Heavy equipment machinery

Forklift - or a lift truck as it is sometimes called - is a machine that is capable of lifting heavy objects and transporting them to different locations. There are several important characteristics that each forklift possesses. First of all, most of the forklift trucks (if not all) will use the rear wheel steering. That means the forklift uses rear wheels to make a turn. This gives the forklift operator more vehicle control (especially important when lifting something with the forks). You should be able to become comfortable with rear wheel steering during your forklift training. The operator of the forklift will be able to make turns in a very tight circle.

Another important characteristic is the fact that a forklift will usually weigh more than a regular car. Depending on a type of forklift it can even be heavier that a truck. This heavy weight is necessary to allow the forklift to lift heavy objects while providing the necessary stability and control. Also the weight is necessary to provide stability when the lifted objects are moved from one place to another. Another reason for the extra weight is the fact that forklift trucks often have a short width, many times fewer than 4 - 5 feet. The weight of the forklift will determine the maximum weight of the load it can lift.
Another thing to mention about forklift trucks is that they are very powerful? You should be very careful when you are driving the forklift or lifting some object. There are many different forklift types produced by many manufacturers like Toyota, Mitsubishi and Clark. Each of these forklift trucks will have its own specific benefits. For example, many Toyota forklift trucks offer the Active Control Rear Stabilizer for extra side stability and System of Active Stability for electronically monitoring of forklift functioning and operations. Other electronic equipment is usually installed on different forklift models.

Purchasing industrial trucks and equipment may be a difficult task unless you are a well informed buyer. It’s very easy to over spend and purchase a forklift that has characteristics you will never get to use. Today’s top 5 forklift manufacturers are the Toyota Industries Corporation, KION Group, Jungheinrich, NACCO Industries, Inc. and Mitsubishi Heavy Industries, so chances are you will be in the market for one of their products. Here is a look at forklift prices, characteristics and design types that should help you get a clear idea of what kind of forklift will work best for you:

Forklift and industrial truck options

There are several types of industrial machines and forklifts, generally categorized under the following machine types: * Hand pallet truck * Walkie low lift truck * Rider low lift truck * Towing tractor * Walkie stacker * Rider stacker * Reach truck * Electric counterbalanced truck * IC counterbalanced truck * Telescopic handler * Slip Sheet machine * Walkie Order Picking truck * Rider Order Picking truck * Very narrow aisle truck The cost of the forklift

Once you have decide on the general category into which your desired forklift is found, make sure to shop around before making a purchase. Try to visit a minimum of two or three retailers to be able to get good price comparisons. Also make sure to ask what the full cost will be for the forklift. For example, an internal combustion forklift may start at a price of around $15,000, but depending on what accessories you choose, warranty levels and manufacturer’s brand you can end up paying a lot more than that. Electric forklifts are usually sold in the $20,000 price range, however, you will need to spend a few thousand dollars extra on batteries and battery chargers. If you need a heavy duty forklift - over 35,000 lb - you can expect prices to be in the $100,000 range.

New forklifts too expensive? Try a used one A used 5,000 pound forklifts can be bought for about $10,000, more if it is in excellent condition. Of course, the risks of purchasing used forklifts are also proportionally higher. Make sure to determine your hourly operating costs before purchasing a used forklift. If you plan to use the forklift on a daily basis for 4-6 hours, you may loose more money due to maintenance and breakdowns than if you bought it new. Other elements you should look at when determining the hourly operating costs include the extra supplies and the fuel cost, plus the wage of the forklift operator. Leasing forklifts is yet another option, many investors preferring to lease equipment because they get full warranty for the duration of the lease. For complete information on purchasing new or used forklifts, please see the links below:

The Smart Stacker obtainable from Spacepac Industries is a lifting unit that helps to stack items efficiently and effortlessly.

The battery powered hydraulics do all the hard work for the user. With large diameter rear steering wheels and extra heavy duty front wheels, the Smart Stacker is really easy to move and steer. Self-propelled models are also available from Spacepac.

For ergonomic reasons, the Smart Stacker has an optional adjustable infra-red height sensor option, which keeps the user working at the right level. There is no need for the user to bend or lift, while loading or unloading pallets. Simply dial in working level and the Smart Stacker will do the rest just automatically. The amazing auto-detect working height feature greatly reduces the risk of the user injuring his back during the loading process.

Straddle measurements, taken from inside is 1,450mm, and measures 120mm more together with the legs. Standard fork length is 900mm and the width over forks is 610mm. The unit weight is approximately 250kg.

