Tag Archives: manual handling

Eye Protection, First Aid Safety, General Safety Issues, Hand Protection, Head Protection

HOT WORKS – SAFE WELDING OPERATIONS (GUEST POST)

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Sent by Jason of riskatmedia.com 

There are particular hazards associated with hot works, which includes welding activities, the use of oxy/gas equipment and acetylene, cutting operations and air-arc gouging. Each year over 1000 work related injuries to welders are reported to the Health and Safety Executive in the United Kingdom.  Approximately 300 of these are major injuries, such as amputations and fractures.  Some of these injuries result from hazards that accompany almost all types of work activity, such as handling, slips and trips and being hit by a moving or falling object.  Others are more likely to be solely associated with welding activities, such as the intensity of electric arcs and high temperatures. 

Manual handling

Prior to carrying out any unavoidable manual handling activity, you should help to protect yourself from injury by following good manual handling practices. Consider the task to be carried out and the nature of the load, and be aware of your own capabilities and the environment in which you are working. In particular, portable welding equipment, gas cylinders and work pieces can be extremely heavy and you should give consideration to safe manual handling practices before undertaking any job that involves lifting these items. 

Slips, trips and falls

Slips and trips can result from contamination, obstacles, inappropriate footwear, reduced visibility, the environment and people’s attitudes. Good housekeeping can significantly reduce the risk of serious slip and trip injuries. Containing spent rod ends and removing debris, slag, packaging and other waste materials to waste skips. You can also reduce the risk of slips and trips by properly routing any cables or air hoses that you use.

A safe place of work should be established to take into account the restricted visibility resulting from welders wearing protective head-shields. Consider whether the environment in which you will be working increases the risk of slips and trips and take responsibility for your own and your colleagues safety by appropriately containing any spills that you might discover. 

Moving or falling objects

Death or injury can result when large and heavy objects, such as gas cylinders used during welding operations, tip or fall because they have not been properly secured. Gas cylinders should always be secured by means of a chain, strap or cable to a building support, or proper cylinder cart. Bottle trolleys should also be covered when gas cylinders are moved short distances. 

Electrical Dangers

Electric shock from welding equipment can result in death or severe burns. Serious injury can result if the welder falls as a result of the shock. To prevent the risks posed by electrical hazards, all equipment should be tested and certified before use. Air pipe work should be checked to ensure that there is no electrical conductivity between the ends and the welding return cable should be connected as close as possible to the work piece. The electro-magnetic field produced by certain types of welding equipment may pose a risk to welders who have implantable medical devices fitted. Please make sure that you have informed your supervisor if you have an active implantable medical device, and talk to your doctor about the safety of using welding equipment in relation to your medical device. 

Fire and Explosion

Welding and allied processes produce molten metal, sparks, slag and hot work surfaces which pose a risk of fire and explosion, and which can result in fatalities, serious injury and plant damage. Flying sparks are the main cause of fire and explosion, especially as sparks can travel up to 10 metres from the work space. Sparks and molten metal can travel even greater distances when falling and can pass through and become lodged in cracks, clothing, pipe holes and other small openings. To reduce the risk of fire and explosion when carrying out Hot Works, a permit for work should be obtained before commencing work on any operational plant. Working areas and the areas below them should be kept free of combustible material. Fixed items of plant, such as installed electrical cables should be protected by a fire blanket. Sparks should be contained by means of a non-flammable material. Fire extinguishers should be close at hand, and the working area should be inspected when work is suspended to ensure there is no residual risk of fire or explosion. 

Oxy-Gas Equipment

Additional precautions are necessary when working with oxy-gas equipment. Gas bottles should be in an upright position, secured to prevent falling and located in an open aspect during use. The cylinder valves should be kept shut while hoses and equipment are being connected or disconnected. The requirement to fit flash back arrestors to both hoses is mandatory, but you should also ensure that you have enough gas in both cylinders to complete the job and that you follow the manufacturer’s guidelines for proper shut-down and start-up procedures for the equipment you are using to reduce the risk of flashbacks. The bottle key should be kept on the valves while equipment is in use to enable quick shut off in the event of an emergency. A fire watch should be maintained during operations.

All gas cylinders should be isolated when not in use to prevent oxygen or gas enrichment. And all operators should subject oxy-gas equipment to daily pre-use checks, such as leak detector spray or pressure drop tests. Contamination of gas cylinders by oil or grease should be avoided, as this may increase the risk of fire and explosion. Direct exposure to fire can initiate a heat generating decomposition reaction within acetylene gas leading to the potential for explosion. Any cylinders exposed to a fire should therefore be isolated for at least 48 hours, or until deemed safe. When not in use, gas cylinders should be stored in properly constructed and ventilated cages, with no source of ignition within three metres. 

