Tag Archives: fall protection

BE SMART WHEN IT COMES TO THE DANGERS OF THE HIGH LIFE (GUEST POST)

Reducing the dangers of the high life 

The risks of working at heights are obvious with potential for accidents whilst climbing to and dismounting from the raised point and while carrying out the work once there. In legal terms the word ‘height’ is applied to any surface above the ground from which a fall could result in injury. This could equally be the middle rung of a ladder or a raised operations platform. When it comes to this type of hazardous work, there are certain legal requirements which must be met by the employer. Here we will look at some of the key rules set out in the Working at Height Regulations 2005 pertaining to access and platform safety and safeguard mechanisms for arresting falls (Schedules 1, 3 and 4 of the government legislation) 

While most employers will search for alternative ways to complete work at raised points, such as using mechanical long arms for window and gutter cleaning, it is more often necessary for a hands-on approach to ensure the task is done correctly. The most important areas where safety must be assured are the access points and the working platforms, both of which will be upholding an operator who will be in varying degrees of motion, depending on the task. Therefore, the principal regulations for both sections are the same. The access route and platform must be suitably stable, strong and rigid for the purpose and large enough to hold the person safely upon it. There must be substantial fall-prevention mechanisms in place and no gaps through which any person may fall or become trapped. They must also both be constructed with a non-slippery surface. 

In the event of a fall, certain safeguards can be in place to prevent injury. However, the safeguard must enable the work to be carried out freely without adding to the risk, for example with excess ropes dangling or creating a trip-hazard. If it is indeed ropes which are in use, then training is obligatory for all operators, such as the IRATA (Industrial Rope Access Trade Association) qualification for abseiling. Rope-based safeguarding techniques must also take into account the elasticity of the rope on impact, meaning a much shorter rope than the actual drop distance. If it is an airbag or landing mat being used then this must be secure and stable upon the ground. The safeguard must also be such that it does not injure any person when put to use. 

These regulations are just a few of those which apply to all work carried out at height. Jobs which must abide by these rules include telecommunications rigging, window cleaning, film crews, building, scaffolding and cladding construction. It is legally the employer’s responsibility to ensure their workforce’s safety at all times, but designers and planners must also consider the risks when a new project is being developed. Risk assessments are then used to decide the type of precautions to be put in place so that with sufficient planning and preparation, work carried out at heights can be both safe and productive. 

This article was written by Emily Banham on behalf of Groves Window Cleaning, established in 1985, has over 25 year’s experience of commercial window cleaning. More information on Working At Heights can be found on the following link – http://www.groveswindowcleaning.co.uk/working-at-heights.html.

 

FIVE SAFETY HAZARDS TO AVOID AT CONSTRUCTION SITES (GUEST POST)

Another great article sent to us by Saam Banai

Whether you work in construction, have construction going on in your home, or you commute by construction on a regular basis, there are many things that you should be aware of in order to stay safe from injury around construction sites.  Over the years, construction related injuries and deaths have decreased dramatically due to the federal efforts of OSHA towards “collaborative safety,” but we can still do our part to pay attention our own personal safety regardless of regulations outside of our control.

The Dangers of Heights

Perhaps the most dangerous element of construction sites is gravity.  Usually, heights are involved when constructing multi-floor buildings so it’s possible for workers to fall from high up.  This is when the need for fall protection equipment is imperative. It’s important to be aware of ledges and loose guard rails when working near the edge of a high story.  Additionally, it’s important to be aware of objects that are placed near these ledges.  Tools, boards, and metal pieces might fall on unsuspecting workers or bystanders, ones whom hopefully have access to the best injury lawyers.

Electric Hazards

Electricity is always flowing on construction sites.  Be aware of sockets and frayed wires when installing lights or working with power-tools.  If you’re doing work in your own home, do some research and talk to an electrician before digging into your walls.  There’s no sense in being a hero when repairing or installing electric components for yourself or your family.

Machines

Power-tools and large machines are obviously a source of danger on construction sites.  When operating heavy equipment like cranes or bobcats, be sure to understand all of the safety information in either the booklet or told to you by a professional.  Do the same when working with saws, nail guns, jackhammers, and soldering irons.

Chemical Hazards

Dangerous chemicals are perhaps some of the hardest hazards to avoid on construction sites, but only if you fail to have due diligence.  Asbestos, a cause for Mesothelioma, is one of the best examples of things to look out for.  Others include lead paint, varnish, solvents, and materials that are flammable.  Be sure to use masks and gloves when applicable.

Noise

This danger is less life threatening than others, but it can still cause unfavorable injury.  Constant work with jackhammers and other tools can result in loss of hearing.  That’s why it’s important to always wear protective ear guards when working with louder than normal equipment.  Noise can also prevent people from hearing the warning sounds of other dangers, like an approaching vehicle or falling object.

