Emergency Lighting

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Emergency Lighting

You must guarantee your building has compliant and effective emergency lighting to make certain safe evacuation during power outages or emergencies. Emergency lighting includes maintained, non-maintained, combined, and self-contained lights, each serving specific purposes. Adherence to AS2293 standards in Australia is vital, covering everything from adequate illumination levels to rigorous testing protocols. Proper installation and regular maintenance, such as battery testing and visual inspections, are essential to meet these standards. By doing so, you not only abide by regulations but also enhance safety and risk management. For more insights and detailed guidelines, continue exploring this topic.

Types of Emergency Lighting

When it comes to emergency lighting, you'll encounter several types crafted to guarantee safety and compliance with regulatory standards. Understanding these types is vital for proper risk assessment and ensuring you meet regulatory compliance in your facility.

The first type you should know about is maintained emergency lights. These lights remain on at all times, even during normal power conditions. They're essential in areas where lighting must be constant, such as exit routes and high-traffic zones. In case of a power failure, these lights switch to battery power, ensuring continuous illumination.

Next, non-maintained emergency lights activate only during a power failure. These lights are ideal for areas that don't require constant illumination but still need to be safe during an emergency. They're equipped with batteries that kick in when the main power supply fails, providing the necessary illumination.

You also need to take into account combined emergency lights, which offer both maintained and non-maintained functions. These are versatile and can adapt to various emergency lighting Australia scenarios. They provide continuous lighting while also having the capability to activate additional lighting during a power outage.

In addition, there are self-contained emergency lights, which have all components—battery, charger, and lamps—housed within a single unit. These are easy to install and maintain, making them a popular choice in emergency lights Australia.

Lastly, central battery systems use a single battery source to power multiple emergency lights. This system simplifies maintenance and ensures synchronized lighting during an emergency. It's commonly used in larger facilities where managing individual units would be cumbersome.

Understanding these types helps you make informed decisions, ensuring your emergency lighting system is both effective and compliant with Australian standards.

Benefits of Emergency Lighting

Emergency lighting offers essential benefits for ensuring safety, regulatory compliance, and efficient risk management in any facility. By providing illumination during power outages or emergencies, emergency lighting systems help you prevent accidents and ensure occupants can safely evacuate the building. This lighting reduces the likelihood of injuries and fatalities caused by panic or disorientation in low-visibility conditions.

From a regulatory compliance perspective, installing emergency lighting is mandatory under various building codes and safety regulations. Compliance guarantees you avoid potential legal repercussions, fines, and penalties associated with non-adherence. Furthermore, adhering to these regulations demonstrates your commitment to the safety and well-being of your occupants, thereby enhancing your facility's reputation.

Efficient risk management is another critical benefit of emergency lighting. By illuminating exit routes and critical areas, these systems allow emergency responders to quickly locate and assist individuals in need. This capability can greatly reduce the response time during a crisis, potentially saving lives and minimizing property damage. Additionally, well-placed emergency lighting can deter criminal activities by maintaining visibility in otherwise darkened areas.

Emergency lighting also supports continuity of operations. In the event of a power failure, emergency lighting ensures that essential tasks and processes can continue with minimal disruption. This continuity is particularly important in settings such as hospitals, data centres, and industrial facilities where uninterrupted operations are essential.

AS2293 Emergency Lighting Standards Australia

AS2293 sets the benchmark for emergency lighting standards in Australia, ensuring that systems comply with stringent safety and performance requirements. It's vital for you to understand these standards to make sure that your emergency lighting installations are both effective and compliant.

AS2293 encompasses various aspects of emergency lighting, focusing on the design, installation, and maintenance of these systems.

First and foremost, AS2293 mandates that emergency lighting systems must be designed to provide adequate illumination in the event of a power failure, allowing for safe evacuation. You need to guarantee that all designated escape routes are well-lit and that emergency exits are easily identifiable.

Compliance with AS2293 involves several key elements:

  1. Illumination Levels: The standard specifies minimum illumination levels that must be maintained along escape routes and at exits. These levels are essential for visibility and safety during an emergency.
  2. System Testing and Maintenance: Regular testing and maintenance are required to ensure that the emergency lighting system remains operational. You should conduct periodic inspections and tests to identify any faults or failures.
  3. Documentation: Accurate records of all tests, maintenance, and inspections must be kept. This documentation is crucial for verifying compliance and for future reference during audits or inspections.

