Patent Grant
9285187
The present invention generally relates to sight devices, such as optical sights. More particularly, the invention relates to a reticle piece for an optical sight having a level indicating device.
Sight devices are commonly used with firearms to provide a shooter with an aiming point. Several types of sight devices are available. For example, iron sights typically include a first sight piece positioned near the muzzle end of a firearm and a second sight piece positioned nearer to the breach end. The first and second sight pieces are positioned appropriately with respect to one another to align the firearm with a target.
Optical sights are another type of sight device and include optical components, such as lenses, and an indication of an aiming point. Typically, this indication of an aiming point is in the form of a reticle, which can have many configurations, such as dots, crosshairs, and others. Telescopic sights are a type of optical sight and include lenses that magnify the image viewed through the telescopic sight.
A reticle is typically provided in an optical sight by positioning a reticle piece, sometimes referred to as reticle glass, at an appropriate position in the optical components of the optical sight. A reticle piece includes a reticle pattern and is typically positioned at a focal plane so that it provides an in-focus reticle, when viewed by a shooter. For example, telescopic sights typically include a front focal plane and a rear focal plane, and the reticle piece can be positioned at either of those focal planes.
A reticle is a graphic image superimposed over the view seen through an optical sight. A crosshair reticle is a common type of reticle and includes a vertical segment and a horizontal segment which intersect one another in a central region of the view seen through the optical sight. In general, the intersection of the vertical and horizontal segments provides the aiming point that a shooter aligns with a target.
For relatively close targets, the aiming point may coincide with the point that a bullet will impact. In addition, either or both of the vertical and horizontal segments can include additional markings relevant to factors relating to an appropriate aiming point. For example, a vertical segment may include graduated hashes or other marks that correspond with the amount that a bullet will drop (due to gravity) as it follows its trajectory to a distant target. For more distant targets, the aiming point provided by the intersection of the vertical and horizontal segments of the reticle may not coincide with a point of bullet impact unless the aiming point is adjusted to compensate for bullet drop. Generally, as the distance to a target increases, a shooter will have to account for the amount that a bullet will drop. The graduated hashes on the vertical segment of the reticle can assist a shooter in addressing this bullet drop.
If an optical sight is properly leveled with respect to the ground, the bullet drop will follow along the vertical segment of the reticle (assuming there is no cross-wind). If the optical sight is not properly leveled, however, such as if the firearm to which the optical sight is attached is held in a tilted orientation, then the bullet drop will not follow along the vertical segment of the reticle, and the graduated hashes on the vertical segment will not be useful to the shooter.
There is a need, therefore, for devices that provide an indication of whether an optical sight is properly leveled with respect to the ground. Various external devices have been used, but these require the shooter to move his eye away from the view through the optical sight in order to check or confirm the level of the firearm. The shooter must then return his view to the optical sight, but can no longer with the external device. Various electronic devices have been proposed which provide an internally viewed level indicator, but these require a power source and significantly increase the cost of the optical sight. Internal mechanical devices have to be trued to the reticle and are subject to becoming misaligned.
The present invention overcomes the foregoing problems and other shortcomings and drawbacks of known optical sights. While the present invention will be described in connection with certain embodiments, it will be understood that the present invention is not limited to these embodiments. To the contrary, this invention includes all alternatives, modifications, and equivalents as may be included within the spirit and scope of the present invention.
According to one embodiment of the present invention, a reticle piece for use in an optical sight includes a generally cylinder-shaped body having a front face and a back face opposed therefrom. The reticle piece includes a reticle pattern and a level indicating device positioned between the front face and the back face of the body. The level indicating device includes a moveable leveling indicator.
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with a general description of the invention given above, and the detailed description of the embodiments given below, serve to explain the principles of the invention. Like parts are identified by like reference numerals throughout the various figures of the drawing, wherein:
Referring to the figures, reticle pieces are shown which are generally useful for providing a reticle in an optical sight for a firearm. The reticle pieces are configured to be included with the optical components of an optical sight so that a reticle pattern is superimposed over the view seen through the optical sight. For example, the reticle pieces can be used in telescopic sights, and can be placed in either the first or second focal plane of a telescopic sight, as appropriate or desired.
