Top 4 Machine Maintenance Tips You Should Consider for Your Industrial Equipment

Industrial machinery is steadily becoming more high-tech, with cloud, Internet of Things, and other new technologies continually improving performance. However, that doesn’t mean you can skimp on old-fashioned machine maintenance.

Even the most high-tech machinery still needs ordinary maintenance. Poorly-maintained equipment can result in heavy equipment failures and even the risk of injury to employees. 

Not sure if you’re maintaining your heavy-duty equipment correctly? Here are the top tips to keep in mind for machine maintenance. 

Check Fluids

Checking machine fluids can help you stop problems before they start. Fluids also need routine filling, even when everything’s working correctly. 

Check fluid levels and conditions to get an idea of how well your machines are functioning. Regular fluid analysis will help you catch problems early on before they cause big issues. If you notice fluid levels changing faster or slower than usual, that’s another possible sign of a problem. 

Cultivate Familiarity

Good maintenance means not waiting until something goes wrong. The more familiar you are with your machines when they’re working well, the easier it will be to catch an issue.

Familiarize yourself with equipment manuals to learn what’s normal and what isn’t. Your manuals will also help you know when to schedule routine service. 

Even if you don’t operate the machine regularly, someone does. Get your whole team on board with cultivating familiarity with the equipment. 

Record Everything

Keeping a record of maintenance, breakdowns, and everything else that happens with your equipment creates a valuable body of knowledge.

From the moment you get a machine, start a record of everything notable about it. Modern technology makes it easy to keep this information online, where it can be accessed and updated by anyone involved with that machine. 

Any scheduled servicing, unexpected repairs, and other notable events can go into this record. When something seems wrong with a machine, looking at its history can help you get an idea of what to do next. 

Make a Preventative Program

It’s clear that the essential machine maintenance is preventative. If you wait until something’s seriously wrong, you’ve waited too long. 

Make a scheduled servicing and preventative maintenance program to keep things running smoothly. Replace parts, inspect the equipment, refill fluids, and otherwise care for your machinery as needed. 

It’s also good to periodically test the performance as part of this program. These tests will show when something is starting to go wrong before it becomes a serious problem. 

Don’t Delay: Start Machine Maintenance Now 

If you’ve been slow to do machine maintenance, your equipment is probably breaking down more than it should. Don’t wait to implement these practices. The sooner you begin, the more money you can save. 

Maintenance doesn’t just save money by preventing equipment failures, though. It also helps keep you and your employees safe by avoiding dangerous mishaps. Workplace safety is one of the most important aspects of working with heavy machinery, and maintenance is a crucial part of safety. 

Doing maintenance doesn’t mean you’ll never need to repair your equipment, but it will make those repairs less frequent. Are you looking for repair help? Check out our services here!

6 Benefits of Waterjet Technology That You Did Not Know

Is waterjet technology the best choice for your cutting needs? In most cases, yes, it is.

For starters, it’s very cost-efficient and environmentally-friendly. It cuts with top-notch power and precision. 

It’s safe to use for almost every cutting job and won’t cause unwanted damage or warping. Beyond this, waterjet cutting avoids many problematic side-effects that other cutting methods cause.

And that’s only the half of it. Learn all about the fantastic advantages of waterjet cutting in full detail from this guide.

1. Cold Cutting

Cutting torches require heat and actual flame to cut. These two things can be problematic, causing collateral damage to heat-sensitive objects nearby. Warping, for instance, is a very common problem with hot cutting.

In other situations, a cutting torch could even cause mass destruction and death. For example, one obviously can’t use a torch for any cutting job that’s close to highly-combustible gasses and materials.

For jobs like these, cutting cold is imperative. Thus, a waterjet provides a perfect alternative when a torch is out of the question.

2. Eco-Friendliness

Furthermore, there are no greenhouse gasses or toxic fumes emitted from waterjet cutting, as there are with other cutting methods. Neither does it produce hazardous dust.

Waterjets also use no harmful chemicals, only naturally-occurring/recyclable water and abrasive minerals like garnet. Plus, the cold cutting of waterjets prevents the dross waste, and slag deformation that plasma or laser cutting can cause.

3. Fast and Efficient Cutting

Waterjets are extremely powerful and cut easily through most materials, more easily than other cutting methods in most cases. Because of this, waterjets can get far more cutting done in far less time compared to other options.