The ranges of Smart Stackers available have lifting height of up to 2.4m, up to 2.5 tonne weight capacity. The stackers can be pushed or self propelled, has optional built-in digital scales and many other features.

Accessories for this lifting equipment include time delay function on sensor for fixed or adjustable delays. The built-in digital scales give the weight of the item to within 1% accuracy.

The Smart Stacker may be fully hot-dipped galvanised or has turning front wheels to allow sideways movement with long loads. Spacepac also offers non-standard forks, outriggers or wheels on special request.

http://www.ferret.com.au/articles/z1/view.asp?id=1296

Toyota Material Handling  has launched a new range of forklift trucks, with increased safety and ergonomics, reduced operating costs and greater environmental friendliness. Toyota’s new range of 8-series 1-3.5 tonne internal combustion counterbalance forklifts represents the result of eight years worth of intense customer research and a multi-million dollar investment in R & D. Replacing Toyota’s highly successful 7-series forklift range in the same capacities, Toyota’s 8-series range will initially include 23 pneumatic-tyre internal-combustion models from one to three tonnes payload, including petrol/ LPG and diesel models, with the choice of manual and Powershift transmission, and compact models. Toyota’s objective in the production of its new 8-series forklift were to further build on its success in the materials handling industry, and focus specifically on four key areas: forklift safety, superior ergonomics, reduced life cycle costs, and a focus on the environment. Other major objectives of Toyota’s new 8-series forklift range include increased quality, durability and reliability, with 420 quality improvements made from the previous 7-series model. According to Toyota Material Handling, development of the 8-series began with initially identifying any past quality issues and then solving those issues. The results led Toyota to conclude that the method for satisfying customer needs was to investigate the essence of what makes a good forklift by basing its design on the 7-series and by further infusing Toyota’s strengths into that design. According to Toyota Industrial Equipment, within Australia, the 8-series design and development team interviewed some 4500 customers worldwide to obtain feedback on the current industry-leading 7-series range. Teams of engineers came to Australia on several occasions to meet with local customers, operators, and dealers. The advancements in the 8-series reflect Toyota’s kaisen philosophy of continual improvement and the fact that Toyota has by far a large research and development budget in the materials handling industry. The engineers’ charter for this new range was to raise QDR (quality, durability and reliability) levels from their already high benchmark, a bold aim given the 7-series’ proven record for QDR. Outstanding product quality is the key to Toyota’s success not just in forklifts, but across its entire product range, Toyota has one of the world’s strict quality control standards. The Toyota 8-series improvements over the superseded version begin with its increased ease of use. The 8-series has a smaller steering wheel, lower step height, increased seat fore/aft travel, increased head clearance, increased ease of entry and exit, reduced noise levels at the operator’s ears and reduced vibration. Toyota has paid special attention to increasing the operator’s range of visibility, by redesigning the instrument panel, steering wheel, mast, load backrest beam, mast tilt beam and cabin roof. Seat slide adjustment range has been increased by 30mm to 150mm. In addition, Toyota is offering a range of options to increase ease of operation. Machines that spend a high proportion of time running in reverse can be specified with a swivel operator’s seat, and a hand grip with integral horn button on the rear right hand side post of the overhead guard. Toyota is also offering the option of cowling mounted levers, mini levers, or joystick load handling levers. There are QDR improvements throughout the new 8-series machines. Toyota has thought of the little things as well as the big ticket items. For example, the 8-series machines have improved cooling performance for the engine and hydraulic oil, water-proof connectors for the electric wiring harness, and a protective box to house the machine electronic control unit and relays. These machines also have fewer cosmetic parts, seamless side frames and increased corrosion protection. Serviceability has been improved by fitting a two-piece floorboard for greater ease of daily inspections, increasing the engine-hood opening angle and redesigning the hood damper, headlights and distributor. The new LCD-type instrument panel includes an engine coolant temperature gauge. The petrol, LPG and diesel engines, and the clutch on manual-transmission models, have a range of new features aimed at improving serviceability and reliability, as well as reducing noise and emissions. Mast durability, strength and visibility have all been improved, through careful attention to the material strength, welding methods, positioning of the cross members and gussets, and the mounting to the front axle. Safety features of the Toyota 8-series range include Toyota’s System of Active Stability (SAS) and Operator Presence Sensing (OPS) as standard equipment. SAS was a world-first innovation, when it was launched with the 7-series forklifts in 1998, and one of the main reasons, why Toyota has sold over 20,000 7-Series in Australia since it was launched. The concepts used for SAS are similar to Vehicle Stability Control used in automotive products. It assists the operator in maintaining the forklift within its stable range, and may assist in preventing forklift tip-over accidents and split loads. With the 8-series, Toyota has taken the SAS concepts a step further and introduced optional features such as travel and load handling control with the SAS. Toyota also has OPS on its 8-series forklifts, designed to prevent accidental movement of the forklift when the operator is not seated at the controls. This is an important feature from Toyota that provides an even greater level of safety for the forklift operator and also for those in the vicinity. In addition to these important safety features, Toyota is offering optional extensions, so customers can tailor machines to the application and worksite. The options include load and height-sensing, to determine how quickly the machine can accelerate and restrict hydraulic lift speed to ensure stability. Customers can also specify a factory fitted machine-speed controller.

