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Jumat, 09 September 2011

Military Map Symbology

Military Map Symbology
Because someday you might find yourself called to read one.
Antiaircraft Artillery Map Symbol, Antiaircraft Artillery
Armored Command Map Symbol, Armored Command
Army Air Forces Map Symbol, Army Air Forces
Artillery, except Antiaircraft and Coast Artillery Map Symbol, Artillery (except Antiaircraft and Coast Artillery)
Cavalry, Horse Map Symbol, Cavalry, Horse
Cavalry, Mechanized Map Symbol, Cavalry, Mechanized
Chemical Warfare Service Map Symbol, Chemical Warfare Service
Coast Artillery Map Symbol, Coast Artillery
Engineers Map Symbol, Engineers
Infantry Map Symbol, Infantry
Medical Corps Map Symbol, Medical Corps
Ordnance Department Map Symbol,  Ordnance Department
Quartermaster Corps Map symbol, Quartermaster Corps
Signal Corps Map Symbol, Signal Corps
Tank Destroyer Map Symbol, Tank Destroyer
Transportation Corps Map Symbol, Transportation Corps
Veterinary Corps Map Symbol, Veterinary Corps
NOTE: Airborne units are designated by combining a gull wing symbol with the arm or service symbol:
Airborne Artillery Map Symbol, Airborne Artillery
Airborne Infantry Map Symbol, Airborne Infantry

Size Symbology
The following symbols placed either in boundary lines or above the rectangle, triangle, or circle enclosing the identifying  arm or service symbol indicate the size of military organization:
Squad
Unit Size Symbol, Squad
Section
Unit Size Symbol, Section
Platoon
Unit Size Symbol, Platoon
Company, troop, battery, Air Force flight                  
Unit Size Symbol, Company, troop, battery of Air Force flight
Battalion, cavalry squadron, or Air Force squadron          
Unit size symbol, Battalion, Cavalry Squadron or Air Force Squadron
Regiment or group; combat team (with abbreviation CT following identifying numeral)
Unit Size Symbol, Regiment , group, or combat team
Brigade, Combat Command of Armored Division, or Air Force Wing
Unit Size Symbol, Brigade, Combat Command of an Armored Division, or Air Force Wing
Division or Command of an Air Force                     
Unit Size Symbol, Division or Command of an Air Force
Corps or Air Force                                    
Unit Size Symbol, Corps or Air Force
Army Unit Size Symbol, Army
Group of Armies
Unit Size Symbol, Group of Armies
Weapon Symbols on a Military Map
Machine Gun
Map symbol, Machine Gun
Gun
Map symbol, Gun
Gun Battery
Map Symbol, Gun Battery
Howitzer or Mortar
Map Symbol, Howitzer or Mortar
Tank
Map symbol, tank
Self-Propelled Gun
Map symbol, Self-propelled gun
Examples - Reading a Military Map
The letter or number to the left of the symbol indicates the unit designation; that to the right, the designation of the parent unit to which it belongs to. Letters or numbers above or below boundary lines designate the units separated by the lines
Company A, 137th Infantry
Unit Map Symbol, Company  A, 137th Infantry
8th Field Artillery Battalion
Unit Map Symbol,  8th Field Artillery
Combat Command A, 1st Armored Division
Unit Map Symbol, Combat Command A, 1st Armored Division
Observation Post, 23d Infantry
Unit Map Symbol, Observation Post, 23d Infantry
Command Post, 5th Infantry Division
Unit Map Symbol, Command Post, 5th Infantry Division
Boundary between 137th and 138th Infantry
Unit May Symbol, Boundary between 137th and 138th Infantry

M60 M60E3 M60E4 machine gun (USA)

The .30-06 T44 experimental machine gun, which combined design of FG 42 rifle and feed system of MG 42 machine gun. The T44 served as a first step in development of M60 machine gun.
 The .30-06 T44 experimental machine gun, which combined design of FG 42 rifle and feed system of MG 42 machine gun. The T44 served as a first step in development of M60 machine gun.
 
