At Progressive Crane and FHS, Inc. we have over 40 years of collective experience quoting, designing, and installing overhead crane projects for customers in all types of industries. If you’re just starting your research, we understand that the process of buying and installing an overhead crane in your facility can seem somewhat overwhelming.
First, we’ll discuss the factors that affect the cost of any type of crane, and then we’ll dive into the prices of common types, sizes, and configurations of overhead cranes.
To make sure that you get the right type of overhead crane for your business, you should be ready to address the following information when you contact an overhead crane manufacturer to bid on your project:
For example, an 80 foot, 20-ton double girder bridge crane will cost significantly more than a 40 foot, 10-ton double girder bridge crane.
The span, or distance between the runway rails, is one of the biggest contributing factors to the cost of an overhead crane. The longer the crane’s span, the more material is required to build the crane girders. This added material increases the crane’s weight, which will also increase the cost of the runway, if required.
Span and capacity are the two biggest contributors to the overall cost of an overhead crane system.
An overhead crane’s capacity is the maximum load which may be applied to the crane in a particular working configuration, and under a particular condition of use.
When the manufacturer comes on-site to provide a consultation, they can calculate the capacity based on their understanding of:
- The size and weight of the material that you’ll be lifting
- Below-the-hook lifting devices that may need to be used
- Single hoist or double hoist configuration
- Any other considerations for future crane usage or capabilities
A crane that requires a large capacity, a large span, or severe service classification, may require a double girder design—meaning there are two beams that make up the bridge. These girders can be designed in a rigid welded steel box girder design for added reinforcement. This type of setup will be the most expensive, as there are significant increases in labor and material charges to weld and fabricate the girders.
WHAT IS THE SERVICE CLASSIFICATION OR DUTY CYCLE?
There are six different classifications of overhead cranes, specified by the Crane Manufacturers Association of America (CMAA). An overhead crane manufacturer will determine what type of crane classification they'll need to build for your specific lifting application, using the following criteria:
- How frequently will the crane be used?
- How quickly will the crane need to transfer equipment or materials?
- How many lifts per hour will the crane need to perform?
- Will the crane be needed for regular or frequent service?
- How far does the crane need to move material in your facility?
- What is the average rated load of the materials that will be moving?
- How often will the crane be making lifts at full capacity?
- In what type of environment will the crane be operating?
Class A and Class B cranes will be your least expensive option because they'll be used mostly for maintenance or the initial installation of equipment. They're used infrequently, and there are long periods of idle time between lifts.
Class C cranes will be a middle-of-the-road type crane. There may be some additional engineering built-in to the project for a specific need, but they typically utilize a basic hoist, trolley, and bridge design. They’re used moderately to handle loads at or around 50% capacity and are in service for about 5 to 10 lifts per hour.
Class D and Class E cranes, often referred to as process cranes, are built for a specific need and are more heavy-duty. They may be constantly running in excess of 50% of the rated capacity, and they’re making 15 or more lifts per hour. They have more engineering or customized solutions built into the design for the specific lifting application—which increases initial design and engineering costs for the project.
Class F cranes must be capable of handling loads approaching rated capacity continuously, under severe service conditions, throughout their lifetime. They'll be extremely expensive due to additional costs related to design and engineering, sourcing of heavy-duty components, materials and labor, and installation.
WHAT IS THE OPERATING ENVIRONMENT?
Environmental factors such as high heat, chemicals or fumes, steam, dust, or excess moisture can require special metal coatings and specialized components to extend the operating life of the crane.
A severe, obstructed, or dangerous operating environment where the crane will be installed and running, will affect the cost of an overhead crane in several different ways.
Environmental factors such as high heat, the presence of chemicals or fumes, steam, dust, or excess moisture can require special metal coatings to protect and enhance the operating life of the crane. The individual components of the crane will also need to be sourced to ensure that they can hold up and withstand the operating environment
Facilities like wastewater treatment plants, fertilizer plants, and oil and gas processing facilities require explosion proof cranes. This means that the equipment cannot generate any type of spark. These types of cranes can utilize a specific pneumatic air-powered system, or a specially-designed electrical system to make them explosion proof—however, these can be expensive to design and install.
Cranes that will be used outdoors will need additional protective coatings to prevent corrosion and will require weatherproofing to seal out moisture and dust or dirt. Stainless steel or galvanized components will also need to be sourced to ensure that they can handle exposure to the elements and don’t rust.
A dangerous operating environment will also require special equipment and protection (PPE) for the installers during installation. Any obstructions to the installation area can add to the cost if the installers don’t have clear access to the area to remove an existing structure or install a new one.
WHAT IS THE LENGTH OF THE RUNWAY?
The length of the runway can add material costs to an overhead crane project, and may require the components of the crane to be sized up to a higher capacity.
