Pioneerikalustoa maailmalta.

[ctg]

Puhutaanko auton lisälaitteesta, vaiko ravuista?

Lisälaitteesta. Itse en ole tietoinen että noita on olemassa pyörävehkeille.

 

[SJ]

Varmasti. Ajattelet siis jotain pientä robottiparvea eikä eläviä rapuja?
Robotissa joku maatutkan tapainen ja kun se havaitsee miinan niin räjäyttää itsessään olevan panoksen joka tuhoaa/laukaisee miinan.

Robottiparvesta tulee mieleen ne "miinarotat", ja niiden ongelmat, joskin olen melkoisen varma että GPS ohjatun robotin saa kulkemaan suoraan toisin kuin rotan. Mutta kaikenkaikkiaan uskoisin, että ajoneuvo joka voi mitata koko leveydeltään olisi parempi. Humanitäärisessä miinanraivauksessa on vielä se ongelma, että ne miinat ovat voineet olla maassa ties kuinka kauan ja siis aika syvällä, mikä teettää vaikeuksia sen panoksen kanssa. Ja sitten on nuo maatutkat, niin miten ne tunnistavat oikeat räjähteet kaikesta muusta tavarasta mitä niillä voisi löytää. Toisaalta, tuoreiden sirotteiden löytämiseen ei tarvita maatutkaa, joskin korkea aluskasvillisuus olisi robotille ongelma.

 

[SJ]

Lisälaitteesta. Itse en ole tietoinen että noita on olemassa pyörävehkeille.

Ensinnäkin näkisin, että jos kyseessä on miinat, niin ne halutaan pitää mahdollisimman kaukana itsestä ja jos sellainen räjähtää, niin sitten mieluummin renkaan alla, kuin muutoin auton alla. Tarkoittaa sitä, että ne sellaiset raivaimet mitä on toisinaan näkynyt Hummerien (ja MRAP:ien) edessä Irakissa ja A-maassa olisi parempi. Eli tälläinen:

 

[peelo]

Tässä hyvä video ponttoonikaluston laskusta Saksassa. Nopeasti käy kun laskupaikka on tuollainen. Videon leikkaus vähän hämää, kun Leopard ajaa niin kyseessä on 3 polttoonijakson lautta ja sitten rynnäkkövaunun ajaessa se onkin rakennettu koko vesistön ylittäväksi sillaksi.

Suomessa käytössä oleva Ponttoonikalusto 15 on samantyyppinen vaikkakin alkuperältään Neuvostoliitosta.

 

[rty19]

https://twitter.com/x/status/1250100750803447808

 

[ctg]

Hiekkasäkin korvaaja?

Spoiler

Minä en ymmärrä miten tuo pallo voi ottaa osumaa norsukivääristä ilman läpäisyä. Sarjatuli sama asia. Kaikki mitä Matt heittää arsenaalistaan tuohon ei saa aikaan läpäisyä. Miksi?

 

[SJ]

Minä en ymmärrä miten tuo pallo voi ottaa osumaa norsukivääristä ilman läpäisyä. Sarjatuli sama asia. Kaikki mitä Matt heittää arsenaalistaan tuohon ei saa aikaan läpäisyä. Miksi?

Johtuu varmaan siitä, että tuo materiaali on tyypiltään sellaista, että luoti työntää sitä edellään kunnes materiaali saavuttaa maksimi venymänsä. Ja siis jarruttaa luotia suhteellisen pitkän ajan.

Hieman sama, jos ammut sellaista kohtuu paksua vinyyli tai polyamidi läppää pistoolilla sisäradalla. Läppä siis roikkuu katosta kahden köyden varassa ja pystyy liikkumaan varsin vapaasti. Ja sisärata tarkoittaa sitä, että taustavallina on tälläinen kumi levy teräslevyjen edessä. Lopputulos on se, että osa luodeista pomppaa takaisin taustavallin kumilevystä.

Edit: Nyt kun katsoin tuon videon, niin tuohan on täynnä hiekkaa. No, pitkälti sama idea, joskin enemmän tekemistä hiekan tiheyden ja kitkan kanssa. Hiekka siis tuottaa korkean kitkan kun luoti koettaa työntää sen tieltään.

 

[ctg]

As reported by Military Leak, the Russian army tested for the first time a new tactic of using in tandem the ISDM remote minelaying engineering system and mobile groups of heavy flamethrowers TOS-1A in the main phase of the joint strategic exercise Zapad-2021 at the Mulino proving ground in the Nizhny Novgorod Region.

Two mobile groups of ten heavy flamethrowers TOS-1A Solntsepyok were employed to inflict losses on the advancing forces of a hypothetical enemy. A combination of explosions of uncontrolled unguided missiles with thermobaric warheads and a minefield planted by the ISDM remote-controlled minelaying engineering system Zemledeliye created a high-temperature fire-field and a zone of high pressure in the way of advancing enemy forces.


The ISDM is a remote-mining engineering system that was unveiled in June 2020 during the Victory Parade. The vehicle is based on a KamAZ 6560 8x8 military truck chassis with a mine launching system mounted at the rear. The system has been developed by Ganichev NPO Splav.


The ISDM fires solid-fuel rockets carrying various types of land mines. The system marks areas with mines on an electronic map and transmits data to higher levels of the command chain. Remote mine-laying has a number of advantages as it features an increased speed of mine laying in complex environments.


According to well-known data, the ISDM combat vehicle is fitted 50-barrel multiple launch rocket system consisting of two blocks with five rows of tube launchers. Each tube can fire one 122-mm rocket equipped with mines of various types. All the firing operations are controlled from inside of the crew cabin using a computerized automatic launching system. The system is supposed to be a mine dispenser working like air-dropped cluster bombs.