M60 machine gun on integral bipod (note how gas cylinder is safe-wired to protect it from self-disassemblying).
 M60 machine gun on integral bipod (note how gas cylinder is safe-wired to protect it from self-disassemblying).
 
 M60 machine gun on infantry tripod.
 M60 machine gun on infantry tripod.
 
 M60E3 light machine gun.
 M60E3 light machine gun.


US Navy SEAL fires M60E3machine gun.
 US Navy SEAL fires M60E3machine gun.
 
M60E4 / Mk.43 mod.1 machine gun (note Picatinny rails on receiver cover and forend), and removable front grip.
 M60E4 / Mk.43 mod.1 machine gun (note Picatinny rails on receiver cover and forend), and removable front grip.

  M60 M60E3 M60E4
Caliber 7.62x51 NATO
Weight, kg 10.4 (with bipod) + 6.8 (M122tripod) 8.5 (with bipod) 10.5 (long barrel)
10.2 (short barrel)
 9.9(assault barrel)
Overall length, mm 1,067 1,077 1,066 (long barrel)
939(short barrel)
965(assault barrel)
Barrel length, mm 560 558 560 (long)
441 (short)
423(assault)
Cyclic rate of fire, rounds perminute 550 550 550
Feed and capacity Belt, 100 or 200 rounds

