To move extremely heavy or bulky loads through the bridge space in a facility, instead of through aisles or on the floor, an bridge crane (also called an industrial crane, crane, or bridge traveling crane is a machine that lifts, lowers and moves a load horizontally. Bridge cranes have high lifting capacities for load movement. Crane travel is directed by an operator, either manually or with a wired pendant station or wireless controls that guide their electric- or pneumatic-powered travel. Typical uses include multi-directional movement of materials to support manufacturing, storage, loading or unloading activities inside a facility, outside in a yard, or at a railway or shipping port.
Bridge cranes cover a rectangular area, moving a load side to side and backward and forward. The lifting device, called a hoist is mounted on a trolley for horizontal movement across a bridge beam connected to one or more horizontal girders which are supported at either end by end trucks. The end trucks are attached at right angles to the girders and move on fixed runways. The horizontal travel of push type cranes is powered manually by the operator; alternately, an electric bridge crane is powered by electricity. Still other cranes can be air-powered (pneumatic). Cranes come in a variety of styles and are used with a number of attachments to facilitate load lift, including:
- single girder crane - Utilizes a single bridge beam attached to the two runways and end trucks. This bridge beam or single girder supports a lifting mechanism or hoist that runs on the bottom flange of the bridge beam; also referred to as an under running crane orunderhung crane.
- Double Girder Crane – These cranes utilize two bridge beams set atop the runway end trucks. They typically incorporate a top running trolley hoist which moves along the top of the two bridge beams on its own set of wheels for increased headroom under the crane; also called a top running crane.
- Box girder crane - Utilizes a four-sided box configuration in fabricating the bridge girder. This enhances the crane’s load capacity and accommodates wider bridge distances. Generally, they are utilized in pairs with the hoisting mechanism operating on rails attached to the top of each box girder.
- Truss girder crane – A crane designed with structurally reinforced bridge girders for greater span and loading capabilities.
- I-beam crane - Utilizes standard I-beam as the bridge girder and may also employ I-beams as the runway beams.
- Straddle crane - Configured to straddle a load and often on wheels, these cranes are typically used in lumber yards or to move large containers at sea ports.
- Tower crane – Handles very large, heavy loads at construction sites and for the loading and unloading of shipping containers.
- Stacker crane – Cranes that use a load handling device other than a hoist, such as a rotating ridged or telescoping mast suspended from the bridge trolley and equipped with single or double forks or a gripping lifter.
- End effectors or below the hook equipment: A variety of different, application-specific, attachments can be added to the bridge crane’s hoist to handle the lifting or positioning of different loads. These include:
- C hook A device that enables the lifting of a coil by through the insertion of a hook into the coil’s inner diameter. A motorized hook rotator powers the rotation of the hook attached to the bottom block of a hoist for additional load control.
- Gripping lifters use either friction or indentation-causing pressure to hold a load. Tong grabs or clamps utilize a scissor-type action to grip a load. Coil grabs grasp the outer diameter of a coil via tongs or gripping mechanisms to lift or turn it.
- Mechanical lifters are composed of two or more rigid parts that move in tandem when manually actuated to secure the load.
- Vacuum lifters utilize an electric-powered extraction pump and sealed pads to create a vacuum to attach the lifter to an object.
- Sheet lifters use two claws to grab a load of sheet metal or wood by wrapping around the edges. A lip on the lower portion of the claws prevents the sheet from falling out of the lifter.
- Pallet lifters use forks to lift pallets from underneath.
- Lifting beams made from solid or fabricated metal, or from wood, are suspended from a hoist/crane to provide multiple load lifting points for better security and control of the load’s movement. A spreader beam uses two or more hooks to spread the load over more than one lifting point.
- Magnets lift, carry or release flat or round ferrous objects with or without an electrical power supply.
- Slings or strap hoists made of nylon, polyester, wire rope or chain lift materials that are too large and bulky to be transported any other way, such as steel coils or sheets.
- Drum turners turn over drums for filling and emptying.
How are Bridge Cranes Used?
Bridge Cranes assist in the transport and movement of large, heavy loads in a variety of industries, including: Automotive, Beverage, Chemicals, Commercial printing, Manufacturing, ewspaper, aper
Steel, Warehousing and distribution, etc.
Bridge Cranes are used in a variety of areas to support processing and handling throughout a facility:
Assembly: Moving products through production processes
Transportation: Loading finished products onto open trailers or railcars
Staging: Holding work-in-process for additional production processes
Storage: Transporting heavy items to and from storage areas
Warehousing: Moving large, heavy products to and from docks
Benefits
Bridge Cranes provide a variety of benefits:
- Adaptable – Because they can operate on any plant floor surface, and because they can be modified to accommodate changing needs, bridge cranes provide flexibility to an operation
- Customizable – Bridge cranes can be customized with below the hook attachments, end effectors or specialized tooling to handle a diverse variety of products and loads
- Ergonomics – By doing the heavy lifting, bridge cranes take strain off operators, reducing fatigue and lowering the risk of injury
- Faster direct paths – Bridge cranes take product up and over obstacles, instead of navigating back and forth through aisles
- Load control - Radio remote controls and independent traveling pushbutton pendants allow for a better view, while keeping the operator away from the load and any associated danger
- Lower maintenance costs – Incorporating the latest technologies and offered in a variety of usage and capacity ratings, bridge cranes require less maintenance compared to other lifting devices
- Positioning – Highly automated systems maneuver with the precision of one thousandth of the rated speed to an exact location
- Reduce labor expenses – A single bridge crane can replace multiple forklifts and cover a large work area
- Reduction in product damage – By allowing for smooth, direct-path transportation over obstacles—with soft start features, multiple speed options and a variety of end effectors to interface with and secure the load—products are handled gently to minimize damage
- Safety – Because they operate bridge and work in a specific area, bridge cranes are less likely than forklift traffic to maneuver loads into personnel, walls, machinery or other obstacles
- Stack product higher – Bridge cranes allow for greater lifting heights than forklifts, enabling higher vertical storage and more efficient use of space