When designing and installing emergency lighting systems, adhere strictly to AS2293 to mitigate risks. Non-compliance can result in severe penalties and increased liability in the event of an emergency. By following these standards, you not only comply with regulations but also enhance the safety of occupants in your building.

Always stay updated with any amendments to AS2293 to ensure ongoing compliance and safety.

Key Components

Key components of an emergency lighting system include illumination sources, control equipment, and power supply units, all crafted to guarantee consistent performance during a power outage. You need to understand each of these elements to ensure your system is both important and compliant with regulations.

Firstly, illumination sources are essential. They typically include LED or fluorescent lamps known for their reliability and efficiency. LEDs are preferable due to their longevity and lower energy consumption. These lights must meet brightness and coverage standards to provide adequate visibility during emergencies.

Control equipment plays a critical role in managing the system. It includes devices like test switches, monitoring systems, and automatic changeover devices. Test switches allow you to periodically check the functionality of your lighting, while monitoring systems ensure real-time performance tracking. Automatic changeover devices instantly switch from main power to backup power during an outage, ensuring there's no interruption in lighting.

The power supply units are just as important. These units include batteries, generators, or other backup power sources. Batteries, especially sealed lead-acid or lithium-ion types, are common due to their reliability and maintenance ease. It's crucial that these power units are regularly tested and maintained to ensure they deliver power when needed.

Regulatory compliance is non-negotiable. Your emergency lighting system must adhere to standards such as AS2293 in Australia. This ensures that all components aren't only functioning correctly but also meet safety and performance criteria. Non-compliance can lead to severe penalties and, more importantly, risk lives during an emergency.

Installation Guidelines

Understanding the key components of your emergency lighting system is just the beginning; now, let's focus on the precise installation guidelines to guarantee peak performance and regulatory compliance. Proper installation is vital not only for the functionality but also for meeting safety standards and legal requirements.

Here's a clear path to follow:

  1. Site Assessment and Planning: Before you begin, conduct a thorough site assessment. Identify all exit routes, high-risk areas, and locations where emergency lighting is mandatory. Ensure that your plan complies with local building codes and standards. Having a detailed layout will help you position lights to cover all critical areas effectively.
  2. Correct Mounting and Wiring: Mount the emergency lights at the appropriate height and angle to maximize their effectiveness. Ensure that wiring conforms to the National Electrical Code (NEC) or your local regulations. Use suitable conduit and fittings to protect the wiring from physical damage and environmental factors. Double-check connections to prevent faults that could lead to system failures during an emergency.
  3. Power Supply and Backup Systems: Make sure each unit is connected to a reliable power source and includes a backup power system, such as batteries or generators. Test the backup power source under load conditions to confirm that it will operate correctly during a power outage. Integrate your emergency lighting with the building's fire alarm system if required by local codes.

Maintenance Tips

To guarantee your emergency lighting system remains reliable and compliant with safety standards, conduct regular maintenance checks and tests. Start by visually inspecting all emergency lighting units. Look for signs of wear, damage, or corrosion that could compromise functionality. Make sure that all fixtures are securely mounted and that there are no obstructions that might block light paths.

Next, verify the integrity of the batteries. Batteries should be tested to make certain they can hold a charge and provide the necessary backup power during an outage. Replace any batteries that fail to meet the required standards. Always use batteries recommended by the manufacturer to avoid compatibility issues.

Check the electrical connections and wiring. Loose or frayed wires can lead to performance issues or complete system failures. Secure all connections and replace any damaged wiring to maintain the best function and safety.

Clean the fixtures and lenses regularly. Dust and grime can greatly reduce the effectiveness of your emergency lighting. Use a damp cloth and a mild cleaning solution to keep all parts free from dirt and debris.

Update your maintenance log after completing each check. Record the date, findings, and any actions taken. This documentation not only helps you stay on top of maintenance but also ensures compliance with regulatory standards.

Testing Procedures according to AS2293

After completing regular maintenance, it's essential to conduct testing procedures in accordance with AS2293 to verify that your emergency lighting system complies with Australian safety standards. These tests guarantee that your system functions correctly during an emergency, safeguarding lives and property.

First, perform a discharge test. This involves simulating a mains power failure to check that your emergency lights stay illuminated for the required duration, typically 90 minutes. Make sure to:

  1. Monitor Battery Performance: Ensure batteries sustain the lights for the full test period.
  2. Check Light Intensity: Verify that the illuminance levels meet the required standards during the entire test.
  3. Inspect Emergency Exit Signs: Confirm all exit signs remain clearly visible and illuminated.

