Our team of qualified fire protection professionals boasts over 15 years of combined experience. We specialize in designing, installing, and managing fire protection systems. Throughout the years, we’ve supported various projects by providing design services, equipment supply, materials, and project management in collaboration with our Australian partners.
Our core staff members are well-versed in fire system construction, having worked extensively in the construction industry in Papua New Guinea.
Installation
Fire Alarm Systems: Design, layout, and integration with building systems.
Fire Suppression Systems: Installation of sprinklers, extinguishers, and specialized systems like kitchen or gas suppression.
Emergency Lighting & Exit Signs: Ensuring clear pathways for evacuation.
Fire Doors: Installation of fire-rated doors and maintenance of proper seals.
Servicing
Routine Inspections: Checking alarms, detectors, and fire suppression systems for proper function.
Testing & Calibration: Ensuring all devices are correctly calibrated and in working order.
Battery Replacements: Regular updates to backup power systems.
Repairs & Upgrades: Immediate repairs for faulty systems and upgrades to meet new standards.
Emergency Warning & Intercommunication System Panel (EWIS) features:
Centralized Control: A main panel to manage communication and alerts across the building.
Two-Way Communication: Allows direct communication between staff and control rooms.
Audio & Visual Alerts: Clear voice messages and visual signals to guide occupants.
Evacuation Assistance: Provides instructions and guidance for safe evacuation.
Fault Detection: Monitors system functionality and alerts for faults or malfunctions.
Customization: Supports multiple zones and custom emergency messages.
Compliance: Meets local fire safety codes and accessibility standards.
User-Friendly Interface: Easy operation with manual override options.
Remote Monitoring: Enables remote access for control and troubleshooting.
Key Features of Addressable Fire Indicator Panel (FIP)
Individual Device Identification: Each fire detection device (smoke detectors, heat detectors, etc.) is assigned a unique address, allowing precise identification of the exact location of a fire or fault.
Real-Time Monitoring: Continuously monitors all connected devices for faults or activation, providing instant feedback on the system’s status.
Advanced Detection & Control: Capable of detecting and isolating issues to specific areas, reducing the likelihood of false alarms and providing faster, targeted responses.
User-Friendly Interface: Equipped with a display screen showing device status, fault conditions, and alarm zones, often with a simple and intuitive touch interface.
Alarm History & Event Logging: Stores and displays a log of past alarms, system faults, and events for review and compliance.
Customizable Zones: Can be divided into multiple zones for better location-specific control and alerting, making it easy to pinpoint trouble areas.
Fault Detection: Provides instant notifications of system faults (e.g., wiring issues or device malfunctions) for quicker troubleshooting and maintenance.
Integration with Other Systems: Easily integrates with other safety systems like emergency lighting, HVAC systems, or fire suppression systems for a coordinated response.
Remote Access: Allows for remote monitoring and control, enabling management from a distant location or during off-hours.
Compliance: Meets relevant fire safety standards and local regulations for both residential and commercial buildings.
Key Features of Addressable Thermal Detector
Addressable Technology: Each detector has a unique address, allowing precise identification of the device's location within a building’s fire alarm system.
Temperature Sensitivity: Detects significant changes in temperature (either a fixed threshold or rate-of-rise), signaling potential fire hazards.
Improved Accuracy: Reduces false alarms by differentiating between normal temperature fluctuations and actual fire conditions.
Two Types of Detection:
Fixed Temperature: Activates when a preset temperature threshold is reached (e.g., 57°C).
Rate-of-Rise: Activates when the temperature increases rapidly within a short period (e.g., 5°C in a minute).
Fast Response: Provides quick detection of fires, especially in areas where smoke detectors may be less effective (e.g., kitchens or industrial spaces).
Integration with Fire Alarm Systems: Works seamlessly with addressable fire alarm panels to pinpoint the exact location of the fire.
Maintenance and Diagnostics: Provides detailed diagnostic information, making maintenance and troubleshooting easier and faster.
Adjustable Sensitivity: Can be calibrated to different sensitivity levels, depending on the environment and potential fire risks.
Durability: Designed for use in a wide range of environments, including areas with high humidity, dust, or temperature fluctuations.