This also means that waterjets are efficient at conserving materials (the water plus abrasive compound). Most first-time waterjet users are surprised at how much of these materials are leftover when the job is completed.

4. Low Cost

Because of the factors mentioned above, waterjets are typically your cheapest cutting option. Obviously, the water doesn’t cost much, especially when the waterjet is so efficient at conserving it. 

The abrasive compound can be a little pricey. But again, the waterjet is very efficient at conserving this as well. 

It’s efficiency also means less time spent cutting. That means less money spent on hourly wages or equipment leases.

5. Precision Cutting

Waterjets cut very precisely with tolerances around +/- 0.005″. However, tolerances vary among different manufacturers. Still, generally, waterjets cut net-shape or near-net-shape with little-to-no secondary processing required.

Waterjets can cut omnidirectionally. And they can usually perforate the material to be cut without the need for starting holes.

6. An Extremely Smooth Cut

Another great benefit is that waterjets smooth as they cut. Other cutting methods require smoothing edges as a secondary step after cutting. Waterjets save time by doing both of these steps at once.

The Benefits of Waterjet Technology

Waterjet technology saves you money, gets the job done fast, and spares the environment (and your project site) from unnecessary harm. For all these reasons and more, a waterjet machine could be the perfect tool for your cutting needs. Consider a waterjet for your next cutting project.

For more about waterjets, check out Water Jet Cutting and Its Many Uses in Machining and Fabrication.

 

More Than Just the Basics About Hydraulics

In Hydraulics 101, you’d probably learn how this form of power works. A fluid pushed through the system transfers force from one area to another. In its simplest form, you’d find such a mechanism in a log cutter

But you’re not here for Hydraulics 101 — you want to know more. Indeed, there’s a lot to explore when it comes to the hydraulic system, its components, and its powerful potential. 

Here’s what you need to know: 

How Does Liquid Power a Hydraulic System? 

You might be wondering how liquid has so much power inside of a hydraulic system. Wouldn’t it be better off with a solid or gas component? 

A solid provides too much resistance. You know this if you’ve ever tried to mold or move material such as metal. It’s nearly impossible to shift and manipulate solids with your hands.

Then there’s gas, which gives way too quickly. Imagine having a balloon full of it — you can squeeze and push helium around. It doesn’t provide much resistance, thus generating little power. 

But liquid works perfectly when it comes to hydraulics. It moves much more easily than solids, but they don’t change shape like a gas.

So, if you push liquids with a piston, they will move, but their volume won’t contract and change. As such, they can fill the allotted space and push the hydraulic system to work. Interesting, right?

How Does a Hydraulic Pump Work?

Hydraulic pumps power everything from brakes to cranes to gasoline pumps to amusement park rides.

And the pump serves a specific purpose. It creates no pressure but instead creates a vacuum with its movement. Hydraulic fluid fills the void, then flows into the rest of the system.

The movement of the fluid is what creates pressure and power. And there are multiple types of hydraulic pumps that perform this function.

A rotary pump, for instance, carries the hydraulic liquid from its inlet to outlet in a circular motion, much like the gear of a rotary phone. 

What Are Some Common Hydraulic Problems? 

Hydraulics work well, but they’re not perfect systems. They come down with issues, many of which are easy to spot because of the symptoms.

Keep an ear — and eye — out for new noises, as well as increased temperatures. If your hydraulics slow down, that could be a sign of trouble, too. 

Most of the time, it’s heat or water contamination that alters the function of a hydraulic system. The earlier you catch this type of malfunction, the better. Otherwise, it could damage the pump, the most expensive component to replace. 

You can get ahead of hydraulic problems by maintaining your systems, as well. 

Hydraulics

You already had the basics down. Now, you’ve explored hydraulics at a higher level. As such, you understand how the pumps push liquid to create power and how they can malfunction.

Need more information on hydraulics or other types of industrial equipment. Check out our blog for more.

 

How Rusted Metal Can Affect the Integrity of Industrial Equipment

Rust might be on the body of your car or in your home’s water. In its early stages, rust is usually not harmful, just unsightly. At its worst, it might rub off on your clothes and leave a stain.

But, on something like a highway overpass or an offshore rig, the issues of rusted metal take on a different scale. If it’s not addressed, these industrial pieces can become dangerous and structurally unsound. 

The good news is, staying informed can prevent dangerous oversights in care and maintenance. Read on to learn what causes rusted metal and how it can impact your operation’s equipment. 

What is Rust?