http://www.ferret.com.au/articles/z1/view.asp?id=2111

One percent of factory accidents involve forklift trucks, but the forklift accidents produce ten percent of the physical injuries.(1) Forklift accidents are usually blamed on operator errors. After each accident, we hold a training session for the driver. However, as many as 25 percent of these accidents are caused not by the driver but by controllable environmental factors. We can eliminate hazards and design a safe operating environment only when we understand the real cause of forklift incidents.

Ten lift truck accidents previously blamed on operator error were investigated as part of a safety curriculum project. The project attempted to determine the adequacy of standard forklift training courses. Each accident was serious and had produced an injury. The environmental design aspects found in these accidents are discussed here.

The Black accident
John Black worked in a factory where he made coffee cans. He worked at the same factory for eight years and knew the plant routine. On Friday morning, on his way to the storeroom, he stopped to talk to the woman who ran the palatizer.

Suddenly, a forklift truck struck him from behind. The collision broke Black’s hip. An insurance investigation determined that the forklift driver was not watching where he was going. The report criticized Black for not paying attention.

There was a history of forklift accidents in the canning plant - each reportedly caused by operator error. The second investigation showed other contributing causes:

1. The warehouse was dark. Light readings measured 5 candlepower - far under the acceptable level for general operations.
2. The plant was noisy. The sound level measured 100 decibels. OSHA Inspectors cited the company for noise violations twice. Sixty percent of the employees suffered hearing loss. John Black suffered a loss of 30 percent of his hearing capacity during eight years of employment.
3. No pedestrian routes or protective islands existed.
4. Vehicles traveled through the factory too fast. A radar gun measured the average speed through the area where the accident occurred. The average truck passed the accident location at eight miles per hour. Production line speed pushed forklift speed.
5. The forklift did not have an automatic back alarm.

Measurements were made to establish the operator’s point of first possible reaction and the stopping distance of the vehicle. Computations showed that the operator could not have responded in time to prevent the accident. An automatic backup alarm was essential.

Speed Limits
Regulating the speed limit of an industrial truck is an important part of the environmental design of the workplace. A forklift truck moving through a warehouse had tremendous momentum. Momentum is the mass of an object multiplied by its velocity. Mathematically, momentum is Weight x Speed x 1.5.

A 5,000-pound forklift moving through a warehouse at ten miles per hour with a 4,000-pound load has a potential destructive force of 135,000-foot pounds of energy. A loaded forklift travels through a warehouse with the force of a Cadillac Eldorado driving 20 mph.

A lift truck cannot stop in an instant. G. E. Lovested(10) showed that it takes about 1.3 feet for each mile per hour for a panic stop. It takes 0.75 second for the operator to become aware of the existence of a hazard and another full second for the mechanical parts of the vehicle to respond.(2)

A forklift truck moving at ten miles per hour may take 40 feet to stop.* Theoretically, the operator should allow 40 feet between the truck and a person on foot. Since this is not practical, we reduce forklift speeds and establish operating rules.

Lovested says that the maximum speed limit allowable by a forklift truck is eight miles per hour. In areas where pedestrians are present, speed limits should not exceed three miles per hour. Radar measurements of forklift speeds in factories show Lovested’s suggested speeds are appropriate. All speed limits and other traffic advisories should be posted.

The Lighting
As we reach age forty, our eyes go through predictable changes. The lens becomes progressively opaque and the muscles which control the focus of the lens weaken. The condition continues to degenerate until about age sixty when our eyes reach a more or less permanent state of vision. The change is gradual. We seldom recognize the loss of sensitivity.

It requires six times as much light for a man sixty years old to discriminate objects in dim light as it takes for a twenty-year-old man.(3) The effect on the worker is predictable. As we lose our ability to discriminate objects in dim settings, we become more sensitive to glare. A forklift driver may have too little depth perception in a dark warehouse. He may not see a fellow employee in time to respond.

