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Crane Accidents Analysis and Preventive Measures

25 Sep, 2015

In the mechanical world, cranes are frequently to be seen in construction areas, in mining, logging, steel factory, plastic plant, warehouse and other applications for material handling. There is no exaggerate that industry cranes are the workhorse which have increased productivity and economic growth in their own ways. However, behind the splendid contribution made by various cranes, there are sacrifices caused by crane accidents. In order to avoid crane accidents from happening, the probable causes are analyzed and preventive measures are recommended for your reference.

Crane Accidents Causes

An industry crane can be a dangerous piece of equipment. Each and every year there are injuries and death occurred due to the crane accidents. According to the statistics of U.S Bureau of Labor Statistics, from 1992 to 2006, there were 632 death caused by crane accident in the construction area alone.

Causes of Crane-Related Deaths in Construction, 1992- 2006

crane accidents  causes

*64 stuck by falling crane booms/jibs included.
** 21 falls from cranes, 9 falls from crane baskets, 8 from crane loads included.
*** 9 highway incidents are included in other causes.
Source: U.S. Bureau of Labor Statistics Census of Fatal Occupational Injuries Research File

 From the above statics, the deaths mainly are caused by overhead crane power line electrocutions, struck by crane loads, crane collapses, struck by crane booms/jibs, and falls, etc.

Electrocutions –from overhead power lines

Among these causes, the electrocutions from overhead power lines takes away 157 people, which mainly caused by foot touching/ guiding loads cables, operating crane, foot touching crane, with the percentage of 52%, 25%, 13%, and 10 % for other reasons.

crane accidents causes diagram 1
*64 stuck by falling crane booms/jibs included.
** 21 falls from cranes, 9 falls from crane baskets, 8 from crane loads included.
*** 9 highway incidents are included in other causes.
Source: U.S. Bureau of Labor Statistics Census of Fatal Occupational Injuries Research File

Struck by crane loads

There were132 people who were died of being struck by crane load, which mainly happened during loading or un-loading, or caused by other crane related work, or happened during flagging, directing or guiding, or happened during crane operating, with the percentage of 32%, 15%, 14%, 7%. Even there were 32% of accidents happened to workers which were not involved with cranes.
Crane collapse

From 1992 to 2006, there were 81 crane collapses, causing the deaths of 89 people. Among the 89 crane collapses, the main causes were unknown which takes 51% of the crane collapse cases, and the other left are caused by unstable surface such as uneven surface or slippy surface such as icy surface, or caused by broken crane cables or rigging or stabilizers, or caused by crane load or boom shift, with the percentage of 15%, 14%, 12%,and 9% respectively.

crane accidents causes diagram 2

Struck by falling boom/jib

According to the statics, 64 people were killed by falling crane booms or jibs. The deaths of 64 peoples were caused by the striking of the dismantling boom, the broken boom or boom cable, lengthening boom, and others, with the percentage of 56%, 22%, 9%, and 22% respectively.

Cranes Involved in Fatalities

Mobile cranes

Mobile cranes took 71% of the crane accidents, which was mainly involved with the overhead power supply line accidents, crane collapses, and boom or jib cranes, taking the percentage of 84%, 63%, and 60 % respectively.

Tower cranes

Tower cranes took 5% of crane related accidents, which were mainly caused by crane load accidents, and by jib striking.

Floating cranes and unspecified crane

There was 24% of crane accidents caused by floating cranes or unspecified cranes according to the statics. There are 13 floating crane accidents, 12 overhead crane accidents and 49 unspecified crane accidents involved.
Occupations of the death or injuries
According to statics, the construction laborers, heavy equipment operators including the crane operators, operating engineers, hoist operators, winch operators and other construction equipment operators, supervisors, mangers, iron workers, mechanics, and others such as welders, cutters, electrical workers, mechanics, sheet metal workers, trucker driver, etc., are exposed to the danger of crane accidents in the construction application. The specific diagram is presented for you reference.