The runway length is the largest contributor to the runway cost itself. This length can also play into the cost of the crane. If you need to make multiple picks per hour and have a long runway, then you may need a faster trolley and hoist to move up and down the runway quickly. The additional speed may require the components of the crane to be sized to a higher capacity.
A faster crane that travels the length of the building may also require the operator to work from within an exposed or enclosed cab—which is more expensive than radio or pendant controls.
WHAT ARE THE BUILDING OR STRUCTURAL REQUIREMENTS FOR OPERATION OR INSTALLATION?
If an overhead crane is being installed in a new construction facility, then typically the runway beams will be installed during the construction process, and the crane manufacturer won’t need to include the runway structure in the quotation process. Care must be taken with your construction contractor, as crane runway tolerances are much tighter than standard construction codes. Repairing a runway that is out of tolerance can add significant cost to the installation.
If a crane is being retrofit into an existing building, there will be added costs for the design, fabrication, delivery, and installation of the crane’s runway system.
Most crane manufacturers don't offer in-house structural repair or certification services, so you'll also have to consider any additional costs related to having concrete contractors or structural engineers provide a consultation of your facility. They'll need to determine if the existing building structure and foundation can handle the additional loads generated by the installation of an overhead crane system.
WHAT IS THE COST OF AN OVERHEAD CRANE?
An engineered gantry crane can cost 1.5 to 2 times as much as an equivalent bridge crane with the same specifications.
Once you’ve gone through the consultation process, a group of estimators, engineers, draftsmen, and project managers all get together and begin putting together a comprehensive proposal.
The quotation process can take anywhere from 3-30 business days depending on the number of cranes being quoted, the complexity of the project, and the sourcing of crane components. Once they’ve completed this process, they’ll get back in touch with you to submit their official bid for the project.
Now that you have an understanding of all of the different considerations and factors involved in determining the cost of an overhead crane, here’s what you can expect to pay, on average, for the most common sizes and configurations of overhead cranes.
NOTE: These prices DO NOT include installation costs, unless otherwise specified.
Bridge Crane: $25,000 - $30,000
- 5-ton capacity
- Span of 40 feet or less
- Base design trolley, hoist, and bridge
Portable Gantry Crane: $6,000
- Capacities from 1-ton to 5-ton
- Spans from 8 feet to 30 feet
- Heights under boom from 10 feet to 20 feet
Engineered Gantry Crane: $70,000 - $80,000
- 5-ton capacity
- 40-foot span
- Includes hoist
- Typically 1.5 to 2 times the cost of an equivalent bridge crane
- Hoist, trolley, railway included
- Can be single-leg or double-leg design
Monorail Crane: $10,000
- 2-ton capacity
- 20-foot span
- Includes hoist
- Cost is most dependent on length of the track, and support structure: Will it be floor mounted or hung from ceiling?
Workstation Crane: Anywhere from $2,000 - $80,000
- Capacities from 150 lbs. to 2-tons
- Coverage with up to 34-foot bridge span and 124-foot runway
- Up to 17 feet high clearance for free-standing design
- Free-standing or ceiling-mounted can affect price
- Wide price range is very dependent on span and length of runways
Jib Crane: Anywhere from $500 - $25,000
- Capacities from 150 lbs. to 5-tons
- 4-foot to 30-foot spans
- Height under boom from 8 feet to 30 feet
- There are many different types of jib cranes, including:
- Workstation (typically lighter capacity)
- Structural (can be designed up to 10-ton capacity)
- Do you need a motorized crane, or will it be manually-powered?
- What is the degree of rotation required?
Remember, these aren’t necessarily base-level prices, but instead are prices or ranges that we’ve seen for the most common configurations of each type of crane. The type of crane, the span, the capacity, the duty cycle, operating environment, and any additional building or structural considerations can all add to or lessen the cost of an overhead crane.
WRAPPING IT UP
As you can see, there are so many different factors that can affect the price that you’ll pay for an overhead crane system. The two most important aspects are span and capacity. These will determine how much labor and material will be required for the project, and will also dictate the complexity and design of the hoist, trolley, bridge, controls, and power system—all major players in how much a crane will cost you.
At Mazzella Companies, we have two companies (Progressive Crane and FHS, Inc.) who design and build world-class overhead crane systems. We have over 40 years of experience in the overhead crane industry and can build custom solutions ranging from light-duty economical cranes to large-capacity, high-duty cycle cranes.
Our expert team of Engineers, Estimators, and Project Managers can help you design and specify a cost-effective crane system for your facility, production or budgetary needs. Since every business is unique, and no two cranes are alike, we offer free quotes and consultations for overhead and material lifting projects. If you’re interested in scheduling a consultation, contact us today to speak with a Crane Specialist.
Copyright 2017. Mazzella Companies.