We measure light in footcandle units and in lumens per square foot. We use a high-quality color-corrected photographic light meter for measurements. OSHA established a minimum standard for lighting in areas where forklifts operate. (4) If the light level in an area is below 2 lumens per square foot, the truck must use auxiliary lights.

Forklift trucks normally carry their load in reverse, making auxiliary lighting a complex task. Two lumens per square foot equals 2 footcandles. The light in a warehouse measuring 2 candlepower is seriously substandard. All safety codes recommend a minimum light level of 20 footcandles in warehouses.(5) This level of illumination should be adequate for older workers.

Warning Devices
All forklift trucks must have a horn. The driver must monitor the direction of travel and use the horn to warn pedestrians who may be in his blind spots. A blind spot is by definition any place in the direction of travel which the driver cannot see without special effort.

The property use of the horn is an important part of the facility design. Some employers require the driver to honk as he begins to move; others isolate pedestrian hazard points at which to use the horn.

It is important to discover all environmental blind spots in the driver’s path and evaluate the risk of each. A walk-through of the area reconstructing the field of view of the driver is necessary. You can then follow these simple steps.

1. When approaching an aisle, determine at what point the driver can first see an approaching pedestrian.
2. Next, determine the point at which he is likely to see the pedestrian.
3. Compute the desired speed in the area in feet per second. Multiply the measured speed by 1.5 (You may use 3 mph as a standard speed limit.)
4. Multiply the speed, measured in feet per second, by 1.75. This will provide a measure of the mechanical delay of the driver and the vehicle.
5. Add 1.3 feet for each mile per hour of your established speed limit.

If the speed, plus the mechanical reaction delay, plus braking distance is less than the point of the first likely perception, you do not have a blind spot. If the computed stopping distance is longer than the point of first likely perception, a workplace design modification is necessary. You may lower the speed limit, or require the driver to honk as he approaches the intersection.

Employers should not rely exclusively on the horn as a warning device. The nature of a forklift requires the driver to divide his attention. He carries his load while driving in reverse. He must simultaneously monitor the balance of his load at the back of the truck and watch the direction of travel. He drives with his left hand on the steering wheel and his right hand on the load control. He must monitor his blind spots. When he uses the horn, he automatically gives up some control.

The complexity of a driver’s tasks makes the use of an automatic backup alarm system mandatory.(6) The choice is not whether to use an automatic alarm, but which alarm to use. Factory representatives normally advise the user which alarm to install. If the facility is noisy, a flashing light may be best, otherwise an audible horn is adequate.

The Harris accident(7)
Any drove a forklift at a South Florida tamale factory. One routine job involved unloading and storing cardboard containers delivered by truck from another state. Each bale of cardboard weighed 700 pounds and the bales were stacked double. As Andy attempted to take a stack off a truck, the top bail slid off and into Don Harris, the truck driver. The accident hurt Harris seriously.

In the civil suit which followed, Andy testified that he had no driver’s license. The courts had suspended his license twice for drunk driving. He had no forklift training. A previous employer offered to send him to a forklift program. He refused to attend because the employer required him to pay for his own training.

Andy stated that he had not tipped the load to stabilize it before beginning to move. He claimed there was not room at the top of the truck. Andy admitted that he had previously dropped loads off his forklift and blamed the accidents on the driving surface. He said that he handling of the forklift truck was very unstable. He used his stands to describe the motion of the truck - it floated. An accident investigator determined that Andy was at fault and the employer fired him.

An employer should not trust the operation of a forklift to an employee with a bad driving record. A National Safety Council report recommends that an employer check driving records annually. It recommends an annual physical examination.(8) No operation should drive a forklift without training. There was no excuse, however, for the investigator to fail to check Andy’s story.

The second investigation found a number of contributing causes:

1. The surface of the parking lot was defective. It was so bad that it was a clear violation of OSHA regulations. A thin layer of asphalt laid on a bed of sand served as a working surface.
2. The top bale sat four inches from the top of the truck. There was no room to top the load back before moving. There was no way to remove the load safely with a forklift.
3. The owners carelessly altered the ballast of the truck with the wrong replacement parts. The forklift battery was 600 pounds too light for the vehicle.
4. The forklift had solid tires. Solid tire forklift trucks are for use on smooth concrete floors.

The design of the job was unsafe.

The Working Surface
A forklift truck must operate on a smooth level surface. It is not possible to conceive of a working surface more inadequate than the one in the Harris accident. A thin layer of asphalt lay on a sand base. On a hot August afternoon, the 9,000-pound load sank into the surface leaving voids.