Causes of Crane-Related Deaths in Construction, 1992- 2006

occupations of death or injured in crane accidents

*62 crane and tower operators, 21 operating engineers and other construction equipment operators, and 7 hoist and winch operators.
** 24 welders, and cutters, 22 electrical workers, 21 mechanics, 17 sheet metal workers, 14 truck drivers, and 73 others.

General Cranes Hazards

According to study and statics, there are inherent hazards that may occur during the application environment. A crane is dangerous. Most of the crane accidents are attributed to several basic hazards. The general crane hazards can be classified in the following forms:

  1. Dormant hazards refers to the undetected hazards, caused by crane design or crane use.
  2. Armed hazards is the armed dormant hazards which become ready to cause harm during certain conditions.
  3. Active hazards is the armed hazards triggered by certain conditions which cause harms and damages and preventive measures are too late to escape.

General Crane Hazard Preventive Measures

There are rare chance to change the design of a crane at the working site to make it safer, however, crane hazards are controllable if the crane operator and user take preventive measures:
1. Minimize or eliminate the hazards. During the crane designing projects, the hazards produced by particular work circumstances should be minimized or eliminated.
2. Guard hazard. Hazard that can not be totally eliminated should be minimized or reduced through appropriate measures to protect and monitor to prevent the hazards from being activated or triggered.

Preventive measures are recommended as follow:

  • A. Screens or covers should be installed over moving parts.
  • B. To prevent electrocution, the energy power lines of cranes should be covered by local electric utility install line guards or covers. Also, the insulated link on the hoist line should be installed to prevent the passage of electric current from the hook through the load to the person guiding the load on the ground.
  • C. The dangerous zone produced by the rotating crane cab should be banned from entry by guardrails or barriers.
  • D. A crush-resistant can and restraint system should be installed to protect the crane operator in case of the occurring of upset.

3. Warnings. Warning devices should be installed to detect hazards and emit warning signal when the hazards can not be controlled by the above mentioned measures.
4. Special procedures and training. Special operating procedures, training and audits must be employed to guarantee that a viable, continuing regimen will effect avoidance of the hazard.
5. Personal protective equipment. Crane user, operators, and other related workers should wear proper protective equipment, such as, gloves, hard hats, safety shoes, aprons, goggles, safety glasses, life jackets, lifeline, taglines to guide the load, etc.

Common Crane Hazards and Preventive Measure

Crane power line contact

Power line contact is the inadvertent contact of any metal part of a crane with a high voltage power line.

Crane accidents preventive measures:
1) Pre-job planning is the most effective measure to avoid crane power line contact.
2) Designate a person in charge to pre-job planning because of large number of working staff engaged in the working place.
3) The crane power lines and the crane working area should not occupy the same area.
4) Visual guidance should be given to the crane operators and loads guiders, and those working closely with cranes about the dangerous zone where is within a radius of 10 feet in any direction from the crane power lines.

Overloading

Crane overload is strictly prohibited. However, it occurs when to handle a loads exceeding the rated capacity of the crane. Then crane accident happens due to the upset or structural failure.

Crane accidents preventive measures:
1) Crane operators should be trained on planning and load measuring.
2) More advanced and precise devices such as solid-state micro-processing electronics and load-measuring systems should be installed on the crane to warn the occurring of overload and stop the operation automatically.
3) On job-training is necessary to crane operators even if they are all qualified.

Failure to use outriggers; Soft ground and structural failure

Many cranes upset because of the causal use of outrigger, i.e. the operator cannot extend the outrigger because of the limited space or because the outrigger pads may be too small to stand the crane even on hard ground. Due to overloading, defective or placed on inadequate foundation, crane outriggers may collapse.

Crane accidents preventive measures:
1) Safeguards should be ready before the operation of the crane.
2) Aerial basked designs with limit switches should be installed to prevent the movement of boom until outriggers are extended and in proper place to prevent upset.
3) Well-designed blocking or cribbing is necessary under the outriggers when ground is soft or when the floats or pads of outriggers is inadequate.
4) The blocking used to support outriggers should be ensured to be strong enough to prevent crushing and shifting or toppling under load.