Eye damage and burns

Most welding and related activities produce significant quantities of non-ionising radiation, such as visible light, ultraviolet and infra-red, which can cause eye damage and painful skin burns. The intensity and wavelength of energy produced depends on the process, welding parameters, electrode and base metal composition, fluxes, and any coatings or plating on the base material. Ultraviolet radiation increases approximately as the square of the welding current. Visible brightness or luminance of the arc increases at a much lower rate. Processes using argon produce larger amounts of ultraviolet radiation than those using most other shielding gases. The risk of injury to the operator resulting from exposure to non-ionising radiation can be reduced by decreasing the length of exposure, wearing a head shield and standard Personal Protective Equipment or PPE with gauntlets and Proban fire-retardant overalls. 

Welding Fumes

Many welding processes produce fumes which are potentially harmful. Depending on the materials involved, the ill effects can include irritation of the eyes, skin and respiratory system, or more severe complications such as impairment of speech and movement. Symptoms of over-exposure to welding fumes may manifest immediately or some considerable time later. To reduce these risks, position the work area with an open aspect to minimise fume concentrations. Use forced ventilation where necessary and, in confined spaces, an air fed hood. Use a disposable mask appropriate to the type of fumes produced during work operations, and remember that respirators are mandatory for stainless steel welding. It is also important to refer to the relevant Hazardous Material Assessment which will outline additional safe working practices for the materials used. 

Work piece Stability

Where cutting operations are performed, it is always important to give consideration to the effect that these operations will have on the stability of the work piece. In particular, consideration should be given to weight distribution, as the removal of significant weights may alter the balance of the work piece. Where appropriate, the work piece should be supported. You should also plan how items that have been removed will be lowered without risk to yourself, to others who may be working nearby, or to equipment. 

Emergency procedures

In the event of an emergency, conduct an initial assessment of the situation. If you believe that the situation is beyond your control, evacuate the area immediately. Turn off all valves, but only if it is safe to do so. If the flame from a leak cannot be extinguished by turning off the valve, do not stay and attempt to fight the fire. Evacuate the area immediately. 

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Ergonomics, Eye Protection, Fall Safety, First Aid Safety, Hand Protection, Hearing Protection

POWER TOOL SAFETY (GUEST POST)

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By Jason, from RiskAtMedia: 

All work activities carry the potential to cause harm to our own and others’ health and well-being, but we sometimes forget how real and close to us these hazards are.  Every year, a large number of people are killed at work, and an even greater number of people suffer work related injuries because they are unable to follow safe working practices. There are particular hazards associated with the use of powered tools, some of these hazards accompany almost all types of work activity, such as manual handling and slips and trips.  Others are of particular concern to powered tool operators and we will consider these in this Power Tool Safety brief. 

Manual Handling

Manual handling related activities are a major cause of occupational injury.  Low back pain, joint injuries and repetitive strain injuries of various sorts, affect over a million people each year, and many of these injuries are the result of manual handling. Prior to carrying out any unavoidable manual handling activity you should help to protect yourself from injury by following good manual handling practices.  Consider the task to be carried out and the nature of the load, and be aware of your own capabilities and the environment in which you are working. In particular, tools and work pieces can be extremely heavy and you should give consideration to safe manual handling practices before undertaking any job that involves lifting these items. 

Slips, Trips and Falls

Slips, trips and falls represent a significant cause of work related injury.  Slips and trips can result from contamination, obstacles, inappropriate footwear, reduced visibility, the environment and people’s attitudes.  Good workmanship and good housekeeping are practices that can help to prevent accidents and fires.  By removing debris, swarf, packaging and other waste materials to waste skips you can contribute significantly to good housekeeping.  You can also reduce the risk of slips and trips by properly routing any cables or air hoses that you use, by appropriately storing materials, tools and other equipment and keeping walkways clear, by ensuring that you always wear appropriate shoes and by taking responsibility for your own and your colleagues safety and appropriately containing any spills that you might discover. 

Contact Risk

Contact with moving or rotating power tools is a significant hazard to personnel using power tools, as well as to personnel working close by, and can result in serious injury.  All personnel need appropriate training and experience to be able to use work equipment safely.  Never use any work equipment unless you have received suitable training and are qualified and competent to do so.  Before you begin to use a powered tool, make sure that you have read the manufacturer’s instructions for use.  Study the tool to make sure that you know which parts of the tool move, which parts are stationary and which parts are sharp.  Make sure that all guards are in place.  Where appropriate, remember to securely clamp tools or work pieces.  And ensure that you only use tools for the job they were intended to perform, as this can significantly reduce the risk of injury.  To protect others from the risk of contact with the moving or rotating powered tool parts, make sure any necessary warning signs and barriers are in place before you begin work.  You should also take care if you need to walk through or work in an area adjacent to where another person is using powered tools. 

Electrical Safety

Electric shock from powered tools can result in death or severe burns.  Additionally, serious injury can result if the operator falls against a powered tool as a result of the shock.  To prevent the risks posed by electrical hazards, all electric powered tools should carry a valid test certificate or label.  Testing should be carried out by suitably trained individuals.   If an electric powered tool does not carry a valid test label, it should not be used and you should inform your supervisor. 