Tires
Many forklift trucks use hard rubber tires designed for concrete surfaces. Hard tire forklifts are inside trucks. They have no suspension, and the solid tires have no air cushion to absorb the shock from a defect in the working surface. if used on a rough surface, a hard tire truck will handle erratically.

If you use a solid tire forklift outside, the surface must be perfect and capable of supporting the load. If you use the forklift truck outside regularly, use a pneumatic tire forklift. the pneumatic tire spreads the load over a larger surface footprint and helps absorb the shock.

Forklift Ballast
Forklift trucks are like seesaws. The vehicle is safe when both ends of the seesaw are in balance. If the load is too heavy or if the ballast is too small the forklift truck will tip toward the heavy side. The seesaw analogy works to a point, but it is too simple.

Both steering and lateral stability are affected by the ballast of the truck. Any change in the ballast will alter vehicle stability in four directions and will make steering unpredictable. Sometimes the change in ballast causes the vehicle to understeer.

In other situations, a change in ballast will cause it to oversteer. Thus OSHA regulations forbid the alteration of the ballast and require the use of exact replacement parts.(9) All modifications require the written approval of the manufacturer.

Many modifications to the ballast are unintentional. The installation of a taller or heavier mast, for example, alters the balance of the forklift. Some operators add ballast to the back of the truck to increase its lifting capacity. This practice is always dangerous.

Users of electric forklifts face a specific temptation. They sometimes use lighter replacement batteries because they are cheap. Electric batteries often weight several thousand pounds and cost thousands of dollars. By installing a smaller battery, the user can save hundreds of dollars.

Operators often know that they are reducing the lifting capacity of the truck, but do not understand the danger. Their misunderstanding is often reinforced by battery dealers anxious to make a sale. A prudent buyer will get all dealer representations about replacement batteries in writing.

Other accident patterns
A number of other accidents demonstrated environmental and design defects.

Aisle Width
Tim worked in a meat packing plant. He stacked 600-pound boxes of beef on shelves in the freezer. Tim lost a finger when he caught it between the forklift truck and a metal shelf. This is the eighth most common forklift accident.

Two contributing causes were found. First, there was insufficient space between the forklift and the side of the shelves. There were no more than four inches on each side for maneuverability. Second, the floor of the freezer was very icy. A design defect in the cooling system caused the floor to ice up. If the load was uneven when placed on the shelf, the forklift would slide to the side.

Traffic Control Signs
Eric drove off the dock of a school board warehouse. An inspection of the dock showed that it is very narrow. In addition, the edge of the dock was difficult to see. Forklifts were not required to stop before entering the dock area.

As the driver approached the ramp in the later afternoon, he faced the sun. His eyes had not time to adjust from the relatively dark warehouse to the relatively bright dock. A stop sign at the entry to the ramp will give the driver’s eyes time to adjust to the intense light. Painting the edge of the dock with high visibility yellow will help the driver’s depth perception. Two environmental modifications may prevent future accidents.

Pedestrian Islands
A number of pedestrians were hit by forklifts when they appeared suddenly in unexpected places. We carefully segregate automobiles and pedestrians in parking lots, but we forget to mark traffic patterns in the warehouses.

Any area where pedestrians and vehicles interact needs markings to show traffic patterns for pedestrians and vehicles. If a warehouse is large enough, mark stock storage areas, traffic areas, and pedestrian routes on the floor.

Summary
Ten forklift truck accidents were investigated as part of a curriculum development project. Each was selected randomly from serious accidents previously blamed on driver error. The accidents represented a broad range of accident types. In some the forklift had driven into a pedestrian. In others, the forklift dropped its load on a pedestrian. Usually, a number of contributing causes were discovered. The study showed that many accidents are preventable by controlling facility design. Facility design caused three of the ten accidents investigated.

Safety literature shows that the two leading causes of forklift accidents are (1) workers struck by the forklift, and (2) having the load dropped or shoved onto another employee. Other causes include the driver catching part of his body between the truck and other objects, or driving off the loading dock.(10) This investigation concluded that patterns of forklift accidents remained unchanged. Most accident causes are discussed in existing forklift training courses, but little guidance exists to train employers about environmental design.

OSHA requires the development of safe operating rules.(11) An employer can provide a safe environment by following simple steps. Post speed limits. Calculate and lay out the facility based upon vehicle and pedestrian movement patterns. Provide pedestrian zones to isolate the hazard. Install mirrors to give the forklift driver additional time to react. The operating surface must be smooth and unobstructed and the forklift must be selected for its expected use.

http://www.safety-engineer.com/forklift.shtml

When purchasing a used forklift truck carefully look at maintenance records, give the vehicle a thorough inspection, and a test drive. The article features an in-depth inspection checklist.