Rust is a form of corrosion that only affects iron and its alloys, including steel. Rust is also known as iron oxide. It usually looks red or brownish, but it can take on different colors depending on its chemical makeup.

Rust develops when iron reacts with the air and water in its environment. In later stages, the rust will peel or flake off.

Rust and Industrial Machinery

Over time, rust will dissolve iron materials. What starts as surface rust can eventually make its way to the center of metal. Rust creates weak spots in iron and steel, much like rot destroys wood. 

Since most industries use iron or steel equipment, rust poses a severe threat to the majority of industrial operations. It can compromise the strength of marine ships, oil rigs, and even railroad tracks.

Plus, rust doesn’t even require extreme circumstances to form. Rust can start to develop any time the air temperature is above freezing, and the air has at least 70% humidity. 

It also costs a lot of money to fix. Pipeline corrosion alone costs at least $9 billion each year between maintenance costs and lost product. 

What To Do If You Find Rusted Metal

If you’re wondering how to remove rust, you can start with an industrial rust removal solvent. It will strip away the layer of rust and protect the metal underneath from additional corrosion. 

While rust can do a lot of damage over time, there are a few strategies that can keep it from spreading. The key is to protect the metal from as much air and moisture as possible.  

A coat of acrylic paint can help protect the iron or steel from air and water. Just make sure to avoid water-based paint, since that will make the rust worse. You can also apply a layer of oil or grease, but this is much more temporary than paint. 

Another excellent method is to establish a cleaning and maintenance schedule. Regularly cleaning and drying exposed metal can protect it from rust. 

If your equipment is near salt water or in humid environments, you may need to replace parts more often. It’s essential to maintain and replace rusty parts before the rust spreads to critical parts of the machinery. 

Keep Your Equipment Functioning

Rusted metal is much more than a cosmetic problem. It can make machines, bridges, heavy machinery, and ships break down over time. If you don’t address it, the rust will spread and eat away at the metal. 

Whether you need to order custom parts or schedule a repair service, Kor-Pak can help. Contact us today to learn how we can help you combat rust in your operation. 

 

The Basics of Couplings: What Are The Different Types?

The world is filled with industries that require complex mechanical parts to keep everything running correctly. Most of these parts never get the attention or recognition that they deserve, and yet this lack of exposure in the spotlight makes them no less vital.

Couplings rank high on the list of parts for commercial equipment and other machinery that are often ignored or misunderstood. Couplings fall into two major categories;  mechanical flexing and material flexing.

Anyone familiar with basic engineering understands the undeniable importance of both categories of coupling, and yet you might not be aware of the different types of coupling that fall under each of these two primary categories.

This article takes a look at the different types. Keep reading to discover insight into these vital parts and why they are so indispensable to mechanical engineering

Mechanical Flexing Couplings

This category of coupling is intended to accept misalignments associated with sliding, rocking, or rolling metal surfaces. Each of these requires proper lubrication.

Gear Coupling

This type of coupling has two hubs, each consisting of external gear teeth. Gear couplings are designed to accommodate angular and axial misalignment during rocking or sliding.

Grid Coupling

A grid coupling features two radially slotted hubs that mesh together via a strip of spring steel. This type of coupling transmits torque to accommodate angular, parallel, and axial misalignments during rocking or sliding.

Roller Chain Coupling

A roller chain coupling consists of two radially sprocketed hubs which engage a strand of roller chain. This type of coupling is primarily used to moderate torque.

Chain Coupling

Chain couplings feature a chain around a single hub. This chain requires periodic lubrication that is to be brushed over the chain, and then the chain is covered to hold in the lubrication.

Material Flexing Couplings

Material flexing couplings are designed to accept axial, parallel, and angular misalignment. None of these types of couplings require lubrication.

Sleeve Coupling

This type of coupling transmits low to medium torque between pieces of connected equipment using males splines that are positioned to mate with female hub splines. A sleeve coupling can handle moderate misalignment.

Jaw Coupling

This is a material flexing coupling that’s designed to transmit compression torque between two intermeshing jaws. A jaw coupling can typically handle low torque for general-purpose mechanical applications.

Disk Coupling

The primary purpose of a disk coupling is to transmit tension and compression torque. This type of coupling can typically accommodate angular and axial misalignment.

Tire Coupling

Tire couplings feature a rubber or polyurethane element connecting two hubs and are designed to transmit torque in shear. These couplings have high misalignment capacity as well as a wide range of torque capacity.