The reloading system includes a transport-loading unit, also based on an 8x8 KamAZ chassis.

Russian Army deploys new ISDM Zemledeliye mine layer at Zapad-2021 exe

As reported by Military Leak, the Russian army tested for the first time a new tactic of using in tandem the ISDM remote minelaying engineering system and

www.armyrecognition.com

 

[Myrskyhiiri]

Russian Army deploys new ISDM Zemledeliye mine layer at Zapad-2021 exe

As reported by Military Leak, the Russian army tested for the first time a new tactic of using in tandem the ISDM remote minelaying engineering system and

www.armyrecognition.com

Ne on kehittäneet taktiikan huippuunsa. Ensin ne ampuu sirotemiinoitteen ja sitten ne raivaa sen ampumalla itse pois

 

[ctg]

Originally developed and manufactured during the 1990s by TDW for the German Bundeswehr, the Automated Anti-Tank Weapon (AATW) or Panzerabwehr-richtmine (PARM) has been in service with the Bundeswehr for more than 25 years and is today mainly used by the infantry and engineer branch of the German Bundeswehr.


The PARM consists of two main parts: a projectile with a high performance shaped charge, and a rear element with an arm and fuzing device, which are kept together by a barrel with a tripod. The PARM provides multiple operational advantages in both rural and urban terrain.


Equipped with a tripod, the PARM is well suited for use in rapidly changing environments. It can be deployed or retrieved in a matter of minutes. In order to perform this task, only littke training is required for the operator. In comparison to common anti-tank mines, there is no requirement to place it below surface, allowing to be used on hard ground like asphalt or pavement. Therefore, making it ideal for urban warfare.


It is suited for both protective and tactical use and allows to dirsupt, fix or turn the movement of opposing forces. It can be deployed as stand-alone anti-tank weapon or in conjunction with mines of the same or other types. Due to its flexibilty, it is in particular effective complementary to conventional anti-tank mines.


Since the PARM contains a projectile with a shaped charge, it is effective at distances up to 40 meters. At the same time, it offers maximum safety for the soldiers deploying or retrieving it. It is triggered by a fibre optical cable, wich allows the PARM to operate fro covert positions. Therefore, both the sensor and effector of the PARM are difficult to detect.


The PARM is easily aimed and directed by an open sight on the top of the rear element. Ideally deployed in a 90 degree angle to the expected movement of the target, a fibre optical sensor detects the target. Sensor electronics ignite the ejection unit of the projectile, which is equipped with a shaped charge and an impact sensor, which initiates the charge. Up to a range of 40 metres, the shaped charge perforates conventional armour and ERA to a considerable extent. A specific timed electric discharge device ensures that the PARM is compliant to International Humanitarian Law. The safe handling is ensured by a highly sophisticated electro-mechanical safe and arm device, which allows the deactivation and reactivation for later use.

TDW showcases PARM Automated Anti-Tank Weapon

google_ad_client = "pub-4068738923530102"; /* 468x15 data sheet menu top dark green */ google_ad_slot = "3500417247"; google_ad_width = 468; go

www.armyrecognition.com

 

[ctg]

UBIM engineer vehicle

Military-technical forum ARMY-2021 - Static displays part 3: Signal, command, engineer and support vehicles - Vitaly Kuzmin

The fourth part of the report from International military-technical forum ARMY-2021 Photos of various signal, command & control, combat engineer, recovery, support and supply vehicles displayed at the exhibition area. Четвертая часть репортажа о Международном военно-техническом форуме...

www.vitalykuzmin.net

 

[ctg]

BREM-L

 

[peelo]

Virolaisten pioneerijoukkojen kalustoa selaillessa tuli vastaan tieto että puolustusvoimat olisi lahjoittanut viroon käytöstä poistettua TMM-3M siltakalustoa. Aikaisemmin Viro oli hankkinut kyseisiä välineitä myös Ukrainasta. Tämä on tietysti hieno uutinen että suomalaiselle kalustolle on löytynyt jatkokäyttöä näinkin läheltä.

https://twitter.com/x/status/664851434547097600

 

[ctg]

Supacat announced on June 7 that it has been awarded a contract by Rheinmetall BAE Systems Land (RBSL) to upgrade chemical and radiological sensing equipment on the British Army’s fleet of ‘Fuchs/Fox’ CBRN (Chemical, Biological, Radiological and Nuclear) surveillance and reconnaissance vehicles.

The vehicles will be modified at Supacat’s facility in Dunkeswell, Devon, over an estimated one-year period. Supacat’s engineers and vehicle technicians will complete the integration work, meaning the contract will help sustain valuable jobs and skills for the UK and the company.

The contract is part of the overall £16m UK MOD contract awarded to RBSL is October 2020 to upgrade and sustain the British Army’s fleet of Fuchs/Fox vehicles. RBSL is completing the engineering work required to upgrade the vehicles with the latest generation of sensing capabilities, with Supacat conducting the physical integration work.

Originally designed and developed by Rheinmetall, the British Army’s Fuchs/Fox vehicles have since been adapted into a protected platform equipped with automatic systems and sensors for detecting nuclear radiation, CBRN agents and other toxic substances. This latest contract will help modernise the fleet further and ensure operational readiness and effectiveness of the UK CBRN reconnaissance fleet.

The contract is the latest collaboration opportunity between Supacat and RBSL as Supacat grows its Engineering Services business to support global primes in the UK and Australia where it operates.

RBSL Rheinmetall BAE Systems Land signs contract with Supacat to upgrade British Army Fuchs Fox CBRN fleet | Defense News June 2022 Global Security army industry | Defense Security global news industry army year 2022 | Archive News year

RBSL Rheinmetall BAE Systems Land signs contract with Supacat to upgrade British Army Fuchs Fox CBRN fleet

www.armyrecognition.com