Purchasing powered industrial trucks does not have to be a monumental capital expenditure. In certain material handling situations, a used forklift truck makes fiscal sense.

Consider buying a used forklift if:

• The truck will be used only for a single shift.

• The forklift will be used for no more than five hours a day.

• The forklift will work no more than five days per week.

• The operation is not a high-throughput, nonstop type.

What to Look For

If one or more of these criteria fit your company’s situation and you decide to purchase a used forklift, you need to know how to spot used equipment with a troubled past. Here are four tips to help you select a used forklift truck that will add to your bottom line instead of draining it.

1. Availability. The principal sources of used forklift trucks are other end users and dealers (either trade-ins, former rental fleet units, or lease retirements).

In general, a used rental truck is often the better buy, because owners of new engine-powered forklifts run them, on average, for seven years before trading them in. Electric-powered forklifts usually are kept for eight to 10 years.

Typically, both types are operated for 1,500 hours per year in single-shift operations. Over the past five years, availability of retired trucks that were leased three to five years has increased. This means companies have more low-hour machines to choose from. In addition, a short-term-rental forklift truck accumulates about 1,000 hours of use per year and usually is replaced every three to five years. However, this lower use level carries a higher price. Rental forklifts and lease-retired forklift trucks usually sell for 10 to 15 percent more than other used forklift trucks.

2. Maintenance. When you find a likely candidate, be sure to evaluate its condition. Consider how well it has been maintained. Ask to review the forklift’s maintenance records, if they are available. If maintenance records are not available, make sure a thorough mechanical inspection is performed prior to purchasing the vehicle.

3. Inspection. Now it is time for a hands-on examination. Make sure a mechanic comes along to give the prospective investment a thorough evaluation.

Start by checking mast operation, both without a load and with the forklift’s full rated load. Only a qualified operator should do this inspection. Look for smooth operation and lack of binding. Tilt the mast forward and back fully to see if there’s excessive play (3/8 in. or more) between the mast channels, as well as between the carriage and the mast. Also check for excessive side carriage play. If the forklift truck has an attachment, such as a paper roll clamp, put it through its paces to make sure it will do the job it was designed for.

Look for leaks from the transmission, differential, mast and tilt cylinders, engine, and radiator. It’s best to do these checks after the forklift truck is fully warmed up.

Be aware, even small leaks are warning signs. Carefully examine the extent of the leak and its source to determine the cost of the repair before purchasing.

Inspect the brakes while carrying the forklift’s rated load. Remember that when it’s traveling at 5 miles per hour, a forklift should be able to stop smoothly within one to two truck lengths.

4. Test Drive. Before road-testing a forklift truck, take a moment to examine the vehicle’s appearance. Badly dented or gouged body panels may signify rough or careless operation.

Now it’s time to put the prospective acquisition through a road test. Drive it through a tight figure-eight pattern in both forward and reverse gears. The forklift truck should have a quick response to the steering wheel and accurate tracking.

Although kicking the tires is not necessary, don’t forget to check them. If they have not been replaced recently, look for uneven wear. This may signal axle misalignment.

Take a Closer Look

If the prospective forklift truck passes these four tests, your search for a good used truck may be over. However, the inspection should not stop there.

Make sure a mechanic covers the 14 points on the in-depth inspection checklist (see Sidebar). Inspection of these areas can help you ensure your company gets a truly good deal on a used forklift.

Electric forklifts are really the best choice for warehouses, manufacturing applications, and other indoor use, for two primary reasons.

One is that they produce zero emissions — if you are going to be using your lift truck indoors, this is a very important consideration. Of the internal combustion models, only propane-fueled lifts can be used indoors, and they still require very good ventilation. Gas and diesel-powered models can’t be used inside at all.

The other primary advantage is fuel cost. Electric forklifts have a lower cost per hour of operation than any of the internal combustion (IC) models. This helps to offset one of their disadvantages - their higher initial cost. New electric forklifts can cost 20% to 40% more than similarly-rated IC forklifts.

Additional advantages of an electric forklift include quieter operation - another big indoor advantage - and no fuel storage requirements. Because they have fewer moving parts and are often used in cleaner environments than IC trucks, they also tend to have a longer lifespan.

The biggest downside of an electric forklift is the battery downtime. Electric forklifts are powered by large, heavy, lead-acid batteries - the same kind found in your car, but considerably larger and more powerful. The batteries typically provide enough power for one standard eight-hour shift, which translates into 5 or 6 hours of constant usage.

