9M113 Konkurs | |
---|---|
9M113 Konkurs missile
|
|
Type | Anti-tank missile |
Place of origin | Soviet Union |
Service history | |
In service | 1974–present |
Used by | See operators |
Wars | Syrian Civil War, Yemeni Civil War (2015-present), Saudi-led intervention in Yemen (2015-present), Conflict in Najran, Jizan and Asir |
Production history | |
Designed | 1970 |
Manufacturer | Tula Machinery Design Bureau (Tula KBP) – Tulsky Oruzheiny Zavod |
Variants | 9M113M |
Specifications | |
Weight | 14.6 kg (32 lb) |
Length | 1,150 mm (45 in) 875 mm (34.4 in) without gas generator |
Diameter | 135 mm (5.3 in) |
Warhead | 2.7 kg (6.0 lb) 9N131 HEAT |
Detonation
mechanism |
Contact |
|
|
Engine | Solid-fuel rocket |
Wingspan | 468 mm (18.4 in) |
Operational
range |
70 m (230 ft) to 4 km (2.5 mi) |
Flight ceiling | - |
Speed | 200 m/s (660 ft/s) |
Guidance
system |
Wire-guided SACLOS |
Steering
system |
Two control surfaces |
Launch
platform |
Individual, vehicle |
The 9M113 Konkurs (Russian: 9М113 «Конкурс»; cognate of French: Concours; English: "Contest") is a SACLOS wire-guided anti-tank missile of the Soviet Union. "9M113" is the GRAU designation of the missile. Its NATO reporting name is AT-5 Spandrel.
The 9M113 Konkurs was developed by the Tula Machinery Design Bureau (Tula KBP). Development began with the aim of producing the next generation of SACLOS anti-tank missiles, for use in both the man-portable role and the tank destroyer role. The 9M113 Konkurs was developed alongside the 9M111; the missiles use similar technology, differing only in size. The warhead penetration is 600 mm vs rolled homogeneous armour (RHA).
The missile entered service in 1974. Iran began producing a copy, the Tosan (not to be confused with the Toophan), sometime around 2000.
The missile is designed to be fired from vehicles, although it can also be fired from the later models of 9M111 launchers. It is an integral part of the BMP-2, BMD-2 and BRDM-2 vehicles. The missile is stored and carried in a fiberglass container/launch tube.
The system uses a gas generator to push the missile out of the launch tube. The gas also exits from the rear of the launch tube in a similar manner to a recoilless rifle. The missile leaves the launch tube at 80 meters per second, and is quickly accelerated to 200 meters per second by its solid fuel motor. This initial high speed reduces the missile's deadzone, since it can be launched directly at the target, rather than in an upward arc. In flight, the missile spins at between five and seven revolutions per second.