Forklift


A forklift is a powered industrial truck used to lift and move materials over short distances. The forklift was developed in the early 20th century by various companies, including Clark, which made transmissions, and Yale & Towne Manufacturing, which made hoists. Since World War II, the use and development of the forklift truck have greatly expanded worldwide. Forklifts have become an indispensable piece of equipment in manufacturing and warehousing. In 2013, the top 20 manufacturers worldwide posted sales of $30.4 billion, with 944,405 machines sold.

History

The middle nineteenth century through the early 20th century saw the developments that led to today's modern forklifts. The forerunners of the modern forklift were manually powered hoists that were used to lift loads. In 1906, the Pennsylvania Railroad introduced battery powered platform trucks for moving luggage at their Altoona, Pennsylvania, train station. World War I saw the development of different types of material handling equipment in the United Kingdom by Ransomes, Sims & Jefferies of Ipswich. This was in part due to the labor shortages caused by the war. In 1917, Clark in the United States began developing and using powered tractor and powered lift tractors in their factories. In 1919, the Towmotor Company, and Yale & Towne Manufacturing in 1920, entered the lift truck market in the United States. Continuing development and expanded use of the forklift continued through the 1920s and 1930s. The introduction of hydraulic power and the development of the first electric power forklifts, along with the use of standardized pallets in the late 1930s, helped to increase the popularity of forklift trucks.
The start of World War II, like World War I before, spurred the use of forklift trucks in the war effort. Following the war, more efficient methods for storing products in warehouses were being implemented. Warehouses needed more maneuverable forklift trucks that could reach greater heights and new forklift models were made that filled this need. For example, in 1954, a British company named Lansing Bagnall, now part of KION Group, developed what was claimed to be the first narrow aisle electric reach truck. The development changed the design of warehouses leading to narrower aisles and higher load stacking that increased storage capability. During the 1950s and 1960s, operator safety became a concern due to the increasing lifting heights and capacities. Safety features such as load backrests and operator cages, called overhead guards, began to be added to forklifts produced in this era. In the late 1980s, ergonomic design began to be incorporated in new forklift designs to improve operator comfort, reduce injuries and increase productivity. During the 1990s, exhaust emissions from forklift operations began to be addressed which led to emission standards being implemented for forklift manufacturers in various countries. The introduction of AC power forklifts, along with fuel cell technology, are also refinements in continuing forklift development.

General operations

Forklifts are rated for loads at a specified maximum weight and a specified forward center of gravity. This information is located on a nameplate provided by the manufacturer, and loads must not exceed these specifications. In many jurisdictions, it is illegal to alter or remove the nameplate without the permission of the forklift manufacturer.
An important aspect of forklift operation is that it must have rear-wheel steering. While this increases maneuverability in tight cornering situations, it differs from a driver’s traditional experience with other wheeled vehicles. While steering, as there is no caster action, it is unnecessary to apply steering force to maintain a constant rate of turn.
Another critical characteristic of the forklift is its instability. The forklift and load must be considered a unit with a continually varying center of gravity with every movement of the load. A forklift must never negotiate a turn at speed with a raised load, where centrifugal and gravitational forces may combine to cause a disastrous tip-over accident. The forklift is designed with a load limit for the forks which is decreased with fork elevation and undercutting of the load. A loading plate for loading reference is usually located on the forklift. A forklift should not be used as a personnel lift without the fitting of specific safety equipment, such as a "cherry picker" or "cage".
Forklifts are a critical element of warehouses and distribution centers. It’s imperative that these structures be designed to accommodate their efficient and safe movement. In the case of Drive-In/Drive-Thru Racking, a forklift needs to travel inside a storage bay that is multiple pallet positions deep to place or retrieve a pallet. Often, forklift drivers are guided into the bay through guide rails on the floor and the pallet is placed on cantilevered arms or rails. These maneuvers require well-trained operators. Since every pallet requires the truck to enter the storage structure, damage is more common than with other types of storage. In designing a drive-in system, dimensions of the fork truck, including overall width and mast width, must be carefully considered.