Next, conduct a monthly functionality test. This quick check confirms that all components, including batteries and lamps, are operational. Follow these steps:

  1. Activate Test Switches: Use the test switches to simulate a power outage.
  2. Observe Immediate Response: Guarantee lights and exit signs respond correctly.
  3. Record Results: Document any issues in a logbook for follow-up.

Lastly, perform an annual full system test. This thorough evaluation ensures long-term compliance and functionality:

  1. Systematic Inspection: Assess all emergency lighting units, wiring, and control equipment.
  2. Extended Discharge Test: Conduct a longer discharge test to evaluate battery health over extended periods.
  3. Update Compliance Records: Maintain detailed records of all tests and any corrective actions taken.

Common Issues

Common issues with emergency lighting systems often stem from battery failures, improper installation, and insufficient maintenance schedules. These issues can compromise the effectiveness of your emergency lighting, risking non-compliance with safety regulations and endangering building occupants.

Battery failures are a primary concern. Over time, batteries degrade, reducing their capacity to provide adequate lighting during an emergency. Regular battery testing and timely replacements are essential. Improper installation, including incorrect wiring or placement, can lead to system malfunctions. Ensuring installation by certified professionals according to AS2293 standards minimizes these risks. Insufficient maintenance schedules mean neglecting routine checks and servicing, leading to undetected faults and potential failures when the system is needed most.

To help you understand common issues in emergency lighting systems, here's a table summarizing key points:

Issue Risk Assessment Regulatory Compliance
Battery Failures Reduced capacity, system downtime Regular testing and replacements
Improper Installation System malfunctions, safety hazards Certified installation per AS2293
Insufficient Maintenance Undetected faults, potential failures Adherence to maintenance schedules
Wiring Issues Short circuits, fire hazards Inspection and testing protocols
Component Wear and Tear Reduced performance, system failure Routine inspections and servicing

Regular inspections and adherence to maintenance schedules are essential for ensuring the reliability of your emergency lighting system. By addressing these common issues proactively, you can maintain compliance with safety standards and ensure the safety of your building occupants. Remember, a well-maintained emergency lighting system is a critical component of your overall safety strategy.

Troubleshooting Guide

When troubleshooting emergency lighting systems, first confirm the power supply to guarantee there are no disruptions or electrical faults. Securing a reliable power source is the initial step in diagnosing issues.

After confirming the power, proceed with these steps:

  1. Inspect the Battery: Check the battery for any signs of damage or corrosion. Batteries are critical for emergency lighting, and any malfunction can compromise the system's reliability. Confirm the battery connections are secure and test its voltage with a multimeter. If the battery doesn't meet specifications, replace it promptly.
  2. Examine the Bulbs: Verify that all bulbs function correctly. Faulty or burned-out bulbs can be a common issue, leading to inadequate lighting during an emergency. Replace any defective bulbs with ones that meet the manufacturer's recommendations. Additionally, ensure the correct type and wattage are used to maintain compliance with safety standards.
  3. Test the Control Circuit: The control circuit manages the switch from normal to emergency mode. Using a multimeter, check the circuit for continuity and proper operation. Look for any signs of damage, such as burnt components or loose connections. If faults are found, follow the manufacturer's guidelines for repair or replacement to guarantee the system's integrity.

LED Emergency Lighting

LED emergency lighting offers a reliable and energy-efficient solution for ensuring safety and compliance during power outages or emergency situations. By integrating LED technology, you reduce energy consumption substantially compared to traditional incandescent or fluorescent lamps. LEDs have a longer lifespan, which minimizes maintenance and replacement costs, ensuring that your emergency lighting systems remain operational when you need them the most.

When evaluating the risks in your facility, consider the benefits of LEDs, such as instant illumination and consistent brightness. Unlike other light sources, LEDs don't suffer from delayed start times or gradual dimming, which can be critical during an emergency evacuation. Make sure your LED emergency lighting meets the relevant regulatory standards, such as AS/NZS 2293 in Australia, to guarantee compliance and avoid potential fines or legal liabilities.

For proper installation, it's essential to follow the manufacturer's guidelines and local building codes. Positioning the LED fixtures strategically will maximize coverage and visibility, providing clear exit routes and reducing the risk of accidents during an emergency. Regular testing and maintenance, as mandated by regulations, are vital to verify that your LED emergency lighting systems are functioning correctly. Most standards require periodic tests, including monthly function tests and annual discharge tests, to ensure reliability.

