area, said second axis being situated at an angle relative to said first axis; and a connector for coupling said optical element to said weapon; said connector permitting said optical element to pivot to permit a position of said second view to be changed, while said angle remaining substantially the same.
91. The sight as recited in claim 90 wherein said sight comprises a housing coupled to said connector for receiving said optical element.
92. The sight as recited in claim 90 wherein said optical element is rotatable about said first axis.
93. The sight as recited in claim 90 wherein said connector comprises a bearing to permit a position of said first viewing area to be adjusted.
94. The sight as recited in claim 90 wherein said first axis is coaxial with a target axis.
95. The sight as recited in claim 90 wherein said angle is approximately 90 degrees.
96. The sight as recited in claim 90 wherein said connector comprises a quick release mount for detachably mounting said sight to said weapon.
97. The sight as recited in claim 91 wherein said weapon has a scope mounted thereon, said connector coupling said housing to said weapon such that a gap is created between said sight and said scope.
98. The sight as recited in claim 90 wherein said weapon has a scope mounted thereon, said connector couples said optical element such that a portion thereof is received over to said scope.
99. The sight as recited in 90 wherein said optical element comprises a penta prism and a beamsplitter.
100. The sight as recited in claim 90 wherein said optical element comprises a penta prism having said beamsplitter integrally formed therein.
101. The sight as recited in claim 90 wherein said beamsplitter comprises an elliptical beamsplitter.
102. The sight as recited in claim 90 wherein said first axis is generally coaxial with a target axis generally corresponding to a line-of-sight to the target and said second axis is not coaxial with either said first axis or said target axis.
103. The sight as recited in claim 90 wherein said first axis defines a direct line of sight to said target.
104. The sight as recited in claim 90 wherein said second axis defines a side angle line of sight to said target.
105. The sight as recited in claim 103 wherein said second axis defines a side angle line of sight to said target.
106. The sight as recited in claim 90 wherein said first and second views are substantially the same.
107. The sight as recited in claim 90 wherein said optical element comprises: a prism; at least one reflective mirror that cooperates with said beamsplitter to split incoming light to generate said first and second views.
108. The sight as recited in claim 90 wherein said optical element generates said first view and said second view of said target such that they are non-inverted views of the target when observed from said first viewing area and said second viewing area.
109. The sight as recited in claim 90 wherein said optical element comprises a penta prism beamsplitter having a plurality of surfaces coated with an anti-reflection deposition.
110. The sight as recited in claim 109 wherein said aim point reference comprises at least one of a red dot, holographic, wire, or reticle.
111. The sight as recited in claim 90 wherein said optical element further comprises: at least one optical lense to provide a magnified view of the target.
112. The sight as recited in claim 90 wherein said sight further comprises a windage and elevation adjustment assembly to adjust an aim point of the sight.
113. A weapon sight prism for use on a weapon comprising: a body comprising a plurality of sides, a beamsplitter integrally formed in said body; a mirror surface formed on said body; said beamsplitter and said mirror surface cooperating to provide a plurality of viewing areas for viewing a non-inverted image of a target.
114. The weapon sight prism as recited in claim 113 wherein the non- inverted images are not magnified.
114. The weapon sight prism as recited in claim 113 wherein said plurality of viewing areas is located toward a rear of the weapon and another of said plurality of viewing areas is located on a side of said weapon.
115. The weapon sight prism as recited in claim 113 wherein the prism comprises a housing therearound, said housing comprising a plurality of windows associated with said plurality of viewing areas, respectively.
116. The weapon sight prism as recited in claim 116 wherein the housing comprises a connector for adjusting a position of at least one of said plurality of areas and its associated viewing window.
118. A sight for use on a weapon having a scope, said sight comprising: a housing comprising a plurality of viewing areas; an optical element situated in said housing in operative relationship with said plurality of viewing areas, said optical element comprising at least one beamsplitter; and a connector for detachably coupling said housing to the weapon and in operative relationship with said scope; said plurality of viewing areas and said optical element permitting a view of said target from a rear position of said weapon and a side view of the target from a side position of the weapon.
119. The sight as recited in claim 118 wherein said optical element comprises a penta prism having said beamsplitter integrally formed therein.
120. A weapon comprising: a firearm for firing bullets at a target; a sight comprising: a connector for mounting the sight to the firearm; a housing coupled to said connector, said housing having a first window, a second window and a third window; and an optical element situated in the housing for receiving a beam in first window and for splitting said beam into a plurality of optical paths associated with said second window and said third window.
121. The weapon as recited in claim 120 wherein said optical element comprises a beamsplitter.
122. The weapon as recited in claim 120 wherein the optical element is a penta prism.
123. The weapon as recited in claim 120 wherein said optical element comprises a penta prism and a beamsplitter.
124. The weapon as recited in claim 120 wherein said optical element comprises a penta prism having a beamsplitter integrally formed therein.
125. The weapon as recited in claim 121 wherein said beamsplitter comprises an elliptical beamsplitter.
126. The weapon as recited in claim 120 wherein at least one of said second window or third window permits a user to view said target along a first line of sight that is generally coaxial with an axis of said sight.
127. The weapon as recited in claim 120 wherein at least one of said second window or third window permits a user to view said target along a second line of sight that is not coaxial with an axis of said sight.
128. The weapon as recited in claim 120 wherein the weapon has a strap for stabilizing the weapon when the user uses the sight.
129. A shooting method for a user to sight a target; providing a weapon comprising a dual sight having a plurality of windows through which the target may be viewed; providing at least one window on a side of the sight; permitting said at least one window to be adjusted to enable the user to view the target through said at least one window while positioned behind a barrier.
130. The shooting method as recited in claim 129 wherein said adjusting step comprises the step of: pivotally adjusting said at leas one window about an axis of said sight.
131. A sight comprising: a housing having a first window, a rear window and a side window; optics located in the housing; and a coupler for coupling the housing to a weapon and for permitting the position of the side window to be adjusted; said optics enabling a user to view an image of a target through said side window and said rear window.
132. The sight as recited in claim 131 wherein the views are non-inverted.
133. The sight as recited in claim 131 wherein said optics comprise a penta prism and beamsplitter located therein.
134. The sight as recited in claim 133 wherein the beamsplitter is integral with the penta prism.
135. The sight as recited in claim 131 wherein said coupler enables a position of the side window to be changed.
136. The sight as recited in claim 131 wherein said coupler enables a position of the side window to be pivoted about an axis of the sight.
137. The sight as recited in claim 131 wherein said image is non-inverted when viewed through either said side window or said rear window.
138. A dual sight having a front end and a rear end; said dual sight comprising: a housing having a first window associated with said front end, a second window associated with the rear end, and a third window; at least one optical element comprising a beamsplitter for splitting light between said second window and said third window so that a target can be viewed through each of them.
139. The dual sight as recited in claim 138 wherein said housing comprises: a connector for coupling said housing to a weapon; said connector comprising a moveable coupling for enabling the housing to move about a predetermined axis.
140. The dual sight as recited in claim 138 wherein said moveable coupling comprises: a circular portion; and a plug portion situated in said circular portion and coupled to said housing; said plug portion cooperating with said circular portion to permit said plug portion and said housing to pivot about the axis, while being rotatably retained in said circular portion.
PCT/US2004/040272 2004-02-11 2004-12-02 Dual sight scope system and method WO2005096071A2 (en)

