M422 Mighty Mite

(Redirected from M422)

The AMC M422 'Mighty Mite', or G-843 by its supply catalog designation,[1] is an extra lightweight ¼-ton 4x4 tactical truck, designed for the United States Marine Corps, to be suitable for helicopter airlift and manhandling.[2] It is noted for its exceptionally short length, and resulting very tight turning circle, while still highway approved for a top speed of 55 mph (89 km/h) (U.S. military), and capable of 65 mph (105 km/h) according to its manufacturer, American Motors Corporation (AMC).[3] From 1959 through 1962, just under 4,000 M422 Mighty Mites were built by American Motors for the U.S. Marines.

M422 Mighty Mite
Initial series M422, with 65-inch wheelbase
Type14 ton (227kg) 4x4 utility truck
Place of originUnited States
Production history
ManufacturerAmerican Motors Corporation
Produced1959–1962
No. built1,250 (+ 2,672 M422A1)
VariantsM422A1
Specifications
Mass1,700 lb (770 kg) empty
Length107 in (2.72 m)
Width61 in (1.55 m)
Height59 in (1.50 m)

Engine107.8 cu in (1.8 L)
55 hp (41 kW)
Suspensionindependent with leaf springs
Operational
range
225 mi (362.1 km)
Maximum speed 62 mph (100 km/h)

History

edit

During World War Two, many prototypes were already developed for a 14‑ton jeep, which was still significantly lighter and more compact than the U.S. Army's lightest, all-terrain, all-purpose vehicle at the time, the Willys 14‑ton Jeep. They were intended for transport in small (glider) aircraft and such, but none went into production. However, after the war, a self-taught engineer, pilot, and auto racer, Ben F. Gregory, conceived a mini-jeep design and built a successful prototype, later named the "MM-100".[4]

The Mighty Mite was first conceived between 1946 and 1947, by a self-taught engineer, pilot, and auto racer from Missouri, Ben F. Gregory.[3][5] Gregory designed several front-wheel drive cars after World War I, but was unsuccessful in marketing them. He turned to commercial aviation, but a crash in 1942 ended his flying career. Recovering from serious injuries, he became an aircraft inspector. After the end of World War II, Gregory found new investors. He turned again to front-drive cars, this time culminating in a fully driveable prototype—an innovative 1947 rear-engined, front-drive compact car, the Gregory Sedan. No carmaker was interested in his car, but he was inspired to use some of its design features, such as leading- and trailing-arms suspension, in a more modern four-wheel drive off-road vehicle, or jeep, and he found additional investors willing to fund a prototype.[4]

One investor arranged a 1951 demonstration for the United States Marine Corps (USMC) Equipment Board, which went so well that the investors quickly formed the Mid-America Research Corporation (MARCO) to develop the vehicle for military or commercial markets. That same year, MARCO presented it as the MARCO MM-100, making it the first clean-sheet 14‑ton vehicle to be designed for the U.S. military after World War II. The USMC executed a contract for ten test vehicles in August 1951. The vehicles were delivered in December 1952, and the USMC began the test program.[4] For further development, the company decided to hire Harold Crist, American Bantam's original chief engineer on designing the original Bantam BRC, on which Willys MB multi-role vehicle was based. Joining on 1 January 1953 as project manager, Crist brought with him three of the main people who had worked on the original Bantam vehicle: Chet Hempfling, Ralph Turner, and Frank McMillan. From that point, the team included four of the original WW II vehicle engineers.[5][6] But Gregory, in turn, was eventually forced out of the company.[3]

 
HR2S-1 Duece (H-35) with jeep, it could carry up to three Mites

The MM-100 used a 44 hp (33 kW), 79 cu in (1.3 L) flat-four engine from the "S" version of the Porsche 356, but this choice proved problematic, as using a foreign-built engine would violate regulations requiring U.S.-built equipment in U.S. military vehicles. Attempts were made to substitute the Lycoming O-145, an American aircraft engine, but it was deemed too expensive and difficult to adapt to a ground vehicle. A solution presented itself when MARCO discovered that American Motors Corporation (AMC) was developing a lightweight, air-cooled 50 hp (37 kW), 95 cu in (1.6 L) V4 engine for a proposed economy car to be sold under AMC's Nash Motors brand. AMC quickly became interested in the MM-100 because it needed a new product to keep a former Hudson commercial vehicle plant operating. By 1954, AMC had completely taken over the project.[4]

Problems were encountered with the designers' decision to save weight by not using a conventional exhaust system. The prototype did not have a muffler or pipe – rather the exhaust was routed through some frame tubes. This design was inferior because the condensation and acidic fumes caused premature frame failure.[7] There was a competing prototype built by Willys, the 1953 Bobcat or "Aero Jeep", which was to share as many parts as possible with the M38 and M38A1 to save costs.[8] However, the Willys version was rejected in favor of the more advanced M422.[9] In April 1958, AMC and the USMC executed a contract for delivery of 250 production M422 vehicles contingent upon successful trials of the first seven.[4]

The vehicle was intended to be liftable, underslung the strongest helicopters of the era, the Sikorski H-19 being the benchmark.[4] Although the vehicle was to be used only by the U.S. Marine Corps, it was evident from the beginning that production numbers would remain limited,[11] the vehicle was extensively engineered and incorporated many innovations.