Investing in LED emergency lighting is a wise decision for both safety and cost-efficiency. By choosing high-quality products from reputable suppliers, you can trust that your emergency lighting systems will perform effectively, helping to safeguard occupants and maintain compliance with safety regulations. Make sure you keep records of all installations, tests, and maintenance activities to demonstrate due diligence and regulatory adherence.

Battery Backup Systems

Battery backup systems are essential for ensuring that emergency lighting remains operational during power outages, providing uninterrupted safety and compliance. When you're managing a facility, it's important to understand the role these systems play in maintaining a safe environment. Battery backups kick in immediately when there's a power failure, guaranteeing that your emergency lighting systems continue to function, thereby avoiding any lapses in visibility and safety.

To make sure your battery backup system is effective, consider the following:

  1. Battery Capacity and Type: Select the right battery capacity and type for your specific lighting needs. Lithium-ion batteries are commonly used due to their long life and reliability. Make sure the capacity is sufficient to support the emergency lighting for the required duration, typically specified by local regulations.
  2. Maintenance and Testing: Regular maintenance and testing are critical. Conduct routine checks to ensure the batteries are in good condition and replace them as needed. Implement a schedule that includes monthly and annual tests to verify the system's functionality, ensuring you're always prepared for an unexpected outage.
  3. Regulatory Compliance: Adhere to local and national regulations regarding emergency lighting and battery backup systems. These regulations often dictate the minimum standards for installation, maintenance, and operational duration during an outage. Non-compliance can lead to legal repercussions and compromise the safety of building occupants.

Self-Testing Systems

Self-testing systems automate the process of checking emergency lighting functionality, guaranteeing compliance with safety regulations without manual intervention. These systems conduct periodic self-checks, including battery discharge tests and lamp functionality assessments, reducing the risk of human error and oversight. By implementing self-testing systems, you secure that your emergency lighting remains operational and compliant with regulatory standards at all times.

The primary advantage of self-testing systems is their ability to perform routine checks without disrupting daily operations. These systems typically run tests during low-traffic periods, so you won't face unnecessary interruptions. Additionally, they generate detailed reports, which can be invaluable for audits and inspections, helping you demonstrate adherence to safety regulations.

From a risk assessment perspective, self-testing systems greatly reduce the likelihood of undetected failures. Manual testing can be inconsistent and prone to human error, potentially leaving you exposed to significant safety risks. Automated systems mitigate these risks by providing consistent, reliable testing and timely alerts if issues are detected. This proactive approach allows you to address potential problems before they escalate into critical failures.

On the regulatory compliance front, self-testing systems align with standards such as AS 2293 in Australia, which mandates regular testing and maintenance of emergency lighting. By integrating self-testing systems, you secure that your facility meets these stringent requirements, avoiding potential penalties and enhancing overall safety.

Central Battery Systems

Central battery systems offer a centralized approach to powering emergency lighting, guaranteeing consistent performance and simplified maintenance across your facility. By consolidating power sources for all emergency lights in one location, you can streamline inspections, testing, and repairs, making it easier to comply with regulatory standards and reduce operational risks.

When you opt for a central battery system, you benefit in several key ways:

  1. Consistent Performance: With a single, centrally located battery source, each emergency light in your facility receives uniform power. This consistency is critical for guaranteeing that all lights perform reliably during an emergency, reducing the risk of isolated failures.
  2. Simplified Maintenance: Centralized systems make routine maintenance more straightforward. Instead of checking and replacing individual batteries scattered throughout your building, you can focus on a single central unit. This approach not only saves time but also helps you remain compliant with safety regulations.
  3. Enhanced Monitoring: Central battery systems often come with integrated monitoring capabilities, allowing you to track the status and health of the entire emergency lighting network. This feature simplifies compliance with standards like AS 2293 in Australia, ensuring you meet all regulatory requirements without extensive manual checks.

Implementing a central battery system in your facility involves evaluating the total load requirements of your emergency lighting and choosing a system that can handle those needs. You must also consider factors like battery capacity, charging methods, and redundancy to guarantee reliability during prolonged power outages.

Exit Signs

When guaranteeing the safety of a facility, it's important to integrate well-illuminated exit signs alongside your central battery system to guide occupants to safety during emergencies. Exit signs play a crucial role in emergency egress, providing clear and unmistakable direction towards safe exits.