There are many things to avoid when working or walking around construction sites, and these are just a few.  If attention is paid, and regulations are followed, we can continue the trend of decreasing accidents over the years.  Everyone has to play their part though and be diligently aware of much that is going on while on the job.

Saam Banai is a freelance writer and editor.  He contributes this article for The Perecman Firm PLLC, some of the best injury lawyers in New York, specializing in construction accidents, workers’ compensation, wrongful death, and vehicle accidents.  They have helped victims of various accidents in New York City to obtain over $200 million in settlements and verdicts.

As Saam stated in this article, all types of occupational safety products are needed around construction sites.  Keep your employees safe at all times on the job. 

 

A GUIDE TO SAFETY EQUIPMENT FOR RENOVATION AND CONSTRUCTION (Guest Post)

According to the Occupational Safety and Health Administration (OSHA) under the United States Department of Labor, there were 4,690 workplace fatalities in 2010 alone out of which 774 were in construction. These deaths were mostly related to safety hazards that could have been potentially avoided. The number one cause of death was falling, followed by electrocution, then being struck by an object, and lastly getting caught in or between things. These four major causes were addressed by OSHA and guidelines were provided to ensure safety among construction and renovation workers.

The proper use of safety equipment can also prevent injuries and fatalities at construction sites. Although required by law in many states, a large number of workers tend to ignore the importance of safety equipment. The following steps are guide to using safety equipment for renovation and construction work.

Avoiding Falls With Proper Fall Protection Equipment

Personal fall protection equipment is a necessity at any construction site. Whether the renovation or construction requires climbing high buildings or remodelling a small home, safety equipment is absolutely essential. Falling is the number one cause of death at construction sites, making protection against it highly important. Some of the main reasons for falling include floor openings, unprotected walls and side holes, wrong scaffold construction, protruding steel and iron bars, and portable ladder misuse.

OSHA requires that any openings six feet or more should be protected with a guardrail or safety net system. Moreover, all construction sites should be inspected prior to work for any hidden openings or holes that can pose a danger to workers. These “fall prevention systems” are known to be a better option than “fall protection systems.” Fall protection systems consist of safety equipment like safety belts, full body harnesses, lanyards, lifelines, rope grabs, shock absorbers, carabiners, and anchors. All fall protection systems must be checked for size, manufacturer’s identification, usage, date of manufacture, and model number.

Safety Equipment to Avoid Electrocutions

Electrocution is the second main cause of deaths among construction workers. Some of the serious forms of danger that workers are exposed to when working around electrical materials include thermal burns, arc flashes, electric shocks, and blasts. There are two protection systems that need to be in place when working with electricity: Insulating Protective Equipment (IPE) and Personal Protective Equipment (PPE).

1. Insulating Protective Equipment (IPE)
According to OSHA the following insulation protection should be included when dealing with electricity: 

  • Insulation should be provided for “(rubber) line hose, blankets, and hoods”
  • Insulation for “barriers made of fiberglass or phenolic resin”
  • “Live-line tools, such as hotsticks, switchsticks, and shotgun sticks”
  • “Plastic or fiberglass hardcover items that can be installed with live-line tools”

2. Personal Protective Equipment (PPE)
Workers are required to use Personal Protective Equipment and workwear to protect against electrical hazards. The US Department of Labor suggests that all workers should be provided with training on how to properly use PPE. Security and hazard assessment should also be performed prior to any electrical work to judge the amount and level of PPE needed. Here are some of the PPE frequently used when working with electrical equipment:

  • Eye and face protection, such as safety glasses and face shields
  • Rubber gloves with insulation and leather protection
  • Industrial Hard hats
  • Safety shoes
  • Insulating sleeves
  • Chemical protection gloves
  • Flare resistant clothing

 Similarly, “struck-by” and other construction related fatalities can be avoided if proper measures and safety plans are put in place. OSHA requires that these measures are also taken care of when using construction vehicles. All vehicles must be fully inspected to guarantee functioning lights, brakes, mirrors, and other areas operating safely. To prevent hazards from falling objects, always make sure to wear a hard hat, goggles, and other protective gear. Load-carrying vehicles should be checked for safety prior to usage and all tools should be secured in place to avoid falling on people.

Almost all injuries and deaths can be avoided if workers are provided with proper guidelines on how to operate under different conditions with the necessary safety equipment. While some workers often tend to neglect these safety measures assuming that they are mere hindrances to their workflow, these measures are put in place for a reason — the safety and security of themselves and those around them. 