Key Features of Addressable Photo Optical Smoke Detector
Addressable Technology: Each detector has a unique address, allowing precise location identification within the fire alarm system.
Photoelectric Sensing: Uses a light source and a photoelectric sensor to detect smoke. When smoke particles scatter the light, the sensor detects the change and triggers the alarm.
Enhanced Sensitivity: Particularly effective at detecting slow, smoldering fires that produce a lot of smoke before flames appear.
Reduced False Alarms: Less prone to false alarms caused by dust or steam compared to traditional ionization detectors, making it ideal for sensitive areas like offices, hospitals, or kitchens.
Quick Response: Provides fast detection of smoke, enabling early fire detection and response.
Dual Detection Features: Often combines smoke detection with other features, such as heat sensors, to improve overall accuracy.
Maintenance Diagnostics: Provides information about system health, including dirt accumulation or malfunction, simplifying maintenance.
Environmental Adaptability: Well-suited for environments with stable temperature and humidity where smoke detection is needed without interference.
Integrated with Fire Alarm Systems: Works seamlessly with addressable fire alarm panels, which allows real-time monitoring and pinpointing of alarm locations.
Adjustable Sensitivity: Sensitivity levels can be adjusted based on the specific requirements of the environment.
Key Features of Addressable Manual Call Point (MCP)
Addressable Technology: Each MCP is uniquely identified within the fire alarm system, allowing for precise location tracking and event logging.
Manual Activation: Enables individuals to activate the fire alarm by pressing the call point in an emergency.
Clear Activation Indicator: Typically has a visible indicator (e.g., a broken glass or red button) that shows the device has been triggered.
Durable Design: Built to withstand physical impact and tampering, ensuring reliability in emergency situations.
Remote Monitoring: Integrated into the addressable fire alarm system for remote monitoring of activation events and fault conditions.
Reset Function: After activation, MCPs can often be reset remotely, restoring the system for future use.
Tamper-Proof: Many MCPs feature a tamper-resistant cover or alarm to prevent false activations.
Easy Accessibility: Positioned at accessible locations, typically near exits or high-traffic areas, to ensure building occupants can easily activate the alarm.
Integration with Other Systems: Can be linked with other fire safety systems (e.g., sprinklers, alarms) to trigger automatic responses upon activation.
Key Features of Addressable Duct Sampling Unit
Addressable Technology: Each duct sampling unit has a unique address, enabling precise identification within the fire alarm system for quick location tracking.
Air Sampling Detection: Continuously samples the air within the ductwork, detecting the presence of smoke or other fire-related particles early.
Early Detection: Ideal for detecting fires in areas that are difficult to reach, like large ducts, ventilation systems, or confined spaces, before smoke spreads through the building.
Multiple Sampling Points: Can have multiple sampling points throughout the duct system for more comprehensive detection.
Low Maintenance: Designed for easy maintenance, often equipped with diagnostic features to notify of faults like blockages or airflow issues.
Sensitive Detection: Detects low concentrations of smoke, providing early warnings even for smoldering fires that may not produce much visible smoke.
Integration with Fire Alarm Systems: Connects seamlessly with addressable fire alarm panels, offering real-time alerts and precise location tracking for system monitoring.
Adjustable Sensitivity: Sensitivity levels can be adjusted to suit the specific requirements of the duct system and the environment.
Alarm and Fault Reporting: Provides alarm notifications if smoke is detected or if there's a system fault, such as an obstruction in the duct or low airflow.
Environmental Protection: Suitable for use in harsh environments, including commercial kitchens, industrial areas, and other locations where traditional smoke detectors may not be effective.
Key Features of One Shot Ceiling Speakers
Fire Alarm Integration: Connected to fire alarm systems, these speakers automatically activate to broadcast emergency messages when an alarm is triggered.
Clear Audio Communication: Provides loud, clear voice announcements for evacuations, instructions, or emergency information, ensuring that occupants can hear important messages throughout the building.
Ceiling-Mounted Design: Installed on ceilings for optimal sound distribution, ensuring even coverage across the room or area.
One-Time Activation: Typically designed for a single, immediate use in emergency situations, delivering vital instructions only when needed.