To meet regulatory compliance, you should install exit signs that conform to the standards set by local and national building codes, such as AS/NZS 2293 in Australia. These regulations ensure that exit signs are clearly visible, even in low-light conditions, and remain illuminated for at least 90 minutes during a power outage.

Conduct a risk assessment to determine the best placement for exit signs. They should be installed above exit doors and along escape routes at intervals that guarantee visibility from any point within a corridor. Additionally, consider the height and angle of installation to avoid obstructions and ensure that signs are easily seen by all occupants, including those with disabilities.

Select exit signs that are compatible with your central battery system to ensure smooth operation during an emergency. LED exit signs are a preferred choice due to their energy efficiency, long lifespan, and low maintenance requirements.

Make sure that all exit signs are regularly tested and maintained as part of a thorough emergency lighting maintenance plan.

Emergency Lighting Design

How do you guarantee that your emergency lighting design complies with all regulatory requirements and provides maximum safety during a crisis? To achieve this, you must focus on technical accuracy, risk assessment, and regulatory compliance.

First, make sure your design adheres to relevant standards like AS/NZS 2293. This standard outlines the performance criteria for emergency lighting and exit signage systems. You'll need to strategically position emergency lights to cover all essential areas, including escape routes, fire equipment, and safety signs. Proper placement ensures visibility and guides occupants safely during an emergency.

Second, conduct a thorough risk assessment to identify potential hazards and determine the most effective lighting solutions. Consider factors like the building's layout, occupancy type, and potential sources of power failure. This assessment helps tailor the lighting design to specific needs, ensuring no area is overlooked.

Here are three critical steps to follow:

  1. Site Survey and Analysis: Perform a detailed survey of the premises to understand its unique requirements. Evaluate the existing lighting infrastructure, power sources, and potential evacuation routes.
  2. Lighting Layout Design: Create a detailed lighting plan that includes the type, location, and number of emergency lights. Use photometric data to ensure adequate illumination levels are achieved throughout the building.
  3. Testing and Maintenance Schedule: Implement a regular testing and maintenance program. Make sure all emergency lights are functional, batteries are charged, and any issues are promptly addressed. This proactive approach minimizes the risk of system failure during an actual emergency.

Compliance Requirements

Guaranteeing your emergency lighting design meets all regulatory requirements involves a thorough understanding of compliance standards and a commitment to rigorous implementation. You need to start by acquainting yourself with the relevant codes and guidelines, such as the National Construction Code (NCC) and Australian Standards AS 2293.1-2005 for emergency escape lighting and exit signs. These standards outline the minimum requirements for the performance, installation, and maintenance of emergency lighting systems.

Next, conduct a detailed risk assessment for your facility. Identify critical areas that require emergency lighting, such as escape routes, exits, stairways, and any high-risk zones. Ensure that your design delivers adequate illumination levels, typically no less than 1 lux along the centerline of escape routes, to facilitate safe evacuation during an emergency.

You should also incorporate regular testing and maintenance protocols as mandated by AS 2293.2-1995. This includes monthly functional tests and annual full-duration discharge tests to verify system reliability. Document all test results and maintenance activities as part of your compliance records.

Moreover, consider the placement and visibility of exit signs. They must be clearly visible and legible from all points within the designated area, even in conditions of smoke or power failure. The signs should meet the size, color, and illumination requirements specified in the standards.

Energy Efficiency

To optimize your emergency lighting system, prioritize energy efficiency by selecting LED fixtures and implementing smart control strategies. LEDs are much more energy-efficient than traditional lighting options, consuming up to 80% less energy and lasting notably longer. This translates to lower energy bills and reduced maintenance costs, making it a wise investment in the long run.

Next, integrate smart control strategies that automatically adjust lighting based on real-time needs. For example, motion sensors can activate emergency lights only when necessary, ensuring energy isn't squandered. Additionally, consider using dimmable LEDs that adjust their brightness levels based on ambient light conditions. This not only enhances energy efficiency but also extends the lifespan of your lighting system.