Below are listed some useful resources for those people that want to find out and read more about this topic:

Resources
http://www.osha.gov/oshstats/commonstats.html
http://www.osha.gov/SLTC/etools/construction/index.html
http://www.worksafebc.com/publications/health_and_safety/by_topic/assets/pdf/fall_protection.pdf

 

Our thanks to Lucy James for this very helpful article! pb

UNDERSTANDING THE IMPORTANCE OF FALL PROTECTION

In an article from OSHA’s “Quicktakes” December newsletter, here’s an interesting report regarding fall protection.  OSHA Compliance Safety and Health Officer, Tony Nozzi, was doing a November inspection of an Illinois worksite as part of a Local Emphasis Program on Falls, when he noticed a roofing contractor’s employees and a building restoration employee working on a church roof without any fall protection.  Before leaving the worksite, Nozzi made sure that all employees put on harnesses and lanyards and secured themselves with rope grabs before he left the worksite. 

Shortly after he was gone, an employee who worked for the building restoration company was assigned to power wash the church steeple.  Soon after he started his work, he slipped and slid down the church’s pitched roof.  Thankfully, the lifeline became tight on the lanyard, stopping him right before the edge of the roof.  The fall protection equipment prevented serious and potentially fatal injuries, and the employee was then able to walk back up the roof  toward the steeple and safely complete his work. 

This is a classic example of why those who work at heights should always use fall protection.  Companies should have a good fall protection plan in place.  If we knew we were going to fall, we would be sure to wear the proper equipment at the time, but because we don’t know, we should be inclined to do all we can to keep from getting hurt.  There are three elements included in fall protection that are equally important, and if one of these elements fails or are neglected, the system will fail, and serious injury or death can happen.  The three elements include: safety harness, lanyard and the anchor point. 

Years ago, a positioning belt, fitting around a person’s waist, was thought to be adequate fall protection; however, now, a full body harness is required.  The harness should be worn snugly against the body without slack in any part.  A person could fall out of the harness if worn too loosely.  Safety leaders should ensure that the proper length lanyard is used with the harness.  Height and height of the work platform should be considered when calculating lanyard length.  A three-foot safety margin should be figured in the selection of the lanyard.  

Foremost, rapid rescue should be a major portion of the fall protection system.  If rescue does not begin within 7 or 8 minutes of the fall, consequences could be deadly.  If a person is suspended in an upright position after a fall, it is very dangerous.  The restrictions of the safety harness can alter blood flow.  A person could pass out in as little as 5 minutes and the situation could become grave in as few as 15 minutes. 

The U.S. Department of Labor reports that falls at work are one of the leading causes of death caused by trauma.  OSHA requires fall protection for anyone in industrial environments working four feet above ground, and in maritime occupations, the requirement is 5 feet.  Construction workers must use fall protection if they are working at least 6 feet off the ground.  Last, but not least, the harness, D-rings, snaps, should be inspected regularly and replaced when necessary.  The equipment should meet OSHA standards.  So, save lives by providing the right equipment, and ensuring that it is used. 

Source: OSHA, DOL, ehow.com

YOUNG WORKER SURVIVES 55′ FALL INTO SHAFT

Imagine falling into a hole 55’ deep and only 33” wide.  That’s exactly what happened to Zach Rogan, in Carrollton, Texas, last week.  A student on summer break from the Weatherford Fire Academy, Zach had taken a job with Texas Shafts for the summer.  As he was cleaning around the hole, finishing his work for the day, things suddenly went wrong.  He took a step forward and his left leg went into the hole and he started falling.  Quick thinking helped make this terrible accident better than it could have been.  Zach kicked his legs out and pushed the sides of the hole with his arms to slow the fall.  He made it to the bottom of the shaft alive! 

Firefighters from Carrollton and Coppell worked quickly to lower a rescue worker to the bottom of the shaft.  That task took 30 minutes.  A tripod with a pulley was set up over the shaft, as the team of paramedics got ready.  A firefighter quickly put a strapped vest on Rogan, and a cable slowly lifted the men up out of the hole to safety.  This was a tough assignment, since a 33’ hole is only slightly larger than the width of a man’s shoulders.  

In researching a situation like this, I found that shafts 30” or greater in diameter and 6’ or more in depth require some form of fall protection at the surface of the shaft.  Fall protection, including a rescue plan, must be in place prior to drilling any shaft.  Guardrails must be around the shaft.  At the end of the day, there should be a sturdy cover placed over the shaft. 

Companies should have fall protection guidelines for workers, so they understand what is required for their safety.  They should participate in fall prevention training, and use fall protection equipment  if required for the job.  Workers also need to be taught how to inspect the devices they may use, to ensure they are in good condition.  

