Spanner Slot Dimensions
- Spanner Slot Dimensions Chart
- Spanner Slot Dimensions Guide
- Spanner Slot Dimensions Calculator
- Spanner Slot Size
- Spanner Slot Dimensions Explained
Spanner Sizes Modern spanner sizes refer to the distance across the flats of the hexagonal nut or bolt they would fit. A 17mm spanner therefore fits a nut 17mm across its flats and this is normally a nut to fit a 10mm diameter bolt (M10).
- 861SP-Series Spanner Bit (008610660) by Beta Tools®. This top-grade product is expertly made in compliance with stringent industry standards to offer a fusion of a well-balanced design and high level of.
- Assembly Method: Holes in Face for Spanner Wrench, Holes on Periphery for Spanner Wrench, Slots for Spanner Wrench Locknut Width: 0.5512 to 2.13 inch Major Thread Diameter: 0.3937 to 14.96 inch.
M-LOK | |
---|---|
Type | Attachment System |
Place of origin | United States |
Production history | |
Designer | Magpul Industries |
Designed | 2007–2014 |
Produced | 2014–present |
M-LOK, standing for Modular Lock, is a free licensed[1]firearmrail interface system developed and patented by Magpul Industries.
M-LOK allows for direct accessory attachment onto the 'negative space' (hollow slot) mounting points, and is a competing standard to VLTOR's open sourcedKeyMod system for replacing the ubiquitous Picatinny rail in some applications.[2] Compared to the Picatinny rail system, both M-LOK and KeyMod enable the user to have a slimmer, lighter, smoother and more fenestratedhandguard/fore-end with accessories mounted only where needed, whereas a Picatinny handguards typically will have rail slots for its whole length resulting in a heavier and bulkier handguard with sharp edges and poorer barrel ventilation.
The M-LOK system can be seen as an evolution of the Magpul Original Equipment (MOE) system, but the two are not fully compatible. Though newer M-LOK accessories can be used on older MOE slot handguards if an adaptor plate is used, there is no adaptor available for using older MOE accessories on the newer M-LOK handguards.
History[edit]
A prototype of the MOE slot was revealed by Magpul in late 2007 together with their Masada Concept Rifle (which would later be known as the Adaptive Combat Rifle). The MOE slot system was released by Magpul in 2009 as a feature on their MOE handguards, and at the same time compatible accessories such as Picatinny rail sections, direct MOE mounted light mounts, grips, bipod studs, etc. were released.
The MOE slot standard was never officially released, and a drawback to the system was that the rear side of the panel had to be accessed in order to mount accessories, limiting its application. The MOE slot system uses a weld nut which has to be placed manually on the inside of the handguard before mounting, making the slot system unsuited for applications such as free-floating handguards. Also, depending on the accessory item, the spacing increments between the MOE slots were not small or uniform enough to adjust the desired placement of accessories.
Acknowledging shortcomings of the MOE systems, Magpul drafted M-LOK as a new and improved mounting standard which was released in 2014 replacing the existing MOE slot. The M-LOK rail specification included metric dimensions instead of imperial, and utilizes a T-slot nut capable of only 90-degree rotation, reinforced by thread-locking fluid, making it suited for applications on free-floating handguards. It was designed to work with both metal and polymer parts.
In 2016, Colt Canada developed and released the Modular Rail Rifle (MRR) that uses a monolithic upper receiver with the M-LOK attachment system.[3] In 2017, several companies produce M-LOK handguards as well as accessories like Picatinny rail strips, vertical foregrips, bipods, sling adaptors, and flashlight mounts.[4]
In 2017, a summary report of testing conducted by NSWC-Crane for USSOCOM indicated that, while comparable in endurance and rough handling testing, M-Lok greatly outperformed Keymod in repeatability, drop testing and failure load testing.[5]
Licensing[edit]
While M-LOK is free licensed, it is not open source, and thus manufacturers must acquire a license from Magpul before making products using the M-LOK standard. Magpul claims this gives them more control in assuring that all M-LOK products are made to specifications ensuring compatibility. Program participation is open to any interested manufacturer.
