JERRVs
Encyclopedia
Joint EOD Rapid Response Vehicles or Joint Engineering Rapid Response Vehicles
(JERRVs) are vehicles that United States Joint Service Engineers and Explosive Ordnance Disposal (EOD) units use in war zones, such as Iraq
.
and Packbot
), bomb suits, and explosives. JERRVs are more resistant to the effects of landmines, IED
s, and small arms
than soft armored vehicles like the Humvees. The JERRV is designed to deflect blasts. They are in some ways like heavier versions of armored cars.
Development
The JERRV was the natural follow-on to the earlier USMC-directed purchase of some 30 Hardened Engineer Vehicles (HEV). HEV was an urgent UNS program which resulted in an order being placed with Technical Solutions Group in Ladson in April 2004. The original HEV requirement document (written on less than a single side of paper) called for some quite specific characteristics which were a major factor in the design of a new vehicle which was called Cougar only to provide a degree of continuity for the User community. The new Cougar was designated Cougar H to differentiate it from the earlier of lightweight and non-military vehicle which had been imported from South Africa by TS.
The Designer was a British ex-army officer who had been asked to help out TSG in previous years and who offered to design a new vehicle when the USMC approached the company with their requirement. His own experiences ,as well as a desire to distance TSG from its former South African partners, led to a policy from the outset of creating a new vehicle which would address many of the deficiencies of the older designs as well as to meet first world standards of protection, performance and sustainability. The design team was small - as was the USMC purchasing team - and consisted of the Designer plus two other engineers and an automotive supply engineer who specified and purchase the running gear from Peterbilt dealers Rush Crane.
At the time, a few of the old South African designers tried to get involved and persuade TSG (led at that time by Mike Watts),to force the Designer to abandon many of the new features. Watts' main contribution to the development of the modern mine protected vehicle (and one which should not be overlooked) was perhaps that he resisted all such pressures and kept these people away from the design team. In order to control the public utterances of some of the main critics, consultancies were awarded by TSG which allowed a degree of commercial confidentiality to be imposed.
Major differences from the older designs included a vertical hull side to increase internal volume, a full-length bottom plate to increase strength and to provide blast and ballistic protection for the engine, full US-specification engine, cooling, power-train etc., sufficient payload to provide ballistic-protection upgrades and so on. Ergonomics were based upon first-world standards as were protection levels and automotive specifications (earlier South Africa designs paid scant regard for these, applying their own local standards which caused some problems when operated by NATO countries).
During the design and construction of the first vehicle, considerable use was made of the carpentry team who worked closely with the design team and frequently led the whole process. They constructed many items in plywood and the engineering team was sent down to measure the results and draw them in CAD.
At the same time as the main 4x4 version was being developed, the Designer impressed upon the User the need for a 6x6 version to reduce ground pressures and axle loads; other versions which were designed and mocked up in wood were a flatbed variant (intended to meet the USMC requirement for a lightweight prime mover system capable of pulling a 155mm howitzer and carrying the crew plus ammunition), an ambulance and a command vehicle. The first HEV was delivered to the USMC in Sep/Oct 2004, less than six months after contract award - at which time the design was still a couple of sketches on a pad.
By September 2004 the US Army had shown interest in Cougar and sent its IED/EOD experts to Charleston, SC, to talk to the design team. The Designer agreed to modify the vehicle to make better use of in-service equipment and changed the engine to the military version of the CAT C-7 2136 - making it 24v and upping the HP from 300 to 330 hp. Based upon these assurances, the Army decided to combine with the USMC and to order a batch of vehicles referred to as the JERRV - Joint EOD Rapid Response Vehicle.
(JERRVs) are vehicles that United States Joint Service Engineers and Explosive Ordnance Disposal (EOD) units use in war zones, such as Iraq
Iraq
Iraq ; officially the Republic of Iraq is a country in Western Asia spanning most of the northwestern end of the Zagros mountain range, the eastern part of the Syrian Desert and the northern part of the Arabian Desert....
.