Like other nations which faced German troops, the USA gave a great deal of attention to German machine guns. Early experiments to convert the MG 42 to the US rifle calibre, carried out by the Saginaw Steering Gear division of General Motors Corp with the T24 prototype, resulted in a complete failure, because someone ‘forgot’ that the US .30-06 cartridgeis about 6 mm (1/4 of an inch) longer than the German 7.92mm Mausercartridge. Despite that setback, the US Army set out to develop a general purpose machine gun for its troops, and in 1945 started aseries of trials to test guns developed by various state armories,American private companies and some systems from foreign contractors.
 In1946 the US Army tested the .30-06 calibre T44 machine gun, an interesting weapon which combined features from two remarkable Germandesigns – the action of the FG42 machine rifle and the belt feed unit from the MG42 machine gun. The most notable feature of the T44 was theplacement of the belt feed module, which was located on the left sideof the receiver (with the belt passing vertically from bottom to top)instead of the more common top position with a lateral belt movement.
 Thedevelopment of the T44 was stopped in 1948, when it was decided toconcentrate on a new, shortened 7.62mm T65 cartridge. Work on a newprototype, designated T52, commenced in 1947 and was continued up until1952, when it was decided to persuade a derivative of the T52 design,known as the T52E3, under the new designation T161. Originallychambered in .30-06 (as a backup measure for the guns chambered for new7.62mm T65E3 ammunition), the T161 went through several versions,starting with the 7.62mm T161E1 and up to T161E3, which was finally adopted in 1957 as the “machine gun, 7.62mm, M60”.
The M60 machine gun is a gas-operated, belt-fed, air-cooled weapon which fires from an open bolt and in automatic mode only. It has quick-change barrels with no need for headspace adjustments. Most of the steel partsare produced using stamping and forming techniques.
 The M60 has also-called “constant volume” gas system with a short-stroke gas pistonlocated below the barrel. This piston has a cup shape (with the opening facing forward) and a set of radial holes which, in the forward position of the piston, are aligned with the gas port in the barrel.The theory of this system is that once gas pressure in the chamber(formed by the piston internal cavity and front of the gas block) is enough to operate the moving parts, the holes in the piston will go out of alignment with the gas port, cutting off the supply of high-pressure powder gases. This also means that the system is self-adjustable andthe cyclic rate of fire cannot be easily adjusted. In practice the gas piston could be installed improperly (with the opening pointingrearward), turning the M60 into manually operated, single shot weapon.The gas block also tends to unscrew itself into its component parts under sustained fire, so its parts were often safe-wired together bytroops improvising in the field. Also, unlike many other guns, each barrel carries its own gas block with gas piston, increasing the weight of spare barrel kits. Locking is achieved by a rotating bolt with dual lugs at the front.
 The M60 uses a belt feed with a disintegrating steel belt running from left to right only. Feeding is of the one-stagepush-through type. The feed system of original M60 guns is built into the hinged feed cover, and is operated by a roller-equipped stud at thetop of the bolt. The “simplified” design of the original belt feed module required that the belt feed cover must be closed only when thebolt is locked to the rear (cocked). If closed on the bolt in its forward position, an attempt to cock the gun will result in damage to the feed group. The belt is fed from 100 or 200-round boxes or soft pouches. “Combat packs” with a 100-round belt can be attached to a special hanger, mounted on the left side of the receiver.
 Thetrigger and sear group along with the manual safety are incorporated into the detachable pistol grip with an integral trigger guard. It is attached to the bottom of the receiver by one cross-pin at the front.The push-pin is held in place by a leaf spring, but during rough handling and / or intense fire, the cross-pin sometimes works itselfloose, leading to the pistol grip with trigger unit becoming separatedfrom the weapon. This often results in a “runaway” gun, as the sear isunable to engage the bolt and the gun fires until the ammunition runsout or it jams. Another source of problems which also could result in adangerous “runaway” is the point of engagement between the sear andoperating rod. It is prone to wear and, once worn enough, the sear isunable to stop the bolt.
 The standard M60 is fitted with opensights: a ramp-type rear, mounted on the receiver, and a post-typefront, mounted on the barrel. Unfortunately the front sights are not adjustable, so the zeroing of each barrel is made by adjustments of therear sight. Therefore, if a gunner desires to have all of his spare barrels properly zeroed, he has to zero each barrel and record its settings for the rear sight; once in combat, he has to remember to seta proper setting for each spare barrel installed on the gun. Of course,in real combat many gunners simply used one “combat zero” setting for all barrels, with obvious (although insignificant in some cases)degradation of accuracy.
 Original M60s are fitted with plastic buttstocks and plastic forearms, combined with heat shields made from stamped steel. Folding carrying handles are attached to the heat shield close to the center of gravity of the weapon. Folding bipods are adjustable for length and permanently attached to the barrel. This further increases the weight of each spare barrel, and while the bipodsare intended to be used as handles during the removal of hot barrels,the gun itself has to be held in the air by the gunner while his assistant swaps the barrels.
 For sustained fire missions the M60 canbe installed on an M122 tripod (with optional T&E mechanism) and on a variety of pintle mounts on vehicles and naval vessels.

Modifications:
M60E1:an improved version of the basic weapon, with Stellite-lined barrels, a gas cylinder and bipod attached to the receiver instead of barrel, anda number of other improvements. Despite its obvious advantages over basic M60, it was never built in numbers or approved for service.
M60E2: coaxial tank version, with a remote trigger and gas evacuating tube attached to the front of the gas cylinder.
M60C: remotely-operated aircraft (helicopter) gun
M60D:helicopter or land vehicle weapon for flexible mounts. The plastic buttstock and pistol grip / trigger unit are replaced with dual spadegrips and an appropriate trigger unit. A special ring sight is installed for airborne applications. Some current versions (as made byUS Ordnance Inc) are provided with lightweight bipod for emergency dismounted use.
M60 Lightweight:an improved version of the M60, developed during the 1970s by the Sacodivision of Maremont Corp. The gas piston group is attached to thereceiver instead of barrel, and a light folding bipod attached to thegas piston tube. The forearm and upper handguard are omitted and replaced by a forward pistol grip. The belt feed unit is improved topermit the safe closing of its cover when the bolt is in its forward position. A number of other improvements were made, such as frontsights adjustable for zeroing.
M60E3:a derivative of the M60 Lightweight, sharing most of its features plusa lightweight plastic forearm combined with a front pistol grip. In limited use with Special Operation forces of the US Army and Navy.
M60E4:a further improvement over the M60E3, developed during early 1990s bySaco Defence (now part of General Dynamic). Currently manufactured under license by US Ordnance. Key improvements are: the introduction ofthree styles of barrels (long / standard, short and assault), and animproved belt feed with greater pull force for improved belt lift capability. Several parts are redesigned and strengthened. In limited use by the US Navy (mostly Special Operations forces).
Mk.43 mod.0: designation of M60E4 in US Navy service
Mk.43 mod.1:designation of modified M60E4 in US Navy service; gun differs from Mod.0 by having feed cover with integral Picatinny rail, plus a set of similar rails is added to the handguard, and integral forward pistol grip is replaced by removable vertical grip attached to the rail.

