Fire Trucks & Army Trucks

Fire trucks have been an essential part of firefighting for centuries. The first fire engines were hand-pumped and pulled by horses, but as technology advanced, so did the design of fire trucks. Today, modern fire trucks are equipped with advanced features such as aerial ladders, water pumps, and even infrared cameras. The history of fire trucks is a fascinating one, and it's a testament to the ingenuity and bravery of firefighters throughout the ages.

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Army trucks have played a crucial role in military operations throughout history. From the early days of World War I to modern conflicts, these vehicles have been used to transport troops, supplies, and equipment across all types of terrain. Over time, army trucks have evolved to become more advanced and specialized, with features like armor plating, off-road capabilities, and advanced communication systems. Today, they continue to be an part of military operations around the world.

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HISTORY OF
FIRE TRUCKS

Firefighting and Rescue vehicles made in Germany

Located in Hohenlinden near Munich, we are one of the leading suppliers of fire engines in the German-speaking area and are internationally successful, serving many markets from Europe to the Middle East and Asia.

The keyfacts about our company and our products we compiled for you in the video above. By watching this seven and a half minute walk through our factory you’ll learn more about the reasons why firefighters in so many countries prefer the unique quality of Lentner vehicles. Also, we invite you to browse the German pages of our website even if you don’t speak German. About 250 photos will show you many interesting details and tell you more than thousand

The History of Fire Engines: From Primitive Pumps to Advanced Technology

The iconic red fire engine that you often see has changed throughout history. In early civilizations, the need for fire to heat, cook, and light homes increased the risk of house fires. So naturally, people sought a means to extinguish the blaze, resulting in hundreds of years of new apparatus designs, and innovations.

Early 1700’s: First Patented Fire Engine Designs

Early prototypes of the fire engine were designed in England to move water from one place to another. Once the need for firefighters became apparent, they would discharge the tanks with pumps to generate the pressure needed to reach the blazing infrastructure. In 1721, Richard Newsham, an English inventor, recognized an opportunity. Newsham filed 2 patents that would allow him to create and control the market of fire engines during the mid-1700s in England. Newsham’s apparatus design consisted of a wooden chassis constructed with a long and narrow frame that could easily be maneuvered. Newsham’s engine encompassed a large lever that required the efforts of two men. The two firefighters would then begin pumping by standing with one foot on each side of the pump, throwing their weight upon each treadle alternately. While the crew members were pumping, a leather hose was attached to the top of the apparatus that another set of firefighters directed the jet of water at the fire.

1800-the 1900s: Development of Mobile Fire Engines – Horse Drawn to Combustion Engine Powered Apparatus

As America moved into the industrial age, larger cities, such as Boston, New York, Baltimore, and San Francisco, saw technological changes that impacted the way apparatus were being manufactured. The trend started with the introduction of the horse-drawn steam pumper. The early steam fire engines were used from approximately 1840 to 1920, allowing for quick transfer of water but were still hindered by a horse’s capibilities. The demand for more water to fight bigger fires increased the weight of the fire engine and, in turn, rendered the horse ineffective for bigger engines. By 1913, companies such as the Ahrens-Fox Manufacturing Company from Cincinnati and the Knox Automobile Company of Springfield, Massachusetts, were leading the conversion from steam to gas-powered. However, it soon became apparent that the advantages of using motorized vehicles vs. horse-drawn in durability and cost were too numerous to halt transformation. By 1925, the steam pumper had been completely replaced by motorized pumpers. Difficulties developed in adapting geared rotary gasoline engines to pumps, which then made it necessary for gasoline-powered fire engines to be outfitted with two motors; one to drive the pump and the other to propel the vehicle. However, these pumps were gradually replaced by rotary pumps and centrifugal pumps, which are used today by most modern pumpers.

HISTORY OF ARMY TRUCKS

List of United States Army tactical truck models

By 1915, the US Army was using trucks tactically. When the US joined World War I in April, 1917 it began purchasing trucks in larger numbers. Early trucks were often designed for both military and commercial use, later military-specific designs were built. Since 1940 the US military has ordered over 3,000,000 tactical trucks. The US Marines have used both US Army and their own specific models, some are shown.

The "ton" (907 kg) weight ratings are the payload of a basic cargo version of the truck, not of the individual version.

The "wheel arrangement" designation is the number of wheels x the number of driven wheels. There are two wheels per axle, dual tires are counted as one wheel. Some series have both single and dual tire models.

"Total built" usually includes for US forces and any export orders.

The Early Days of Motorized Military Vehicles

The U.S. Army's first use of trucks in a military operation was in the "Punitive Expedition" in pursuit of "Pancho" Villa into the mountains of northern Mexico in 1916. The Villistas had raided Columbus, N.M., killing several people and causing much damage. Brig. Gen. John Pershing organized a large force of troops, horses and vehicles to catch Villa. Among the motor vehicles were some 1915 GMC Model 15, three-quarter-ton trucks.

The operation encountered very severe conditions while going 400 miles into the Mexican state of Chihuahua, mostly over very rough terrain. Many of the trucks were stuck in the sand or mud and abandoned.

Although they did not catch Villa, the Army learned much about motor vehicle operation and support requirements and consequently was better prepared to use mechanized vehicles when it became involved in World War I in 1917.

The first large-scale use of motor vehicles in warfare occurred during "The Great War," starting in 1916. Early on, the British used a number of GMC Model 15 trucks, similar to those used in pursuit of Pancho Villa. GMC developed the improved Model 16 three-quarter-ton truck and released it in 1916.

When the U.S. entered World War I, new impetus was given to the Model 16 for military use, and it became the Class AA military truck for the duration of World War I. Of the 13,316 Model 16 trucks produced, the major portion built in 1917 and 1918 were for military use.

The U.S. Army developed a classification of military vehicles and chose preferred supplies for class. GMC was selected to be the primary source for Class AA three-quarter-ton trucks. The military version was designated as GMC mode 16AA. The most common application was for field ambulance service.

The company's booklet titled "GMC Ambulances" reads: "It is to the credit of the United States government that in every phase of preparation for the great war, the utmost consideration was given to providing comfort for the soldiers; not only during the preparation term at the various encampments around the country, but in providing for their welfare on the field of battle.

"It is a source of much satisfaction to the General Motors Truck Company that the medical department of the United States Army found the GMC 3/4-ton chassis to meet the requirements of this very exacting service."

The Model 16 had a 132-inch wheelbase with 35-by-5 pneumatic ties. The 30 horsepower engine gave the truck a max speed of 25 mph.

Although most of the ambulances were assembled by GMC, demand soon exceeded the production capacity of GM's Pontiac division facility, so kits were devised that included all of the parts required to build an ambulance. Some of those kits were assembled by subcontractors in the U.S., such as Hupmobile, and others were built by American troops in France.

Other GMC trucks were used during World War I, including more than 2,400 Model 23, one-ton trucks used by the Signal Corps as light aviation tenders to support airplanes used for field reconnaissance. Some Model 23s carried troops and others supported artillery operations.

By the time the armistice was declared on Nov. 11, 1918, nearly 90% of GMC's truck production had been dedicated to building a total of 8,512 military vehicles.