Referring first to
In the embodiment shown, the reticle piece 10 includes a body 15 having a first portion 16 and a second portion 18. As shown, the first portion 16 includes the reticle pattern 12 and the second portion 18 includes the level indicating device 14. Of course, it will be appreciated that a reticle piece could be constructed having a unitary body containing both a reticle pattern and a level indicating device.
The first portion 16 is generally disc-shaped and has opposed faces 20, 22, and a peripheral edge 24. The reticle pattern 12 is formed on the face 22, such as by etching or other well-known techniques. The reticle pattern 12 depicted is merely exemplary, and includes a vertical segment 26 and a horizontal segment 28. The reticle pattern 12 has a crosshair configuration, with the vertical and horizontal segments 26, 28 intersecting generally near the center of the reticle piece 10.
The second portion 18 is also generally disc-shaped and has opposed faces 30, 32, and a peripheral edge 34. The second portion 18 may be positioned adjacent the first portion 16 so the faces 30, 22 contact one another, as shown.
The first and second portions 16, 18 may have generally the same diameter such that the peripheral edges 24, 34 are aligned to provide a continuous outer edge of the reticle piece 10. Also, with the first and second portions 16, 18 positioned adjacent one another as shown, the face 20 provides a front face 33 of the body 15, and the face 32 provides a back face 35 of the body 15 opposed from the front face 33.
The level indicating device 14 may be formed integral with and internal to the reticle piece 10. As shown, the level indicating device 14 is generally between the front face 33 and the back face 35 of the body 15. In the embodiment shown, the body 15 includes an internal void 36 formed in the second portion 18. The void 36 extends transverse to a lengthwise axis of the cylinder-shaped body 15.
As shown, the void 36 may be positioned near a lower region of the second portion 18, so that the level indicating device 14 does not interfere with the reticle pattern 12 (as shown in
In the embodiment shown, the leveling indicator 38 is a small ball that is free to roll within the void 36. The ball may be approximately 1 mm in diameter and the void 36 approximately 1.04 mm in diameter. When the reticle piece 10 is level, the leveling indicator 38 will be positioned in the center of the void 36 (as shown in
In other embodiments, the level indicating device 14 could be in the form of a bubble level, in which case the moveable leveling indicator 38 would be a bubble that is moveable but trapped within a liquid in the void 36.
The void 36 may be formed in any appropriate manner. For example, it may be formed by drilling or other means of cutting the glass or other material of the body 15 part way or all the way therethrough. Alternatively, a groove or channel may be formed in the face 30 of the second portion 18 and then closed by the face 22 of the first portion 16 to form a chamber when the two reticle portions 16, 18 are brought together. Alternatively, a groove or channel formed in the face 30 of the second portion 18 may be closed by applying a separate closure part or layer to the second portion 18. The void 36 may be closed and sealed after the leveling indicator 38, whether a ball or liquid and bubble, is inserted therein. This closure may be of one or both exposed ends of a partial or through-drilled void and may be in the form of a solid plug or curable material.
The void 36 may be formed in any desired and functionally appropriate shape. For example, and as shown, the void 36 can have a generally straight-line shape, extending across the second section 18 generally parallel with the horizontal segment 28 of the reticle pattern 12 (as shown in
Moreover, the void 36 may have any appropriate profile. As shown in
Referring next to
The reticle piece 50 has a body 56 that includes a first portion 58, a second portion 60, and a spacer plate 62 positioned between the first and second portions 58, 60. As shown in
The first portion 58 is generally disc-shaped and has opposed faces 64, 66, and a peripheral edge 68. The second portion 60 is also generally disc-shaped and has opposed faces 70, 72, and a peripheral edge 74. The opposed faces 64, 72 provide a front face 76 and a back face 78, respectively, of the body 56. The peripheral edges 68, 74 have generally the same shape.