Kalashnikov AK-107 and AK-108 assault rifle (Russia)


AK-107 assault rifle
AK-107 assault rifle
 
AK-107 assault rifle, disassembled
AK-107 assault rifle, disassembled
 
Illustration of the balanced action, with dual, counter-moving gas pistons above the barrel.
Illustration of the balanced action, with dual, counter-moving gas pistons above the barrel.


Caliber: 5.45x39mm (5,56x45NATO for AK108)
Action: Gas operated, rotating bolt with 2 lugs, balanced bolt-carrier/bolt group to reduce recoil jumping
Length: 943 / 700 mm
Barrel lenght: 415 mm
Sighting range,m: 1000
Weigth: 3.8 kg empty
Magazine capacity: 30 rounds
Rate of fire: 850 (900 for AK108) rounds per minute

During 1960s and 1970s Soviet gun designers tried several approaches to improve hit probability of the standard infantry rifle, when firing in bursts / full automatic mode (which is primary mode of fire for ordinary infantry troops as per Soviet and Russsian field manuals and practice). One of such approaches is known as a “balanced action”. First developed during late 1960s by designers Alexandrov and Paranin in Izhevsk, and by Tkachev in Klimovsk, this system used a counter-mass to compensate the recoil impulse, generated by massive bolt group, slamming against the receiver in its rearmost and forward most position during the reloading cycle. The counter-mass is linked with second gas piston and moves in opposite direction to bolt group. Synchronization is achieved using a simple rack and pinion system. In this system, only the impulse of the fired cartridge is transferred to the receiver, and through the buttstock to the shoulder of the shooter. The impulses of the heavy and fast-moving bolt group are compensated by the counter-mass, and do not affect the shooting, unlike the AK where the moving bolt group produces a lot of additional recoil and vibration. The “balanced system” was employed in the AKB rifle, developed by V.M. Kalashnikov (son of the famous Mikhail Kalashnikov) in Izhevsk, and in the AEK-971 rifle, developed in Kovrov, both unsuccessfully tested during "Abakan" trials of late 1980s.
Despite the failure of both designs in the army trials, development was continued, with intention to produce weapons superior (in full automatic fire mode) to standard AK-74 for domestic police use and export. The Izhevsk entry, initially known as AKB, evolved into the AK-107 and AK-108 rifles, which differed only by the ammunition used - AK-107 was intended for domestic use and thus chambered for 5.45x39 ammunition, while AK-108 was intended for export and thus chambered for 5.56x45 NATO ammunition. Both weapons were widely advertised through late 1990s and early 2000s, although it appears that no significant orders were ever received by the IzhMash factory.
The AK-107 assault rifle is gas operated weapon with balanced action. It employs fairy conventional rotary bolt with dual locking lugs which is operated by long-stroke gas piston located above the barrel. To provide balancing action, secont gas piston is fitted in the front of the first one. When gun is fired, main gas piston moves rearwards, operating the bolt group, while balancing piston moves in opposite direction, being synchronised to the main one via simple rack and pinion system. In all other respects the AK-107 is quite similar to the standard AK-74M assault rifle, except that AK-107 / 108 were also offered with optional 3-round burst firing capability.