The mid to late 1900s: Development of the Ladder Truck

The move from rural to urban increased the need for more efficient apparatus. Daniel D. Hayes, a native New York City firefighter, saw the necessity of getting firefighters to the towering buildings under threat. Hayes developed a mounted extension ladder to the top of a ladder truck equipped with a spring-assist mechanism that raised the ladder into its elevated position. The Hayes ladder was used to allow firefighters to quickly roll up to the fire scene, raise the mounted ladder to the windows of burning buildings, and extinguish the fire and rescue victims. These ladders would remain in service until the early 1950s.

Apparatus Construction and Operation Today

Modern fire engines are packed with fire and rescue equipment, including hoses, ladders, self-contained breathing apparatus, ventilating equipment, first aid kits, and hydraulic rescue tools. They are also fitted with sirens, lights, and communications equipment such as two-way radios and mobile computers. With all of its first aid and emergency equipment, fire engines are commonly used for purposes more than firefighting, such as emergency response. Today, there are different apparatus types for various uses, including wildland fire apparatus for navigating rough wildland terrain and water tenders for transporting a large amount of water to the scene of a fire. As technological innovations are made each year, fire engines become more advanced. Today, new additions such as wireless communications and wifi hotspots are increasing in demand. With the major changes in fire fighting over the last few hundred years, it’s difficult to predict what the future holds for fire engines. However, one certain thing is that the fire engine will continue to be an integral tool in firefighting efforts.

Boise Mobile Equipment (BME), a fire apparatus manufacturer located in Boise, Idaho, is expanding its facilities and its product lines. Known best for being the industry leader in the wildland market, BME has just acquired two new warehouses: one 25,000 square feet, and one 50,000 square feet, to meet increasing demand and to produce innovative new firefighting vehicles. INCREASING DEMAND The expansion came as BME locked in a $10 million contract with CAL FIRE for the production of over 30 wildland fire apparatuses. Since then, several additional fire departments have “tagged on” to this contract. To further add to this increasing demand, BME recently won another contract with the USDA Forest Service, which is expected to reach roughly $11 million after final adjustments (a formal announcement on this will be released soon). BME has also partnered up with Sutphen, an Ohio-based fire engine manufacturer, as part of Sutphen’s dealer program. The program will allow BME to sell and service Sutphen aerials and pumpers for fire departments in the Western US. BME expects the extra 75,000 square feet of space within its two new facilities to help meet this increasing demand. NEW FIREFIGHTING VEHICLES The warehouses will also be used for the production of new firefighting vehicles: BME’s new lines of rescue boats and UTVs. FRP FIRE RESCUE PATROL BOATS BME’s rescue boats feature twin 2,000 GPH automatic bilge pumps, dual Simrad display, a FLIR Infrared CameraGPS, Twin Akron 3462 Front Monitors, a Darley HE 64RS “Hercules” Portable Pump, and much more. FIRST STRIKE UTV BME’s UTVs are built by Mahindra Rise with a 1,000 CC Diesel Kohler Engine, and custom installed parts including a 3 Stage Waterax Striker 3 Pump – 73 GPM @ 150 psi, 56 GPM @ 200 psi, 33 GPM @ 250 psi, a 100’ Cox hose and reel, and much more. Boise Mobile Equipment is a top-quality fire apparatus manufacturer dedicated to providing customers with individualized design options, exceptional craftsmanship, and rugged durability. For more information on BME’s recent expansions, call us at (800) 445-8342 or visit

Assessing the Damage: The Destruction of the 2017 Northern California Wildfires

The 2017 fire season has been one of the worst in US history, especially for California. During the most intense period beginning in early October and continuing until the end of the month, eight counties in Northern California were hit by a devastating outbreak of wildfires which led to over 40 fatalities, nearly 250,000 scorched acres and nearly 9,000 structures destroyed. The blazes burned through communities, literally turning homes and businesses into dust. The estimated 20,000 Northern Californian residents who evacuated towns and cities told stories of narrow escapes from fires that erupted and forced them to flee even before text messages and other alerts were sent out by emergency warning systems. Those that were lucky enough to escape returned to what is left of their homes, businesses, and farms. The California Department of Insurance said that as of October 26, losses reported from 15 major insurers totaled $3.3 billion, including residential and commercial property, personal and commercial auto, agriculture and watercraft. Farmers who lost both their homes and crops suffered the most during and after the smoke settled.

NORTHERN CALIFORNIA WILDFIRE EFFECTS ON THE WINE INDUSTRY

Early estimates have revealed that the 2017 fires have consumed nearly 200,000 acres of farmland. This was likely a cause for concern for many, as the multibillion dollar industry employs many workers in the area. In Napa Valley alone, wineries and vineyards employ almost half of the county’s workforce. However, the wine industry was largely spared as most of the wine region’s grapes had been harvested when the fires started in early October. Moreover, the blazes did not linger at the vineyards due to the implementation of fire breaks and the practice of keeping wine rows free of grasses.

CAL FIRE’S RESPONSE TO THE WILDFIRES

The swift and effective reaction from California’s emergency services has no doubt saved many lives and properties as these fires flourished in conditions of high winds and dry heat amidst a drought. The agency responsible to fight the 2017 fires in Northern California, CAL FIRE, had the monumental task of preserving life and property during the ordeal. As the fires raged, CAL FIRE quickly experienced a staffing shortage of personnel rigged with vehicles rated for rough terrain and capable of such extreme firefighting conditions. The agency quickly turned to the National Interagency Fire Center in Boise, Idaho for help. NIFC then deployed equipment and personnel from Nevada, Washington, Idaho, Montana, New Mexico, North and South Carolina, Oregon, as well as teams from as far away as Canada and Australia.

THE IMPORTANCE OF SAFE & DURABLE FIRE APPARATUS

Unfortunately, citizens weren’t the only casualties during the wildfires. Volunteer firefighter Garrett Paiz who was driving a privately owned water tender down Oakville Grade in the area around the Nuns fire, was killed when the tender careened out of control down the steep grade.

Protecting Our Nation’s Firefighters for Over 25 Years

For over 25 years, Boise Mobile Equipment has served our nation’s fire fighters by engineering state-of-the-art fire engines. The safety of our nation’s firefighters is our number one priority, so BME fire apparatus are built to protect fire crews by shielding them from the lethal elements they encounter when battling fires. Our fire trucks are engineered for rugged off-road terrain, built with reinforced TIG-welded aluminum tubular bodies and are tilt-tested to withstand horizontal grades of more than 32 degrees. BME fire trucks are trusted by fire service organizations like CAL FIRE and the USDA Forest Service, as well as numerous municipal fire departments across the country. In fact, many of our apparatus were used to help battle the recent ‘mega fires’ in California, Montana, Oregon and Idaho. Our engineers and mechanics are highly trained, allowing them to manufacture custom vehicles built to any specs. We understand that one size does not fit all in the fire industry, as every department and organization needs different equipment to do its job. That’s why we are known for our ‘built-to-spec’ manufacturing process. Rather than the traditional ‘cookie cutter’ manufacturing process where each truck is built the same and additional specs are charged as add-ons, BME builds each of its vehicles custom to every department’s specific needs. BME’s recent contracts with Forest Service and CAL FIRE allow for tag-on’s that could make the purchase of your new apparatus faster, easier and far less costly. For more information regarding the purchase of a BME fire apparatus, please contact us by phone at (800) 445-8342.