Forklift control and capabilities

Forklift hydraulics are controlled either with levers directly manipulating the hydraulic valves or by electrically controlled actuators, using smaller "finger" levers for control. The latter allows forklift designers more freedom in ergonomic design.
Forklift trucks are available in many variations and load capacities. In a typical warehouse setting, most forklifts have load capacities between one and five tons. Larger machines, up to 50 tons lift capacity, are used for lifting heavier loads, including loaded shipping containers.
In addition to a control to raise and lower the forks, the operator can tilt the mast to compensate for a load's tendency to angle the blades toward the ground and risk slipping off the forks. Tilt also provides a limited ability to operate on non-level ground. Skilled forklift operators annually compete in obstacle and timed challenges at regional forklift rodeos.

Design types

Low lift truck

Powered pallet truck, usually electrically powered. Low lift trucks may be operated by a person seated on the machine, or by a person walking alongside, depending on the design.

Towing tractor">Electric tug">Towing tractor

May be internal combustion engine or electrically powered.

Stacker

Usually electrically powered. A stacker may be operated by a person seated on the machine, or by a person walking alongside, depending on the design.

Reach truck

Variant on a Rider Stacker forklift, designed for small aisles, usually Electrically Powered, named because the forks can extend to reach the load. There are two variants, moving carriage, which is common in North America, and moving mast which is common in the rest of the world, and generally regarded as safer

Counterbalanced forklift

Comes in Stand on End Control, Stand on Center Control, and Sit Down Center Control, which is the most numerous

Sideloader

Comes in Stand on End Control, and Sit Down End Control, which is the most numerous. It may be electrically powered, or have an internal combustion engine. Engines may be diesel, kerosene, gasoline, natural gas, butane, or propane fueled, and may be either two-stroke spark ignition, four stroke spark ignition, two-stroke compression ignition, and four-stroke compression ignition. North American Engines come with advanced emission control systems. Forklifts built in countries such as Iran or Russia will typically have no emission control systems. Some sideloaders have hybrid drivetrains.

[Telescopic handler]

Comes in Stand on Center Control, and Sit Down Center Control, which is the most numerous. Usually has an Internal Combustion Engine. Engines are almost always diesel, but sometimes operate on kerosene, and sometimes use propane injection as a power boost. Some old units are two-stroke compression ignition, most are four-stroke compression ignition. North American Engines come with advanced emission control systems. Forklifts built in countries like Iran or Russia will typically have no emission control systems. Some Telescopic handlers have Hybrid drivetrains.

Order picking truck

Similar to a reach truck, except the operator either rides in a cage welded to the fork carriage or walks alongside, dependent on design. If the operator is riding in the order picking truck, they wear a specially designed safety harness to prevent falls. A special toothed grab holds the pallet to the forks. The operator transfers the load onto the pallet one article at a time by hand. This is an efficient way of picking less-than-pallet-load shipments and is popular for use in large distribution centers. allowing the extension of the forks in tight aisles.

Articulated very narrow aisle counterbalanced trucks

Sometimes called "Flexi or Bendi Trucks" after two of the largest manufacturers. Comes in stand on center control, and sit down center control, which is the most numerous. May have an internal combustion engine or an electric motor. Electric motors are the most common. Engines may be diesel, kerosene, gasoline, natural gas, butane, or propane fueled, and may be either two-stroke spark ignition, four-stroke spark ignition, two-stroke compression ignition, and four-stroke compression ignition. North American engines come with advanced emission control systems. Forklifts built in countries such as Iran or Russia will typically have no emission control systems. Some units have hybrid drivetrains. Unlike standard counterbalance and reach forklifts, These forklifts are steered via the front swivel articulation of the forklift and are therefore much different to manoeuvre than regular forklifts and additionally have no pantograph feature for retrieving stock in narrow aisles.

Guided very narrow aisle truck

A counterbalance type Sit Down Rider Electric Forklift fitted with a specialized mast assembly. The mast is capable of rotating 90 degrees, and the forks can then advance like on a reach mechanism, to pick full pallets. Because the forklift does not have to turn, the aisles can be exceptionally narrow, and if wire guidance is fitted in the floor of the building the machine can almost work on its own. Masts on this type of machine tend to be very high. The higher the racking that can be installed, the higher the density the storage can reach. This sort of storage system is popular in cities where land prices are really high, as by building the racking up to three times higher than normal and using these machines, it is possible to stock an incredible amount of material in what appears to be a small space.

Guided very narrow aisle order picking truck

Counterbalance type Order Picking Truck similar to the guided very narrow aisle truck, except that the operator and the controls which operate the machine are in a cage welded to the mast. The operator wears a restraint system to protect him against falls. Otherwise the description is the same as guided very narrow aisle truck.