As shown in
The spacer plate 62 is partially disc-shaped, and includes opposed faces 84, 86, and a peripheral edge 88. The peripheral edge 88 has a generally round first portion 90 that is similar in shape to parts of the peripheral edges 68, 74 of the first and second portions 58, 60. The spacer plate 62 includes an upper surface 92 that defines a slightly curved second portion 94 of the peripheral edge 88. As shown in
In the assembled configuration shown in
The level indicating device 54 may be formed integral with and internal to the reticle piece 50. As shown, the level indicating device 54 is generally between the front face 76 and the back face 78 of the body 56. The level indicating device 54 includes a moveable leveling indicator 102 positioned in the void 100. In particular, the leveling indicator 102 may be a ball that is configured to roll along the upper surface 92. The ball 102 may be constructed of any suitable material, and in some embodiments is constructed of glass, allowing it to be illuminated with the reticle, if desired. As shown, the void 100 may be positioned near an upper region of the body 56, so that the level indicating device 54 does not interfere with the reticle pattern 52 (as shown in
As shown in
Turning next to
The spacer plate 110 includes a well 120 that defines a second portion 122 of the peripheral edge 116. The well 120 includes sidewalls 124, 126 and a bottom wall 128 extending between the sidewalls 124, 126. The sidewalls 124, 126 generally intersect with the bottom wall 128 at an angle, which in the embodiment shown is approximately 90°. The bottom wall 128 may have a slight curve, similar to the upper surface 92 described above. As shown, the bottom wall 128 has a generally flat profile.
Movement of a leveling indicator, such as a ball, with the spacer plate 110 would be confined within the well 120. In particular, the leveling indicator could move along the bottom wall 128, and the sidewalls 124, 126 would provide stops to limit the side-to-side travel of the leveling indicator. These physical stops do not necessarily have to be an integral part of the glass spacer plate, but other mechanical means may be employed to achieve the same intended purpose, such as a rubber plug or other material affixed between the plates at the ends of the curved radii of the bottom wall 128. This would achieve the same purpose and may reduce manufacturing/fabrication costs.
Movement of a leveling indicator, such as a ball, with the spacer plate 130 would be confined within the well 130. In particular, the leveling indicator could move along the bottom wall 138, and the sidewalls 134, 136 would provide stops to limit the side-to-side travel of the leveling indicator. The curved radius sections 140, 142 would provide control over stopping the leveling indicator as it reaches the sidewalls 134, 136.
Referring next to
The spacer plate 162 is partially disc-shaped, and includes opposed faces 164, 166, and a peripheral edge 168. The peripheral edge 168 has a generally round first portion 170 that is similar in shape to parts of the peripheral edges 68, 74 of the first and second portions 58, 60.
The spacer plate 110 includes a well 172 that defines a second portion 174 of the peripheral edge 116. The well 172 includes sidewalls 176 or other mechanical means (not shown), 178 and a bottom wall 180 extending between the sidewalls 176, 178. The well 172 is configured to receive a level indicating device in the form of a bubble level vial 182 according to well-known construction. Advantageously, the well 172 may be configured to limit movement of the bubble level vial 182 when it is in the well 172.
The bubble level vial 182 is generally conventional and includes a gas bubble trapped in a liquid medium. When the reticle piece 160 is level, the bubble will be positioned in the center of the bubble level vial 182. Indicia 184 may be included for marking the position of the bubble when the device is level. As shown, the indicia 184 may be formed on the face 70 of the second portion 60, or on the bubble level vial 182. If the reticle piece 160 is not level, the bubble will move away from the center of the bubble level vial 182 and away from the indicia 184, providing a shooter with an indication that the reticle piece 160 (and therefore the optical sight) is not level. If desired, additional indicia (not shown) indicating gradation units of tilt, such as in degrees, may be included as well.
While the present invention has been illustrated by the description of specific embodiments thereof, and while the embodiments have been described in considerable detail, it is not intended to restrict or in any way limit the scope of the appended claims to such detail. The various features discussed herein may be used alone or in any combination. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and methods and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the scope or spirit of the general inventive concept.
This application claims the benefit of U.S. Provisional Application No. 61/708,731, filed Oct. 2, 2012, the content of which is incorporated by reference herein in its entirety.
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| Entry |
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| International Searching Authority, International Search Report and Written Opinion, International Application No. PCT/US13/63057, mailed Jul. 11, 2014, 12 pp. |
| Number | Date | Country | |
|---|---|---|---|
| 20140090259 A1 | Apr 2014 | US |
| Number | Date | Country | |
|---|---|---|---|
| 61708731 | Oct 2012 | US |