List of Military Vehicles

A13 Covenanter Cruiser Tank Mark V medium tank (United Kingdom; pre–World War II)
A15 Crusader Cruiser Tank Mark VI medium tank (United Kingdom; World War II)
A22 Churchill Infantry Tank Mark IV medium tank (United Kingdom; World War II)
A24 Cavalier Cruiser Tank Mark VII medium tank (United Kingdom; World War II)
A27 Cromwell Cruiser Tank Mark VIII medium tank (United Kingdom; World War II)
A30 Challenger Cruiser Tank Mark VIII medium tank (United Kingdom; World War II)
A34 Comet Cruiser Tank medium tank (United Kingdom; World War II)
A39 Tortoise anti-tank vehicle (United Kingdom; World War II)
A43 Black Prince Infantry Tank medium tank (United Kingdom;)
A41 Centurion main battle tank (United Kingdom; Cold War)
A45 Caernarvon heavy tank (also known as the FV201 and FV221) (United Kingdom; World War II)
A-531 armoured personnel carrier (also known as the Type 63 or YW531) (China; Cold War)
AAV-7 amphibious armoured vehicle series (United States; Cold War)
AAVC-7 amphibious command vehicle (United States; Cold War)
AAVP-7 amphibious armoured personnel carrier (United States; Cold War)
AAVR-7 amphibious recovery vehicle (United States; Cold War)
AB 40 4×4 armoured car (Italy; World War II)
AB 41 4×4 armoured car (Italy; World War II)
Abrams (popular name for the M1 Abrams)
AC1 Sentinel medium tank (also known as the Cruiser Tank Mk I) (Australia; World War II)
ACEC Cobra armoured personnel carrier (Belgium; Cold War/Modern)
ACG-1 light tank (also known as the AMC 35) (France; pre–World War II)
ACG-2 self-propelled anti-tank 75mm gun (also known as the AMC 35) (France; pre–World War II)
Achzarit armoured personnel carrier based on the T-54/55 chassis (Israel; Cold War/Modern)
ACTL, Italian transport vehicle
ACV 300 infantry fighting vehicle based on the AIFV (Turkey; Modern)
ACV-S armoured vehicle based on the AIFV (Turkey; Modern)
AHSVS 8×8 armoured truck series (Germany; Modern)
AIFV infantry fighting vehicle based on the M113 (Turkey and United States; Cold War/Modern)
Al-Fao self-propelled 210mm howitzer (Iraq; Cold War/Modern)
Al-Khalid reporting name for the MBT 2000 main battle tank (China and Pakistan; Modern)
Al-Zarar MBT main battle tank based on the T-59 (Pakistan; Modern)
Alacran (popular name for the BMS-1 Alacran)
Alvis-Straussler (Uk; World War II)
Alvis Striker SP ATGW Vehicle (Uk; Modern)
AM-IV 4×4 armoured security vehicle (Brazil; Modern)
AMC 34 light tank (also known as the YR) (France; pre–World War II)
AMC 35 light tank (also known as the ACG-1) (France; pre–World War II)
AML 20 4×4 armoured car (France; Cold War)
AML 60 4×4 armoured car (France and South Africa; Cold War)
AML 90 4×4 armoured car (France and South Africa; Cold War)
AML 245 4×4 armoured car (France; Cold War)
AMR 33 light tank (France; pre–World War II)
AMR 35 light tank (France; pre–World War II)
Amtrac common name for the American LVT series of amphibious vehicles
AMV 8×6 armoured vehicle (Finland; Modern)
AMX-10P armoured personnel carrier (France; Cold War)
AMX-10RC 6×6 armoured fighting vehicle (France; Cold War)
AMX-13 light tank (France; Cold War)
AMX 30 main battle tank (France; Cold War)
AMX 32 main battle tank (France; Cold War)
AMX 40 main battle tank (France; Cold War/Modern)
AMX-56 main battle tank (designation sometimes used for the Leclerc) (France; Modern)
AMX-VCI infantry fighting vehicle (France; Cold War)
APRA-21 4×4 self-propelled multiple rocket launcher based on a Bucegi SR-114 chassis (Romania; Cold War)
APRA-40 6×6 self-propelled multiple rocket launcher based on a DAC-665T chassis (Romania)
APS-3 armored personnel carrier (Indonesia; Modern)
Archer (tank destroyer) (United Kingdom; World War II)
Ariete (popular name for the C1 Ariete)
Arjun MBT main battle tank (India; Modern)
Arma Amphibious tactical wheeled armoured vehicle (Turkey; Modern)
Armadillo wood and gravel extemporised AFV (United Kingdom; World War II)
Armored Combat Earthmover (project name for the M9 ACE)
Armored Gun System (project name for the XM8 AGS)
Armored Infantry Fighting Vehicle (project name for the AIFV)
ATS 56 G, Soviet artillery tractor used in the Vietnam War
Armoured Vehicle Launched Bridge (AVLB)
ASCOD series of armoured vehicles (Austria and Spain; Modern)
ASLAV 8×8 infantry fighting vehicle based on the LAV 25 (Australia and Canada; Modern)
Asad Babil (Iraqi designation for license-built T-72)
ASU-57 self-propelled 57mm gun (Soviet Union; Cold War)
ASU-85 self-propelled 85mm gun (Soviet Union; Cold War)
AT105 Saxon wheeled armoured personnel carrier (United Kingdom; Cold War)
AT-P tracked prime mover and artillery crew transporter (Soviet Union; Cold War)
Austin Armoured Car (United Kingdom; World War I)
Avenger air defence vehicle based on the HMMWV (United States; Modern)
AVGP Cougar wheeled fire support vehicle (Canada; Cold War)
AVGP Grizzly wheeled armoured personnel carrier (Canada; Cold War)
AVGP Husky wheeled maintenance and recovery vehicle (Canada; Cold War)

Fire Trucks For firefighting

This article is about a specific type of fire apparatus. For firefighting apparatus in general, see Firefighting apparatus.

"Fire truck" redirects here. For other uses, see Fire Truck (disambiguation).

"Fire engines" redirects here. For the Scottish post-punk band, see The Fire Engines. For other uses, see Fire engines (disambiguation).

A Scania P280 fire engine used by the Humberside Fire and Rescue Service in Kingston upon Hull, Yorkshire, England

A fire engine, fire truck, or fire ambulance is a vehicle, usually a specially-designed or modified truck, that functions as a firefighting apparatus. The primary purposes of a fire engine include transporting firefighters and water to an incident as well as carrying equipment for firefighting operations in a fire drill. Some fire engines have specialized functions, such as wildfire suppression and aircraft rescue and firefighting, and may also carry equipment for technical rescue.

Many fire engines are based on commercial vehicle chassis that is further upgraded and customized for firefighting requirements. They are generally considered emergency vehicles authorized to be equipped with emergency lights and sirens, as well as communication equipment such as two-way radios and mobile computer technology.

The terms fire engine and fire truck are often used interchangeably to a broad range of vehicles involved in firefighting; however, in some fire departments they refer to separate and specific types of vehicle.

Design and construction

Front of a MAN fire engine with built-in winch, e.g. for towing damaged cars. The shackles serve a similar purpose.

The design and construction of fire engines focuses greatly on the use of both active and passive warnings. Passive visual warnings involve the use of high contrast patterns to increase the noticeability of the vehicle. These types of warnings are often seen on older vehicles and those in developing countries. More modern designs make use of retroreflectors to reflect light from other vehicles. Vehicles will also often have these reflectors arranged in a chevron pattern along with the words fire or rescue. European countries commonly use a pattern known as Battenburg markings. Along with the passive warnings, are active visual warnings which are usually in the form of flashing colored lights (also known as "beacons" or "lightbars"). These flash to attract the attention of other drivers as the fire truck approaches, or to provide warning to drivers approaching a parked fire truck in a dangerous position on the road. While the fire truck is headed towards the scene, the lights are always accompanied by loud audible warnings such as sirens and air horns. Some fire engines in the United States are lime yellow rather than red due to safety and ergonomics reasons. A 2009 study by the U.S. Fire Administration concluded that fluorescent colors, including yellow-green and orange, are easiest to spot in daylight.