Truck-mounted forklift/sod loader

Comes in sit down center control. Usually has an internal combustion engine. Engines are almost always diesel, but sometimes operate on kerosene, and sometimes use propane injection as a power boost. Some old units are two-stroke compression ignition, most are four-stroke compression ignition. North American engines come with advanced emission control systems. Forklifts built in countries such as Iran or Russia will typically have no emission control systems.

Specialized trucks

At the other end of the spectrum from the counterbalanced forklift trucks are more 'high end' specialty trucks

Articulated counterbalance trucks

These are, unlike most lift trucks, front-wheel steer and are a hybrid VNA truck designed to be both able to offload trailers and place the load in narrow aisle racking. Increasingly these trucks are able to compete in terms of pallet storage density, lift heights and pallet throughput with guided very narrow aisle trucks, while also being capable of loading trucks, which VNA units are incapable of doing.

Guided very narrow aisle trucks

These are rail- or wire-guided and available with lift heights up to 40 feet non-top-tied and 98 feet top-tied. Two forms are available: 'man-down' and 'man-riser', where the operator elevates with the load for increased visibility or for multilevel 'break bulk' order picking. This type of truck, unlike articulated narrow aisle trucks, requires a high standard of floor flatness.

Marina forklifts

These lifts are found in places like marinas and boat storage facilities. Featuring tall masts, heavy counterweights, and special paint to resist seawater-induced corrosion, they are used lift boats in and out of storage racks. Once out, the forklift can place the boat into the water, as well as remove it when the boating activity is finished. Marina forklifts are unique among most other forklifts in that they feature a "negative lift" cylinder. This type of cylinder allows the forks to actually descend lower than ground level. Such a functionality is necessary, given that the ground upon which the forklift operates is higher than the water level below. Additionally, marina forklifts feature some of the longest forks available, with some up to 24 feet long. The forks are also typically coated in rubber to prevent damage to the hull of the boats that rest on them. Manufacturers of marina forklifts include Wiggins, Hoist, and Toyota.

Omnidirectional trucks

Omnidirectional technology can allow a forklift truck to move forward, diagonally and laterally, or in any direction on a surface. An omnidirectional wheel system is able to rotate the truck 360 degrees in its own footprint or strafe sideways without turning the truck cabin. One example is the Airtrax Sidewinder. This forklift truck has also made an appearance in the TV series called 'Mythbusters'.

UL 558 safety rated trucks

In North America, some internal combustion powered industrial vehicles carry Underwriters Laboratories ratings that are part of UL 558. Industrial trucks that are considered "safety" carry the designations GS for gasoline powered, DS for diesel powered, LPS for liquified propane or GS/LPS for a dual fuel gasoline/liquified propane powered truck.
UL 558 is a two-stage Safety Standard. The basic standard, which is G, D, LP, and G/LP is what Underwriter's Laboratories considers the bare minimum required for a lift truck. This is a voluntary standard, and there is no requirement in North America at least by any Government Agency for manufacturers to meet this standard.
The slightly more stringent GS, DS, LPS, and GP/LPS, or Safety standard does provide some minimal protection, however it is extremely minimal. In the past Underwriter's Laboratory offered specialty EX and DX safety certifications. If you require higher levels of protection you must contact your local Underwriter's Laboratory Office and ask them what the correct safety standard is for your workplace.

UL 583 safety rated trucks

is the Electric equivalent of UL 558. As with UL 558 it is a two-stage standard.

Explosion proof trucks

These are for operation in potentially explosive atmospheres found in chemical, petrochemical, pharmaceutical, food and drink, logistics or other industries handling flammable material. Commonly referred to as Pyroban trucks in Europe, they must meet the requirements of the ATEX 94/9/EC Directive if used in Zone 1, 2, 21 or 22 areas and be maintained accordingly.

U.S. Military 10K-AT "Adverse Terrain"

Automated forklift trucks

In order to decrease work wages, reduce operational cost and improve productivity, automated forklifts have also been developed.
Automated forklifts are also called forked automated guided vehicles and are already available from a growing number of suppliers.

Methods of propulsion

Internal combustion

Engines may be diesel, kerosene, gasoline, natural gas, butane, or propane fueled, and may be either two-stroke spark ignition, four stroke spark ignition, two-stroke compression ignition, and four-stroke compression ignition. North American Engines come with advanced emission control systems. Forklifts built in countries such as Iran or Russia will typically have no emission control systems.