Two-Blocking

Two-blocking refers to the hoist block or hook assembly come into contact with the boom tip, resulting in the breaking of the hoist and hook line and the fall of the loads, risking the life of the workers below.

Crane accidents preventive measures:
1. An anti-two-blocking device can be installed. a) It could be a weighted ring around the hoist line. It is suspended on a chain from a limit switch attached to the boom tip. B) It also can be a wired to intercede and stope the hoisting and stop the hoisting.
2. As for hydraulic cranes, the hydraulic valving will help the hoist line out when the boom is being extended to avoid two blocking.
3. Adequate boom length can effectively avoid the contact of hook and the headache ball with boom tip for it can provide accommodate both the boom angle and sufficient space for rigging.

Pinchpoints

Pinchpoints can come into two ways:
1. Within the swinging radius of the rotating superstructure of a crane is areas where people may be injured between the carrier frame and the crane cab, or between the crane cab and an adjacent wall or other structure.
2. The gears, belts, rotating shafts, etc., without safety guard within the crane are the pinch points which many injured people.

Crane accidents preventive measures:

1. The swing area of the crane cab and counterweight must be isolated with barriers to prevent entry.
2. Reduce the incentives such as water jugs, tool boxes, and rigging materials from crane cabs to prevent pinching.
3. Rear view mirrors installed can help crane operator to get a better view to the turning area of the cab and counterweight to get a better safety.

Obstruction of vision

The safety of crane operation will be compromised by the obstruction of vision when the crane operator can not see what the operator, rigger, or signaler is doing, which may injure people by the moving loads or the crane.

Crane accidents preventive measures:
1. Pre-job conference and planning and preventive measures are the most effective way to prevent crane accidents.
2. Radios and telephones should be used to assist the signalers to overcome the hazards of blind spots produced during loading, etc.
3. Automatic travel alarms is an effective to warn those in the immediate vicinity of crane travel movement in pick-and-carry functions.
 

Safety tips for your eot cranes

Crane safety overview is for you to ensure the safety of your overhead bridge crane, gantry crane, jib crane, workstation crane. Tips on crane safety control, safety devices, operational safety, crane inspection and maintenance, crane accidents and crane risk analysis and preventive measure, and crane factory visiting safety, etc., are for your reference.

Crane safety control and safety devices

  1. Overhead crane safety: Bridge Crane, Eot and overhead bridge crane travelling crane safety
  2. Double girder overhead bridge crane safety control
  3. Overhead crane safety tips and 6 misconception on Overhead crane safety
  4. Crane Safety: Overhead travelling crane Safety Devices
  5. Which parts of your overhead bridge crane need safety protection devices?
  6. How to Ensure Overhead travelling crane Safety | Dongqi Crane Safety
  7. Gantry Crane basic: Gantry crane windproof anchor devices
  8. Crane brakes, crane brake parts and crane brake system

Operational safety

  1. Crane Operation Risk Analysis- Dongqi Crane Safety
  2. Gantry Crane Operation Precautions

Crane inspection and maintenance

  1. Overhead and Gantry Crane Safety and Inspection Requirements
  2. Overhead travelling cranes: Crane Daily Inspection and crane maintenance
  3. Bridge crane inspection and maintenance ensure your bridge crane safety
  4. crane parts scrapped standards: When to replace your crane parts?