In some regions, a fire engine may be used to transport first responder firefighters, paramedics or EMTs to medical emergencies due to their proximity to the incident.

Warning devices

Fire engines are equipped with sirens, horns, and flashing lights. They are used to warn of vehicles that they pull over.

The standard fire engine transports firefighters to the scene, carries equipment needed by the firefighters for most firefighting scenarios, and may provide a limited supply of water with which to fight the fire. The tools carried on the fire engine will vary greatly based on many factors including the size of the department and the usual situations the firefighters handle. For example, departments located near large bodies of water or rivers are likely to have some sort of water rescue equipment. Standard tools found on nearly all fire engines include ladders, hydraulic rescue tools (often referred to as the jaws of life), floodlights, fire hose, fire extinguishers, self-contained breathing apparatus, and thermal imaging cameras.

The exact layout of what is carried on an engine is decided by the needs of the department. For example, fire departments located in metropolitan areas will carry equipment to mitigate hazardous materials and effect technical rescues, while departments that operate in the wildland-urban interface will need the gear to deal with brush fires.

Some fire engines have a fixed deluge gun, also known as a master stream, which directs a heavy stream of water to wherever the operator points it. An additional feature of engines are their preconnected hose lines, commonly referred to as preconnects.The preconnects are attached to the engine's onboard water supply and allow firefighters to quickly mount an aggressive attack on the fire as soon as they arrive on scene. When the onboard water supply runs out, the engine is connected to more permanent sources such as fire hydrants or water tenders and can also use natural sources such as rivers or reservoirs by drafting water.

Aerial apparatus

A Scania aerial apparatus with Fire and Rescue New South Wales

An aerial apparatus is a fire truck mounted with an extendable boom that enables firefighters to reach high locations. They can provide a high vantage point for spraying water and creating ventilation, an access route for firefighters and an escape route for firefighters and people they have rescued. In North America, aerial apparatuses are used for fire suppression, whereas in Europe, they are used more for rescue.

Turntable ladder

An Iveco turntable ladder with the Romanian General Inspectorate for Emergency Situations

A turntable ladder (TL) is an aerial apparatus with a large ladder mounted on a pivot which resembles a turntable, giving it its name. The key functions of a turntable ladder are allowing access or egress of firefighters and fire victims at height, providing a high-level water point for firefighting (elevated master stream), and providing a platform from which tasks such as ventilation or overhaul can be executed.

To increase its length and reach, the ladder is often telescoping. Modern telescopic ladders may be hydraulic or pneumatic. These mechanical features allow the use of ladders which are longer, sturdier, and more stable. They may also have pre-attached hoses or other equipment.

The pivot can be mounted at the rear of the chassis or in the middle, just behind the cab. The latter is sometimes called a "mid-ship" arrangement, and it allows a lower travel height for the truck.

While the traditional characteristic of a TL was a lack of water pumping or storage, many modern TLs have a water pumping function built in (and some have their own on-board supply reservoir). Some may have piping along the ladder to supply water to firefighters at the top of the ladder, and some of these may also have a monitor installed at the top. Other appliances may simply have a track-way to securely hold a manually-run hose reel.

In the United States, turntable ladders with additional functions such as an onboard pump, a water tank, fire hose, aerial ladder and multiple ground ladders, are known as quad or quint engines, indicating the number of functions they perform.

The highest TL in the world is the Magirus M68L, with a range of 68 meters (223.1 ft).

Tiller truck

An American LaFrance tiller truck with the Los Angeles Fire Department

In the United States, a tiller truck, also known as a tractor-drawn aerial, tiller ladder, or hook-and-ladder truck, is a specialized turntable ladder mounted on a semi-trailer truck. Unlike a commercial semi, the trailer and tractor are permanently combined and special tools are required to separate them. It has two drivers, with separate steering wheels for front and rear wheels.

One of the main features of the tiller-truck is its enhanced maneuverability. The independent steering of the front and back wheels allow the tiller to make much sharper turns, which is particularly helpful on narrow streets and in apartment complexes with maze-like roads. An additional feature of the tiller-truck is that its overall length, over 50 feet (15 m) for most models, allows for additional storage of tools and equipment. The extreme length gives compartment capacities that range between 500 and 650 cubic feet (14 and 18 m3) in the trailer with an additional 40 and 60 cubic feet (1.1 and 1.7 m3) in the cab.

Some departments elect to use tiller-quints, which are tiller trucks that have the added feature of being fitted with an on-board water tank. These are particularly useful for smaller departments that do not have enough personnel to staff both an engine company and a truck company.

Platform truck

An articulating platform truck with the Roskilde fire brigade

A platform truck carries an aerial work platform, also known as a basket or bucket, on the end of a ladder or boom. These platforms can provide a secure place from which a firefighter can operate. Many platforms also allow for rescues to be performed and are outfitted with tie down clips and rappelling arms.

Some booms are capable of articulating, allowing the arm to bend in one or more places. This allows the platform truck to go "up and over" an obstacle, and is an advantage over the traditional platform ladder, which can only extend in a straight line.

Wildland fire engine

Main article: Wildland fire engine

An International wildland fire engine with the United States Forest Service

A wildland fire engine is a specialized fire engine that can negotiate difficult terrain for wildfire suppression. A wildland fire engine is smaller than standard fire engines and has a higher ground clearance. They may also respond to emergencies in rough terrain where other vehicles cannot respond. Many wildland engines feature four-wheel drive capability to improve hill climbing and rough terrain capability. Some wildland apparatus can pump water while driving (compared to some traditional engines which must be stationary to pump water), allowing "mobile attacks" on vegetation fires to minimize the rate of spread.

Fire departments that serve areas along the wildland–urban interface have to be able to tackle traditional urban fires as well as wildland fires. Departments in these areas often use a wildland-urban interface engine, which combine features of a standard fire engine with that of a wildland fire engine.

Water tender

An Isuzu water tender with the Japan Maritime Self-Defense Force

A water tender is a specialist fire appliance with the primary purpose of transporting large amounts of water to the fire area to make it available for extinguishing operations. These are especially useful in rural areas where fire hydrants are not readily available and natural water resources are insufficient or difficult to exploit.

Most tankers have an on-board pumping system. This pump is often not of sufficient power to fight fires (as it is designed to be attached to a fire engine), but is more often used to draw water into the tender from hydrants or other water sources. Many tankers are equipped with fast-drain valves on the sides and back of the truck. This allows firefighters to empty thousands of gallons of water into a portable water tank in just a few seconds.

Most water tenders are designed to carry loads of 5,000–12,000 litres (1,100–2,600 imp gal).

