Apr. 29, 2024
Are you looking for the best hoist solution for your factory or plant? Not sure whether a wire rope hoist or chain hoist is the right choice? We will explain all of the differences and applications to help you make the best decision.
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In any factory or production environment, there is a large demand to lift and handle different types of materials or machinery.
For these purposes, we have two hoisting systems to choose from: a wire rope hoist and an electric chain hoist.
Each hoisting system is intended for different purposes and consequently will have benefits and drawbacks in different scenarios. This article is going to take a deep dive into their applications and how you can make the best investment decisions for your workspace.
A wire rope is made up of multiple strands of wire that are coated with zinc or galvanized. The composition of the rope is quite complex with individual strands twisting around each other.
Wire Rope DiagramThis complex and dense structure, combined with the treatment of each strand adds to the highly resistant properties of a wire rope hoist system making it ideal for use in extreme environments. The multiple strand form also helps to distribute loads better.
Reeving on a Wire Rope HoistThe system can be upgraded and made more efficient using a reeving system. This is where the wire rope travels around multiple drums with sheaves (a grooved pulley wheel) to hoist heavy items.
With reeving, heavier loads can be hoisted and moved because the hoist’s mechanical advantage is increased by spreading the load evenly across separate parts of the reeving system. The amount will depend on how many parts you have but, for example, in the case of a two-part single reeving system (2PS) the load capacity will be doubled across the two parts, however, it will consequently halve the lifting and lowering speed of your reeving system.
The use of reeving can also be important when you have a requirement to lift a load with a high level of accuracy. For example, the sheaves will maintain the linear position of a hook to hoist a machine or stack of materials in a smooth and straight vertical line reducing unnecessary force on the system thus ensuring safer and more efficient activity.
Another advantage of wire rope hoists is the increased headroom created by the design and particularly how the rope comes off the drum. This is especially true for 2, 3, and 5-ton wire rope hoists.
Chain hoists are an electric (or manual) hoisting solution that generally suits situations where the lifting requirements are not as significant such as smaller factories, work stations, and maintenance shops.
Their smaller physical size and maneuverability make them more flexible for different lightweight lifting and depositing applications. For professionals who work in various locations, this is a highly practical hoist solution because the crane can be transported more easily between sites. They can also be used to facilitate the use of a jib crane, hand-push crane, and gantry cranes.
Electric chain hoists will come as standard with vertical lift that is made possible by a simple reeving system and a dedicated chain container. (In order to achieve the same true vertical lift with a wire rope hoist, you would need to upgrade to a double reeved system.)
Chain hoists, either electric or manual, are often limited to a load capacity of 5 tons or less.
A wire rope hoist, however, with its dense multi-strand structure, is generally designed for loads of up to 50 tons. We at PWI Works have previously built wire rope hoists capable of lifting 50-ton loads and it’s not uncommon to see over 100-ton capacities!
We can’t talk about the durability of either system without mentioning reeving (again), because it has a direct bearing on the ability to lift material in a more controlled way that reduces stress on other parts of the crane.
It reduces the amount of load and therefore wear on the drivetrain components of each hoist system. The motors, clutches, and brakes are able to perform more efficiently because of the controlled motion of the chain and wire rope.
The more times a wire rope hoist is reeved, the lower the load stress will be.
The assemblage of a chain hoist includes an effective reeving system where the chain passes through a single sheave. This means that the vertical load hoisting is conducted in a more accurate motion.
A wire rope hoist does not use the same mechanical method as the standard. The wire rope is instead wound around a single drum. The motion of hoisting therefore will cause some lateral movement as the wire ‘naturally’ finds its place on the drum as the hoist is operated. Reeving can be used to maximize lifting capacity and stability with the use of multiple drums with up to two lengths of wire rope fed from the drum and combined with pulleys. The only consequence is that this will reduce lifting speed because the wire has to travel a further distance.
Because chain hoists do not have as much flexibility in the way in which they are reeved and considering the material properties of a chain, the chain and parts (motor, clutch, brakes) are more likely to wear at a faster rate than a wire rope hoist system.
An important thing to note though is the cost implication.
Generally speaking, the parts that make up a chain hoist are significantly cheaper than those of a wire rope hoist.
Commenting on the performance of both systems is again dependent on reeving. When you increase the number of pulley components in a reeving system, the speed will be drastically reduced to allow for the additional distance the rope (wire or chain) needs to travel to lift the load.
The flipside of reduced weight is a more accurate and efficient hoisting action that is more capable of safely lifting larger masses.
We can’t say that one system performs better than another because they have very different purposes. If you are looking for a higher-performing hoisting system in terms of lifting speed, your best option would be to implement minimal reeving.
With their higher load capacity, wire rope hoists are an invaluable part of any heavy machinery maintenance shop, casting and stamping plant, and any facility that handles heavy steel bundles.
They are also the preferred option for use in extreme environments because of their corrosion resistance (by treatment of the individual wire strands) which makes them more suitable for changeable weather and environmental conditions.
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As we mentioned above, one of the biggest assets of a chain hoist system is its maneuverability. For this reason, they are best suited to a small part or component manufacturers. You will commonly find chain hoists in body shops as they are used to lift and maneuver engine blocks and other components in cars, trucks, and RVs.
Chain hoists are also a staple part of most modular home manufacturing facilities and shops handling sheet steel for laser and plasma technologies.