Crane accident rish analysis and preventive measures

  1. Crane accidents and crane safety measures for overhead bridge crane, gantry crane, jib crane
  2. Eot crane safety: Danger of overhead bridge crane overload
    How to prevent crane collapse
  3. Hoist Cranes Safety Measures under Dust, Humid, Hot and Cold Conditions

Crane repair and maintenances

  1. Crane Maintenance Basic: Crane Maintenance Procedures
  2. Crane lubrication: manual crane lubrication or centralized crane lubrication?
  3. Overhead travelling crane Camber Deformation and Restoration
  4. Crane Repair and Overhead travelling crane Safety Tips from Overhead travelling crane Engineer, Informative and Practical
  5. Crane Gearbox Leak Causes and Control Methods
  6. Rail gnawing prevention for industrial crane safety

Visiting safety

  1. Crane Factory Visiting Safety Guide - Crane safety for visitors

If have any problem on crane safty, please feel free to contact us. Email: sales@cranesdq.com. WhatsApp/ WeChat: +86 150 3617 7583. Dongqi will assure you the safety of your overhead bridge crane, gantry crane, jib crane, etc.

Dongqi safe eot crane offering

Single girder overhead bridge crane offering

Single girder hoist overhead bridge crane

Electrical hoist single girder overhead bridge crane

Electrical hoist single girder overhead bridge crane is widely used in the factory, ware house, stockyard, etc.

Electrical hoist single girder overhead bridge crane specifications: Product type: LD single girder overhead bridge crane, Lifting capacity: 1~32t, Span length: 7.5~28.5m, Working class: A3,A4,

Explosion proof single girder overhead bridge crane

Explosion proof single girder overhead bridge crane

Explosion proof single girder overhead bridge crane is designed for hazardous environment, such as, gas, dusty environment to enhance safety.

Explosion proof single girder overhead bridge crane specifications: Product type: LB single girder overhead bridge crane, Lifting capacity: 1~20t, Span length: 7.5~28.5m, Working class: A3,

Low Headroom Single Girder overhead bridge crane

Low headroom single girder overhead bridge crane

Low headroom single girder overhead bridge cranes are designed for low height plant and factory, where the lifting room is limited but lifting height is high.

Low headroom single girder overhead bridge crane specifications: Product type: LDP single girder overhead bridge crane, Lifting capacity: 1~32t, Span length: 7.5~22.5m, Working class: A3, A4,

FEM single girder overhead bridge crane - Dongqi overhead bridge crane

FEM electrical hoist single girder overhead bridge crane

FEM hoist single girder overhead bridge crane is designed with features of Sturdy quality,Good price, One year quality assurance, Full set of after sales service.

European hoist single girder overhead bridge crane specification: Product type: HD single girder overhead bridge crane,european crane Lifting capacity: 1~30t, Span length: ≥6m, ,Working class: A5,

European Style Underslung Crane

European underslung single girder overhead bridge crane

European underslung single girder underslung crane is installed on the roof of the workplace without bracket, saving space and lowering cost.

Underslung single girder overhead bridge crane specifications: Product type: NLX single girder overhead bridge crane, Lifting capacity: 1~20t, Span length: ≥ 6m, Working class: A5,

Single girder suspension overhead bridge crane

Suspension single girder overhead bridge crane
Suspension single girder overhead bridge crane is a small light lifting equipment, economical price, which is widely used in the factory, warehouse, stockyard, etc.

Suspensions single girder overhead bridge crane specifications: Product type: LX single girder overhead bridge crane, Lifting capacity: 1~10t, Span length: 3~15m, Working class: A3,

Double girder overhead bridge crane

European Style double girder overhead bridge crane

European double girder overhead bridge crane
FEM double girder overhead bridge crane meets all the European crane standards with CE cerfiticates.
Fem double girder overhead bridge crane specifications:Crane Capacity of 5~ 80 ton,Span length:10.5~35.5m, Working class:A4~A7,

Double girder electric hoist overhead bridge crane

Electric Hoist double girder overhead bridge crane
Electric hoist double gider overhead bridge crane is widely used in machinery fabrication, metallurgical plant auxiliary workshop, storage, stock ground, and power station, textile industry and food industry.
Double girder overhead bridge crane specifications:Capacity:5~63 ton,Span Length:8m~32m,Working Class:A3~A5,

overhead bridge crane with hook - Dongqi double girder overhead bridge crane

Hook Double Girder Overhead Orane
General use hook overhead bridge crane is widely used to upload and move of normal weight in the fixed crossing space and also can work with various special-purpose hoist in special operations.
Hook double girder overhead bridge crane specifications:Capacity:5-550 ton, Span length:10.5~35.5m, Working class:A4~A7,