Diaphragm Coupling

A diaphragm coupling is designed to transmit torque from the outside to the inside of the flexible plate. This type of coupling allows angular, parallel, and high axial misalignments.

The Basic Coupling Types and Their Uses

As you can see, there are many types of coupling. The more you understand about coupling, the higher the number of applications you can engage in. This article offers a basic overview of the primary shaft coupling types as well as their individual capacities.

Click here to learn about the types of mechanical brakes and how they differ.

 

Changing Equipment in the Railroad Industry and What You Should Know

The railroad industry currently brings in upwards of $500 million in revenue. And it’s a valuable part of the infrastructure that spans different industries. 

If you work in the railroad industry, get to know the parts and tech that are changing the game. Studying these trends keeps you ahead of the curve and helps you do everything that you can to improve your current setup. 

Read on to learn more about the railroad parts and equipment that are the next evolution of the industry. 

Upgrades in Railroad Equipment

So which aspects of the railroad industry are changing right now? Here are some exciting evolutions you should get to know when it comes to railroad equipment and technology:

1. Fuel Management Systems and Other Analytics

Analytics is here to stay in every field — and the railroad industry is no different. 

By making use of analytics systems, you’ll have up-to-the-moment data related to everything from the way you are burning and managing fuel to optimizing your train’s speed so that it can more effectively hit its routes. 

2. More Sophisticated Couplers

The more information you have about couplers, the easier it’ll be to make your train systems more productive and safe. 

Today’s Type E and Type F couplers, among others, are built with more sophisticated engineering that helps these parts address compression and expansion. By looking into custom-fitted couplers for your train systems, you’ll always be able to design your trains in whichever way is the most effective for your needs. 

3. Railroad Automation Technology

Automated cars are coming, but so too are automated trains. 

Right now, engineers and developers are working on self-driven trains that can be powered at high speeds toward destinations. These trains will be useful both for the logistics of shipping materials and to serve as passenger trains. 

4. Improved Safety Technology

Finally, expect to see all sorts of safety technology put into place that will enhance the way your train runs. 

For instance, investing in brake relining improves power, pressure, and effectiveness of your trains. Engineers are also using advanced geometry systems to test and inspect tracks so that the trains can run on them optimally and with fewer errors. 

By eliminating track defects, your trains will be better able to carry out work without unnecessary wear and tear and the potential for accidents. 

Invest in the Best Railroad Technology

When you are looking to get the most out of your railroad systems, these are new parts and technologies to keep in mind. 

No matter what sort of industry you work in, we all benefit from well-run trains in some form or fashion. If you want to get the most out of the way that your trains run, it’s essential to adopt the technology above. 

We would be happy to assist you with any parts or systems that you are looking for. 

Use our online form to contact us today, or give us a call at (866) 950-9211. 

Why You Need to Know How to Read a Crane Load Chart

The proper and safe operation of cranes mainly falls to the operator. This means that both operators and managers must understand crane load charts.

Foremen, along with other managers, need to not only understand the charts but be able to use them to plan the lift and make sure the loads are positioned in a way where the equipment can lift the load safely and move it where it should go.

One example of this is if you have a truck full of pipe located too far from the crane being used. If this is the case, it may not be safe to lift the pipe from the truck and place it in or next to the trench.

In addition to safety, there are several other reasons you need to know how to read and use the crane load chart.

Understanding the Crane Load Chart is Mandated by OSHA  

According to the OSHA Crane Standard – subpart N mandates that all crane operators be certified. To pass the certification, operators must demonstrate their ability to use modern load charts. This is necessary for each crane type the operator is using.

Load Charts Ensure Proper Use and Safe Operation

Crane load charts are unique from the backhoe and excavator load charts. While the basic concepts are similar, there are some essential differences.

For example, the closer a crane is located to the load, and the higher the boom angle is, the more lifting capacity the crane has. This rule isn’t always applicable to excavators.

Before making a lift safely, the operator needs to know the load’s weight and how far the load is from the boom’s turntable. This is called the load radius. If the load is being lifted from a point that is higher than ground level, knowing this height is also necessary.

The use of a crane load chart makes this easier. With this, an operator can figure out the angle the boom needs to be at to make sure they are positioned directly over the load. Before lifting the load, operators must check the boom angle indicator, which provides the boom angle from horizontal.

Avoid Injuries and Liabilities

Injuries and liabilities are a serious issue on any construction site. This is exacerbated when cranes are used.