Airport crash tender

Main article: Airport crash tender

An Oshkosh airport crash tender with the Erik Nielsen Whitehorse International Airport fire department

An airport crash tender is a specialized fire engine designed for use at aerodromes in aircraft accidents. Some of the features that make the airport crash tender unique are its ability to move on rough terrain outside the runway and airport area, large water capacity as well as a foam tank, a high-capacity pump, and water/foam monitors. Newer airport crash tenders also incorporate twin agent nozzles/injection systems that add dry chemical fire retardant (such as Purple-K) to create a stream of firefighting foam which is able to stop the fire faster. Some also have gaseous fire suppression tanks for electrical fires. These features give the airport crash tenders a capability to reach an airplane rapidly, and rapidly extinguish large fires with jet fuel involved.

Other vehicles

Other vehicles that are used by fire departments but may not be directly involved in firefighting may include

Fire car
Fire investigation unit
Fire police unit
Hazardous materials apparatus
Light and air unit
Marine rescue unit
Mobile communications vehicle
Operational support unit

A Mitsubishi Town Box kei car fire truck with the Chichibu, Saitama fire department
Chevrolet Suburban command vehicles with the Seattle Fire Department
A Scania hazardous materials vehicle with ACT Fire and Rescue
A Dennis Dart command post used by the Gloucestershire Fire and Rescue Service
A Marder infantry fighting vehicle converted for use as a firefighting vehicle with the German Fire Services

History

One of the simplest forms of hand tub type fire engines, engraving from the mid 17th century in Germany

An early device used to squirt water onto a fire was known as a squirt or fire syringe. Hand squirts and hand pumps are noted before Ctesibius of Alexandria invented the first fire pump around the 2nd century B.C. and an example of a force-pump possibly used for a fire-engine is mentioned by Heron of Alexandria.

Fire engine invented by Hans Hautsch

In 1650, Hans Hautsch built a fire engine with a compressed air vessel. On each side 14 men worked a piston rod back and forth in a horizontal direction. The air vessel, a type of pressure tank, issued an even stream despite the backward motion of the piston. This was made possible by a rotating pipe mounted on the hose which allowed the jet to reach heights up to 20 m (65.6 ft). Caspar Schott observed Hautsch's fire engine in 1655 and wrote an account of it in his Magia Universalis.

Colonial laws in America required each house to have a bucket of water on the front stoop in preparation for fires at night. These buckets were intended for use by the initial bucket brigade that would supply the water at fires. Philadelphia obtained a hand-pumped fire engine in 1719, years after Boston's 1654 model appeared there, made by Joseph Jenckes Sr., but before New York's two engines arrived from London.

By 1730, Richard Newsham, in London, had made successful fire engines. He also invented those first used in New York City in 1731 where the amount of manpower and skill necessary for firefighting prompted Benjamin Franklin to found an organized fire company in 1737. Thomas Lote built the first fire engine made in America in 1743. These earliest engines are called hand tubs because they are manually (hand) powered and the water was supplied by a bucket brigade dumping it into a tub (cistern) where the pump had a permanent intake pipe.

An important advancement around 1822 was the invention of an engine which could draft water from a water source. This rendered the bucket brigade obsolete. In 1822, a Philadelphia-based manufacturing company called Sellers and Pennock made a model called "The Hydraulion". It is said to be the first suction engine.[Some models had the hard, suction hose fixed to the intake and curled up over the apparatus known as a squirrel tail engine.

Fire engine, Philadelphia, 1838, trying to save adjacent building. One firefighter (with helmet) directs the water; three to his left are manning the pump. Hand-colored. To the right of the engine is a hose truck.

Manually drawn fire pump in service in Edinburgh in 1824

Horse-drawn fire pump given to Brockhampton Estate in 1818

The earliest engines were small and were either carried by four men, or mounted on skids and dragged to a fire. As the engines grew larger they became horse-drawn and later self-propelled by steam engines.

Antique Japanese fire pump

Until the mid-19th century, most fire engines were maneuvered by men, but the introduction of horse-drawn fire engines considerably improved the response time to incidents. The first self-propelled steam pumper fire engine was built in New York in 1841. Unfortunately for the manufacturers, some firefighters sabotaged the device and its use of the first engine was discontinued. However, the need and the utility of power equipment ensured the success of the steam pumper well into the twentieth century. Many cities and towns around the world bought the steam fire engines.

Motorised fire engines date back to January 1897, when the Prefect of Police in Paris applied for funds to purchase "a machine worked by petroleum for the traction of a fire-engine, ladders, and so forth and for the conveyance of the necessary staff of pompiers".With great prescience the report states "If the experiment prove successful, as is anticipated, horses will eventually be entirely replaced by automobiles". This was, indeed, the case and motorised fire engines became commonplace by the early 20th century. By 1905, the idea of combining gas engine motor trucks into fire engines was attracting great attention; according to a Popular Mechanics article in that year, such trucks were rapidly gaining popularity in England. That same year, the Knox Automobile Company of Springfield, Massachusetts, began selling what some[28] have described as the world's first modern fire engine. A year later, the city of Springfield, Illinois, had filled their fire department with Knox engines. Another early motorized fire engine was developed by Peter Pirsch and Sons of Kenosha, Wisconsin.

For many years firefighters sat on the sides of the fire engines, or even stood on the rear of the vehicles, exposed to the elements. This arrangement was uncomfortable and dangerous (some firefighters were thrown to their deaths when their fire engines made sharp turns on the road), and today nearly all fire engines have fully enclosed seating areas for their crews.

Early pumpers

Fire engine at Fire Brigade Headquarters, Sydney, 1941

Early pumpers used cisterns as a source of water. Water was later put into wooden pipes under the streets and a "fire plug" was pulled out of the top of the pipe when a suction hose was to be inserted. Later systems incorporated pressurized fire hydrants, where the pressure was increased when a fire alarm was sounded. This was found to be harmful to the system and unreliable. Today's valved hydrant systems are kept under pressure at all times, although additional pressure may be added when needed. Pressurized hydrants eliminate much of the work in obtaining water for pumping through the engine and into the attack hoses. Many rural fire engines still rely upon cisterns or other sources for drafting water into the pumps. Steam pumper came in to use in the 1850s.

Early aerials

In the late 19th century, means of reaching tall structures were devised. At first, manually extendable ladders were used; as these grew in length (and weight), they were put onto two large wheels. When carried by fire engines these wheeled escape ladders had the wheels suspended behind the rear of the vehicle, making them a distinctive sight. Before long, turntable ladders—which were even longer, mechanically extendable, and installed directly onto fire trucks—made their appearances.

After the Second World War turntable ladders were supplemented by the aerial work platform (sometimes called "cherry picker"), a platform or bucket attached onto a mechanically bending arm (or "snorkel") installed onto a fire truck. While these could not reach the height of similar turntable ladders, the platforms could extend into previously unreachable "dead corners" of a burning building.