The most important consideration is the duty cycle of the hoist. The duty cycle is the proportion of time when the hoist will be in operation and it is expressed as a ratio or percentage.
Imagine that your hoist will operate for one minute and then it is switched off for 49 minutes, then on for another minute and idle for another 49. This means that it is running for two minutes every 100 minutes, and therefore its duty cycle would be expressed as 2/100 or 2%.
You should also consider the maintenance intervals of the hoist, how long the hoist can be out of service, and how this will affect the operations in your factory or plant.
The simple solution is to look at the weight of the loads you need to maneuver or hoist.
This factor is more important fundamentally to the type of hoist that will be best suited, and the weight will affect decisions in planning regarding future maintenance and how this will affect plant operations.
If the load is smaller (¼ – 2 tons) and the application will be using a workstation crane, then a chain hoist will likely be the best solution. If your requirements are for loads of 3 tons and up using a motorized bridge crane, you should use a wire rope hoist.
Both systems will span a very large price range which is to be expected considering their range of applications and requirements.
Electric chain hoists are less expensive, ranging from $2K-10K. Wire rope hoists can be anywhere between $5K-100K depending on the application and what upgrades you choose.
The unit cost isn’t the only one to consider though.
You should also think about the implications of adding a new system to your plant and the additional training that your staff will require. This is generally more important when switching from chain hoists to wire rope hoists, but nevertheless, even a chain hoist will require some training.
Don’t forget to think about maintenance costs which are generally far higher for wire rope hoists. Even though a wire rope hoist is more expensive, when it is properly maintained it can have a lifespan of 20+ years compared to 10 years for an electric chain hoist.
Getting the most out of your workspace is important. It doesn’t matter if you have multiple plants or a small workshop in your garage.
We are committed to helping American businesses maximize production. Call our main office at (574) 646-2015 to talk to an overhead crane expert or get a free quote.
Not surprisingly, the most frequent wire rope hoist use is also the most straightforward: lifting heavy things. In countless warehouses, construction sites, and manufacturing facilities around the world, wire rope lifting hoists are often the preferred manual lifting equipment to handle loads of all types and sizes. The unlimited length of wire rope they can pull allows them to lift and lower tools, bundles of building materials, mechanical units, and even platforms over vast heights, making them especially useful on projects such as moving heavy equipment, bridge or building construction, or at sites such as wind turbines. And since wire rope hoists are compact, easy to operate, and capable of applying force at odd angles, one or more of them used together can make positioning awkwardly shaped heavy objects in tight spaces (large pipes in-between floors or in underground tunnels, for example) easier and safer.
The ability to pull with power and precision makes a wire rope hoist well-suited for tensioning applications. Applying sustained tension to cables and platform sections is essential to suspension bridge construction and maintenance. Wire rope hoists can also be used to tension the cables used on utility poles and in elevators. Other tensioning applications include fencing, rigging, and guy wires that stabilize towers and large antennas.
In addition to all the ways in which they help with the construction and erecting of structures, lever-operated rope hoists can be very effective in bringing buildings down. The hoist’s unlimited wire rope length and horizontal pulling power make it possible to pull and break apart load-bearing structures within a building for a precisely controlled demolition while maintaining a safe distance. This reach and power also make the hoist a useful mining tool, pulling down vein reinforcement structures at a distance. During cleanup, the same hoists can serve as the manual lifting equipment that helps with shifting and removing heavy chunks of debris.
Manually operated hoists can be literal lifesavers. For fire and rescue crews, the portability of the hoist means that it can be carried to any part of an accident or fire scene and be put to use before heavy equipment can even arrive. A lifting hoist that is certified for manriding can be used to raise or lower rescuers or victims in deep shafts or on high buildings. Even a single worker can use the strength of a hoist to move a rolled-over or below-grade vehicle on an accident site or to reposition a derailed mining wagon, and firefighters can get a hoist up a ladder or into an obstructed hall to help vent a roof or to pull down doors and walls and reach trapped victims.
Arborists, landscapers, and even homeowners can use a wire rope hoist to assist with tree removal and related tasks. Felling a tree trunk at a precisely controlled angle is easier with a hoist applying pull from the appropriate direction. Branches damaged by disease or severe weather can be pulled down with the power a hoist, and a fallen limb which is resting on a vehicle or other fragile object can be carefully lifted. Manual wire rope hoists can also be used for removing tree stumps and roots, or to haul logs into position for carting away.
A range of lever-operated wire rope hoist models are available. They are primarily distinguished by the nominal capacity or weight they are certified to lift. The use of sheaves and pulleys can dramatically increase the effective power of a lifting hoist, and some hoist models are available with hydraulics to increase their capacity. These powered hoists can be arranged in coordinated batteries or groups, combining their power to lift thousands of tons. Certain hoists are specially engineered and tested for manriding use, meaning that they can safely raise or lower people. You should always rely on expert advice when selecting a hoist for any application.
For decades of experience manufacturing and applying manual lifting equipment, talk to Tractel®. As the creators of the original tirfor®/Griphoist lever-operated hoist, Tractel is the authority you can trust for superior products, service, and global support.
Contact a Tractel specialist today for information about wire rope hoists and our complete range of material handling and lifting solutions.
You can also visit our Griphoist page to learn more about our come-along winch solutions.
Contact us to discuss your requirements of Metallurgical Wire Rope Hoist. Our experienced sales team can help you identify the options that best suit your needs.
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