Durable & Fire-Resistant: Built to withstand high temperatures and other harsh conditions, making them suitable for use in emergency environments.
High Sound Quality: Features high-quality sound for clear voice reproduction, ensuring that messages are easily understood in large or noisy areas.
Compliance with Fire Safety Standards: Designed to meet local fire safety codes and standards (e.g., NFPA, EN 54) for use in public and commercial buildings.
Tamper-Proof: Some models feature tamper-resistant covers or mechanisms to prevent unauthorized access or tampering.
Ease of Installation: Designed for simple installation in ceilings, integrating seamlessly with existing fire alarm systems.
Key Features of Horn Speakers
Loud & Clear Sound: Designed to deliver high-decibel sound to ensure that alerts and announcements can be heard over long distances or through noisy environments.
Durability: Built to withstand harsh weather conditions, making them ideal for both indoor and outdoor use in emergency situations.
Wide Coverage Area: Capable of covering large areas, such as warehouses, factories, or outdoor spaces, ensuring that everyone can hear the message.
Fire Alarm Integration: Often integrated into fire alarm systems to broadcast evacuation instructions, fire alerts, or other emergency communications.
Directional Sound: The horn design directs sound in specific directions, making it effective in large open spaces or areas with multiple entry points.
Weatherproof and Waterproof Options: Many horn speakers are weather-resistant, allowing them to be used in outdoor environments or areas exposed to moisture, dust, or dirt.
Robust & Impact-Resistant: Built to withstand physical damage, making them reliable in industrial environments.
Energy Efficient: Some models are designed to be power-efficient, providing long-lasting operation during emergencies.
Ease of Installation: Mounting hardware makes it simple to install on walls, poles, or ceilings.
Compliance with Standards: Meets relevant fire safety and public address standards (e.g., NFPA, EN 54) to ensure effectiveness in emergency situations.
Key Features of Single Input/Output (I/O)
Simple Functionality: These devices are designed to handle one input (e.g., a sensor signal, manual activation) and one output (e.g., activating a siren, turning on a light).
Input Types: The input could be a signal from a smoke detector, manual call point, or temperature sensor.
Output Types: The output could trigger an alarm, activate a relay, or control a device (e.g., activating emergency lighting, or notifying a monitoring system).
Versatility: Often used to interface various systems, allowing a wide range of responses to different types of triggers (e.g., switching on emergency power systems or activating ventilation systems).
Integration with Fire Alarm Systems: Can be integrated into larger fire alarm systems for triggering or controlling alarm signals, notifications, or other systems in response to certain conditions.
Simple Setup: Typically easy to install and configure in control panels or distributed systems for basic automation tasks.
Manual or Automatic Activation: Can be manually triggered (e.g., by a person pressing a button) or automatically activated (e.g., by a smoke detector).
Fail-Safe Operation: Some models include fail-safe features, ensuring that the output action occurs even in the event of system failures.
Key Features of Three Input/Output (I/O) Devices
Multiple Inputs: Can receive signals from up to three different sources, such as sensors, manual call points, or other monitoring devices (e.g., smoke detectors, heat sensors, or door status indicators).
Multiple Outputs: Can trigger up to three separate outputs in response to the inputs, such as activating alarms, control relays, emergency lighting, or ventilation systems.
Increased Flexibility: Offers more complex functionality compared to single I/O devices, allowing for more dynamic control actions or responses in safety and automation systems.
Integration with Fire Alarm Systems: Used in fire alarm systems to trigger specific actions when multiple conditions are met, such as activating an alarm and also controlling HVAC or closing fire doors.
Simultaneous Actions: Can perform multiple actions at once, such as turning on a fire alarm, notifying a monitoring system, and activating emergency lights or ventilation.
Programmable Logic: Often used in programmable or automated control systems where the actions depend on combinations of inputs (e.g., activating certain alarms based on multiple fire detection sources).
Fail-Safe Functionality: Some devices include fail-safe features, ensuring that all outputs are triggered in case of system failure, such as the activation of an emergency exit system or backup power.
Applications in Complex Systems: Ideal for more complex environments where multiple sensors or triggers are needed to ensure proper response (e.g., commercial buildings, industrial settings, or large facilities).