EOD application
The vehicles are used to safely transport EOD operators, supplies, and equipment, including remotely controlled robots (TALONFoster-Miller TALON
The Foster-Miller TALON robot is a small, tracked military robot designed for missions ranging from reconnaissance to combat. Over 3000 TALON robots have been deployed to combat theaters. -Overview:...
and Packbot
PackBot
PackBot is a series of military robots by iRobot. More than 2000 PackBots are currently on station in Iraq and Afghanistan, with hundreds more on the way.-Current PackBot 510 variants:...
), bomb suits, and explosives. JERRVs are more resistant to the effects of landmines, IED
Improvised explosive device
An improvised explosive device , also known as a roadside bomb, is a homemade bomb constructed and deployed in ways other than in conventional military action...
s, and small arms
Small arms
Small arms is a term of art used by armed forces to denote infantry weapons an individual soldier may carry. The description is usually limited to revolvers, pistols, submachine guns, carbines, assault rifles, battle rifles, multiple barrel firearms, sniper rifles, squad automatic weapons, light...
than soft armored vehicles like the Humvees. The JERRV is designed to deflect blasts. They are in some ways like heavier versions of armored cars.
Development
The JERRV was the natural follow-on to the earlier USMC-directed purchase of some 30 Hardened Engineer Vehicles (HEV). HEV was an urgent UNS program which resulted in an order being placed with Technical Solutions Group in Ladson in April 2004. The original HEV requirement document (written on less than a single side of paper) called for some quite specific characteristics which were a major factor in the design of a new vehicle which was called Cougar only to provide a degree of continuity for the User community. The new Cougar was designated Cougar H to differentiate it from the earlier of lightweight and non-military vehicle which had been imported from South Africa by TS.
The Designer was a British ex-army officer who had been asked to help out TSG in previous years and who offered to design a new vehicle when the USMC approached the company with their requirement. His own experiences ,as well as a desire to distance TSG from its former South African partners, led to a policy from the outset of creating a new vehicle which would address many of the deficiencies of the older designs as well as to meet first world standards of protection, performance and sustainability. The design team was small - as was the USMC purchasing team - and consisted of the Designer plus two other engineers and an automotive supply engineer who specified and purchase the running gear from Peterbilt dealers Rush Crane.
At the time, a few of the old South African designers tried to get involved and persuade TSG (led at that time by Mike Watts),to force the Designer to abandon many of the new features. Watts' main contribution to the development of the modern mine protected vehicle (and one which should not be overlooked) was perhaps that he resisted all such pressures and kept these people away from the design team. In order to control the public utterances of some of the main critics, consultancies were awarded by TSG which allowed a degree of commercial confidentiality to be imposed.
Major differences from the older designs included a vertical hull side to increase internal volume, a full-length bottom plate to increase strength and to provide blast and ballistic protection for the engine, full US-specification engine, cooling, power-train etc., sufficient payload to provide ballistic-protection upgrades and so on. Ergonomics were based upon first-world standards as were protection levels and automotive specifications (earlier South Africa designs paid scant regard for these, applying their own local standards which caused some problems when operated by NATO countries).
During the design and construction of the first vehicle, considerable use was made of the carpentry team who worked closely with the design team and frequently led the whole process. They constructed many items in plywood and the engineering team was sent down to measure the results and draw them in CAD.
At the same time as the main 4x4 version was being developed, the Designer impressed upon the User the need for a 6x6 version to reduce ground pressures and axle loads; other versions which were designed and mocked up in wood were a flatbed variant (intended to meet the USMC requirement for a lightweight prime mover system capable of pulling a 155mm howitzer and carrying the crew plus ammunition), an ambulance and a command vehicle. The first HEV was delivered to the USMC in Sep/Oct 2004, less than six months after contract award - at which time the design was still a couple of sketches on a pad.
By September 2004 the US Army had shown interest in Cougar and sent its IED/EOD experts to Charleston, SC, to talk to the design team. The Designer agreed to modify the vehicle to make better use of in-service equipment and changed the engine to the military version of the CAT C-7 2136 - making it 24v and upping the HP from 300 to 330 hp. Based upon these assurances, the Army decided to combine with the USMC and to order a batch of vehicles referred to as the JERRV - Joint EOD Rapid Response Vehicle.