Technical specifications[edit]
Rail specifications[edit]
The slot dimensions (used on handguards, etc.) are available on the web.[6] The slots provide metric 20 mm (0.79 in) length intervals, and accessories can be mounted either within a slot or bridging between slots, making it possible to adjust the position of accessories in smaller intervals than the length of the slot. The slots on an M-Lok handguard are approximately 32 mm (1.260 in) long and 7 mm (0.276 in) wide and space 8 mm (0.315 in) from each other. The radius of the corners is approximately 2.38 mm (0.094 in).[7][8][9]
Attachment specifications[edit]
The quarter-turn T-slot nuts have different torque specifications depending on the handguard material:
- 4.0 N⋅m (35 lb⋅in) for attaching metal accessories to metal handguards.
- 1.7 N⋅m (15 lb⋅in) for attaching polymer or metal accessories to polymer handguards.
- 1.7 N⋅m (15 lb⋅in) for attaching polymer accessories to metal handguards.
Attachment screws made by many U.S. manufacturers are often either #8-32 TPI or 10-24 TPI UNC threads, which respectively have major thread diameters of 0.1640 inches and 0.1900 inches (4.166-0.794 mm and 4.826-1.058 mm expressed in metric designation). Many M-LOK screws on the international market instead use either M4 or M5 metric threads to reduce cost.
The tool required for mounting, in addition to the thread size, also depends the screw head type. Hex keys are used extensively in the firearms industry, but metric and imperial hex keys as a general rule are not compatible. It is possible damage the tool and screw by selecting a tool that is too small for the fastener, which can be done by using an Imperial/customary tool on a metric fastener, or the converse. An exception to this is 4 mm hex keys, which are almost the exact same size as 5⁄32 in (3.97 mm). In many industries, this makes 4.0 mm (5⁄32 in) hex keys preferred for consumer products because end users can successfully use an imperial key on a metric fastener, and vice versa.
Hex key spanner (wrench) size | ||||
---|---|---|---|---|
Thread type | Socket head cap screw | • Button head cap screw • Flat head counter- sunk cap screw | ||
M4 | 3 mm | 2.5 mm | ||
M5 | 4 mm | 3 mm | ||
#8-32 TPI | 9/64' (3.57 mm) | 3/32' (2.38 mm) | ||
#10-24 TPI | 5/32' (3.97 mm) | 1/8' (3.18 mm) |
Spanner Slot Dimensions Chart
While screw and slot dimensions are available on the web, the T-slot nut dimensions are currently under review by the US State Department to determine whether it should be regulated by ITAR, and until it is clarified drawings are only available to US citizens.
M-LOK handguard and attachment parts
M-LOK approximate slot dimensions. (Primary measurements in millimeters, inches in parenthesis).
See also[edit]
- Rail Integration System, generic term for a system for attaching accessories to small firearms
- Weaver rail mount, early system used for scope mounts, still has some popularity in the civilian market
- Picatinny rail (MIL-STD-1913), improved and standardized version of the Weaver mount. Used for both for scope mounts, and for accessories (such as extra sling mounts, vertical grips, bipods etc.) Major popularity in the civilian market.
- NATO Accessory Rail- further development from the MIL-STD-1913
- UIT rail, an older standard used for mounting slings particularly on competition firearms
- KeyMod - competing standard open standard design to M-LOK for mounting accessories
- Zeiss rail, a ringless scope mounting standard
References[edit]
Wikimedia Commons has media related to M-LOK. |
- ^'Magpul Industries - M-LOK'. Archived from the original on 4 December 2017. Retrieved 6 June 2016.