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US54370704P 2004-02-11 2004-02-11
US60/543,707 2004-02-11
US11/001,485 US7640691B2 (en) 2004-02-11 2004-12-01 Dual sight scope system and method
US11/001,485 2004-12-01

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Publication number Priority date Publication date Assignee Title
EP2290425A2 (en) * 2008-06-18 2011-03-02 Jung, In Optical telescope sight combining dot sight mode and scope mode
EP2290425A4 (en) * 2008-06-18 2013-12-11 Jung In Optical telescope sight combining dot sight mode and scope mode
WO2011045759A1 (en) * 2009-10-14 2011-04-21 Accutact Llc Firearm sights image splitter
EA016372B1 (en) * 2009-12-29 2012-04-30 Научно-Технический Центр "Лэмт" Беломо Optical sight
CN101871747A (en) * 2010-06-12 2010-10-27 山东亿能光学仪器股份有限公司 Sighting telescope optical system for gun
WO2014080406A1 (en) * 2012-11-25 2014-05-30 Accutact Llc. Panoramic sight system
WO2017111995A1 (en) * 2015-12-21 2017-06-29 Raytheon Company Rolling beam splitter optical switching mechanism for combination and selection of detector illumination
US9857585B2 (en) 2015-12-21 2018-01-02 Raytheon Company Rolling beam splitter optical switching mechanism for combination and selection of detector illumination
JP2019502155A (en) * 2015-12-21 2019-01-24 レイセオン カンパニー Rotating beam splitter optical switching mechanism for combination and selection of detector illumination
RU221711U1 (en) * 2023-06-08 2023-11-21 Лазарь Иннокентьевич Сергучев Device for targeted shooting and observation from cover

Also Published As

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US20050241210A1 (en) 2005-11-03
WO2005096071A3 (en) 2006-01-19
US7640691B2 (en) 2010-01-05
EP1719014A2 (en) 2006-11-08

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