More of Military Vehicles

B1 Centauro 8×8 tank destroyer (Italy; Modern)
B-531 armoured personnel carrier (also known as the Type 63 or YW531) (China; Cold War)
BA-3 6×4 armoured car (Soviet Union; pre–World War II)
BA-6 6×4 armoured car (Soviet Union; pre–World War II)
BA-10 6×4 armoured car (Soviet Union; pre–World War II)
BA-64 4×4 armoured car (Soviet Union; World War II)
Bateleur 4×4 self-propelled multiple rocket launcher based on a SAMIL 20 truck (South Africa; Modern)
BCL-M5 4×4 armoured personnel carrier (Algeria; modern)
BDX 4×4 armoured personnel carrier (Belgium; Cold War)
Bison concrete armoured lorry (United Kingdom; World War II)
Bison 8×8 armoured personnel carrier (Canada; modern)
BJ2020 4×4 utility vehicle based on the Jeep Cherokee (XJ) (China; Cold War / modern)
BJ2022 Brave Warrior 4×4 utility vehicle (China; modern)
BJ212 Beijing Jeep 4×4 utility vehicle based on the UAZ-469 (China; Cold War / modern)
Black Eagle Tank (Russian:Chorny Oriol) main battle tank (Russia; modern)
Black Knight (Unmanned combat vehicle)
Black Panther (popular name for the K2 Black Panther)
BLG-60 bridging vehicle (East Germany/Poland; Cold War)
BLG-67 bridging vehicle (East Germany/Poland; Cold War)
Blitz (popular name for the C15)
BLR 4×4 armoured personnel carrier (Spain; Cold War)
BM-11 6×6 self-propelled multiple rocket launcher based on a Ural-375D or Ural-4320 chassis (North Korea; Cold War)
BM-21 Grad 4×4 and 6×6 self-propelled multiple rocket launcher based on a GAZ-66, Ural-375D, Ural-4320 or ZIL-131 chassis (also known as M1964) (Soviet Union; Cold War)
BMD-1 infantry fighting vehicle (Soviet Union; Cold War)
BMD-2 infantry fighting vehicle (Soviet Union; Cold War)
BMD-3 infantry fighting vehicle (Russia; modern)
BMM-2 8×8 ambulance based on the K1Sh1 (Russia; modern)
BMM-3 8×8 ambulance based on the K1Sh1 (Russia; modern)
BMM-80 8×8 ambulance based on the K1Sh1 (Russia; Modern)
BMP-1 infantry fighting vehicle (Soviet Union; Cold War)
BMP-2 infantry fighting vehicle (Soviet Union; Cold War/Modern)
BMP-3 infantry fighting vehicle (Russia; Modern)
BMP-23 infantry fighting vehicle based on the MT-LB (Bulgaria; Cold War/Modern)
BMP-30 infantry fighting vehicle based on the BMP-23 (Bulgaria; Modern)
BMR mine clearing vehicle (Soviet Union; Cold War)
BMR-600 6×6 armoured personnel carrier (also known as Pegaso 3560) (Spain; Cold War)
BMS-1 Alacran halftrack armoured personnel carrier based on the M3 Halftrack (Chile; Cold War)
Boragh armoured personnel carrier based on the Type 86 (Iran; Modern)
BOV 4×4 armoured vehicle (Yugoslavia; Cold War)
Bradley (popular name for the M2 Bradley and M3 Bradley)
BRAVIA Commando Mk III armoured car (Portugal; Cold War)
BRDM-1 4×4 reconnaissance vehicle (also known as M1958, M1959 and M1960) (Soviet Union; Cold War)
BRDM-2 4×4 reconnaissance vehicle (Soviet Union; Cold War)
BRDM-3 wheeled anti-tank vehicle (Soviet Union; Cold War)
BREM-2 armored recovery vehicle based on the BMP-1 (Soviet Union; Cold War)
BREM-L armored recovery vehicle based on the BMP-3 (Russia; Modern)
BRM-23 reconnaissance vehicle (Bulgaria; Cold War/Modern)
BT-2 light tank (Soviet Union; World War II)
BT-5 light tank (Soviet Union; World War II)
BT-7 light tank (Soviet Union; World War II)
BT-8 light tank (Soviet Union; World War II)
BTR-3 8×8 armoured personnel carrier (Ukraine; Modern)
BTR-4 8×8 armoured personnel carrier (Ukraine; Modern)
BTR-40 4×4 armoured personnel carrier (also known as M1956, M1957 and M1974/4) (Soviet Union; Cold War)
BTR-50 tracked armoured personnel carrier (Soviet Union; Cold War)
BTR-60 8×8 armoured personnel carrier (Soviet Union; Cold War)
BTR-70 8×8 armoured personnel carrier (Soviet Union; Cold War)
BTR-80 8×8 armoured personnel carrier (Soviet Union; Cold War/Modern)
BTR-90 8×8 armoured personnel carrier (Russia; Modern)
BTR-94 8×8 armoured personnel carrier (Ukraine; Modern)
BTR-140 (more commonly known as the BTR-152 6×6 armoured personnel carrier) (Soviet Union; Cold War)
BTR-152 6×6 armoured personnel carrier (Soviet Union; Cold War)
BTR-T infantry fighting vehicle (Russia; Modern)
BTS-1 armoured recovery vehicle (Soviet Union; Cold War)
BTS-2 armoured recovery vehicle (Soviet Union; Cold War)
BTS-3 armoured recovery vehicle (Soviet Union; Cold War)
BTS-4 armoured recovery vehicle (Soviet Union; Cold War)
Buffalo wheeled armoured personnel carrier (France; Cold War)
Buffalo 6×6 anti-mine vehicle based on the Casspir (United States; modern)
Buffalo (British designation of some of the American LVT series of amphibious vehicles)
Buffel 4×4 mine protected armoured personnel carrier (South Africa; Cold War)
Bushmaster 4×4 mine protected armoured personnel carrier (Australia; Modern)
Bushmaster (designation used for the LVT-3 variant of the American LVT series of amphibious vehicles)
Bv 202 articulated tractor and trailer (also known as the FV11021) (Sweden; Cold War)
Bv 206 articulated tractor and trailer (Sweden; Cold War/Modern)
BVP-1 infantry fighting vehicle based on the BMP-1 (Czechoslovakia; Cold War)
BVP-2 infantry fighting vehicle based on the BMP-2 (Czechoslovakia; Cold War/Modern)
BVP M-80 infantry fighting vehicle based on the M-80 (Yugoslavia; Cold War)
BVS10 Viking articulated tractor and trailer (Sweden; modern)
BVPzV Svatava reconnaissance vehicle based on the BMP-1 (Czechoslovakia; Cold War)
BWP-1 (Polish designation of the BMP-1 infantry fighting vehicle (Soviet Union; Cold War)
BWP-40 infantry fighting vehicle based on the BMP-1/ CV 90 (Poland and Sweden; modern)
BWP-2000 infantry fighting vehicle based on the BMP-1 (Poland; modern)