Liquefied petroleum gas (LPG)">Liquefied petroleum gas">Liquefied petroleum gas (LPG)

These forklifts use an internal combustion engine modified to run on LPG. The fuel is often stored in a gas cylinder mounted to the rear of the truck. This allows for quick changing of the cylinder once the LPG runs out. LPG trucks are quieter than their diesel counterparts, while offering similar levels of performance.

Battery electric

Powered by lead-acid batteries or, increasingly, lithium-ion batteries, include: cushion tire forklifts, scissor lifts, order pickers, stackers, reach trucks and pallet jacks. Electric forklifts are primarily used indoors on flat, even surfaces. Batteries prevent the emission of harmful fumes and are recommended for indoor facilities, such as food-processing and healthcare sectors.

Hydrogen fuel cell">Fuel cell forklift">Hydrogen fuel cell

Fuel cell forklifts are powered by a chemical reaction between hydrogen and oxygen. The reaction is used to generate electricity which can then be stored in a battery and subsequently used to drive electric motors to power the forklift. This method of propulsion produces no local emissions, can be refueled in 3 minutes, and are often used in refrigerated warehouses as their performance is not degraded by lower temperatures.

Counterbalanced forklift components

A typical counterbalanced forklift contains the following components:
Below is a list of common forklift attachments:
Any attachment on a forklift will reduce its nominal load rating, which is computed with a stock fork carriage and forks. The actual load rating may be significantly lower.

Replacing or adding attachments

It is possible to replace an existing attachment or add one to a lift that doesn't already have one. Considerations include forklift type, capacity, carriage type, and number of hydraulic functions. As mentioned in the preceding section, replacing or adding an attachment may reduce the safe lifting capacity of the forklift truck.
Forklift attachment manufacturers offer online calculators to estimate the safe lifting capacity when using a particular attachment. However, only the forklift truck manufacturer can give accurate lifting capacities. Before installing any attachment contact your local authorized dealer of your forklift brand and ask them to begin re-rating your lift according to the attachment you want to install. Once re-rated the forklift should have a new factory authorized specification plate, to replace the original plate, installed showing the new rating for the lift.
In the context of attachment, a hydraulic function consists of a valve on the forklift with a lever near the operator that provides two passages of pressurized hydraulic oil to power the attachment features. Sometimes an attachment has more features than your forklift has hydraulic functions and one or more need to be added. There are many ways of adding hydraulic functions. The forklift manufacturer makes valves and hose routing accessories, but the parts and labor to install can be prohibitively expensive. Other ways include adding a solenoid valve in conjunction with a hose or cable reel that diverts oil flow from an existing function. However, hose and cable reels can block the operator's view and are problematic, easily damaged.

Lift truck associations and organizations

There are many national as well as continental associations related to the industrial truck industry. Some of the major organizations are listed as:
There are many significant contacts among these organizations and they have established joint statistical and engineering programs. One program is the World Industrial Trucks Statistics which is published every month to the association memberships. The statistics are separated by area, country and class of machine. While the statistics are generic and do not count production from most of the smaller manufacturers, the information is significant for its depth. These contacts have brought to a common definition of a Class System to which all the major manufacturers adhere.

Forklift safety

Standards

Forklift safety is subject to a variety of standards worldwide. The most important standard is the ANSI B56—of which stewardship has now been passed from the American National Standards Institute to the Industrial Truck Standards Development Foundation after multi-year negotiations. ITSDF is a non-profit organization whose only purpose is the promulgation and modernization of the B56 standard.
Other forklift safety standards have been implemented in the United States by the Occupational Safety and Health Administration and in the United Kingdom by the Health and Safety Executive.

Driver safety

In many countries, forklift truck operators must be trained and certified to operate forklift trucks. Certification may be required for each individual class of lift that an operator would use.
Forklift training has many names, such as forklift licensing or forklift certification. Whichever term is used, training must adhere to federal or national standards.
Health care providers do not recommend that workers who drive or use heavy equipment such as forklifts treat chronic or acute pain with opioids.