Engineering

edit
 
M422 Mighty Mite, 65-inch wheelbase with the early thin windshield
 
M422A1 Mighty Mite, 71-inch wheelbase
Gregory car and M422 suspension
 
Gregory's designs cantilever ¼-elliptic leaf-springs, clamped to the hinged base of each arm, extending inwards, opposite to each arm's length from its hinges to the wheel-hubs
  The Gregory Sedan's plan view (bottom left) shows the car's 4-wheel independent suspension, using leading- and trailing-arm suspension, with the front-wheels' leading-arms laid closer to the car's center-line.
  Photo of a correctly detailed M422 scale model, showing the space-use under its floor, with the front arms' ¼-elliptic leaf-springs laid inside those of the rear trailing-arms[12]

To keep the weight low, the M422 became the first U.S. jeep fitted with an aluminum body. At 1,700 pounds (771 kg), it is the lightest conventional U.S. military truck to date.[13] Also, this was the first U.S. small military vehicle designed with independent suspension all around (front: leading arms/trailing arms rear), sprung by ¼-elliptical leaf springs. Among the M422's many unique features were front and rear limited-slip differentials, inboard differential mounted drum brakes, center-point steering, and the aluminum "AMC AV-108-4" V4 engine developed by American Motors. The air-cooled 107.8 cu in (1.8 L) developed 52 bhp (39 kW) and 90 lb⋅ft (122 N⋅m) of torque, which propelled the vehicle to a top speed of 65 miles per hour (105 km/h), with a 55-mile-per-hour (89 km/h) military rating. As with the M151, the single-speed transfer case only engages/disengages the front wheel drive and is part of the transmission. The full-synchronization meant it could be shifted from two-wheel drive to four-wheel drive on the fly.

Although a two-seater, the little vehicle could theoretically move six people. There were no conventional rear seats. Instead, the two additional seats are integrated into the functional tailgate, and two small folding backrests are placed on the top of the rear fenders.[14] Additionally, the M422 was rated to carry 850 lb (390 kg) off-road, while all other standard military 14‑ton vehicles (even the M151) were rated at 800 lb (363 kg).

There was a version of the M416 trailer specially adapted for towing by an M422: the M416B1.[15][16] Early production M416B1 came with magnesium M151 wheels, that later switched to steel wheels as on the M422. Other features included USMC lifting rings and holders in front of the fenders to store aluminum water cans.

Like other Marine Corps contract vehicles, the M422s came from the factory with all deep-water fording equipment installed, except for the pipes.[17] In its early development stage the Marines developed a lightweight flotation kit that could easily be stored on the M422 when not in need, in which four large tubes inflated by exhaust encompassed the bottom part of the frame that allowed the vehicle to swim deeper waters. The vehicle's spinning wheels provided propulsion and steering in the water.[18]

In 1958, seven prototypes passed grueling tests, and the first 250 vehicles were built by American Motors. These units went into mass production in 1960, and AMC built 3,922 Mighty Mites through 1962 for the U.S. Marine Corps.[7] Over the years, the vehicle was produced in two model versions: the M422 and M422A1.[19] The M422 had a short 65-inch (1,700 mm) wheelbase. After production of 1,045 units, the Mighty Mite evolved into the M422A1, 6 inches (152 mm) longer in both wheelbase and overall length, as well as 80 pounds (36 kg) heavier. The first Mighty Mites with the 71-inch wheelbase were experimental models built from production M422s. They had an extended frame and aluminum bracing added behind the seat as well as crudely fashioned tool storage boxes. This model was the M422E1, of which only a few were made. Once put into production, the longer wheelbase model was designated the M422A1 and featured a reinforcing rib on the rear fender forward of the wheel opening.

The M422 came with 6.00-16 NDT tires on steel wheels. The vehicles did not come from the factory with spare tires, but kits were later produced that could be added. However, the rear-mounted spare tires rendered the tailgate unusable. There is no provision for a gas can carrier. Either model could be fitted with a sturdier windshield similar to the Willys M38A1 that, along with top bows, would facilitate using a canvas winter top.

