Navigating the occupational safety and health environment can feel like wading through a minefield. When dipping your toes into regulations, a vital area to watch is how to comply with OSHA for signage. For safety professionals and facility managers, staying on top of these regulations ensures a safe and responsible work environment. Here is a comprehensive list of the top 10 OSHA signs compliance factors you need to be aware of:
Understanding the purpose and scope of OSHA signage regulations is crucial. You may ask yourself, �what does OSHA do?� OSHA uses signs to convey crucial information and instructions to workers who may be exposed to various environmental hazards. These signs need to be highly visible and provide clear and easily understood messages which can effortlessly be made by the DuraLabel Kodiak Max Industrial Sign and Label Print System.
OSHA has specific requirements regarding the design, format, and wording of safety signs and labels. These requirements are meant to ensure consistency and usability across different work environments.
You can create effective OSHA signs and labels once you have a clear understanding of the environment they will be in and the types of hazards that may occur there. Like selecting the right tools for the job, sometimes off-the-shelf signs may suffice, but custom designs are often needed to address unique hazards and operational contexts.
OSHA requires labeling hazardous materials in the workplace to improve safety. HazCom 2012 was created utilizing an international system from the United Nations called the Globally Harmonized System of Classification of Labeling and Chemicals (GHS), with the idea of providing workers with awareness of what chemicals they were being exposed to.
OSHA allows a bit of wiggle room with the signage requirements by allowing those responsible for creating them in their workplaces to create custom signage as long as they follow industry standards to meet their OSHA Hazcom labeling requirements. For example, the National Fire Protection Association (NFPA) diamond labeling system, or Hazardous Materials Identification System (HMIS) both meet those requirements. If either of these systems are used, any information unaccounted for must be addressed.
Color associations register in the brain before words on signs can be mentally processed. Color markings were designed to improve response time, which ultimately decreases the likelihood of incidents, even from a distance. Color coding does not override the need to follow any other compliance standards and signs must not create a separate hazard that results in trips, head injuries, or cuts, scrapes, and bruising.
The NFPA created a diamond label that is broken up into four colored and numbered quadrants. Each color and number represents the level of hazard severity. The label must include a product identifier and employees must receive training in the specifics of the hazards associated with the chemicals.
HMIS is a color chart created with four colors that represent hazard information. Similar to NFPA�s diamond label, HMIS also assigned a number to three of the colors and then provided some additional information in the last box specific to personal protective equipment (PPE).
Employing proper color-coding promotes safety by warning employees and visitors of possible risks and enhances the overall understanding and response to hazards.
Consistency across signage is important. It ensures that any employee can recognize the symbols and know what to do in the event of an emergency. This entails having a standardized system of signage in place and updating OSHA signs and labels as necessary to reflect changes in procedures or regulations. For multi-site facilities, it's crucial to conduct regular audits to guarantee that all locations are using the same sign standards.
The same regulations do not apply to every department. Different teams perform different duties, use different tools, and have different risk levels. Due to department differences, documentation and communication should be a priority.
When it comes to employees working on equipment that has the potential for electrical shock, it is important for employers to know where these types of electrical hazards can occur, so proper signage can be placed in those areas to warn employees.
OSHA 29 CFR 1910 Subpart S, regulations state that "Safety related work practices shall be employed to prevent electric shock or other injuries resulting from either direct or indirect electrical contacts..." Employers are responsible for:
When referencing safety signs and labels, OSHA does not require the NFPA standards, but they often use their standards as guidelines for general rules and regulations.
However, OSHA�s �1910.303 requires employers to mark electrical equipment with descriptive markings, including the equipment's voltage, current, wattage, or other ratings as necessary, in order to meet OSHA electrical panel labeling requirements. OSHA recognizes arc flash hazards as a serious threat to worker safety and refers to NFPA 70E standards as the solution for that hazard.
According to 29 CFR 1910.145(f)(4), it requires the sign's signal words like "Danger,"and "Caution," to be readable from at least five feet away. Signs should be placed in a way where workers are aware of the hazard and able to respond appropriately prior to exposure.
The most clear and concise sign is ineffective if it is not seen when needed. Signs need to be placed in appropriate locations � which means they must be highly visible to the employees in the area.
According to OSHA�s rule for when and where signs should be placed. 29 CFR 1910.145(f)(3) states safety signs, labels, and tags �shall be used as a means to prevent accidental injury or illness to employees who are exposed to hazardous or potentially hazardous conditions, equipment or operations which are out of the ordinary, unexpected or not readily apparent. Tags shall be used until the identified hazard is eliminated or the hazardous operation is completed.�
Once the safety signage is determined necessary, those signs must be placed close to the nearby hazard. OSHA said safety signs should not produce a hazard, meaning they should not have sharp edges, splinters, or block the view of incoming traffic. Corners should have rounded or blunt corners.
Visibility also pertains to the font size and the contrast between backgrounds and letters, ensuring that signage is not only seen, but can be read easily from a distance under various lighting conditions.
NFPA 70E is the standard followed in the United States to encourage safe electrical work. These NFPA guidelines define three protective boundaries specifically around electrical equipment.
In terms of narrowing down arc flash boundaries, performing an arc flash hazard analysis is designed to determine the location and severity of arc flash hazards and to suggest appropriate courses of action to minimize them. IEEE 1584 provides a formula for conducting an arc flash study. Other methods exist as well, including calculations based on the formulas presented in NFPA 70E. Various methods have been used for the study and produced similar findings.
The data collected and calculated during the study is put to various uses that include:
Discovering where the boundaries are is a crucial step to preventing death from an arc flash occurrence. The arc flash boundary will not prevent an incident, but it can minimize the severity of damage should one occur.
Similar to electrical hazards, when dealing with chemical hazards, place hazard warnings, operating information, and safety reminders in a place where workers can easily view them. Low-charge anhydrous ammonia is a favorite for manufacturers, suppliers, and end-users in refrigeration and HVAC, because not only is it one of the safer chemicals for workers to handle, but it is also cost-effective and efficient in small quantities.
However, just because it is safer does not mean risk assessments, emergency planning, or safe ammonia management should not be implemented. According to the Centers for Disease Control and Prevention the top five chemicals causing injuries in acute incidents:
HMIS, developed by the National Paint Coatings Association (NPCA), now known as the American Coatings Association (ACA), employs color bar labels to signify and convey information about chemical hazards. The number ratings range from 0 to 4.
Complementing HMIS, OSHA signs play a pivotal role in alerting individuals to potential dangers and safety protocols within workplaces.
Three HMIS standards have been issued by NPCA. For the HMIS I and II standards, the criteria for the numerical values in the red bar are the same as for the NFPA diamond. For HMIS III the criteria are the OSHA label standards.
There are over 350 languages spoken in the United States, according to the US Census Bureau, with some of the most widely spoken being Spanish, Chinese, Tagalog, Vietnamese, and Arabic.
It is important to be able to effectively communicate with your employees, and in industries like health and s