We are thankful that Zach survived this fall and hopeful that more care will be taken when working around shafts.  It only takes a few seconds for accidents to happen.  Rogan, 20, is a very lucky young man.  He is recovering from surgery to stabilize his crushed vertebrae, as well as suffering some nerve damage.  He still plans to become a firefighter, and hopes to be on the other side of an accident like this….as a rescuer and not a victim.

Source: WFAA.com

AVOIDING FALLS IN THE WORKPLACE

According to the Centers for Disease Control, every day, four construction workers in the United States die on the job, and falls are the leading cause.  Also, the top ten most frequently cited OSHA violations are for improper fall protection, scaffolding safety, and ladder safety, resulting in the highest penalties, as well. 

The Bureau of Labor statistics classify falls as: falls on the same level of work, falls to lower level, and jumps to a lower level, when a worker jumps voluntarily to avoid a fall or other injury.  Construction workers have the highest number of fatalities from falls.  Falling from roofs is one of the main types of falls.  

Companies are required to train workers in how to avoid falls.  They must understand how to use fall protection equipment, such as harnesses, lanyards, rope grabs, roof anchors, roofers’ kits, tie-off slings and ladder safety systems.  Workers should know not to carry other objects while climbing a ladder.  There are certain procedures that meet the legal requirements for working in heights.  A very important daily habit to have is to be sure their equipment is in good shape, each time they get ready to use it. 

Platforms should be used correctly.  It’s easy to get off balance while standing on scaffolding or other types of platforms, and the results could be devastating.  Supervisors should set a good example for their workers, and never allow them to take shortcuts.  The workplace should have guardrails around floor openings and take other measures to keep their employees safe.   There are many sources of falls, and not all falls are fatal, but can lead to injuries, and lost time.  Workers can slip on floors, stairs, escalators, steps, parking lots, and chairs (yes, standing on chairs to change a light bulb or retrieve something is a big no-no.)  Weather conditions can also become a hazard for those working in heights. 

A  friend of mine recently bought a bike.  She fell the first time up, and broke her shoulder.  Now, she is getting ready for surgery in a few days, and will miss work for a few weeks.  Another friend fell off her back steps and broke her arm!  (I am really being careful now.)  We can fall anywhere, anytime, but the main concern is that we try to be careful and keep our bones intact!  

Bureau of Labor statistics also report that the cost to the company of a workplace fall can be around $40,000, with additional costs ranging four to ten times that amount.  The way things are these days, it will pay to encourage all employees to be very, very careful!

WORKING IN CONFINED SPACES

OSHA defines confined spaces as those with configurations which hinder activities of employees who must enter, work in and exit places that have limited and restricted means for entry or exit, and are not designed for continuous employee occupancy.  These can include:

  • storage bins
  • manholes
  • pits
  • silos
  • process vessels
  • pipelines
  • underground vaults
  • sewers
  • wells
  • tanks

One or more of the potential hazards of working in Permit-Required Confined Spaces can be a hazardous atmosphere to engulf the entrant, walls that converge inward, or floors sloping downward and tapering into smaller area which could possibly trap or asphyxiate the person, unguarded machinery, exposed live wires, or heat stress.

To prevent accidents, companies should:

  • Train employees thoroughly;
  • Post proper signs on location;
  • Always assume that hazards are present;
  • Follow proper lockout/tagout procedures;
  • Ensure adequate ventilation for employees;
  • Furnish non-sparking tools;
  • Provide and ensure required PPE is used at all times;
  • Monitor continuously while work is being performed;
  • Have rescuers on site and trained for any emergency.

It is estimated that over one and one-half million workers enter confined spaces annually.
Most accidents can be prevented by properly educating the persons who do this work and ensuring that they are adequately supervised at all times.

FALL PREVENTION

In the United States Construction industry, falls are the leading cause of worker fatalities.  An average of between 150-200 workers each year are killed and more than 100,000 injuries are the result of falls at construction sites.  Accidental falls are complex events resulting from either equipment-related or human issues.  Therefore, the standards for protection deal with both for success in preventing fall hazards.  Fall protection systems should be carefully designed for appropriate work situations.  Proper installation of safety systems, safe work procedures, training and supervision are necessary to ensure workers’ security.

Listed is a short glossary of fall prevention terms and equipment for safe endeavors:

  • Anchorage – Secure point of attachment for lanyards, lifelines or deceleration devices.
  • Body Harness – Straps secured about the person that distribute fall-arrest forces over thighs, pelvis, waist, chest and shoulders, which is attached to other parts of fall-arrest system.
  • Deceleration Device – Any mechanism: rope, grab, forms of lanyards, auto retracting lanyards that dissipate a substantial amount of energy during fall arrest.
  • Lanyard – Flexible line of rope or strap that has connectors to a deceleration device, lifeline, or anchorage.