- ^KeyMod vs. M-Lok: The Next AR Rail Standard by Chris Baker, November, 19, 2014
- ^Colt Canada Modular Rail Rifle (MRR)
- ^M-LOK Outselling KeyMod about 3 to 1, 28 January 2016
- ^Details On The USSOCOM Sponsored KeyMod vs M-LOK Test Conducted at NSWC-Crane, 5 May 2017
- ^Magpul Industries - M-LOK DESCRIPTION AND FAQ DOCUMENT[permanent dead link]
- ^'magpul.com - M-LOK 2015 FAQs'(PDF). Archived from the original(PDF) on 7 April 2019. Retrieved 7 April 2019.
- ^M-Lok dimensions
- ^Magpul M-LOK estimated dimensions
Spanner Slot Dimensions Guide
ASTM A325 structural bolts are designed for steel to steel connections. Because they are used in such a specific application, they have dimensional characteristics that are unique and limited compared to most other fastener grades. This includes stock sizes available in the market place, length tolerances, short thread lengths, and the actual head dimensions are the same as any heavy hex head bolt (Dimensions per ASME B18.2.6 2011).
Available Sizes
Although technically any size A325 can be custom manufactured, there are certain restrictions as well as common lengths which are more readily available in the marketplace. Depending on the diameter, there may be longer lengths available.
Diameters Allowed: | 1/2″ – 1-1/2″ |
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Available Lengths: | Up to 6″ – 10″ maximum (depending on diameter) |
Available Finish: | Plain Finish or Hot Dip Galvanized |
Origin: | Import or Domestic |
Bolt Length Tolerances
Nominal Length, in. | Nominal Size, in. | |||
---|---|---|---|---|
1⁄2 | 5⁄8 | 3⁄4 thru 1 | 11⁄8 thru 11⁄2 | |
Thru 6 in. | -0.12 | -0.12 | -0.19 | -0.25 |
Over 6 in. | -0.19 | -0.25 | -0.25 | -0.25 |
Spanner Slot Dimensions Calculator
Structural Bolt Dimensions
Spanner Slot Size
Although the head dimensions for structural bolts are the same as any heavy hex headed fastener per ASME B18.2.6 2011, A325 heavy hex bolts have a shorter thread length than most other construction fastener grades.
Spanner Slot Dimensions Explained
Bolt Diameter | D | F | C | H | T | |||||
---|---|---|---|---|---|---|---|---|---|---|
Body Diameter | Width Across Flats | Width Across Corners | Height | Thread Length | ||||||
Max | Basic | Max | Min | Max | Min | Basic | Max | Min | Basic | |
1⁄2 | 0.515 | 7⁄8 | 0.875 | 0.850 | 1.010 | 0.969 | 5⁄16 | 0.323 | 0.302 | 1.00 |
5⁄8 | 0.642 | 11⁄16 | 1.062 | 1.031 | 1.227 | 1.175 | 25⁄64 | 0.403 | 0.378 | 1.25 |
3⁄4 | 0.768 | 11⁄4 | 1.250 | 1.212 | 1.443 | 1.383 | 15⁄32 | 0.483 | 0.455 | 1.38 |
7⁄8 | 0.895 | 17⁄16 | 1.438 | 1.394 | 1.660 | 1.589 | 35⁄64 | 0.563 | 0.531 | 1.50 |
1 | 1.022 | 15⁄8 | 1.625 | 1.575 | 1.876 | 1.796 | 39⁄64 | 0.627 | 0.591 | 1.75 |
11⁄8 | 1.149 | 113⁄16 | 1.812 | 1.756 | 2.093 | 2.002 | 11⁄16 | 0.718 | 0.658 | 2.00 |
11⁄4 | 1.277 | 2 | 2.00 | 1.938 | 2.309 | 2.209 | 25⁄32 | 0.813 | 0.749 | 2.00 |
13⁄8 | 1.404 | 23⁄16 | 2.188 | 2.119 | 2.526 | 2.416 | 27⁄32 | 0.878 | 0.810 | 2.25 |
11⁄2 | 1.531 | 23⁄8 | 2.375 | 2.300 | 2.742 | 2.622 | 15⁄16 | 0.974 | 0.902 | 2.25 |
Dimensions per ASME B18.2.6 2011 |