Char B1 medium tank (France; pre–World War II)
Char D1 medium tank (France; pre–World War II)
Char Léger Hotchkiss H-35 (official designation for the Hotchkiss H35)
Char Mitrailleuse Renault FT-31 (official designation for the Renault FT-31)
Charger (popular name for the RG-31)
Chi-Ha (name for the Type 97 Chi-Ha)
Chi-He (name for the Type 1 Chi-He)
Chi-Nu (name for the Type 3 Chi-Nu)
Chieftain (popular name for the FV4201 Chieftain)
Ch'onma-ho main battle tank (North Korea;modern)
CM-21 armoured personnel carrier based on the M113 (Taiwan; Cold War)
Cobra (popular name for the ACEC Cobra)
Combat Engineer Vehicle (program name for the M728 CEV)
Comet (popular name for the A34 Comet I)
Commando (popular name for the BRAVIA Commando Mk III)
Commando (popular name for the Cadillac Gage V-100 Commando series)
Commando Scout (popular name for the Cadillac Gage Commando Scout)
Condor 4×4 armoured personnel carrier (Germany; Cold War)
Conqueror (popular name for the FV214 Conqueror)
Cougar (popular name for the AVGP Cougar)
Covenanter (popular name for the A13 Cruiser Tank Mark V)
Coyote Reconnaissance Vehicle (Canada; modern)
CQ261 wheeled truck (China; Cold War)
Cromwell (popular name for the A27 Cruiser Tank Mark VIII)
Cruiser Tank Mk I medium tank (also known as the A9) (United Kingdom; pre–World War II (1938))
Cruiser Tank Mk I medium tank (also known as the AC1) (Australia; World War II)
Cruiser Tank Mk II medium tank (also known as the A10) (United Kingdom; World War II)
Cruiser Tank Mk III medium tank (also known as the A13) (United Kingdom; World War II)
Cruiser Tank Mk IV medium tank (also known as the A13) (United Kingdom; World War II)
Cruiser Tank Mark V medium tank (also known as the A13 Covenanter) (United Kingdom; World War II)
Cruiser Tank Mark VI medium tank (also known as the A15 Crusader) (United Kingdom; World War II)
Cruiser Tank Mark VII medium tank (also known as the A24 Cavalier) (United Kingdom; World War II)
Cruiser Tank Mark VIII medium tank (also known as the A27 Cromwell) (United Kingdom; World War II)
Cruiser Tank Mark VIII medium tank (also known as the A30 Challenger) (United Kingdom; World War II)
Crusader (popular name for the A15 Cruiser Tank Mark VI)
CTLS light tank (also known as T14 and T15) (United States; (World War II)
CV-29 (also known as the Carro Veloce) (designation for the Carden Loyd tankette)
CV-33 light tank based on the CV-29 (also known as the Carro Veloce) (Italy; pre–World War II)
CV-35 light tank based on the CV-33 (also known as the Carro Veloce and L3/35) (Italy; pre–World War II)
CV 90 family of infantry fighting vehicles (Sweden; modern)
CV 9025 infantry fighting vehicle version of the CV 90 (Sweden; modern)
CV 9030 infantry fighting vehicle version of the CV 90 (Sweden; modern)
CV 9035 infantry fighting vehicle version of the CV 90 (Sweden; modern)
CV 9040 infantry fighting vehicle version of the CV 90 (Sweden; modern)
CV 9056 anti-tank vehicle version of the CV 90 (Sweden; modern)
CV 90105 light tank version of the CV 90 (Sweden; modern)
CV 90120 light tank version of the CV 90 (Sweden; modern)
Cultivator No. 6 trench forming machine (United Kingdom; World War II)

D421 cable carrier based on the Type 60 (China; Cold War)
Dardo popular name for the C13 infantry fighting vehicle (also known as the VCC-80) (Italy; Modern)
DAF ya4440/ya4442 Dutch transport truck
DAF ya328 Dutch transport truck (1950–1980)
DAF ya126 Dutch transport truck (1947–1960)
DANA self-propelled 152mm howitzer (Czechoslovakia; Cold War)
Dingo 4×4 armoured car (Australia; World War II)
Dingo 4×4 armoured car (United Kingdom; World War II)
Dozor-B 4×4 armoured car (Ukraine; Modern)
DP-90 artillery reconnaissance vehicle based on the OT-90 (Czechoslovakia; Cold War)
DPM convoy escort vehicle based on the T-55 (Soviet Union; Cold War)
Dragoon 300 wheeled armoured fighting vehicle (United States; modern)
DTP-90 maintenance vehicle based on the OT-90 (Czechoslovakia; Cold War)
DUKW 6×6 amphibious utility vehicle (United States; World War II)
Duster (unofficial name for the M42 Skysweeper)
Dzik Armored Car (Poland; Modern)

F8 4×2 8-cwt truck series (Canada; World War II)
F15 4×2 and 4×4 15-cwt truck series (also known as the Blitz and 15cwt) (Canada; World War II)
F30 4×4 30-cwt truck series (Canada; World War II)
F60 4×4 and 6×4 60-cwt truck series (Canada; World War II)
Family of Medium Tactical Vehicles (project name for the M1078 FMTV series)
FCM 36 light tank (French; pre–World War II)
Ferret FV711 armoured car (UK, modern)
Fiat 2000 light tank (Italy; World War I)
Fiat 3000 light tank (Italy; pre–World War II)
Fiat 6614 wheeled armoured personnel carrier (Italy; Cold War)
Fiat 6616 heavy armoured car (Italy; Cold War/modern)
Field Artillery Ammunition Support Vehicle (project name for the M992 FAASV)
Fire Support Vehicle (project name for the M981 FSV)
Fabrique Nationale AS 24 (Belgium; Cold War)
FN Tricar (Belgium; World War II)
Ford FT-B Armored car (Poland; Polish-Soviet war)
Fox armoured car (CVR (W) UK, modern
Freccia
FT-31 light tank (France; World War II)
FCM 2C Alsace heavy tank (also known as Char 2C) (France; pre–World War II)
Fuchs (popular name for the Transportpanzer 1)
FUG 4×4 reconnaissance vehicle (Hungary; Cold War)
FV101 Scorpion light tank (United Kingdom; Cold War)
FV102 Striker self-propelled ATGM carrier (United Kingdom; Cold War)
FV103 Spartan armoured specialist personnel carrier (United Kingdom; Cold War)

A heavily modified and modernized Centurion tank.

The MK1A tanks were commissioned in 1985. The MK1Bs were commissioned in 1991 and the MK2 tanks were commissioned in 2007 by using some TTD tank part.

Tank destroyers

Rooikat [ Tank destroyer South Africa-390Extremely fast armoured vehicle used for reconnaissance, aggressive search-and-destroy, anti-armour operations, combat patrols, raids and hot pursuit operations. 150 Rooikats in reserve squadrons / storage.

Ratel ZT-3 Tank destroyer South Africa-52Ratel IFV equipped with a triple ZT3 Ingwe ATGM launcher.

Infantry fighting vehicles (IFV)

Badger IFV Infantry fighting vehicle South Africa-244 (On order)The Badgers are planned to partially replace the SA army's Ratel fleet over the next decade. The Badger IFV will become a mainstay of South African mechanized infantry force for many years to come. There will be five versions: a standard infantry carrier, a command car, fire support variant, mortar carrier and tank destroyer.

Ratel IFV Infantry fighting vehicle South Africa
-1,200[36]Primary armoured fighting vehicle in service with the South African Mechanized forces. Variants in service include the Ratel 20 (armed with a Denel GI-2 20mm cannon), Ratel 60 (armed with a 60mm breech-loading mortar), Ratel 90 (armed with a 90mm Denel GT-2 low-velocity anti-tank gun), command variant, fire-support vehicle and an 81mm mortar carrier. 666 Ratels in reserve squadrons / storage.

Armoured personnel carriers (APC)

Mamba [37]MRAP armoured personnel carrier South AfricaMk3840+APC / MRAP with significant protection against anti-tank mines and small arms fire. 400 Mambas in reserve squadrons / storage.

MAX 3[38]No image availableArmoured personnel carrier South AfricaMAX 3?A dozen 4x4 and 6x6 MAX 3s were acquired from SVI Engineering in early 2024 and delivered to the Joint Operations Division of the SANDF. These vehicles would most likely replace or supplement the Mamba or Casspir vehicles.

Mine-resistant ambush protected (MRAP)

Casspir [39]MRAP infantry mobility vehicle South AfricaMk31,040+IMV with significant protection against anti-tank mines and small arms fire. Comes in several variants: an armoured personnel carrier, ambulance, light cargo vehicle (Blesbok freighter), tanker, a fire support team vehicle (FISTV), a light recovery vehicle (Gemsbok) and a Plofadder mine clearing vehicle. 200 Casspir in reserve squadrons / storage.