Forklift training in the United States

In the United States, workplace forklift training is governed federally by OSHA the Occupational Safety and Health Administration. In 1999, OSHA updated its 29 CFR 1910.178 regulations governing "Powered Industrial Trucks" A major component of these regulations deals with forklift operator training. The standard requires employers to develop and implement a training program based on the general principles of safe truck operation, the types of vehicle being used in the workplace, the hazards of the workplace created by the use of the vehicle, and the general safety requirements of the OSHA standard. OSHA believes that trained operators must know how to do the job properly and do it safely as demonstrated by workplace evaluation. Formal and practical training must be provided. Employers must also certify that each operator has received the training and evaluate each operator at least once every three years. Prior to operating the truck in the workplace, the employer must evaluate the operator's performance and determine the operator to be competent to operate a powered industrial truck safely. Refresher training is needed whenever an operator demonstrates a deficiency in the safe operation of the truck.

Forklift training in the United Kingdom

In the UK, the Provision and Use of Work Equipment Regulations state that operators of forklift trucks must be adequately trained, the general standards of that training and good operating practice are found in the HSE Code of Practice 117 issued in 2013. Third party organisations have developed de facto 'best practice' standards for forklift training, commonly referred to in the UK as a 'forklift licence', these are no longer recognised as proof of training as defined in the COP 117 and as such training is not a legal requirement as is commonly believed. Organised training however helps to demonstrate that an employer has taken steps to ensure its 'duty of care' in the unfortunate event of an accident.
In the UK, forklift training is carried out by a number of different voluntary standard training organisations, They can be directly recognised by the HSE who have formed a new organisation known as "Accrediting Body Association Work place transport 2012". In all cases qualified forklift instructors must be registered with at least one of the voluntary training organisations. Although RTITB operators are registered on a database which has to be a 3 yearly basis, the amount of time determined between refresher courses is subject to the H&S Executive, Insurance companies or company policies. The H&S Executive does recommend re-training/testing every 3 to 5 years.
Forklift instructors throughout the UK tend to operate either as small independent training companies or as a part of a larger training provider. Training is delivered in one of two ways; on-site where training is delivered to a clients' premises making use of their own equipment, or off-site at a training centre. Training centres offer the opportunity for the unemployed with little or no forklift operating experience to achieve a certificate of competence and increase their employment opportunities. Training certification standards at schools tends to follow closely the standard required by their individual Training Standards Accrediting Body to which they are affiliated. It is not unusual for a Training school to be registered with one or more body at any one time.
The British Industrial Truck Association categorises the different forklift truck types into groups and assigned a unique identifier to each classification. Known as the ‘BITA List’ it has become accepted as a standard in the UK. Forklift training certificates display the appropriate BITA classification to clearly identify the confines of the certification.

Forklift training in Australia

Prior to 2011 all States and Territories of Australia independently regulated occupational health and safety in that state, including forklift licensing.
Whilst the Occupational Health and Safety laws of the different states were based on similar underlying principles there were differences between the various jurisdictions in the detail and application of those Occupational Health and Safety laws.
In 2008 the Inter-Governmental Agreement for Regulatory and Operational Reform in Occupational Health and Safety was formed between the Commonwealth of Australia and the six states and two territories of Australia to formalize cooperation between these jurisdictions on the harmonization of Occupational Health and Safety legislation.
As a result, the national Model Work Health and Safety Act was enacted following a review of work health and safety laws across Australia; said review involved significant public consultations effort. This act was finalized in June 2011.
This act formed a framework for the individual jurisdictions to enact supporting legislation, as the individual jurisdictions are tasked with managing State and Territory Occupational Health and Safety laws, including the issue of licences coming under the legislation.
Each individual state and territory issue licences in their own jurisdiction, including what is known as "high-risk work licences" for high-risk work. Forklift licences are classed as "high-risk work licences".
To obtain a forklift licence in any State or Territory an applicant must undertake a training course with an approved training organisation and then, on completion of the course, apply to the appropriate State or Territory for a forklift licence. The unit of competence is known as the National High Risk Licence Unit of Competence TLILIC2001 – Licence to Operate a Forklift Truck, or in the case of an LO licence Unit of Competence TLILIC2002 – Licence to Operate an Order Picking Forklift Truck. There is a fee attached which varies from jurisdiction to jurisdiction.
Forklift licences issued in one jurisdiction are recognized in all. Licence cancellation in one jurisdiction is also recognized in all.