Explosion proof double girder overhead bridge crane

Explosion Proof double girder overhead bridge crane
Explosion proof overhead bridge crane is designed for explosive gas atmospheres with explosion-proof electrical equipment.
EX-proof double girder overhead bridge crane specifications:Capacity:5~75 ton, Span Length:10.5~31.5m,Working Class:A4, A5,

Electromagnetic crane - double girder overhead bridge crane of Dongqi

Electromagnetic double girder overhead bridge crane
The electromagnetic overhead bridge crane is used in metallurgy factory or outdoor place to load and transport electromagnetic black metal materials, such as , steel ingot, merchant steel and pig iron, etc.
Electromangetic double girder overhead bridge crane specifications:Capacity:5~32 ton,Span Length:10.5~31.5m,Working Class:A5, A6,

Double trolley overhead bridge crane- Dongqi double girder overhead bridge crane

Double Trolleys double girder overhead bridge crane
The double trolley overhead bridge crane is used to lift long and big loads.
Double girder overhead bridge crane specifications:Capacity:(2.5+2.5)~(200+200) ton, Span length:10.5~35.5m,

Insulation crane - double girder overhead bridge crane of Dongqi

Insulation double girder overhead bridge crane
The insulation overhead bridge crane is used to handle electrolyse non-ferrous metals such as magnesium, aluminum.
Insulation double girder overhead bridge crane specifications:Capacity:5~50 ton,Span Length:10.5~31.5m,Working Class:A6,Ambient Temperature:-25~50℃,

Grab crane - double girder overhead bridge crane of Dongqi

grab bucket double girder overhead bridge crane
Grab overhead bridge crane is widely used in power station, storage, workshop, and port to load and unload scattered objects.
Grab bucket double girder overhead bridge crane specifications:Capacity:5~25 ton ,Span Length:10.5~34.5m,Working Class:A6,

Ladle overhead bridge crane

Ladle double girder overhead bridge crane
Ladle overhead bridge crane are widely used in the smelting industry to convey, pour and charge the liquid hot metal in the process of smelting.
Double girder overhead bridge crane specifications:Capacity:5~74 ton,Span Length:10.5~31.5m,Working Class:A7,Ambient Temperature:-10~60℃,

Make your overhead bridge crane safer

Parameters of overhead bridge crane drawing
Overhead crane: S= Crane Span, H= Lifting height

In order to give you suitable overhead bridge crane safety solution promptly, please help our overhead bridge crane engineer to confirm the following information as much as possible:

  1. Types of overhead bridge crane: (Single or double girder? European type or Common one? )
  2. Capacity:
  3. Span:
  4. Height of Lift:
  5. Power supply: (3phase? Voltage? Hz?)
  6. Bay/ Travelling Length:
  7. Quantity:
  8. Operation: Through Pendant/Radio Remote/Cabin Control
  9. Indoor/Outdoor:
  10. Application (What are you planning to lift) :
  11. Environment (Normal/ hazardous) :
  12. Building drawing if possible:
  13. Location:
  14. Industry type: (Eg: Auto, steel, sugar, stone, etc)
  15. Rail Existing/New: (Size in case of Existing)
  16. Number of Cranes in bay:
  17. Existing Structure/New Structure:
  18. Your full company address and contact details:

If you do not know about how to solve your overhead bridge crane problems, please feel free to leave us a message or email to sales@cranesdq.com. WhatsApp/ WeChat: +86 150 3617 7583. The reply of our overhead bridge crane engineer will be given within 24 hours. Get your custom overhead bridge crane solutions.

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