To ascertain your emergency lighting system is both energy-efficient and compliant with regulations, follow these steps:

  1. Conduct an Energy Audit: Evaluate your current lighting system to identify inefficiencies. An audit can reveal areas where you can upgrade to more energy-efficient solutions and help you understand your energy consumption patterns.
  2. Choose Certified Energy-Efficient Products: Look for products that comply with relevant energy standards and certifications. Using certified products ensures that your system meets regulatory requirements and operates at peak efficiency.
  3. Implement a Maintenance Schedule: Regularly inspect and maintain your emergency lighting to ensure it operates efficiently. Clean fixtures, replace old batteries, and check for any faults to prevent energy wastage.

Choosing the Right Supplier: Tradesupplier.com.au

When selecting a supplier like Tradesupplier.com.au, focus on their reputation for importance for reliability, product quality, and customer support to guarantee your emergency lighting needs are met efficiently and compliantly. Tradesupplier.com.au is a competitive Australian supplier known for its extensive range of lighting, electrical, fire, security, data, and safety supplies. Their commitment to offering high-quality products from reputable brands ensures you're getting reliable and durable emergency lighting solutions.

Tradesupplier.com.au's product offerings come with thorough warranty policies. The Labour Warranty Policy covers labour costs for repairs and replacements, provided the damage isn't due to misuse or improper installation. For material and workmanship defects, their Warranty & Returns Policy is thorough. Make sure you notify them within the specified timeframe to benefit from refunds or replacements for unused and undamaged products.

You also benefit from their free delivery service, enhancing the overall value and convenience of your purchase. Tradesupplier.com.au's online shop is user-friendly, making it easy to navigate and order the necessary supplies. They also provide a rewards program for loyal customers, offering added incentives for frequent buyers.

Risk assessment and regulatory compliance are important when selecting emergency lighting. Tradesupplier.com.au ensures their products meet Australian safety standards, mitigating risks associated with substandard lighting solutions. Their strong reputation and registration under ABN: 18491669404 further emphasize their credibility in the market.

Frequently Asked Questions

What Is the Warranty Period for Emergency Lighting Products?

You should verify the specific warranty period for your product, as it varies by item. Labour costs for repairs and replacements are covered for a specified time. Defects in materials and workmanship are also covered within a set timeframe. Make sure you've got proof of purchase and notify us promptly for claims.

Misuse or improper installation isn't covered. Refunds or replacements are available for eligible returns of unused products.

How Do I Claim Labour Warranty for Emergency Lighting Repairs?

Did you know 70% of warranty claims are resolved within a week?

To claim the labour warranty, make sure you have proof of purchase. Contact Emergency Lighting Australia within the valid period. Clearly describe the issue, emphasizing that it's not due to misuse or improper installation.

Follow their instructions for repairs or replacements. Compliance with their process guarantees a smooth and efficient resolution, maintaining regulatory standards and reducing risk.

Can I Return Unused Emergency Lighting Products?

Yes, you can return unused products. Confirm that the items are undamaged and within the specified return period.

You must notify Emergency Lighting Australia within their set timeframe to initiate the return process. They offer refunds or replacements for eligible returns.

Always provide proof of purchase when returning items. Adherence to these procedures guarantees compliance with their Warranty & Returns Policy, mitigating any risk of non-compliance.

Are There Any Free Delivery Options for Emergency Lighting Orders?

Yes, you can get free delivery on your orders. As a competitive Australian supplier, they offer free delivery for orders, ensuring you receive your items without additional shipping costs.

Make sure to check their specific terms and conditions for any minimum order requirements or exclusions. This policy aligns with their commitment to competitive pricing and high-quality service, enhancing your overall purchasing experience.

How Do I Contact Emergency Lighting Australia for Support?

To contact Emergency Lighting Australia for support, you can reach them through various communication channels. Their customer support team is available to address your concerns with technical accuracy, ensuring regulatory compliance.

You can call their helpline, send an email, or use the contact form on their website. They're dedicated to delivering diligent, dependable service, making sure all your issues are swiftly and satisfactorily solved.

Emergency Lighting

Imagine a scenario where a fire breaks out and the power goes out. Without reliable emergency lighting, chaos ensues.

By choosing high-quality solutions from Emergency Lighting Australia, you're ensuring compliance with AS2293 standards and safeguarding lives. Their robust products, coupled with competitive pricing and excellent support, make them a top choice.

Trust in their expertise and illuminate your pathways when it matters most, ensuring safety and regulatory compliance.


Browse our Emergency Lighting Categories Below:

Emergency Accessories

Emergency Battens

Emergency Floodlights

Emergency Oysters

Emergency Spitfires

Exit Signs

Self Test Emergency Exits