Zeiss rail

Among scopes for rail mounts, the 22.5 degree V-shaped Zeiss rail is the most prevalent standard. It was introduced in 1990. After the patent expired in 2008, compatible scopes have been offered from manufacturers such as Blaser,^[1] Leica, Minox, Meopta, Nikon,^[2] Noblex (formerly Docter^[3]), Schmidt & Bender^[4] and Steiner.^[5] It has therefore, in some sense, become the de facto industry standard for scope mounting rails. The system has so far seen most use on the European high end market.^[6]

Swarovski SR rail

The Swarovski SR rail (patented in 2002,^[7][8][9] introduced in 2005^[10] The Swarovski SR rail is also used by Kahles, a Swarovski subsidiary.^[11]) has a flat rail with many "teeth" as recoil lugs, and is only offered on scopes from Swarovski and its subsidiary Kahles. It separates itself from the Zeiss rail in that it is not neither stepless nor self-centering.

S&B Convex rail

A former competing standard was the halv-circle shaped Schmidt & Bender Convex rail^[4] also introduced in 2005. Schmidt & Bender after a few years changed to the Zeiss rail standard. In contrast to the Zeiss and Swarovski systems, the S&B Convex rail had the possibility to add a cant to the scope when mounting, such that the reticle is not horizontal to the ground.^[12]

70 degree prism rail

There is an older European system with an upside-down V-shape (70 degrees).^[13] This system has little widespread use today. The advantage of this system was that it at one time was offered by most European scope manufacturers, but the disadvantage was that the rail had to be drilled for a screw each time the eye relief was to be adjusted.^[14] All new standards for rail mounts have addressed this issue.

Sizes

Scopes for ring mounts are available in many different sizes. The most common ones are:

• 1 inch (25.4 mm)
• 30 mm
• 34 mm

Some less common standards are:

• 3⁄4 inch (19 mm)
• 7⁄8 inch (22 mm)
• 26 mm - Some older European scopes
• 35 mm - Some IOR, Vortex and Leupold models
• 36 mm - Some Zeiss and Hensoldt models
• 40 mm - Some IOR models and Swarovski dS

Lapping

In order for a ring assembly to grip evenly, it is important that the scope rings are circular and coaxial with the scope tube. On ring mounts that grip unevenly, the ring mount can be lapped to prevent uneven pressure when mounting.^[15] One scopes made for ring mounts, it is not uncommon to get ring marks when mounting the rings.

Ring inserts

There are insert rings on the market which allows for mounting a scope inside a ring mount of a larger diameter. An example could be to mount a scope with a 1-inch (25.4 mm) tube in a 30 mm mount using a plastic insert.

There are also special ring mounts in the market with circularly shaped ring inserts made to provide stress free mounting without lapping, with Burris Signature Rings and Sako Optilock Rings as two well-known examples. Burris Signature was introduced in 1995.^[16] A patent was applied for in 1994, and was granted in 1995.^[17] Sako Optilock has been sold since some time in the early 2000s.^{[18][clarification needed]} The trade name Optilock was registered in the US in December 1997, and has been marketed in the US since December 2001.^[19] In 2000, Sako was sold to Beretta Holding.^[20] In 2002, Burris was also sold to Beretta Holding, and thus Burris and Sako got the same owners. Burris' original patent for the rings with the circular insertes was considered to have expired in 2014, and as of 2020 is listed as "definitely expired".^[17]

In 2015, XTR Signature Rings was launched as a further development of the Burris Signature series. The XTR variant differs in that it has two circular cavities per ring assembly versus one.^[21] A patent for the XTR Signature Rings was applied for in 2016, and was granted to Burris in 2019.^[22]

Bases

By bases, is usually meant an interconnecting part between the scope and the firearm. For example, a base may have a picatinny attachment on the underside, while the upper side may have either a ring (e.g. 30 mm) or rail mounting (e.g. Zeiss rail). On some assemblies, the upper and lower parts of the base are separate parts that must be screwed together and fastened to a specified torque.^[29] A base can thus sometimes constitute a complete scope mount assembly, but is most often used to refer to the lower part of a two-part scope mount assembly.

The firearm interface which sits on the firearm and to which the scope mount is attached is often called the base or rail.

Some types of bases are:

Standard mounts

• Picatinny rail: Standardized slot distances.
• Weaver rail: Varying width between the slots.

• Metric dimensions on a Picatinny rail.
• Weaver rail on an air gun.