RG-31 Nyala [40]MRAP infantry mobility vehicle South Africa-?IMV with significant protection against anti-tank mines and small arms fire.

Husky VMMD Vehicle mounted mine detection system / MRAP South Africa-4,000+A system designed to clear routes of mines. Usually they operate in pairs one after the other. signated as "Meerkat". The vehicle detects and identifies land mines and improvised explosive devices (IEDs) using a range of sensors and imaging systems. Additionally, the Husky is equipped with a variety of countermeasures, such as jamming systems and smoke generators that can be used to neutralize or disrupt IEDs. The Husky VMMD's armor is specifically engineered to withstand the effects of land mines and IEDs.

GV5 Leopard155mm towed howitzer South AfricaG5-200072Locally developed long-range towed 155mm towed howitzer. The GV5 Leopard is a towed version of the GV6 Rhino.

GV1 25 87mm towed howitzer United Kingdom-32A small number are maintained and in service with reserve regiments. These guns are used for ceremonial occasions.

Multiple launch rocket system (MLRS)

Bateleur 127mm multiple launch rocket system South Africa-25Long-range 127mm missile launcher. 40 launch tubes mounted on an armoured Samil 100 6×6 truck.

Valkiri ]127mm multiple launch rocket system South Africa-76Long-range 127mm missile launcher. 24 launch tubes mounted on an armoured 4×4 truck.

Oerlikon GDF
Radar guided anti-aircraft autocannon Switzerland GermanyGDF-002GDF-005150Upgraded by Rheinmetall AG in 2017 to use Oerlikon Skyshield fire control systems and Ahead airburst ammunition.

Zumlac Twin 23mm anti aircraft autocannon Soviet Union-36Captured in the 1980s during the South African Border War and are mounted on armoured SAMIL 100 heavy trucks.

Surface-to-air missile

Umkhonto GBADS [50]Mobile surface-to-air missile system South Africa-?Developed for the South African Army's ground-based air defence system (GBADS) requirement.

Oerlikon GDF
Radar guided anti-aircraft autocannon Switzerland GermanyGDF-002GDF-005150Upgraded by Rheinmetall AG in 2017 to use Oerlikon Skyshield fire control systems and Ahead airburst ammunition.

Zumlac Twin 23mm anti aircraft autocannon Soviet Union-36Captured in the 1980s during the South African Border War and are mounted on armoured SAMIL 100 heavy trucks.

Surface-to-air missile

Umkhonto GBADS [50]Mobile surface-to-air missile system South Africa-?Developed for the South African Army's ground-based air defence system (GBADS) requirement.

Miscellaneous

NameImageTypeOriginVersionsNumberNotes

Seeker 400
Unmanned aerial vehicle South Africa Seeker 40036The Seeker 400 operates at direct line-of-sight (LOS) ranges of up to 250 km from the base station and provides: Real-time day and night reconnaissance.

ATE Vulture
Unmanned aerial vehicle South Africa-At least 4Acquired under Project Klooster.

ESR220 Thutlwa Mobile battery fire control post and early warning radar South Africa-4Designated as "Kameelperd". The system uses an L-band 2D surveillance radar to provide early warning to air defence artillery troops in the field.

Thales Squire radar system Battlefield surveillance radar France-14Acquired in 2012 under Project Cytoon. The radars are designed to plot a pedestrian at 10km, a vehicle at 21km, a tank at 28km, a helicopter at 21km, a boat at 12km and a ship at 48km.

Thales Sophie man-portable syste Thermal imager France-65Acquired in 2012 under Project Cytoon. The Thales Sophie can spot humans at over 4 km, tanks at 10 km, helicopters at 12 km and jet fighters at 16 km.

LOCATS No image availableLow cost aerial target systems South Africa-?The LOCATS is an unmanned aerial target used to train Air Defence Artillery crews in gunnery. It is launched from a ramp fitted on the back of a flatbed truck and is recovered by parachute.

Logistic and utility vehicles

NameImageTypeOriginVersionsNumberNotes

Gecko ATV Rapid Deployment Vehicle All-terrain utility vehicle Canada South Africa-100 in serviceUsed by the Parachute Regiment and Special Forces.

SAMIL 20 4×4 armoured military truck South Africa-Several thousandWill be replaced by a new generation set of military trucks in the near future under "Project Vistula".

SAMIL 50 4×4 armoured military truck South Africa-Several thousandWill be replaced by a new generation set of military trucks in the near future under "Project Vistula".

SAMIL 100 6×6 armoured military truck South Africa-Several thousandWill be replaced by a new generation set of military trucks in the near future under "Project Vistula".

Cavallo 8x8 heavy military logistics truck South AfricaSkimmelZebraKameelperdSeveral thousandDesignated as "Cavallo". Used as a cargo/vehicle transporter, also used to carry the SANDF's radar and air defence artillery equipment.

MAN 8x8 Trucks 8x8 heavy military logistics truck Germany

South Africa

-Several thousandPrimarily utilised as prime movers, firefighting vehicles and low-bed transporters.

8x8 heavy armoured military truck

Giraffe Logistics truck Italy-?Designated as "Giraffe". Used as a cargo/vehicle transporter.

Toyota Dyna Medium-duty truck Japan-?Designated as "Wildebees"

Scania transport busesPersonnel transport bus Sweden-?These buses are used to ferry personnel to and from bases.

Various cars and light trucks.No image availableLight armoured tactical vehicle United States United Kingdom Japan-?Various civilian utility vehicles are utilized by the army for light transport/patrol purposes (primarily Ford, Toyota and Land Rover vehicles).

Weapon systems

27mm revolver cannonMauser BK-27 Germany Primary gun for the JAS 39 Gripen.

Gunship cannonF2 20mm Cannon South Africa Rooivalk

Air to Air MissileA-Darter[ South Africa Brazil Mounted on Gripen C, Gripen D, Hawk 120

(Hawk integration in progress, not yet operational)

IRIS-T [ Germany Mounted on Gripen C, Gripen D

Cruise MissileMUPSOW[ South Africa In development for the airforce, not known if it entered service

TORGOS [99] South AfricaLong-range, precision-guided strike missile

Reconnaissance / Targeting PodLitening III targeting pod United States Gripen C, Gripen D

Vicon 18-601E FranceHawk Mk120

Digital Joint Reconnaissance Pod United Kingdom Gripen C, Gripen D

Argos 410-Z South Africa C208 Caravan, A109 LUH

Rocket LauncherType 159 Launcher South Africa Rooivalk

RocketFZ90 70mm FFAR Belgium Rooivalk

Laser-guided bombGBU-12 Paveway II United States Gripen C, Gripen D

Precision-guided bombUmbani PGM[100] South Africa Hawk Mk 120 (Integrated but not acquired)

Free-fall bomb120 kg Fragmentation Bomb South Africa Gripen C, Gripen D, Hawk Mk 120

120 kg Low-Drag Bomb South Africa Gripen C, Gripen D, Hawk Mk 120

145 kg Bomb South Africa Gripen C, Gripen D, Hawk Mk 120

460 kg Bomb South Africa Gripen C, Gripen D, Hawk Mk 120

12.5 kg Practice Bomb South Africa Hawk Mk 120

4.5 kg Practice Bomb South Africa Hawk Mk 120