Forklift training in New Zealand

Forklift operator training is divided into two types:
The operator's certificate is based on the Approved Code of Practice for Training Operators and Instructors of Powered Industrial Lift Trucks published in 1995 by the then Department of Labour. It gives permission for operators to operate a forklift in an enclosed space.
To use a forklift on a public road, the operator must obtain a forklift endorsement on their driver licence. Operators with a class 1 licence and an F endorsement may only operate forklifts up to 18,000 kg gross laden weight, while those holding a class 2 licence and an F endorsement can operate a forklift of any gross laden weight.
The ACOP is a set of best practices, guidelines and recommendations for training a forklift operator. However, training can be tailored to the operator's specific needs and the attachments they use, as required under the Health and Safety at Work Act 2015.
Training consists of a theory session delivered in-person or online followed by a brief practical assessment of 15–20 minutes. If the ACOP guidelines are followed this consists of a stacking and destacking pallets at low, medium and high levels, as well as driving forwards and in reverse around a coned figure-of-eight while carrying a load.

Unit standards

Unit standards are available for forklift training but are not required. The primary unit standard is US10851.

Attachments

The ACOP deals specifically with a forklift operator using only the standard forks. Forklift attachments, such as barrel clamps, fork extensions, rotators and personnel cages are covered under a separate unit standard. It is not mandatory to achieve a unit standard; a company can simply induct the operator on the attachments used.

Safety Products

A number of solutions can be found on the market today to reduce occupational hazards caused by forklifts.

Pedestrian Detection Systems

These are proximity sensors that detect objects and pedestrians from a few centimeters to several meters. The sensor makes the difference between a person and an object and alerts the driver without useless alarms.
Based on stereovision, an algorithm analyses on real time if a person is in a blind zone of the forklift.

Ultrasound Radars

Ultrasonic sensors are proximity sensors that detect objects at distances ranging from a few centimeters to several meters. The sensor beeps and measures the time it takes for the signal to return. It does not discriminate between people and objects. Any obstacle located behind the truck will be detected. Normally, this type of sensor is used only for detection in rear areas.

RF Systems

These are solutions that alert forklift drivers of the people found in its vicinity. Pedestrians must carry a radio frequency device which, emit a signal when a truck detects them, alerting the driver of the potential risk of an accident. It detects both in the front and at the back and it differentiates between people and the usual obstacles found in warehouses. For this reason, the driver is only alerted when there is a pedestrian near the truck.
There are different solutions on the market:
Every year Modern Materials publishes a Top 20 Global Ranking of Forklift Manufacturers by sales in dollars. A modified copy of the report is below in a sortable table.
RankCompany Name2013 Rank2014 RevenueNorth American BrandsWorld HeadquartersCountry
1Toyota Industries1$7,712,000,000Toyota, BT, RaymondAichiJapan
2KION Group2$5,314,000,000VOLTAS, Linde, STILL, OM, BaoliWiesbadenGermany
3Jungheinrich Lift Truck Corp.3$3,033,000,000JungheinrichHamburgGermany
4Hyster-Yale Material Handling4$2,767,000,000Hyster, Yale, UTILEVCleveland, OhioUSA
5Crown Equipment Corporation5$2,500,000,000Crown, HamechNew Bremen, OhioUSA
6Mitsubishi Caterpillar Forklift America6$2,159,000,000Mitsubishi, CATSagamiharaJapan
77$1,533,000,000Nissan, Barrett, Atlet, TCM, TokyoJapan
8Anhui Forklift Group8$1,123,000,000HeliHefei, AnhuiChina
9Zhejiang Hangcha Engineering Machinery Co.9$971,000,000HCHangzhouChina
10Komatsu Utility Co.10$900,000,000Komatsu, TuskTokyoJapan
11Clark Material Handling Company11$741,000,000ClarkSeoulSouth Korea
12Doosan Infracore12$683,000,000DoosanSeoulSouth Korea
13Hyundai Heavy Industries13$477,000,000HyundaiUlsanSouth Korea
14Lonking Forklift Company, Ltd14$190,000,000LonkingShanghaiChina
14Combilift16$190,000,000CombiliftMonaghanIreland
16Tailift15$181,000,000Tailift, WorldliftTaichungTaiwan
17Hubtex17$108,000,000HubtexFuldaGermany
18Hytsu18$82,000,000HytsuShanghaiChina
19Godrej & Boyce Manufacturing19$76,000,000Not available in N.A.MumbaiIndia
20Paletrans Equipment20$69,000,000PaletransCravinhosBrazil