Charging a forklift battery takes 8 hours, plus an additional 8 hours of cooling time before it can be used. Due to this slow charging speed, if you need forklifts for two or three-shift operations, you will have to buy extra batteries so you can always be charging the next one, adding $1,000 to $2,000 to the purchase price.

Other disadvantages include the need for a battery charging station. The chargers should be located in a dry, ventilated, and temperature-controlled location. If you have multiple batteries, you will also need special cranes to change the batteries. Electric forklifts are also not suited for outdoor use - while you can use them on a well-paved parking lot, they can’t be used in the rain.

http://www.buyerzone.com/industrial/forklifts/electric-forklifts.html

Narrow aisle forklifts are essential to modern warehousing operations. By allowing aisle widths as narrow as 6 feet, they greatly increase the number of aisles that can fit in a given warehouse, and that, in turn, increases warehouse capacity.

Standard lift trucks need aisles that are 11′ wide or larger to be able to operate and turn around. Narrow aisle forklifts (NA) are capable of operating in aisles 8′ to 10′ wide; and very narrow aisle forklifts (VNAs) can work in aisles as little as 6′ wide. Note that "narrow aisle forklift" and "very narrow aisle forklift" are industry-standard terms, not just descriptions.

The key aspect of narrow aisle forklifts is that their forks are turned at a right angle to the body of the truck. This allows them to drive straight down the aisle but pick up loads to the side. By eliminating the need to have the truck face the shelves, they greatly reduce their space requirements.

Since they often operate with little margin for error, very narrow aisle forklifts are available with guidance systems. Optical or wire guidance systems that run the length of the aisle keep the forklift on a consistently straight path, allowing the operator to focus on picking and placing loads.

Narrow aisle forklifts are almost all electric powered, since they’re used indoors, although some propane-powered models are available. They also feature cushion tires - smooth, solid rubber tires that are best for paved surfaces and concrete floors.

Other add-ons that are valuable for narrow aisle forklifts:

• Sideshift. This very popular option allows the operator to move the load left and right without moving the truck, allowing much more precise placement of loads.

• Tilt mast. The ability to tilt the mast and forks forward and back is useful if loads aren’t exactly level. Tilting the mast back slightly also provides greater stability while moving a loaded truck.

• Extendable forks. Adding extendable forks increases the "reach" of the forklift, allowing what’s known as "double-deep" loading: stacking pallets one in front of the other.

• Operator platforms. Some NA forklifts raise and lower the operator along with the forks. When handling loads 20′ or 30′ up, this allows much greater visibility and control than having the operator at ground level.

Rough terrain forklifts have two defining characteristics: they’re powered by internal combustion (IC) engines, and they have pneumatic tires that let them handle uneven surfaces. This combination makes rough terrain forklifts the ideal choice for lumberyards, construction projects, landscaping, and other outdoor applications.

Rough terrain forklifts use IC engines for several reasons. They’re often built to handle larger loads, which IC forklifts are better at than electric. IC forklifts usually have better acceleration and top speeds than electric, which can be a big plus on large job sites.

Furthermore, internal combustion engines are more familiar to most mechanics than electric, so routine maintenance and basic repairs can be handled by your own mechanics, instead of requiring a service call or trip to the shop. For machines that take a lot of abuse, this can be a big time saver.

Pneumatic tires are the other key component of a rough terrain forklift. Pneumatic tires — rubber tires filled with air, similar to automobile tires — provide the traction and cushioning necessary for use on rutted ground and uneven terrain.

For the worst ground conditions, such as a recycling center where broken glass is commonplace, consider "solid pneumatic" tires. The name is bit misleading, because there is no air at all in these tires: they’re solid rubber to prevent popping.

http://www.buyerzone.com/industrial/forklifts/rough-terrain-forklifts.html

Lift truck handling of pallet and palletless loads requires different attachments. Here are the details of the various types and how they can reduce costs and improve handling efficiencies.

Any good carpenter will say you’ve got to use the right tool for the job. And it’s no different for lift truck attachments.

While forks are the most common attachment, they’re not always the best solution for every application. In pursuit of higher productivity, less product damage and reduced worker injuries, many loads require an attachment other than a fork – clamps and push/pull units, for instance. And even if forks are the tool of choice, attachments such as side shifters and fork positioners are valuable aids for improving load handling.

"Attachments allow users to reach to higher heights, to reach further out and to move heavier loads than could be moved manually," says Gary Frette, president of Basiloid Products (812-692-5511). "So the attachments, when applied properly on a lift truck, substantially increase the amount of work that can get accomplished in the course of a day."