Malfunction

You should also carry out a visual pre-use inspection of all tools to ensure that they remain undamaged.  If you do discover a defect, please do not use the tool and report the problem to your supervisor.  Never attempt to make temporary repairs to a tool.   You should also observe the tool while it is in use for possible signs of malfunction.  If you notice that the tool is vibrating abnormally, doesn’t sound right, or is displaying signs of any other problem, switch it off and report to your supervisor.  When using an impact wrench, only sockets specifically designed for use with impact wrenches should be used and you should carry out a daily pre-use inspection of the socket to ensure that it is undamaged.  Never use sockets designed for hand ratchets on an impact wrench. 

Maintenance

Ensuring that equipment is appropriately cleaned and maintained is also central to safety.  Clean tools after each use, as a dirty tool is unsafe and is difficult to use.  When you carry out maintenance, make sure that the equipment is isolated and cannot be turned on accidentally.  Ensure swarf has cooled before using gloves and a brush to remove it and clean the tool.  If you need to remove swarf from a running powered tool to prevent long strands developing, make sure that you are not wearing gloves and use a rod to remove the swarf.  Never use a rag to clean a tool while it is running and never use compressed air to clean a tool. 

Entanglement

When using powered tools, wear close fitting garments, do not wear a tie or jewellery and tie back long hair and long beards to reduce the risk of entanglement. 

Personal Protective Equipment PPE

Personal Protective Equipment, or PPE, is an important means of reducing the risks associated with projectile particles produced when using powered tools.  At least standard PPE with safety glasses should be worn.  It may be necessary to screen the work area if projectile particles pose a hazard to individuals working or passing nearby.  Only PPE in good working condition will reduce the hazards associated with your work, so it is important to remove, clean and store your PPE correctly. 

Noise at Work

Hearing loss caused by exposure to noise at work is a significant source of occupational disease, with many people suffering deafness, tinnitus or other ear conditions as a result of exposure to excessive noise levels at work.  The level of noise and how long people are exposed to noise at work both contribute to potential hearing damage.  Noise can be reduced to harmless levels by wearing industiral ear plugs and ear defenders. These items of PPE should therefore always be worn while using impact wrenches, and should also be worn when using other powered tools unless local measurements indicate that noise levels are below the level at which such action is necessary. Controls should also be considered for individuals working in close proximity. 

Human Factors

Human factors also play a role in increasing the risk of injury while using powered tools.  Never come to work in possession of, or under the influence of, alcohol or drugs.  These substances expose everyone to risks that are unnecessary and easily avoided.  You should also not use powered tools if you are overly tired or unwell, as concentration is important to using tools safely. 

Hand Arm Vibration Syndrome HAVS

If you regularly use powered tools, you may be at risk of developing Hand Arm Vibration Syndrome or HAVS.  This condition involves damage to the blood vessels, nerves and joints of the hand, wrist and arm.  It is a painful and debilitating condition, resulting in numbness of the hands to the extent where it is impossible to feel with your fingers and very difficult for you to pick up small objects.  This can make both occupational and leisure activities, such as playing darts, fishing or DIY, impossible.  HAVS is entirely preventable.  Always use the right tool for the job, as this will allow you to complete the job more quickly and will expose you to less hand-arm vibration.  Carry out a pre-use inspection of all hand held equipment and report any damage to your supervisor, as faults and general wear may result in increased vibration.  If you do experience abnormal vibration from hand held equipment, please report this immediately.  Try to reduce the amount of vibration you are exposed to in one go by doing other jobs in between.  Use a relaxed grip and avoid using excessive force on a tool or work piece.  Store tools so that they do not have very cold handles when used next.  Keep your hands warm and dry and take breaks to exercise your fingers regularly.   Wear gloves when using impact wrenches to reduce the effect of vibration. 

Compressed Air

Compressed air is a safe and reliable alternative to electricity for powering impact wrenches and other air powered tools, but it can be dangerous if it is not used responsibly.  In particular, contact with streams of compressed air can penetrate the skin and enter the bloodstream.  All compressed air plant should be appropriately inspected and certified to ensure that it is safe to use.  Never operate air compressors at faster speeds than the manufacturer’s recommendation and ensure that the air intake is from a clean, outside and fresh air source, with screens and filters used to clean the air if necessary.  Unless your tool has a quick disconnect plug, you should always turn off the air supply at the control valve and bleed the tool before disconnecting.  You should never compress, bend or kink air hoses and you should never carry an impact wrench or other tool by the air hose.  And never use compressed air to clean your clothes or yourself. 

Emergency Procedures

In the event of an emergency, isolate any equipment that you have been using and evacuate the area according to the site emergency procedures.  If you are involved in an accident, seek immediate assistance. 

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