Proprietary and brand specific mounts

• Claw mount. Several types, for example Suhl Claw Mounts,^[30] Ziegler ZP mount, and others.
• Pivot mount. Several types, for example EAW, MAKlick, Steyr Luxus, and others.^[31]
• Aimpoint Micro, also used by other red dot manufacturers.^[32] (Not compatible with Aimpoint Comp or the Aimpoint ACRO mounting standards. See Red dot sight#Mounting types for more red dot mounting standards).
• Blaser saddle mount^[33]
• Contessa 12 mm "Euro rail" mount^[34][35]
• Browning X-Lock^[36]
• Double dovetail, which is rotated and tapped into place.^[37] Several types, for example the Leupold Dual Dovetail^[38]
• Mauser M03 Double Square Mount^[39][40][41]
• Picatinny-against-picatinny (Burris Eliminator^[42])
• Pulsar type rail mount. Has some visual similarities with the Zeiss rail, but is incompatible due to a wider base and steeper angle.^{[citation needed]}
• Redfield type^[43] with windage adjustable mount, also known Redfield Standard Junior. Similar concepts are made by other manufacturers, e.g. "Leupold standard", "Burris TU/SU". Also manufactured by Weaver. Specifications can vary between manufacturers.^{[citation needed]}
• Ruger integral type (used on Ruger No. 1,^[44] M77,^[44][45] Gunsite Scout,^[44][46] the Ranch series of the Mini-14^[44][47] and Mini-30,^[44] Deerfield Carbine,^{[citation needed]} Model 96 (.44 Magnum only)^[48] and PC Carbine.^[49])
• Sako Optilock,^[50] either with rings separate from the bases, or with rings as part of the bases. Bases come in various variantes to fit either Sako tapered dovetail rail (available for three different types of action lengths), Tikka straight dovetail (11 mm or 17 mm), Weaver or Picatinny.
• Sako tapered dovetail rail (used on SAKO models Sako 75, Sako 85, L461, L579, S491, M591, L61R, L691, M995 and TRG-S)
• Sauer ISI mount (Sauer 303, and a very few editions of Sauer 202)^[51]
• Sauer SUM mount (Sauer 404)^[51]
• Schultz & Larsen integral Slide & Lock type^[52][53]
• "STANAG" Claw Mount, used on FN FAL, HK G3, HK33, G3SG/1 and MP5. Most STANAG bases must be used with corresponding STANAG rings, but there are also STANAG bases for scopes with rails.
• Dovetail rail (for example 11 mm, 17 mm or 19 mm). The flank angle varies, and dovetail rail mounts may therefore be regarded as non-standardized, even for a given witdth.
• Trijicon ACOG/VCOG rail

• HK MSG90 with a scope sight mounted in a STANAG claw mount.

Screw pattern on bases

On receivers without an integrated attachment for mounting a scope, for example, an integrated Picatinny rail, the base is usually screwed on as a separate part. Such mounts are often model-specific to the firearm, and depend on factors such as the radius of the receiver bridge, the type of screw and the distance between the screw holes. A common fastening method is by screws. These are often metric M3.5x0.6 mm or US #6-48 (⌀ 3.5 mm, 0.53 mm pitch) or #8-40 (⌀ 4.2 mm, 0.64 mm pitch).

Many European assemblies use M3.5 screws, such as Sako Optilock, Recknagel and original CZ rings. Since #6-48 and M3.5x0.6 have near identical diameters and almost equal pitch, there is a potential for confusion, and upon mixing the wrong screw will enter the threads, but will gradually become tighter to screw until the thread is destroyed. In case of damage, the hole must often be drilled and re-threaded, and M4x0.7 or #8-40 may then be relevant alternatives.

Remington 700 pattern

The Remington 700 Short Action (SA) scope base attachment pattern is particularly widespread, and is for example used on models such as:^[54]

• Remington Model 722, 40x, 78, 740, 742, 760, 710, 721, 722 and 725
• Mauser M1996 straight pull and Roesser Titan 16
• Mauser SR-97
• Sauer 100, Sauer 101, Mauser M18 (not the M12)
• Bergara B14 LA
• Haenel Jäger 10
• Sabatti Rover LA

The Remington 700 Long Action (LA) naturally has a longer distance between the front and rear screw holes, and therefore continuous scope mount assemblies for the 700 LA do not fit on the 700 SA nor the above-mentioned firearms. However, two-piece scope mounts in general interchange for the mentioned models.

List of common screw patterns

Bases with a rounded bottom for mounting on a round receiver bridges should ideally have a slightly smaller radius than the receiver in order to provide two points of contact and give a stable attachment. Conversely, a slightly too large radius on the mount will result in just one point of contact and a less stable attachment.

In the table below, the radius refers to the curvature of the mounting surface on the receiver bridge. The base is often attached with two screws on the front receiver bridge and two screws on the rear receiver bridge, but sometimes with several more screws. The hole distances are measured from center-to-center. Some common hole distances are 12.7, 15.37 and 21.84 mm (0.500, 0.605 and 0.860 in) respectively).^[55]

The two front screws are referred to in the list below as screws 1 and 2, and the front hole spacing is thus referred to as «distance 1-2». In the same way, the rear hole distance is called «distance 3-4». The distance between these is largely determined by the receiver length, and is stated here as «distance 2-3»

Quick release

Quick release (QR) can refer to several different variants of scope mounts which can be mounted and disassembled quickly without tools.

Tilt

In some cases, it may be relevant to add extra inclination to the scope to be able to shoot at longer (or shorter) distance. For example, this is popular for long range shooting, where it is common to use a tilt of 6 mrad (20 MOA). Extra tilt can be achieved several ways, like for example with a tilted Picatiny rail (e.g. 6 mrad tilt), with bases or rings (e.g. 6 mrad tilt) or with special insert rings (e.g. Burris Pos-Align).^[21]