On-Going Mine Flail Development EffortsAs mentioned above, where flail technology development did continue, it was skewed towards much smaller machines (sometimes remote-controlled or fitted with aft-mounted armoured operator cabs set high and out of the blast zone). One approach that broke that pattern were the
Scanjack 3500 prototypes. Based on a well-established Finnish forestry vehicle 'prime mover', the Scandinavian Demining Group's
Scanjack 3500 took an interesting dual-flail approach. [1] A variation on that theme is DOK-ING's MV-10 which combines a primary flail with a secondary tiller system.
Another early 1990s military mine flail effort resulted in Aardvark Clear Mines' Rapid Area Clearance Equipment (RACE). One variant - RACE C - followed the contemporary trend of mounting the flail system on a front-end loader. This armoured cabbed Volvo L90 was unremarkable - other than in its flail drum being hydraulically-driven. Another variant - RACE A - was intended for use on APCs. The FV432-mounted prototype carried an auxiliary diesel engine in a box slung off the rear of its hull. That separate diesel was dedicated to powering the hydraulic system. [2] A remarkable feature of the RACE A system was that its drum was articulated. Folding at that joint, the drum formed a more compact 'V' shape for transport.
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https://beyondthesprues.com/Forum/index.php?topic=10826.msg211261#msg211261Probably the best-known mineclearing flail system of the 1990s was the British Aardvark JSFU which has seen fairly widespread military service ... again, for humanitarian mine clearance operations. However, an Aardvark-style flail system [3] was adapted to the
Leopard 1 hull. In early 1999, Norway's Hägglunds Moelv AS teamed with two US firms [4] to produce the AMCV (Armoured Mine Clearing Vehicle). A
Leopard 1 hull had its turret replaced by central, fixed 'doghouse' for the flail operator. The flail system itself, pivoted from a mount on the forward portside of the hull. [5] When in their stowed position, the flail booms surrounded the 'doghouse' (with the flail drum to starboard).
Norway's
Hæren intended to procure seven AMCV conversions as their
Minerydderpanservogn (MRPV or minesweeper armoured vehicle) but that never happened. The sole prototype was tested operationally with Norway's KFOR deployment but the MRPV project was cancelled in 2002 - budgetary and floor-space priorities having shifted to Hägglunds Moelv's conversion of 22 x
Leopard 1 hulls into NM189
Ingeniørpanservogn AEVs (three of which have now been donated to Ukraine).
This leaves us with one type of tank-based mine flail vehicle currently in service with a major European army - the M48-based MiRPz
Keiler which entered
Bundeswehr service in 1997. Four of these
Minenräumpanzer have now been transferred to Ukraine. However, since the MiRPz
Keiler is the basis for our first flail-tank 'Option', I'll leave further discussion of this vehicle for Post #?.
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[1] The SDG
Scanjack 3500 had tandem flails of different diameters. Normally, these flails were rotated clockwise but they were reversible (and could be counter-rotated). The shorter front flail chains cleared to a depth of 20 cm - removing most vegetation and detonating anti-personnel. The larger-diameter second flail cleared down to 40 cm, dealing with anti-tank mines. The flails were driven by a dedicated 550 hp Scania DSI 14 turbo-diesel V8 separate from vehicle propulsion.
See:
https://www.files.ethz.ch/isn/26723/MDE_Catalogue_2002.pdf[2] If I understand the system correctly, a diesel engine drove a hydraulic pump which, in turn, provided the hydraulic energy need to turn hydraulic motors. Those hydraulic motors then turned that hydraulic energy back into the mechanical energy needed to spin the flail drum. AFAIK, the Volvo's diesel drove the hydraulic pump via a power take-off. The FV432 did the same with its separate, auxiliary engine.
[3] I have said "type" because the flail system was original to Hägglunds. Some online sources claim that an actual Aardvark unit was mounted on the AMCV/MRPV. That is clearly not the case - consider the Norwegian vehicles complicated folding mechanism alone.
[4] Much of the AMCV/MRPV development work was actually done in Alabama. Those American firms were Summa Technology, Inc. and Quality Research, Inc. - then both of Huntsville, AL (Quality Research has since relocated to San Antonio, TX).
[5] Rather than trying to accurately describe the mechanism, see images attached (based upon Hägglunds Moelv drawings).