Understanding how to safely use a crane load charge reduces the possibility of these issues. If operators are unclear on the purpose of these charts or the purpose they serve, serious problems may arise.

The Importance of Crane Load Charts

A crane load chart is a vital tool that managers and operators need to understand fully. With this knowledge, they can safely operate any crane while ensuring the safety of others on the worksite.

To learn more about crane use and operation, along with crane repairs and maintenance, contact us. We provide an array of information, resources, and parts for all types of heavy equipment and can answer questions related to care and operation.

The Future of Wind Energy: What Types of Wind Turbines Are The Best?

The latest types of wind turbines can produce usable amounts of electricity almost 100% of the time.

You may be wondering how else wind turbines have changed in recent years. Which types of turbines are most effective to meet the ever-growing need for sustainable electricity?

Below are some pros and cons of using wind turbines to power big and small areas.

How Wind Turbines Work

How is electricity made? The power of wind can harness electricity!

Wind turbines produce electricity with low greenhouse gas emissions. They can also generate an unlimited amount of electricity without building a plant or disrupting the soil. Wind speed affects how consistently turbines can power an area.

Wind turbines come with backup batteries to help ensure round-the-clock electricity.

Types of Wind Turbines

The first type of wind power is via horizontal-axis turbines. These are visually similar to windmills. Each turbine has three blades facing into the wind. The turbine pivots at the uppermost part of each tower. You can see this kind of turbine on land or offshore.

Vertical-axis turbines can vary in shape. The Darrieus model, coined after the French inventor, is shaped like an eggbeater. Vertical-axis turbines can catch wind from any direction. You don’t have to adjust them like you might a horizontal-axis turbine.

You can build a single turbine to power your home. Typically, a large cluster of sizable turbines is constructed to work in tandem.

Benefits of Wind Turbines

Wind turbines address many problems we have faced with sustainability in energy. One of the most significant benefits of wind energy? A wind turbine generates less waste during its life cycle than one cow would by grazing in the same area.

Greenhouse gases from fossil fuels contribute to a less stable climate and damaged ozone layer over time.

Some fuels are not readily available anywhere on the planet.

If you can put a wind turbine there, you can channel wind power there. Native energy lessens the need for energy imports and adds to the economy’s wealth. Jobs are created to help manage different forms of renewable energy.

The advantages of wind power ripple out to positively affect all life forms on the planet.

Wind energy leads to cleaner air and water, unlike other forms of energy that emit toxic contaminants or substances into the air. Some contaminants can cause acid rain and disrupt soil, while others can make water hazardous for those who drink it or swim in it.

Drawbacks of Wind Turbines

Wind turbine diagrams show how much (or little) energy turbines can get from the wind with an ideal rotation. Many people are looking for ways to back up renewables.

Energy from wind is diffuse, meaning one turbine cannot generate much electricity in a short time. Wind turbines rely on the weather for power. Backup batteries can only supplement electricity for short periods at a time.

Public opinion can affect where and how many turbines are allowed. Some people feel that vast expanses of land are needed for other purposes, not just for renewable energy sources.

The Future of Renewables

The more effort put into creating effective renewables, the better the future of energy looks. The types of wind turbines available can help society become less reliant on older sources of energy.

In the meantime, stay posted for the latest upgrades available in industrial energy!

9 Effective Safety Tips for the Industrial Workplace

Is your industrial workplace safe?

The industrial workplace can be a dangerous place, as the 2.8 million people who suffer workplace injuries each year would tell you. But it doesn’t have to be! There are many things you can do to help protect yourself and your co-workers while you are on the job.

Read on for our top 9 safety tips to help you stay safe in the workplace.

1. Proper Training

Anyone that uses equipment, including tools, needs to be sure that they know how to use them safely. That means appropriate training and certifications, even if they don’t regularly use the equipment.

Ensure that anyone’s certifications are up-to-date. Machinery and best practices change regularly, so having different workers following different safety practices can be as dangerous as not following them at all.

2. Appropriate Clothing

Employees in an industrial workplace should always wear protective clothing. Even items as inconsequential as non-slip shoes and correctly fitting gloves can prevent significant injuries or mistakes.

The exact requirements will differ between every workplace, but workers should always be protected against their environment and any predictable accidents.

3. Label Hazardous Zones

You should have clear labeling and signage for hazardous areas. For example, where you store dangerous equipment. Also, use tape or paint black and white stripes on the floor to mark these zones.