At over US$5,000 per unit (equivalent to $52,300 in 2023), it was relatively expensive.[20] Development and certification of the M422 took through 1959. When the M422 debuted, it coincided with the adoption of helicopters like the Bell UH-1 “Huey” with much more carrying capacity than the Marine Corps' Sikorsky HRS with its 2,650-pound (1,202 kg) cargo limit (including crew and fuel), for which the M422 had been developed.[4] Except for parachute airdrops, the vehicle became obsolete. These factors quickly rendered the Mite an outmoded, redundant supply chain complication, more expensive and largely less capable than a regular 14‑ton Jeep, which accounts for the short production period, as well as the small production total.[4]

Dimensions and weights
M422 M422A1
Wheelbase 65 in (1,651 mm) 71 in (1,803 mm)
Length 107 in (2,718 mm) 113 in (2,870 mm)
Width 60 in (1,524 mm)
Weight 1,700 lb (771 kg) 1,780 lb (807 kg)

See also

edit

References

edit
  1. ^ According to its United States Army Ordnance Corps Supply Catalog designation, 'G-number', or SNL nr. — a group number for ordering parts, based on a Standard Nomenclature List, or SNL.
  2. ^ "Marines Unveil Mighty Mite". Popular Mechanics. Vol. 99, no. 5. May 1953. p. 100. Retrieved 24 May 2024 – via Google Books.
  3. ^ a b c Doyle, David (13 November 2019) [19 October 2016]. "MV Spotlight: G-843 'Mighty Mite'". Military Trader. Archived from the original on 11 August 2023. Retrieved 24 May 2024.
  4. ^ a b c d e f g h Allen, Jim (16 April 2018). "Backward Glances: 1960 AMC M-422 Mighty Mite". Motor Trend. Retrieved 24 May 2024.
  5. ^ a b White, Lloyd (Spring 2000). "The Development of the M422". Army Motors. No. 91. Archived from the original on 5 February 2012. Retrieved 24 May 2024.
  6. ^ Doyle, David (19 October 2019) [19 October 2016]. "MV Spotlight: G-843 'Mighty Mite'". Military Vehicles Magazine. Retrieved 24 May 2024. .. Harold Crist, Ralph Turner, Frank McMillan, and Chet Hemphling. These four men had been instrumental in the creation of the jeep for American Bantam prior to WWII.
  7. ^ a b Allen, Jim (September 2005). "The Forgotten Marine: M422 Mighty Mite". Off-road Adventures Magazine. Archived from the original on 20 August 2012. Retrieved 24 May 2024.
  8. ^ "Willy's Aero Jeep Matches Speed and Weight of Mighty Mite". Popular Mechanics. March 1954. p. 140. Retrieved 24 May 2024 – via Google Books.
  9. ^ Redmond, Derek. "1953 BC Bobcat". The CJ3B Page. Retrieved 24 May 2024.
  10. ^ Doyle (2011), p. 46.
  11. ^ For comparison: during WW II, the Army ordered some 80,000 half-ton Dodge WC series trucks for 1941 alone, while the Marine Corps, a smaller and much more specialized U.S. defense branch, ordered a total of 1,123 International M-1-4 trucks from International Harvester.[10]
  12. ^ Crismon, Fred W. (1994). US Military Wheeled Vehicles (Second ed.). Motorbooks International. p. 222. ISBN 978-0-879389-07-9.
  13. ^ Except for the bodyless M274 'Mechanical Mule'
  14. ^ "1961 AMC (Jeep) Mighty Mite M422A1". Cars with Class. Archived from the original on 22 September 2007. Retrieved 24 May 2024.
  15. ^ "Department of the Army Technical Manual - TM9-2330-251-14" (PDF). 6 October 1970. Retrieved 24 May 2024 – via jeepolog.com.
  16. ^ "M422A1 Mighty Mite and M416B1 Trailer". surfacezero.com. 2006. Retrieved 24 May 2024.
  17. ^ "Steel Soldiers". Steel Soldiers. 5 January 2006. Retrieved 17 August 2015.
  18. ^ "Water Wings for the Mighty Mite Permit Fording of Streams". Popular Mechanics. Vol. 100, no. 2. August 1953. p. 79. Retrieved 24 May 2024 – via Google Books.
  19. ^ "AMC M422 Mighty Mite- 1960". lanemotormuseum.org. Retrieved 24 May 2024.
  20. ^ "The M-422 Mighty Mite". CJ3B Page. Retrieved 24 May 2024.
  21. ^ "The 2CV Pick-ups supplied to the Royal Navy".

General references

edit
  • Crismon, Fred W. (2001). US Military Wheeled Vehicles (Third ed.). Victory WWII Publishers. pp. 221–222. ISBN 0-970056-71-0.
  • Doyle, David (2003). Standard catalog of U.S. Military Vehicles. Krause Publications. pp. 40–42. ISBN 0-87349-508-X.
  • Doyle, David (2011). Standard catalog of U.S. Military Vehicles (Second ed.). Krause Publications. pp. 37–39. ISBN 978-1-44022-799-8.
  • Ware, Pat (2010). The World Encyclopedia of Military Vehicles. Lorenz Books. p. 221. ISBN 978-0-7548-2052-9.
edit