Fall Protection

Core Point – A secure point of attachment for lifelines, lanyards, or deceleration devices. An anchorage must be capable of helping a minimum dead weight of five thousand (5, 000) pounds (2, 268 kilograms) for every single person mounted on it. An anchor point may be a beam, girder, steering column, or floor. DBI Sala self retreating lifelines

Competent Person – Any Supervisor who has been trained to inspect fall-arresting equipment such as horizontal and up and down lifelines. 

Lanyard – A rope (nylon or material cable) suited to supporting one person.

Lifeline – A vertically suspended rope with one end attached to a stationary object (such as a structural member), able to support at least five thousand (5000) pounds (2, 268 kilograms) of dead weight and the other end fastened to a lanyard or safety harness.

Qualified Inspector – Any experienced craftsperson or Supervisor who has demonstrated to Project/Site Managing his or her potential and competency to examine equipment.

Retractable Lifeline – A fall-arrest device that allows free travel, without slack rope, but tresses instantly when a fall season begins. Retractable lifelines can be utilized, but horizontal movement must be limited.

Rope Appeals to (Fall-Arrester) – Automatic savior devices that act by inertia (resistance to movement) to grab the savior when a fall occurs. String grabs are being used when straight movement is required, such as work from boatswain chairs or suspended scaffolds.

Safety Harness – A safety harness is an approved design of connectors which may be secure about the employee’s body in a way to distribute the fall-arrest pushes over at least the thighs, pelvis, waist, breasts, and shoulders, with a way for attaching it to other components of a personal fall-arrest system.

Stationary Line or Catenary Collection – A cable or rope strung horizontally and vertically in one substantial thing to another, offering a means of traveling between those two objects while maintaining fall protection between those objects.

Structural/Substantial Thing – Any object to which a lifeline or lanyard may be fastened that will support five thousand (5000) pounds (2, 268 kilograms) of lifeless weight.


1. Fall Reduction

The critical first step to this approach is to examine the place of work and the work itself in the earliest design/engineering stages of the Project/Site and through the planning stages of all work. The objective is to eliminate all fall risks. This assessment of the Project/Site and the work not only helps eliminate hazards but also pinpoints alternative approaches to the task that can measurably boost productivity.

Addressing fall security in the early stages of your Project/Site means that safety can be designed in the work process. Pertaining to example, the Project/Site can be designed so that anchorages for securing fall-arrest systems are supplied at tactical locations throughout the Project/Site, thus bettering safety and lowering costs.

2. Land Prevention

The 2nd step in continuous fall protection also requires assessing businesses and work processes.

If land hazards cannot be completely eliminated during the first step, management must take a proactive way of the prevention of falls by bettering the workplace. Early on installation of stairs, guardrails, barriers, and travel limit systems can ensure a safe work environment.

3. Fall Arresting

The third step, the last series of defense against comes, is to use fall-arresting equipment. Use fall-arresting equipment, yet , ONLY after deciding that potential falls are not able to be eliminated by changing work procedures or the workplace. Equipment such as harnesses, lanyards, shocks, fall-arresters, lifelines, anchorages, and protection nets can decrease the risk of injury if a fall occurs. Thoroughly examine businesses and work processes to choose the most appropriate equipment also to set up and make use of it correctly.


Fall protection plans will probably be prepared for elevated work if fall hazards are present. Where fall hazards are significant, the plans should be in writing. Project/Site Management is in charge of deciding which jobs require written plans. The requirement for written plans should be included in all appropriate contracts.

Consult your Protection Director/Manager for assistance in developing written plans.


Design includes fall hazard management in most designs and should consider this:

o Featuring equipment that will allow facilities to be controlled from grade level or an approved platform or maintenance access.

o Applying methods of construction that allow equipment to be connected/installed while on the ground to eliminate increased work.

o In instances where elevated work is necessary, installing fall reduction devices such as side rails on the workpieces while on the ground to facilitate fall prevention.

u Specifying and insisting that fabricators supply long lasting steps and guardrails before metallic is erected.

In this way, the stairs and steel can be constructed simultaneously, bettering not only safety, but also efficiency. Employees will have safe access and egress, and the necessity of rising non permanent ladders will be reduced or eliminated.

If perhaps fall hazard elimination or prevention is not available, identify or install designed anchor points to aid the use of fall-arresting equipment during construction and future maintenance of the facility.


All workers performing am employed at elevated positions shall fulfill the following requirements:

o must be trained in the use, inspection, and maintenance of fall-arrest systems;

o must display competency in initial training;

o must undergo refresher training as required by modifications in our office and/or equipment, or as other events indicate that refresher training may be required.


Once working at an increase of six (6) foot (1. 8 meters) or more above grade, floor, or approved work areas such as platforms and scaffolds, or when working in an area in which a fall potential of greater than half a dozen (6) feet (1. almost 8 meters) exists, employees will utilize a full-body utilize with a roper means of attachment.

If crossing at an elevation, employees must be tied off at all times, which may require utilizing either two (2) independent shock-absorbing lanyards or a dual (Y) lanyard with a shock-absorbing device.


All Contractors/Subcontractors will provide full-body harnesses meeting AMERICAN NATIONAL STANDARDS INSTITUTE (American National Standards Institute). Safety belts are certainly not allowed for fall protection.

© My Info Blog