Additionally, attachments protect operators from ergonomic stress by keeping them on the seat of the truck rather than lifting, pulling or tugging loads that couldn’t be moved with conventional forks, notes Ronnie Keene, vice president of sales and marketing at Brudi Bolzoni Auramo (800-358-5438). Keene adds that attachments make proper handling of the load more convenient for the operator, who is then more likely to handle and transport loads correctly—reducing product damage.

As for the future of lift truck attachments, suppliers are working to develop higher levels of monitoring attachment use through bar coding and radio frequency identification (RFID) tags.

"These technologies provide opportunities to embed information such as the clamp forces required to handle a product safely without overclamping and crushing the load," explains Mike Kern, vice president of MHP marketing and sales at Cascade Corporation (800-227-2233). "Even though operators have attachments now, they don’t always know when it’s appropriate to change from one setting to another. This technology makes it easier for the user to not have to make a determination."

And, yielding higher productivity is ultimately what lift truck attachments are all about. Here’s a look at the most common technologies applied to pallet-based and palletless load handling.

Side shifters allow operators to shift the forks 4 inches to the left or right.

Pallet handling attachments

Side shifters

The most common attachment today, the side shifter operates with a standard pair of forks. As the name suggests, the attachment allows operators to shift the forks 4 inches to the left or the right to align them perfectly with pallet notches when picking up a load.

By adding this additional dimension of movement, wear and tear to the truck is avoided, as operators can reposition the forks rather than reposition the truck by maneuvering it repeatedly in forward and reverse. Also, side shifters cut down on pallet damage since truck repositioning is sometimes considered optional by operators. Side shifters are available as both single and double units, capable of handling one or two pallets at the same time.

Fork positioners

With the variety of pallet dimensions out there, each with different pallet notch spacings, it would be impractical to have multiple lift trucks designated to handle each size. It would also be a very timely undertaking for an operator to have to climb down from the cab and manually adjust the fork spacing before every pick up.

Fork positioners, usually hydraulic-powered, are a solution. This device automatically adjusts the distance between the forks to handle an infinite number of pallet sizes, without the operator ever leaving the seat of the truck. In addition to the time savings, fork positioners also reduce the potential for back injuries or pinched fingers that could result from manual adjustments.

Multiple pallet handlers add a second of third pair of forks to the truck.

Multiple pallet handlers

Multiple pallet handlers can double or triple lift truck productivity by adding a second or third pair of forks to the truck. Some attachments handle loads that are two pallets deep.

By allowing operators to pick up more than one load at a time side by side, a greater number of pallets can be transported throughout the day. Multiple pallet handlers are most frequently found in high-volume operations such as beverage and food handling.

These attachments do present some limitations in horizontal clearance, limiting their access to certain aisles or other areas. However, some models feature retractable forks that permit single load handling and can travel through narrow aisles and doorways.

Palletless handling attachments

Clamps

Clamp attachments literally clamp opposing sides of a load, applying a sufficient amount of pressure to lift the load in a controlled manner without crushing or dropping it. Used in a range of applications, clamps handle loads that simply aren’t transportable by pallet.

Flat surface carton clamps are often used in the appliance industry to move high-bulk, low-weight items like refrigerators, washers, dryers, ovens, dishwashers and more. They’re also used to move unit loads of beverages stacked without slip sheets or pallets.

Concave surface paper roll clamps are used in the paper and printing industries to move large rolls of paper throughout a facility. Clamps are also used to position rolls on equipment that converts raw paper into consumer goods like paper towels, toilet paper and tissues.

Carton and roll clamps grab opposing sides of a load with enough pressure to move the load in a controlled manner without crushing or dropping it.

Rotators

This attachment features forks mounted on a rotating apron that turns anywhere from 180 to 360 degrees. Rotators are most often used in operations where bulk bins or containers store and transport large volumes of small items. Once the truck has delivered the bin to its destination, the rotator turns to dump the contents out into another hopper or processing station.

These attachments are used extensively in scrap metal applications. Other uses include food and wine processing. Rotators are part of the sorting and production process as bins of fruits and vegetables are received from the fields and then poured into processing equipment.

Push/pull units clamp on to the lip and pull the load onto a set of wide, low profile forks for transport.

Push/pull units

Push/pull attachments work with loads on cardboard or plastic slip sheets with a lip. The attachment clamps on to the lip and pulls the load onto a set of wide, low profile forks for transport.

Once the load reaches its destination in the warehouse or on the trailer, it is then pushed off the forks by the attachment. They are most often used in situations where a facility has elected to eliminate pallet usage to cut costs. These attachments are also often found in food-processing applications, where users have replaced pallets with slip sheets for hygienic and sanitary reasons.