4. First Aid Training

Wall-mounted first aid stations are a must for dealing with emergencies. Stock them with all the relevant medical supplies that employees might need.

Also, provide first aid and safety training for all employees and repeat regularly. It’s essential to make sure everyone is aware of the work safety tips and emergency information. 

5. Clear Emergency Exits

Never place anything in front of any emergency exits or emergency machine shut-off points. It’s surprising how often you see forklifts, ladders, and other items blocking the way. This could prevent a safe exit from the building in emergencies.

6. Avoid Heavy-Lifting

For heavy- lifting, provide aids like forklifts, cranes, and wheelbarrows. Otherwise, you and your employees are at risk of injuring yourselves. Also, make sure there is appropriate training on the correct lifting techniques.

7. Understand Workplace Risks

It’s vital that all employees know the workplace risks. Carry out a workplace risk assessment and give this to the workforce. Important things to note are fire hazards, emergency protocol, and first aid locations. Also, provide an FAQ of workplace safety awareness tips. 

8. Regular Servicing

Don’t wait for tools and machinery to break before carrying out a full service on them. You should try to prevent malfunctions where possible. Proper maintenance should be regular and thorough and include:

  • Inspections
  • Test Runs
  • Replacements and adjustments
  • Log keeping

This maintenance should follow the manufacturer’s recommendations. This ensures it’s done to the best industry standard.

9. Regular Breaks

By providing frequent breaks, you’ll help employees feel more alert and fresh. There should be a cool, comfortable area for them to rest. Regular, shorter breaks can be more effective than a single, long one. It will help employees focus, reduce stress, and help maintain satisfaction.

Safety Tips at Work

In the last four decades, the number of workplace deaths has decreased by almost 2/3rds and continues to trend downwards. By following these nine safety tips, you can do your part to keep these numbers down and help create a safer workplace.

If you want to keep your heavy industry machines running safely and efficiently, contact us today

What are Gantry Crane Wheels?

Are you looking to incorporate a new gantry crane into your construction portfolio? It’s a great idea, but you’ll want to know as much as you can about these vehicles, ahead of time. Specifically, you’ll want to know about gantry crane wheels, from what they do to what they’re made out of, and everything in between.

So join us today as we break down this crucial component in the gantry crane system.

What Are Gantry Crane Wheels?

In a gantry crane, the wheel serves a critical role: to withstand its weight while running on the track as smoothly as possible. This, in turn, allows the gantry crane to operate as it should, lifting loads and carrying them from one end of the beam to the other. Throughout all of this, crane wheels are under a lot of stress and should be made strong and durable.

Gantry or bridge crane wheels are typically either single or double rim. Single rim flanged track wheels are common, mainly used in gantry cranes under 5 tonnes. You’ll also see them on double beam bridge gantry cranes.

A double rim is chiefly found on heavier gantry cranes, double beam bridge gantry cranes, and mechanisms for crane operation. They’re also more than adequate for casting crane operation mechanisms and electric flat cars, as well as many others.

Non-flanged track wheels are also available.

What Are They Made Of?

Because crane wheels are put under so much stress, they must be made out of hardy materials for longevity. The hardness of the steel you use to make your wheel influences its “toughness.”

These wheels are made from raw materials and alloys. These may also include low-or-medium-carbon steel. With medium carbon steel, we find a much wider availability of the material and a subsequent drop in cost. As a result, this is easily the most commonly used raw material in this field.

Why You Need One

“So,” you’re wondering, “It’s a crane that uses wheels to lift and move things. What are the benefits for my construction business?” Well, as luck would have it, there are more than a few great benefits:

  • 100% mobility
  • Rapid assembly
  • Versatility
  • Easy customization

A gantry crane is a versatile option, first and foremost, because it can be used both indoors and outdoors. Use steel or aluminum. Adjust the height, span, or tread.

Quick, modular assembly means a gantry crane can roll up to where it needs to be used and be operating within seconds. Single leg gantries even exist for jobs where space is an issue problem, lifting using wall-mounted I-beams and A-frame leg. 

Time To Get Wheel, With A Gantry Crane

The benefits of a gantry crane boil down to two things: versatility and maneuverability. It’s a powerhouse of lifting capability, designed to be put to use in diverse and demanding situations. And gantry crane wheels have a lot to do with that.

Are you looking for more great content, straight from the construction site? Check out some of our other blogs, today, or get in touch to find out more about our service portfolio.